CN108329372B - N 6 Application of- (2-hydroxyethyl) adenosine and derivatives thereof in preparation of medicines for treating gout - Google Patents

N 6 Application of- (2-hydroxyethyl) adenosine and derivatives thereof in preparation of medicines for treating gout Download PDF

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CN108329372B
CN108329372B CN201710040992.4A CN201710040992A CN108329372B CN 108329372 B CN108329372 B CN 108329372B CN 201710040992 A CN201710040992 A CN 201710040992A CN 108329372 B CN108329372 B CN 108329372B
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adenosine
hydroxyethyl
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柴一秋
朱伟坚
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ZHEJIANG SUBTROPICAL CROPS RESEARCH INSTITUTE
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Abstract

The present invention provides N 6 Use of (2-hydroxyethyl) adenosine for the treatment of gout conditions. Cordyceps extract N 6 - (2-hydroxyethyl) adenosine has a good analgesic effect by activating adenosine a1 receptor. By administering gout rats N 6 - (2-hydroxyethyl) with 932 genes differentially expressed in the synovial membrane of the joints, 57 being pain-related genes and 12 being pain-relief-related genes. N is a radical of hydrogen 6 - (2-hydroxyethyl) adenosine obviously reduces the swelling degree of joints, the levels of interleukin 1 beta (IL-1 beta) and tumor necrosis factor alpha (TNF-alpha) in serum and joint cleaning solution, reduces the levels of NLRP3 inflammatory corpuscle and caspase 1(caspase-1), promotes autophagy and p62 degradation, and plays a role in resisting inflammation and easing pain. Can be used for relieving pain and inflammation caused by gout.

Description

N 6 Application of- (2-hydroxyethyl) adenosine and derivatives thereof in preparation of medicines for treating gout
Technical Field
The invention relates to the technical field of medicines, and belongs to application of an active substance extracted from cordyceps fungi (or artificially synthesized) to anti-inflammation and analgesia in gout diseases.
Background
Gout is a metabolic disease caused by the fact that the blood uric acid concentration is continuously increased to cause urate crystals to deposit on soft tissues. Gout is developed in an acute stage with red swelling and hot pain, which is more than that developed in the middle of the night, the pain can cause a person to wake up from sleep, the affected joints are more like metatarsophalangeal joints or thumbs, single arthritis usually occurs in the early stage of the development, local hyperalgesia and limited activity occur after hours, and disability can be caused in the later stage. The incidence rate of the traditional Chinese medicine is increased by 1-2% year by year and is low in age (So 2008), and huge burden is caused to the life of people. Colchicine and nonsteroidal anti-inflammatory drugs are commonly used for treating acute gout attack in clinic, but the use is limited due to side effects such as renal insufficiency, gastrointestinal bleeding and heart failure (Neogi 2011).
The concentration of natriuretic sodium continues to be higher than its solubility in blood to precipitate and deposit on the distal extremity such as the metatarsophalangeal, finger, etc., where blood flow is low or local temperature is low, stimulating local synovial cells, macrophages and neutrophils to produce a series of inflammatory factors such as tumor necrosis factor alpha (TNF- α), interleukin 1 β (IL-1 β), interleukin 6(IL-6) and interleukin 8(IL-8), thereby augmenting the inflammatory response and disrupting local cellular homeostasis.
Cellular homeostasis is regulated by autophagy, an evolutionarily highly conserved process. Autophagy can be induced by a variety of conditions, such as stress on organelles or antigen infection, among others. Autophagy can find and clear the body's own misfolded proteins and damaged or dysfunctional organelles to control the cell in a relatively stable state. There is evidence that autophagy is associated with a variety of human diseases, such as tumors, diabetes, neurodegenerative diseases, and osteoarthritis. In addition, autophagy has been reported to be associated with gout, and after treatment of neutrophils with synovial fluid or sodium urate crystals from gout patients in acute episodes, the cells produce neutrophil extracellular traps in an autophagy-dependent manner, which are associated with inhibition of inflammation.
p62, a multifunctional ubiquitin-binding protein, is involved in the degradation of two proteins, the ubiquitin-proteasome system and the autophagy-lysosome system. Mediates a variety of cellular functions, and in particular plays an important role in selective autophagy and cellular antioxidant responses of cells, and thus p62 is intimately involved in the pathogenesis of many diseases, including metabolic syndrome, neurodegenerative diseases, muscle diseases, and gout.
Cordyceps cicadae Ophiocerceps sobolifera G.H.Sung, which has been used as a traditional Chinese medicine in China for 1600 years. The pharmacological activity of the compound for treating chronic blepharitis and acute conjunctivitis, which is recorded in Taiping Huimin and He Ji Ju Fang, of sedation and analgesia is also reported. N is a radical of hydrogen 6 - (2-hydroxyethyl) adenosine (HEA) is an active compound separated from cordyceps cicadae, and although the anti-inflammatory and analgesic effects are reported, the anti-inflammatory and analgesic effects are not reported in the field of gout treatment.
Disclosure of Invention
Adenosine receptors are a class of G protein-coupled receptors, and are divided into four subtypes, a1, A2A, A2B, and A3. The present group found that the adenosine A1 receptor (A1R) and adenosine A2A receptor (A2AR) are closely related to the transmission and modulation of pain information, encoded by Adora1 and Adora2a genes, respectively. A large number of experiments prove that the activated adenosine A1 receptor plays an analgesic role in postoperative pain, inflammatory pain, arthralgia and neuropathic pain.
The transcriptome sequencing adopted by the invention is a high-throughput gene expression analysis method, and can comprehensively understand the gene expression change in the disease occurrence process and the treatment process by analyzing the difference among the gene expressions of a normal sample, a modeling sample (disease state) and a drug administration sample (treatment state), screen potential pathogenic genes or drug treatment targets, and provide a direction for new drug research and development and disease monitoring.
In one aspect, the invention provides the use of N6- (2-hydroxyethyl) adenosine as an anti-inflammatory analgesic in the treatment of gout.
In another aspect, N6- (2-hydroxyethyl) adenosine is used for anti-inflammatory and analgesic use in the treatment of acute gout.
In some embodiments, the anti-inflammatory use comprises use to reduce tumor necrosis factor alpha and interleukin beta.
In some embodiments, wherein the anti-inflammatory use comprises use in a formulation that reduces the level of swelling in joints.
In some embodiments, wherein said anti-inflammatory use comprises use in a formulation for reducing the level of expression of inflammasome.
In some embodiments, wherein the analgesic use comprises use of up-regulating adenosine a1 receptor, adenosine A2A receptor mRNA expression, up-regulating adenosine a1 receptor protein expression, or reducing adenosine A2A receptor protein expression.
In another aspect, the invention provides the use of N6- (2-hydroxyethyl) adenosine in the preparation of a formulation for promoting autophagy levels in the treatment of gout.
Use of N6- (2-hydroxyethyl) adenosine in the manufacture of a formulation for promoting degradation of p62 in the treatment of gout.
In some embodiments, the use to promote levels of autophagy comprises use to upregulate the expression of adenosine a1 receptor.
In some modes, cordyceps mycelia, sporophores and spores containing N6- (2-hydroxyethyl) adenosine are directly or indirectly separated from cordyceps mycelia, sporophores and spores containing N6- (2-hydroxyethyl) adenosine or artificially synthesized, wherein the cordyceps mycelia, sporophores and spores containing N6- (2-hydroxyethyl) adenosine are directly used.
In another aspect, the invention relates to a formulation for reducing the levels of tumor necrosis factor alpha and interleukin beta for use in the treatment of gout or acute gout, wherein the formulation comprises N6- (2-hydroxyethyl) adenosine.
In some embodiments, a formulation for reducing the level of swelling in joints in the treatment of gout or acute gout, wherein the formulation comprises N6- (2-hydroxyethyl) adenosine.
In some embodiments, a formulation for reducing inflammatory body expression levels for use in treating gout or acute gout, wherein the formulation comprises N6- (2-hydroxyethyl) adenosine.
In some forms, a formulation for up-regulating adenosine a1 receptor expression levels in the treatment of gout or acute gout, wherein the formulation comprises N6- (2-hydroxyethyl) adenosine.
In some embodiments, the formulation may or may not include other active ingredients.
In some embodiments, the composition further comprises a pharmaceutically acceptable excipient.
In a further aspect, the invention provides the use of N6- (2-hydroxyethyl) adenosine in the preparation of a gout drug.
In all of the foregoing embodiments, N6- (2-hydroxyethyl) adenosine has the structural formula shown in formula I:
Figure BDA0001214653870000031
in another aspect, the invention provides a therapeutic or analgesic agent, wherein the agent comprises N6- (2-hydroxyethyl) adenosine.
In any of the foregoing modes, wherein the N6- (2-hydroxyethyl) adenosine is operated by the regulatory gene sequences SEQ ID No.1 to SEQ ID No. 59. The effect is analgesia.
In some embodiments, wherein the N6- (2-hydroxyethyl) adenosine is acted upon by the regulatory gene sequences SEQ ID No.48 to SEQ ID No. 59. The effect is analgesic.
In other aspects, the invention provides a gene sequence involved in HEA regulation, the gene sequence comprising a sequence according to any one of SEQ ID No.1 to SEQ ID No.59, the expression of which is associated with pain.
In other aspects, the invention provides a gene sequence involved in HEA regulation, the gene sequence comprising a sequence selected from one of SEQ ID No.48 to SEQ ID No.59, the expression of which is associated with pain.
In other embodiments, the genes are one or more sequences comprising c1qb (SEQ ID No. 48); c1qc (SEQ ID No. 49); timp1(SEQ ID No. 50); lum (SEQ ID No. 51); csrp3(SEQ ID No. 52); stmn4(SEQ ID No. 53); uchl1(SEQ ID No. 54); ctsk (SEQ ID No. 55); lxn (SEQ ID No. 56; Nsf (SEQ ID No. 57); Adora1(SEQ ID No. 58); Adora2a (SEQ ID No. 59).
In some embodiments, the N6- (2-hydroxyethyl) adenosine of the present invention can be isolated from Cordyceps fungus producing N6- (2-hydroxyethyl) adenosine, such as Cordyceps sobolifera (o. sobolifera), Cordyceps militaris (cordyces militaris), Cordyceps sinensis (cordyces pruinosa), Cordyceps sinensis (ophiocordyces sinensis), and the like. N6- (2-hydroxyethyl) adenosine can be obtained by culturing the above Cordyceps fungi such as Paecilomyces cicadae, and can be isolated from fruiting body, mycelium, spore, and mycelium culture medium. N6- (2-hydroxyethyl) adenosine can also be obtained from artificial chemical synthesis, and can also be directly purchased through commercial products.
This function could be demonstrated in rats and this novel use of N6- (2-hydroxyethyl) adenosine could also be used in humans or mammals for the treatment of gout. Therefore, the invention provides a preparation for treating gout, wherein the preparation comprises N6- (2-hydroxyethyl) adenosine.
The invention discloses the anti-inflammatory analgesic action and mechanism of cordyceps sobolifera active ingredient N6- (2-hydroxyethyl) adenosine (HEA) by adopting a sodium urate (MSU) crystal ankle joint injection rat gout model, and provides a theoretical basis for the application and development of the anti-inflammatory analgesic action of cordyceps sobolifera and other cordyceps containing the cordyceps sobolifera.
HEA is reported to have anti-inflammatory effects, but its anti-inflammatory effects have not been reported on gout models. The invention adopts a rat gout model induced by sodium urate to explain the anti-inflammatory mechanism of HEA.
The abdominal injection of HEA (5,7.5,10mg/Kg) can obviously relieve gout ankle swelling induced by the MSU of rats. The inflammatory swelling method is the most common acute non-specific inflammation model in anti-inflammatory drug experiments, and is an intuitive, simple and easy-to-operate inflammatory indicator.
Enzyme-linked immunosorbent assay is used for finding that the intraperitoneal injection of HEA can reduce the levels of TNF-alpha and IL-1 beta in rat blood and joint cleaning solution, wherein the HEA (7.5mg/Kg) has the most obvious effect and the best significance, so that the concentration is used for the next experiment. IL-1 beta is a key inflammatory factor for gout attack, and IL-1 beta knockout mice can completely resist MSU-induced gout attacks. TNF- α is a pro-inflammatory cytokine produced primarily by macrophages and monocytes and is involved in normal inflammatory and immune responses. TNF-alpha and IL-1 beta levels are important basal indicators indicating the degree of inflammation.
Protein expression levels of cysteine aspartate specific protein binding enzyme 1(Caspase-1), NLRP3 inflammasome, p62 and LC3II in synovial membranes of rat joints are detected by a Western Blot method. Caspase-1 is activated by binding to the inflammasome, processing the inflammatory factors such as IL-1 β precursor to mature and release, playing a central role in the regulation of inflammatory responses. The inflammasome is capable of regulating the activation of caspase-1 (caspase-1) and thus promoting the cleavage maturation of the cytokine precursors pro-IL-1 β and pro-IL-18 during the course of the innate immune defense. It also regulates caspase-1 dependent form apoptosis, inducing cell death under inflammatory and stress pathological conditions. LC3II is an indicator protein for the number of autophagosomes. Intraperitoneal injection of HEA (7.5mg/Kg) reduced the level of NLRP3, Caspase-1, LC3II, and p62 in the synovium. A decrease in LC3II levels means a decrease in the number of autophagosomes, and a decrease in the number of autophagosomes means a decrease in the production of autophagosomes due to a decrease in autophagy levels or an increase in degradation of autophagosomes due to an increase in autophagy levels. The p62 protein level decreased, while the transcript level was not different, indicating that HEA promoted degradation of p 62.
To explore the specific effect of HEA (7.5mg/Kg) on autophagy, chloroquine, which inhibits degradation of autophagosomes, was introduced in this study. The results indicate that HEA (7.5mg/Kg) can restore the MSU-induced suppressed status of autophagosomal degradation, thereby promoting autophagy flow. In conclusion, HEA has anti-inflammatory effect on gout model, and the action mechanism of HEA is related to the inhibition of TNF-alpha and IL-1 beta inflammatory factor level, NLRP3 inflammasome, promotion of autophagy flow and p62 degradation.
The cordyceps cicadae miq has a strong analgesic effect, and the invention adopts an activity tracking method to distribute and extract a substance from the cordyceps cicadae miq step by step and determine the pain inhibition rate of the substance on an acetic acid induced pain mouse model, and finally determines that the active substance of the cordyceps cicadae miq is HEA, so that the cordyceps cicadae miq has a strong analgesic effect, and the pain inhibition rate reaches 99%.
In order to fully reveal the analgesic mechanism of HEA, the present study observed the transcriptome effect of HEA on the synovial membrane of ankle joint of gout model rat, and the results showed that, after applying HEA (7.5mg/Kg) by intraperitoneal injection, 932 genes were differentially expressed compared to the model group, and combined with the online pain gene database, 57 differential genes involved in pain regulation were obtained, and then combined with literature reports, 12 analgesic genes were finally obtained, which were related to the effect of HEA, including down-regulated complement component 1q subcomponent b (c1qb), complement component 1q subcomponent c (c1qc), metalloproteinase tissue inhibitor 1(Timp1), luminal protein (Lum), cysteine and glycine-rich protein 3(Csrp3), Stahmin-like protein 4(Stmn4), ubiquitin carboxy-terminal hydrolase L1(Uchl1), cathepsin K (CtsK), latex (Lxn), and up-regulated Nsff molecule (N-protein), nsf), adenosine A1 receptor (A1R, Adora1), and adenosine A2A receptor (A2AR, Adora2 a).
The adenosine A1 receptor (A1R) and adenosine A2A receptor (A2AR) are intimately involved in the information transfer and regulation of pain. The protein expression of A1R and A2AR was detected by Western Blot, and the results showed that A1R and A2AR in the model group were higher than those in the blank control group. Compared with the blank group, the HEA (7.5mg/Kg) administration group has obviously increased A1R (P <0.01) and obviously decreased A2AR (P < 0.01); compared with the model group, A1R is also increased (P <0.05), and A2AR is obviously decreased (P < 0.01). After DPCPX (2mg/Kg) and HEA (7.5mg/Kg) are applied simultaneously, the A1R protein expression is obviously reduced, and no statistical difference is generated compared with blank and model groups. In conclusion, the analgesic mechanism of HEA is related to agonizing A1R, down-regulating A2AR and regulating a series of pain genes.
Drawings
FIG. 1 shows the joint swelling rates of the model group, different concentrations of HEA (5,7.5,10mg/Kg), colchicine (Col) group, and normal group at each time point after the model creation of rats.
FIG. 2 shows the TNF-. alpha.and IL-1. beta.levels in blood of the model group, the different concentrations of HEA group (5,7.5,10mg/Kg), the colchicine group (Col), and the normal group at each time point after rat molding.
FIG. 3 shows TNF-. alpha.and IL-1. beta. levels in joint wash of model group, different concentrations of HEA group (5,7.5,10mg/Kg), colchicine group (Col), and normal group at various time points after rat molding.
FIG. 4 shows the protein expression levels of Caspase-1, NLRP3 inflammasome, p62, LC3II in synovial membrane of rat joints (3-MA is autophagy blocker).
FIG. 5 shows the expression of LC3II protein in the normal group, model group, HEA administration group, and three groups of chloroquine group.
FIG. 6 shows the pain suppression rates of the stepwise extracted substances CYD, CYDd-2A (HEA).
FIG. 7 shows up-regulated gene portions of 57 genes involved in pain regulation and expression profiles thereof (the larger the value, the more the gene expression).
FIG. 8 is a down-regulation portion of a graph of 57 genes involved in pain regulation and their expression levels (the larger the number, the more gene expression).
FIG. 9 is a diagram of the expression of A1R and A2AR receptors in synovial membrane of rat ankle joint. Comparison with model group, # comparison with blank group (DPCPX is a selective antagonist of A1R).
FIG. 10 shows the pain inhibition rate of HEA and its derivatives B-H. A is HEA, B-H is HEA derivative, and the specific structure formula is shown in example 3
FIG. 11: structure of different derivatives of HEA.
Detailed Description
The embodiments of the present invention are only direct indications of the novel functions of the compounds mentioned in the present invention as one embodiment of the present invention, but are not intended to limit the present invention.
Materials used in the practice of the invention
Experimental animals Male SD rats, 180-220g, purchased from animal Experimental center of Wenzhou medical school. The quality certification serial number of the experimental animal is as follows: SCXK (Zhe) 2010-0150. The Kunming white mouse, male and female account for 50% respectively, has a weight of 18-22g, and is provided by Shanghai pharmaceutical research institute of Chinese academy of sciences. Rats and mice were acclimatized for at least 7 days in a standard breeding environment (12h light dark cycle; temperature 22 + -2 deg.C; relative humidity, 50% + -5%) and were given free access to standard feed and drinking water, with only one experiment per mouse.
Drugs and Agents Cordyceps cicadae was supplied by the institute for subtropical crops in Zhejiang province as sodium urate crystals (MSU), the selective A1R antagonist DPCPX (8-cyclopentyl-1,3-dipropylxanthine, 8-cyclopent-1, 3-dipropylxanthine), Chloroquine (CQ), Colchicine (Colchicine, Col), available from sigma. MSU was carefully ground and sterilized, formulated with sterile PBS to the desired concentration, shaken vigorously before use; dimethyl sulfoxide (DMSO) was purchased from Amresco; dissolving HEA with a small amount of DMSO, and dissolving with normal saline to obtain the desired concentration; saline (DMSO less than 1%) as solvent control; trizol kit was purchased from life technologies, USA; A1R antibody (ab82477), A2AR (ab 1699756) antibody, LC3(ab48394), p62(ab56416), Caspase-1(ab108362) were purchased from Abcam, and NLRP3 antibody was purchased from Novus.
The statistical method comprises the following steps: each group of data is expressed by mean ± standard error. Statistical analysis is carried out by adopting SPSSl6.0 software, single-factor variance analysis which is completely randomly designed is adopted for comparison among a plurality of sample averages, and Bonferroni test is adopted for pairwise comparison among a plurality of averages.
Example 1 of implementation: preparation of a test sample HEA.
Pulverizing cultured Cordyceps cicadae (Paecilomyces cicadae by solid fermentation or liquid fermentation) into 200 mesh granules (525 g), extracting with 40% and 90% acetic acid for 2 times and 1 time respectively, mixing filtrates, and distributing with dichloromethane (CH2Cl2), Ethyl Acetate (Ethyl Acetate) and n-butanol (n-Butyl Alcohol) to obtain water phase portion CYD. Removing polysaccharide to obtain CYDd, and eluting with CDA-40 type macroporous resin 50% ethanol to obtain CYDd-2. Finally, the CYDd-2A is obtained by Sephedex LH-20 methanol purification, the structure is identified as HEA, and the purity is 98.62%. Example 2 of implementation: the active substance for easing pain of cordyceps cicadae by a twisting method is screened.
The Kunming mice were divided into five groups, which were the solvent control group, CYD group, CYDd-2 group, and CYDd-2A (HEA) group (each component in the extraction process in example 1). The solvent control group is injected with normal saline in the abdominal cavity, the other groups are respectively injected with CYD (crude drug 5g/Kg), CYDd-2 (crude drug 5g/Kg) and CYDd-2A (HEA, crude drug 5g/Kg) in the abdominal cavity, 0.7% acetic acid is injected after 30min of injection, the times of writhing of the white mouse within 10min are recorded, and the inhibition rate of the writhing reaction of pain generated by the 0.7% acetic acid is calculated.
As a result: cordyceps cicadae and analgesic effect of cordyceps cicadae extract
CYD, CYDd-2, and HEA significantly inhibited the writhing of mice after being administered to the abdominal cavity for 30min, and the analgesic inhibition rates were gradually increased to 95.25%, 97.81%, 98.20%, and 99.00%, respectively, which were very significantly different from the control group (see fig. 6, p < 0.01). Therefore, the analgesic active molecule in the cordyceps sobolifera extract is HEA, which further proves that the mixtures obtained from different processes in the cordyceps sobolifera extract can obviously inhibit the mouse writhing, although the different degrees play a role in inhibiting, which is probably the difference of the purity of HEA in different processes and the different effects. However, the only effective substance after final purification was HEA, thus demonstrating that the substance effective in significantly inhibiting the occurrence of mouse writhing was HEA, not other substances in the mixed substance. Of course, HEA can be extracted from cicada fungus and other fungi, and obviously, HEA can also be directly purchased in commerce.
EXAMPLE 3 analgesia of HEA derivatives
HEA is used as a lead, structural modification is carried out on the HEA to obtain a series of derivatives, and a derivative B-H is obtained through analgesic activity screening, wherein the general formula of the compound A, B, C, D, E is shown in formula II, the structural formulas of A-D are respectively R1, CH2CH2OH, CH2CH2CH2OH, C (CH3)2CH2OH and CH (CH3) CH2OH, R2 is H, wherein the compound E, R1, CH (CH3) CH2OH and R2 are NH 2. Wherein the compound A is N6- (2-hydroxyethyl) adenosine (HEA), the general formula of the compound F, G, H is shown in formula III, and R in the structural formula is CH3O, OH and H respectively.
Dividing Kunming mice into ten groups, namely a solvent control group, a morphine hydrochloride group (10mg/Kg), an A (HEA) group, a B group, a C group, a D group, an E group, an F group, a G group and an H group. The solvent control group was intraperitoneally injected with physiological saline, the other groups were intraperitoneally injected with A, B, C, D, E, F, G, H (1mg/Kg), respectively, and after 30min of injection, 0.7% acetic acid was injected, and the number of writhing of mice within 10min was recorded, and the inhibition rate of the writhing reaction to pain generated by 0.7% acetic acid was calculated.
As a result: analgesic effect of HEA and its derivatives
A-H can obviously inhibit the mouse writhing after being administrated in an abdominal cavity for 30min, and is 75.79%, 78.14%, 82.03%, 83.70%, 80.42%, 93.84%, 90.19% and 88.33%, and has very obvious difference compared with a solvent control group (see figure 10, p is less than 0.01).
EXAMPLE 4 rat gout model and Experimental groups
Gout model group: gout modeling was performed by injecting 50 μ LMSU solution (20mg/mL) into the anesthetized rat right ankle joint, inserting a 6-gauge needle into the joint cavity from 45 ° orientation into the tibia on the dorsal side of the rat right ankle joint, with the contralateral bulge of the joint capsule as the standard of injection (Coderre & Wall 1988), to provide a gout model group.
Grouping: in the provided gout model group, 88 male SD rats with the weight of 180-220g are randomly divided into ten groups, wherein the ten groups are respectively (1) and a normal control group containing 1% DMSO physiological saline; (2) a gout model group; (3) 3 treatment groups of HEA (5,7.5,10mg/Kg) administration group; (4) colchicine administration group (Col, 3 mg/Kg); (5) the DPCPX (2mg/Kg) and the HEA (7.5mg/Kg) are combined to form a medicine group; (6), the group consisting of the drug combination of 3-meladenine (3-MA, 15mg/Kg) and HEA (7.5mg/Kg), (7), the chloroquine group of the normal control group, (8), the chloroquine group of the model group, (9), and the chloroquine group of the HEA (7.5mg/Kg) administration group (the treatment of 7.5mg/Kg was found to be the best, and this treatment was selected).
The experimental method comprises the following steps: treatment 5 of DPCPX, treatment 7-9 of chloroquine or treatment 6 of 3-MA intraperitoneal injection for 15min, then the corresponding treatment of HEA administration, and other combinations of simultaneous administration ( treatment 1,3, 4), wherein treatment 2 was given in equal amounts of 1% DMSO saline as a control. After each group of rats was administered in the abdominal cavity for 30min, the rats were anesthetized, and the right ankle joint of the normal control group was injected with 50. mu.L of sterile PBS solution, and the remaining groups were administered with the same amount of MSU solution. Among them, the experiment of the derivatives of B to H is identical to the experiment process of A (the specific data is omitted).
EXAMPLE 5 measurement of swelling degree of rat Joint (Experimental treatment of EXAMPLE 3)
The mark for the ankle joint of the rat is drawn into a circle before gout modeling, the circumference of the mark for the ankle joint of the rat is measured to be the initial joint circumference, the circumference is measured at the marked position after the gout modeling, and the joint swelling rate is calculated. Joint swelling rate ═ initial ankle circumference/initial ankle circumference of point to be measured 100.
As a result: HEA relieving ankle joint swelling degree of rats
As shown in fig. 1, the swelling degree of joint of the model group after molding is obviously increased (p <0.01) and lasts for the whole experimental period. After the positive control colchicine (Col) is applied, the swelling degree is obviously reduced, and the effect lasts from 4 hours to 24 hours. Compared with the model group, the three groups of treatment groups with different concentrations of HEA reduce the swelling degree of the joints to different degrees. Wherein, the experimental results of the derivatives of B-H are similar to those of A (the specific data are omitted).
Example 6-rat inflammatory factors TNF- α and IL-1 β assays (experimental treatment with example 3).
After molding for 12h, removing fur from the ankle joint of the rat, washing with 1mL of PBS containing EDTA (3mM) and heparin (25 units/mL), taking the whole blood of the rat, standing at room temperature for 1h, centrifuging at 3000rpm for 10min together with the washing solution, and taking the supernatant for storage at-20 ℃. TNF-alpha and IL-1 beta were assayed according to the protocol of the ELISA kit. HEA (7.5mg/Kg) was the most significant for the group administered, so this concentration was used in the following experiments. The experimental results are as follows: HEA reduces TNF-alpha and IL-1 beta levels in rat serum and joint wash
FIG. 2 shows the expression of TNF- α and IL-1 β in serum, which was significantly higher in the model group (p <0.05, p <0.01) than in the blank control group. Compared with the model group, HEA (5mg/Kg) can reduce the level of IL-1 beta (p <0.05), HEA (7.5mg/Kg) can obviously reduce the levels of TNF-alpha and IL-1 beta (p <0.05, p <0.01), and HEA (10mg/Kg) can reduce the levels of TNF-alpha and IL-1 beta (p < 0.05).
FIG. 3 shows the TNF-alpha and IL-1 beta expression in the joint wash, which was significantly higher (p <0.05, p <0.01) than the blank control group. Compared with the model group, HEA (7.5mg/Kg) obviously reduces the TNF-alpha and IL-1 beta levels (p <0.05), and HEA (10mg/Kg) reduces the TNF-alpha level (p < 0.05). Wherein, the experimental results of the derivatives of B-H are similar to those of A (the specific data are omitted).
The experimental results are as follows: effect of HEA on autophagy of arthritic rats in gout
The change in autophagy was demonstrated by comparing the difference in LC3II/LC3I values expressed by chloroquine in the normal, model and administered groups. If one treatment condition is not obviously different from the chloroquine group LC3II/LC3I of the treatment condition, the degradation of autophagy under the treatment condition is inhibited, otherwise, the degradation of autophagy under the treatment condition is normal
As shown in FIG. 5, in the blank control group, the LC3II/LC3I levels were significantly up-regulated (p <0.01) after chloroquine administration, indicating that autophagic degradation was normal in the blank group. The LC3II level was not different between the model group and the model group + chloroquine group, indicating that MSU modeling inhibited autophagic degradation. While the HEA treated group decreased LC3II/LC3I values, and the decreasing effect of HEA on model group LC3II was attenuated by chloroquine. These demonstrate that HEA restores autophagic degradation inhibition by MSU modelling, i.e. HEA promotes autophagy in a gout model. Wherein, the experimental results of the derivatives of B-H are similar to those of A (the specific data are omitted).
Example 7-rat A1R, A2AR, p62, LC3, NLRP3, Caspase-1 protein assays (experimental treatment in example 3).
The synovial membranes of each group were washed with PBS and then blotted dry. Approximately 50mg of synovial tissue was homogenized in RIPA lysate (RIPA lysine Buffer) and phenylmethylsulfonyl fluoride (PMSF) tissue lysate, centrifuged, and the supernatant was equilibrated after measuring the protein concentration by BCA method and incubated at 37 ℃ for 30 min. The resulting protein samples were electrophoresed on 10-12% SDS-PAGE gels and transferred to PVDF membranes, which were blocked for 2h in 5% skim milk and used as internal controls (3:8000) with tubulin at 4 ℃ overnight in antibodies A1R (1ug/mL) or A2AR (1:1000) or LC3(1:1000) or p62(1:1000) or caspase-1(1:1000) or NLRP3(1: 1000). After incubation with secondary antibody (1:7000), exposure was carried out.
The experimental results are as follows:
HEA's effect on caspase-1, LC3(LC3 antibody showed two LC3, one LC3II, the other LC3I, generally indicated by LC3II/LC3I values, collectively referred to as LC3), NLRP3, p62 expression.
As shown in figure 4, NLRP3(p <0.01), caspase-1(p <0.05), LC3II (p <0.01) and p62(p <0.01) all rise obviously in synovium of the rat after the model building. And HEA (7.5mg/Kg) injected intraperitoneally can obviously reverse the expression up-regulation (p is less than 0.01) of NLRP3, caspase-1, LC3II and p62 caused by MSU. The HEA can down-regulate the expression level of p62 protein, and the mRNA of p62 has no difference in the transcriptome result compared with that of a model group, which indicates that the HEA can promote the degradation of p62 and thus the expression level of p62 protein is reduced. Wherein, the experimental results of the derivatives of B-H are similar to those of A (the specific data are omitted).
Example 8: RNA extraction, library construction and RNA sequencing (experimental treatment with example 3).
After 12 hours of molding for each treatment in example 3, synovial membranes of right ankle joints of rats in the model group and the HEA administration group were taken and rapidly placed in liquid nitrogen for rapid freezing. Synovial membrane total RNA was extracted according to the instructions of Trizol kit (from the latter commercial vendor) and the sample reliability test was performed using a NanoDrop ND-1000 spectrophotometer and Agilent 2100 bioanalyzer. After mRNA was isolated using NEBNext Poly (A) mRNA magnetic isolation module, a cDNA Library was obtained by constructing transcriptome according to NEBNext Ultra RNA Library Prep Kit for Illumina and NEBNext1 Multiplex oligonucleotides for Illumina Kit, each of which was treated for 2 biological replicates. And finally, carrying out high-throughput transcriptome sequencing on the library by using an Illumina HiSeq 2500 sequencing platform.
The gene expression level was estimated by calculating the FPKM (fragments per kinase of exon per fragments mapped) value using the Cufflinks software. Comparing the log values of the ratios of the gene expression levels of the samples treated differently, selecting the log 2 The absolute value of the ratio is 1 or more, and the difference gene is selected by a False Discovery Rate (FDR) of less than 0.05. The genes were aligned to different protein databases by BLASTX, including Nr, Swiss-Prot, of NCBI, with an E value of 10 -5 Is the screening threshold. The function of the differential genes is predicted, classified or annotated by Gene Ontology (GO) and Clusters of Organizational Group (COG) databases, and the difference table is classified or annotated by KEGG databaseAnd performing pathway annotation analysis on the gene expression.
Screening of genes involved in pain modulation in differential genes
The pain database was assembled by reference to the previous method (Ultsch et al.2016) and aligned to 932 difference genes. The Pain related gene Database mainly comprises 531 Genes which are a Pain gene Database (the Pain Genes Database, http:// www.jbldesign.com/jmogil/enter. html), related Genes of human Pain genetic diseases, Genes which appear at least three times in a document of chronic Pain gene screening and Genes of targets of analgesic clinical trials. The 531 genes are all genes which are changed when pain occurs, and a pain gene database is compared with 932 difference genes regulated and controlled by HEA, and the total part is the pain gene regulated and controlled by HEA.
Screening of cordyceps sobolifera analgesic compound analgesic gene
Reference is made to the pain gene bank of LaCroix-Fralish et al (2011). The document summarizes data of 20 mouse pain gene chips from 2002-. All the genes in the gene bank are up-regulated or down-regulated when pain occurs, so that the HEA can express the analgesic effect by reversing the regulation direction of the genes. Pain genes obtained by screening 531 pain genes are compared with the pain gene library and are combined with related documents (Sawynomk 2016; Ferre et al 2007; Cheng et al 2016; Frost et al 2016; Jin et al 2006; Katano et al 2008), and genes with the HEA regulation direction opposite to that shown in the gene library are selected as analgesic genes.
The experimental results are as follows:
HEA regulated pain genes
This transcriptome data has been uploaded at the National Center for Biotechnology Information (NCBI) under the accession number SRP 094913. There are 57 pain genes associated with HEA and its derivatives, as shown in figures 7 and 8, including the table genes below. Wherein, the experimental results of the derivatives of B-H are similar to those of A (the specific data are omitted).
Table 1; HEA-associated pain genes
Figure BDA0001214653870000141
Note: when a comparison of the signatures of the previously discovered pain genes with those associated with expression of HEA and its derivatives was made, 57 pain genes were found associated with HEA and its derivatives, the Csrp3(SEQ ID No.52) and Lxn (SEQ ID No.56) of which were not within 57 pain genes.
The above 59 genes were found to be associated with pain, and in general, if the up-regulated mRNA expression of one gene is painful, the down-regulated mRNA expression has an analgesic effect, and vice versa, and if the down-regulated mRNA expression of one gene is painful, the up-regulated expression has an analgesic effect. Among the 59 genes found in this finding, up-or down-regulated expression of some of the genes still has not been confirmed to be directly related to pain to date, because some of the genes have been shown to have contrary conclusions in different prior literature reports. However, once the functions of these HEA-associated pain genes are determined, the mechanisms of action of HEA in relieving pain or causing pain are determined.
HEA and derivative regulated analgesic gene
Up-regulated the following genes: c1qb (complete Component 1, Q Subcomponent, B Chain), C1qc (complete Component 1, Q Subcomponent, C Chain), Timp1(Tissue inhibitor of metalloproteinase 1), Lum (Lumican), Csrp3(Cysteine and glucose-rich protein 3), Stmn4 (Stahmin-like 4), Uchl1(Ubiquitin C-Terminal Hydrolase L1), Ctsk (Cathepsin K) and Lxn (Latexin) and the following genes to be down-regulated: nsf (N-ethyl meleimide sensitive fusion protein), Adora1 and Adora2a have all been demonstrated to be painful by prior literature. If the opposite expression occurs for the above genes, analgesia is expressed.
According to the invention, through comparative analysis, HEA and derivatives thereof are found to be capable of regulating the down-regulation of c1qb, c1qc, Timp1, Lum, Csrp3, Stmn4, Uchl1, Ctsk and Lxn genes and regulating the up-regulation of Nsf, Adora1 and Adora2a genes, so that the HEA can play an analgesic role (FIGS. 7-8).
Western blot validation of A1R (Adora1) and A2AR (Adora2a)
The expression conditions of A1R and A2AR in synovial membranes of joints of rats with gout are detected by using a Western blot method, and the results are shown in figure 9. Model groups A1R and A2AR were elevated from the blank control group and are shown. Compared with the blank group, the HEA (7.5mg/Kg) administration group has a significant increase of A1R (P <0.01) and a significant decrease of A2AR (P < 0.01). Compared with the model group, A1R is also increased (P <0.05), and A2AR is obviously decreased (P < 0.01). After DPCPX (2mg/Kg) and HEA (7.5mg/Kg) are simultaneously applied, the expression of A1R protein is obviously reduced, and no statistical difference is generated compared with a blank group and a model group. The results of protein expression indicate that the analgesic effect of HEA is associated with up-regulation of A1R and down-regulation of A2 AR. Among them, the experimental results of the derivatives of B-H are similar to those of A (the specific data are omitted).
The invention shown and described herein may be practiced in the absence of any element or elements, limitation or limitations that are specifically disclosed herein. The terms and expressions which have been employed are used as terms of description and not of limitation, and there is no intention in the use of such terms and expressions of excluding any equivalents of the features shown and described or portions thereof, and it is recognized that various modifications are possible within the scope of the invention. Thus, it should be understood that although the present invention has been specifically disclosed by various embodiments and optional features, modification and variation of the concepts herein described may be resorted to by those skilled in the art, and that such modifications and variations are considered to be within the scope of this invention as defined by the appended claims.
The contents of the articles, patents, patent applications, and all other documents and electronically available information described or cited herein are hereby incorporated by reference in their entirety to the same extent as if each individual publication was specifically and individually indicated to be incorporated by reference. Applicants reserve the right to incorporate into this application any and all materials and information from any such articles, patents, patent applications, or other documents.
Organization Applicant
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<110> organic autumn name
Application Project
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Application of <120> Title, N6- (2-hydroxyethyl) adenosine and derivatives thereof in preparation of medicines for treating gout
<130> AppFileReference :
<140> CurrentAppNumber :
<141> CurrentFilingDate : - -
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tcggtcccga ccacccggga gtgtgtgggc tttggagcct tgcaggaggt ggccgtgggg 4620
ctggtgcagc cagccagtgc tgtccta 4647
<212> Type : DNA
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Sequence
--------
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atggcttacc acagcttcct ggtggaaccc atcagctgcc atgcctggaa caaggaccgt 60
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gcccctacac cgtggggctc caagatgccc tttggggagc tgatgtttga atcgagcagc 600
agctgtggct gggtgcatgg tgtctgcttc tcggccggtg ggagccgagt tgcttgggtc 660
agccatgaca gcactgtgtg cctggtagat gctgagaaga agatggccgt ggcaaccctg 720
gcctctgaga cattaccgct cctggccatc accttcatca cagaaaatag tctcgtggca 780
gcgggccacg actgcttccc ggtgctgttt acctatgaca acgctgcggg gacattgagc 840
tttggtggcc ggctggatgt gcccaagcag aactcccagc gtggcctgac agcccgagag 900
cgcttccaga acctcgacaa gaaggccagc tctgaagggg gtgcagccac aggggctggc 960
ctggattcac tgcacaagaa cagcgtcagt caaatctcgg tgctcagcgg gggcaaggcc 1020
aagtgctcgc agttctgcac cacaggcatg gacggtggca tgagcatctg ggatgtgaag 1080
agcttggagt cagccttgaa ggacctgaag atcagatga 1119
<212> Type : DNA
<211> Length : 1119
SequenceName : 4
SequenceDescription :
Sequence
--------
<213> OrganismName : Adamts5
<400> PreSequenceString :
atgcggctcg agtgggcgtc cttgctgctg ctactgctgc tgctgtgcgc gtcctgcctg 60
gccctggccg ctgacaaccc tgccgcggca cctgcccagg ataaaaccag gcagcctcgg 120
gctgctgcag cggctgccca gcccgaccag cggcagtggg aggaaacaca ggagcggggc 180
catccgcaac ccttggccag gcagcgcagg agcagcgggc tggtgcagaa tatagaccaa 240
ctctactctg gcggtggcaa agtgggctac cttgtctacg cgggcggccg gaggttcctg 300
ctggacctgg agagggatga cacagtgggt gctgctggtg gcatcgttac tgcaggaggg 360
ctgagcgcat cctctggcca caggggtcac tgcttctaca gaggcactgt ggacggcagc 420
cctcgatccc tagctgtctt tgacctctgt gggggtctcg atggcttctt cgcagtcaag 480
catgcgcgct acactctgaa gccgctcttg cgtgggtcct gggcagagtc cgaacgagtt 540
tacggggatg ggtcttcacg catcctgcat gtctacaccc gcgagggctt cagcttcgag 600
gccctgccgc cacgcaccag ttgcgagact ccagcgtccc cgtctggggc ccaagagagc 660
ccctcggtgc acagtagttc taggcgacgc acagaactgg caccgcagct gctggaccat 720
tcagctttct cgccagctgg gaacgcggga cctcagacgt ggtggaggcg gaggcgccgt 780
tccatctcca gggcccgcca ggtggagctc ctcttggtgg ctgactcttc catggccaag 840
atgtatgggc ggggcctgca gcattacctg ctgaccctgg cctctattgc caaccggctg 900
tacagtcatg caagcatcga gaaccacatc cgcctggccg tagtgaaagt ggtggtgctg 960
accgacaaga gtctggaggt gagcaagaac gcggccacga ccctcaagaa cttttgcaaa 1020
tggcagcacc aacacaacca gctaggtgat gaccatgagg agcactacga tgcagccatc 1080
ctgttcacca gagaggattt atgtgggcat cattcatgtg acaccctggg aatggcagac 1140
gttgggacca tatgttctcc ggagcgcagc tgcgctgtga ttgaagatga tggcctccat 1200
gcagctttca ctgtggctca cgaaattgga catctacttg gcctctctca cgacgattcc 1260
aaattctgtg aagagaactt tggttctaca gaagacaagc gtttaatgtc ttcaatcctt 1320
accagcattg atgcatccaa gccctggtcc aaatgcactt cagccacgat cacagaattt 1380
ctggatgacg gtcatggtaa ctgtttacta gatgtaccac ggaagcagat tctgggcccc 1440
gaggaactcc caggacagac ctatgatgcc acccagcagt gcaacttgac atttgggcct 1500
gaatattctg tgtgccctgg catggatgtc tgtgcacggc tgtggtgtgc tgtggtgcgc 1560
caaggccaaa tggtgtgtct gaccaagaag ttgcctgccg tggagggcac tccctgtggg 1620
aaaggaagaa tctgcctgca aggcaaatgt gtggacaaaa ctaagaaaaa atattactcg 1680
acatcaagcc atggaaattg ggggtcctgg ggcccctggg gtcagtgttc tcgctcttgc 1740
gggggaggag tacagtttgc ctaccgccat tgcaataacc ccgcacctcg aaacagtggc 1800
cgctactgca cagggaagag ggccatatac cgttcctgca gtgtcatacc ctgcccacct 1860
aacggcaaat ctttccgcca cgagcagtgt gaagccaaaa atggctatca gtccgatgca 1920
aaaggagtca aaacatttgt agaatgggtt cccaaatacg caggtgtcct gccggcagac 1980
gtgtgcaagc ttacgtgcag agctaagggc actggctatt acgtggtctt ttctccaaag 2040
gttacagatg ggacagaatg tagaccctac agcaactccg tgtgtgtccg agggaggtgc 2100
gtgagaacgg ggtgtgacgg catcatcggc tcaaagctac agtatgacaa gtgtggagtg 2160
tgtggagggg ataactccag ttgtacaaag attattggaa ccttcaataa aaaaagcaag 2220
ggttatactg acgttgtgag gatccctgaa ggagcaaccc acataaaagt ccgacagttc 2280
aaagccaaag accagactag attcactgct tacttagccc taaagaagaa aactggcgag 2340
taccttatca acggcaagta catgatctcc acttcagaga ccatcatcga catcaatggt 2400
accgtcatga actacagtgg gtggagtcac agagatgatt ttttacatgg gatgggctat 2460
tcagccacaa aggaaattct gattgtgcag atccttgcaa cagacccaac taaagcatta 2520
gacgtccgtt acagcttttt tgttcccaag aagaccactc aaaaagtgaa ttccgtcatt 2580
agccacagca gcaacaaagt gggactacac tccccgcagc tacagtgggt gacaggcccc 2640
tggctggcct gctctaggac ctgtgacaca ggctggcaca ccaggaccgt gcagtgccag 2700
gatggaaaca ggaaattagc taagggatgc attctctctc agaggccttc tgcgtttaag 2760
caatgtttgc tcaagaaatg ttag 2784
<212> Type : DNA
<211> Length : 2784
SequenceName : 5
SequenceDescription :
Sequence
--------
<213> OrganismName : Adcy5
<400> PreSequenceString :
atgtccggct ccaaaagcgt gagccccccg ggctacgctg cacagacagc agcgtcgccc 60
gcgcccgggg gaggcccgga gcatcgcgcc gcgtggggag aagccgattc ccgcgccaat 120
ggctaccccc acgcccccgg gggatcgacc cgcggctcca ccaagcgatc tgggggagcg 180
gtgaccccac aacagcagca gcgcctggct agccgttggc gcggtggcga cgacgatgaa 240
gaccctccac taagcggtga cgaccctctg gtcggaggct tcggcttcag cttccgttct 300
aagtcggcct ggcaggagcg cggcggcgac gacggcggtc gcggcagcag gcggcagcgg 360
cggggcgcgg ctggaggggg cagcacccgg gcgccccctg cgggcggcag tggcagttcg 420
gcggcggccg cagcagccgc aggtggcacg gaggtgcgcc cccgctcggt ggaggtgggc 480
ctggaggagc gtcgaggaaa aggccgagcg gccgaggagc tggagcccgg aactggcacc 540
gtcgaggatg gagacgggtc cgaggatgga ggcagttccg tggcgtcagg ctctgggacc 600
ggcacggtgc tgtcgttggg cgcctgctgc ctggccttgc tgcagatatt ccgctctaag 660
aagttcccgt cggacaaact ggagcgtctg taccagcgct atttcttccg cctgaaccag 720
agcagcctca ccatgctcat ggccgtgctg gtgctcgtgt gcctggtcat gctcgctttc 780
cacgcggcac ggcccccgct ccaggtagtc tacctggccg tgttggcagc tgctgtgggc 840
gtgatcctta tcatggctgt gctctgcaac cgtgcagcct tccaccagga ccacatgggc 900
ctggcctgct atgcgctcat tgcagtggtg ctggccgtcc aggtagtggg cctgttgctg 960
ccacagccac gcagcgcctc cgagggcatc tggtggaccg tgttcttcat ctataccatc 1020
tacaccctgc tgcctgtgcg catgagggct gcggtgctca gcggggtgct tctgtcggct 1080
ctccacttgg ccatctctct gcacaccaac gcccaggacc agtttctgct gaaacagctt 1140
gtctccaacg tcctcatctt ctcttgcacc aacatcgtgg gtgtgtgcac tcactaccca 1200
gccgaggtct cccagagaca ggccttccag gagacccggg agtgcatcca agctcggctc 1260
cactcacagc gggagaacca gcaacaggag cgtctcctgc tgtctgtcct tccccgtcat 1320
gttgccatgg agatgaaagc agacatcaac gccaaacagg aggatatgat gttccacaag 1380
atttacatcc agaaacatga caatgtgagc atcctgtttg ctgacatcga aggcttcact 1440
agcctggcat cccagtgtac tgcccaagaa ctggtcatga ccctcaacga gctcttcgcc 1500
cgctttgaca agttggctgc ggagaatcac tgcttacgga ttaagatcct cggggattgt 1560
tactactgtg tctcggggct gcctgaagcc agagctgacc acgcccactg ctgcgtagag 1620
atgggaatgg acatgatcga ggccatctcg ttggtccggg aggtgacagg ggtgaacgtg 1680
aacatgcgtg tgggaattca cagcgggaga gtacactgcg gtgtccttgg cctcagaaag 1740
tggcaattcg acgtgtggtc taacgatgtc acactggcca accacatgga agctggcggc 1800
aaggcaggcc gcatccacat caccaaggcc acactcaact acctgaacgg ggactatgag 1860
gtggagccag gctgtggtgg tgagcgcaat gcctacctca aggagcacag catcgagacc 1920
ttcctcatcc tgcgctgtac ccagaagcgg aaagaagaga aggccatgat cgccaagatg 1980
aaccgccaga gaaccaactc cattggacac aatccgcctc actggggagc tgagcgcccc 2040
ttctacaacc acttgggtgg caaccaggtg tccaaggaga tgaagaggat gggctttgag 2100
gaccccaagg acaagaatgc ccaggaaagt gccaaccctg aggatgaagt ggacgagttt 2160
ctgggtcgag ccatcgatgc caggagtatt gacagactgc gatccgaaca cgtccgaaag 2220
ttcctcttga cctttaggga gcccgactta gagaagaagt actccaagca ggtggatgac 2280
cgatttggtg cctatgtggc ctgtgcctcg cttgttttcc tcttcatctg ctttgtccag 2340
atcaccattg tgccccactc cctgttcatg ctgagcttct acctgtcgtg tttcctgcta 2400
ctggccttgg tggtgtttat atctgtgatc tacgcctgtg tgaagctctt ccctactccc 2460
ctgcagacac tctccaggaa gatagtgcga tccaagaaga acagcaccct ggtcggggtg 2520
ttcaccatca ccctggtgtt cctctcggct tttgtcaaca tgttcatgtg caactctaag 2580
aacctggtgg gttgcctggc agaggagcac aacatcacgg tgaaccaggt gaacgcatgt 2640
catgtgatgg agtcggcctt caactacagc ctgggcgacg agcagggctt ctgtggcagc 2700
ccccagtcca actgcaactt cccagagtac ttcacctaca gcgtgctgct cagcctgctg 2760
gcctgctccg tgttcctgca gatcagctgc atcgggaagc tggtgctcat gctggccatc 2820
gagctcatct acgtgctcat cgtagaggtg cccggtgtca cactctttga caacgctgac 2880
cttctggtca ccgccaatgc catagacttc agcaacaacg ggacctccca gtgccctgag 2940
catgcgacca aggtggcgct gaaggtggtg acgcccatca tcatctctgt cttcgtgctg 3000
gctctgtatc tgcatgctca gcaggtggaa tccactgctc gccttgactt cctctggaaa 3060
ctgcaggcca cagaagagaa ggaggagatg gaggagctgc aggcctacaa ccggcgcttg 3120
ctgcacaaca ttctgcccaa ggacgtggct gcccacttcc tggcccggga gcggcgcaat 3180
gatgaactgt actaccaatc ctgcgagtgc gtggctgtca tgtttgcctc catcgccaac 3240
ttctccgaat tctacgtgga gctagaggcc aacaatgagg gcgttgaatg cctacggctg 3300
ctcaatgaga tcatcgcaga ctttgatgag atcatcagtg aggatcggtt caggcagctg 3360
gaaaagatca agaccatagg tagcacctac atggctgcct ctggcctcaa cgactccacc 3420
tatgacaagg caggcaagac ccacatcaag gctcttgcag acttcgccat gaagctgatg 3480
gaccaaatga agtacatcaa tgagcactcc ttcaacaact tccagatgaa gatcgggctt 3540
aacattggac ctgtagtggc tggggtcatt ggggctcgca agcctcagta tgacatctgg 3600
ggcaatacag taaatgtggc cagccgtatg gacagcactg gggtgcctga ccgcatccag 3660
gttactacag atatgtacca ggtgctggcc gccaacacat accagctgga gtgccggggt 3720
gtggtcaagg tcaagggcaa gggtgagatg atgacctact tcctcaatgg agggcctccc 3780
ctcagttag 3789
<212> Type : DNA
<211> Length : 3789
SequenceName : 6
SequenceDescription :
Sequence
--------
<213> OrganismName : Ptgs2
<400> PreSequenceString :
atgctcttcc gagctgtgct gctctgcgct gccctggcgc tcagccatgc agcaaatcct 60
tgctgttcca acccatgtca aaaccgtggt gaatgtatga gcataggatt tgaccaatat 120
aaatgtgact gtacccggac tggattctac ggtgaaaact gtactacgcc tgagtttctg 180
acaagaatca aattactgct gaagcccacc ccaaacacag tacactacat cctgacccac 240
ttcaagggag tctggaacat tgtgaacaac attcccttcc ttcggaattc aatcatgaga 300
tacgtgttga cgtccagatc acatttgatt gacagcccac caacttacaa tgtgcactac 360
ggttacaaaa gttgggaagc tttctccaac ctctcctact acaccagggc ccttcctcct 420
gtggctgatg actgcccaac tcccatgggt gtgaaaggaa ataaggaact tcctgattca 480
aaagaagttc tggaaaaggt tcttctgagg agagagttca tcccggatcc ccaaggcaca 540
aatatgatgt tcgcattctt tgcccagcac ttcactcatc agtttttcaa gacagatcag 600
aagcgaggac ctgggttcac ccgaggactg ggccatggag tggacttaaa tcatgtttac 660
ggtgaaactc tagacagaca acataaactt cgacttttcc aggatggaaa attgaaatat 720
caggtcatcg gtggagaggt gtatcctccc acagtcaaag acactcaggt agacatgatc 780
taccctcccc acgtccctga gcacctgcgg ttcgctgtgg ggcaggaagt ctttggtctg 840
gtgccgggtc tgatgatgta tgctaccatc tggcttcggg agcacaacag agtgtgtgat 900
atactcaaac aggagcatcc tgagtgggat gacgagcgac tgttccaaac cagcaggctc 960
atactgatag gagagacgat caagatagtg atcgaagact acgtgcaaca cctgagcggt 1020
taccacttca aactcaagtt cgacccagag ctgcttttca accagcagtt ccagtatcag 1080
aaccgcattg cctctgaatt caacacactc tatcactggc atccgctgct gccggacacc 1140
ttcaacattg aagaccagga gtacactttc aaacagtttc tctacaacaa ctccatcctc 1200
cttgaacacg gacttgctca ctttgttgag tcattcacca gacagattgc tggccgggtt 1260
gctgggggaa ggaatgttcc aatcgctgta caagcagtgg caaaggcctc cattgaccag 1320
agcagagaga tgaaatacca gtctctcaat gagtaccgca aacgcttctc cctgaaacct 1380
tacacatcgt ttgaagaact tacaggagag aaagaaatgg ctgcagagtt gaaagccctc 1440
taccatgaca tcgatgccat ggaactgtat cccgccctgc tggtggaaaa gcctcgtcca 1500
gatgctatct ttggggagac catggtagaa cttggagctc cattctcctt gaaaggcctt 1560
atgggtaatc ccatctgttc tcctcaatac tggaaaccta gcaccttcgg aggagaagtg 1620
ggttttagga tcatcaacac tgcctcaatt cagtctctca tctgcaataa tgtgaaaggg 1680
tgtccctttg cctctttcaa tgtgcaagac ccgcagccta ccaagacagc caccatcaac 1740
gcaagtgcct cccactccag actagatgac attaacccta cagtactaat caaaaggcgt 1800
tcaactgagc tgtaa 1815
<212> Type : DNA
<211> Length : 1815
SequenceName : 7
SequenceDescription :
Sequence
--------
<213> OrganismName : Kcnk2
<400> PreSequenceString :
atgcttgcca gcgcctcgcg ggagagaccc ggctataccg caggagtggc ggcccctgac 60
ttgctggatc ccaagtctgc tgctcagaac tccaaaccga ggctctcgtt ctccgcaaaa 120
cccaccgtgc ttgcttcccg ggtggagagt gactcggcca ttaatgttat gaaatggaag 180
acggtctcca cgattttcct ggtggtcgtc ctctacctga tcatcggagc cacggtgttc 240
aaggcgttgg agcagcctca ggagatttct cagaggacca ccattgtgat ccagaaacag 300
aacttcatag cccagcatgc ctgcgtcaac tccaccgagc tggatgaact catccagcaa 360
atagtgacgg ccataaatgc agggattatc cccttaggaa acaactccaa tcaagttagt 420
cactgggacc tcggaagctc tttcttcttt gccggcactg ttatcacaac cataggattt 480
ggaaacatct ccccacgaac tgaaggtgga aaaatattct gtatcatcta tgccttgctg 540
ggaattcccc tctttggttt tctactggct ggggttgggg atcagcttgg aaccatattt 600
ggaaaaggaa ttgccaaagt ggaggacaca tttattaagt ggaatgttag tcagaccaag 660
attcgtatca tctcgaccat catcttcatc ctgtttggct gtgtcctctt cgtggctctc 720
cccgccgtca tattcaagca catagaaggc tggagtgccc tggacgccat ctactttgtg 780
gtcatcactc tgaccaccat tggatttggc gattatgtgg caggtgggtc ggacattgaa 840
tatctggact tctacaagcc cgttgtgtgg ttctggatcc tcgttgggct ggcctacttt 900
gcggctgttc tgagcatgat tggagactgg ctacgggtga tatctaagaa gacgaaggaa 960
gaggtgggag agttcagagc gcatgccgct gagtggacag ccaatgtcac agccgagttc 1020
aaggaaacaa ggaggcggct gagtgtggag atctatgaca agttccagcg tgccacgtcc 1080
gtgaagcgga agctctctgc agagctggcg ggtaaccata accaggaact gactccatgt 1140
aggaggaccc tgtcggtgaa ccacctgacc agcgagaggg aagtcctgcc tcccttgctg 1200
aaggctgaga gcatctatct gaacggtctg acaccacact gtgctgctga agacatcgct 1260
gtcattgaga acatgaagta g 1281
<212> Type : DNA
<211> Length : 1281
SequenceName : 8
SequenceDescription :
Sequence
--------
<213> OrganismName : Cacna1g
<400> PreSequenceString :
atggacgagg aggaggatgg agcgggcgcc gaggagtcgg gacagccccg tagcttcacg 60
cagctcaacg acctgtccgg ggccgggggc cggcaggggc cggggtcgac ggaaaaggac 120
ccgggcagcg cggactccga ggcggagggg ctgccgtacc cggcgctagc cccggtggtt 180
ttcttctact tgagccagga cagccgcccg cggagctggt gtctccgcac ggtctgtaac 240
ccatggttcg agcgagtcag tatgctggtc attcttctca actgtgtgac tctgggtatg 300
ttcaggccgt gtgaggacat tgcctgtgac tcccagcgct gccggatcct gcaggccttc 360
gatgacttca tctttgcctt ctttgctgtg gaaatggtgg tgaagatggt ggccttgggc 420
atctttggga agaaatgtta cctgggagac acttggaacc ggcttgactt tttcattgtc 480
attgcaggga tgctggagta ttcgctggac ctgcagaacg tcagcttctc cgcagtcagg 540
acagtccgtg tgctgcgacc gctcagggcc attaaccggg tgcccagcat gcgcattctc 600
gtcacattac tgctggacac cttgcctatg ctgggcaacg tcctgctgct ctgtttcttc 660
gtctttttca tctttggcat cgtgggcgtc cagctgtggg caggactgct tcgcaaccga 720
tgcttcctcc ccgagaactt cagcctcccc ctgagcgtgg acctggagcc ttattaccag 780
acagagaatg aggacgagag ccccttcatc tgctctcagc ctcgggagaa tggcatgaga 840
tcctgcagga gtgtgcccac actgcgtggg gaaggcggtg gtggcccacc ctgcagtctg 900
gactatgaga cctataacag ttccagcaac accacctgtg tcaactggaa ccagtactat 960
accaactgct ctgcgggcga gcacaacccc ttcaaaggcg ccatcaactt tgacaacatt 1020
ggctatgcct ggatcgccat cttccaggtc atcacactgg agggctgggt cgacatcatg 1080
tacttcgtaa tggacgctca ctccttctac aacttcatct acttcattct tctcatcatc 1140
gtgggctcct tcttcatgat caacctgtgc ctggtggtga ttgccacgca gttctccgag 1200
accaaacagc gggagagtca gctgatgcgg gagcagcgtg tacgattcct gtccaatgct 1260
agcaccctgg caagcttctc tgagccaggc agctgctatg aggagctact caagtacctg 1320
gtgtacatcc tccgaaaagc agcccgaagg ctggcccagg tctctagggc tataggcgtg 1380
cgggctgggc tgctcagcag cccagtggcc cgtagtgggc aggagcccca gcccagtggc 1440
agctgcactc gctcacaccg tcgtctgtct gtccaccacc tggtccacca ccatcaccac 1500
caccatcacc actaccacct gggtaatggg acgctcagag ttccccgggc cagcccagag 1560
atccaggaca gggatgccaa tgggtctcgc cggctcatgc taccaccacc ctctacaccc 1620
actccctctg ggggccctcc gaggggtgcg gagtctgtac acagcttcta ccatgctgac 1680
tgccacttgg agccagtccg ttgccaggca ccccctccca gatgcccatc ggaggcatct 1740
ggtaggactg tgggtagtgg gaaggtgtac cccactgtgc ataccagccc tccaccagag 1800
atactgaagg ataaagcact agtggaggtg gcccccagcc ctgggccccc caccctcacc 1860
agcttcaaca tcccacctgg gcccttcagc tccatgcaca agctcctgga gacacagagt 1920
acgggagcct gccatagctc ctgcaaaatc tccagccctt gctccaaggc agacagtgga 1980
gcctgcgggc cggacagttg tccctactgt gcccggacag gagcaggaga gccagagtcc 2040
gctgaccatg tcatgcctga ctcagacagc gaggctgtgt atgagttcac acaggacgct 2100
cagcacagtg acctccggga tccccacagc cggcggcgac agcggagcct gggcccagat 2160
gcagagccta gttctgtgct ggctttctgg aggctgatct gtgacacatt ccggaagatc 2220
gtagatagca aatactttgg ccggggaatc atgatcgcca tcctggtcaa tacactcagc 2280
atgggcatcg agtaccacga gcagcccgag gagctcacca acgccctgga aatcagcaac 2340
atcgtcttca ccagcctctt cgccttggag atgctgctga aactgcttgt ctacggtccc 2400
tttggctaca ttaagaatcc ctacaacatc tttgatggtg tcattgtggt catcagtgtg 2460
tgggagattg tgggccagca gggaggtggc ctgtcggtgc tgcggacctt ccgcctgatg 2520
cgggtgctga agctggtgcg cttcctgccg gccctgcagc gccagctcgt ggtgctcatg 2580
aagaccatgg acaacgtggc caccttctgc atgctcctca tgctgttcat cttcatcttc 2640
agcatcctgg gcatgcatct ctttggttgc aagttcgcat ctgaacggga tggggacacg 2700
ttgccagacc ggaagaattt cgactccctg ctctgggcca tcgtcactgt ctttcagatt 2760
ctgactcagg aagactggaa taaagtcctc tacaacggca tggcctccac atcgtcttgg 2820
gctgctcttt acttcatcgc cctcatgact tttggcaact atgtgctctt taacctgctg 2880
gtggccattc ttgtggaagg cttccaggca gaggaaatcg gcaaacggga agatgcgagt 2940
ggacagttaa gctgtattca gctgcctgtc aactctcagg ggggagatgc caccaagtct 3000
gagtcagagc ctgatttctt ttcgcccagt gtggatggtg atggggacag aaagaagcgc 3060
ttggccctgg tggctttggg agaacacgcg gaactacgaa agagcctttt gccacccctc 3120
atcatccata cggctgcgac accaatgtca ctacccaaga gctccagcac aggtgtgggg 3180
gaagcactgg gctctggctc tcgacgtacc agtagcagtg ggtccgctga gcctggagct 3240
gcccaccatg agatgaaatc tccgccaagt gcccgcagct ccccgcacag tccctggagt 3300
gcggcaagca gctggaccag caggcgctcc agcaggaaca gcctgggccg ggcccccagc 3360
ctaaagcgga ggagcccgag cggggagcgg aggtccctgc tgtctggaga gggccaggag 3420
agtcaggatg aggaggaaag ttcagaagag gaccgggcca gcccagcagg cagtgaccat 3480
cgccacaggg gttccttgga acgtgaggcc aagagttcct ttgacctgcc tgacactctg 3540
caggtgccgg ggctgcaccg cacagccagc ggccggagct ctgcctctga gcaccaagac 3600
tgtaatggca agtcggcttc agggcgtttg gcccgcaccc tgaggactga tgacccccaa 3660
ctggatgggg atgatgacaa tgatgaggga aatctgagca aaggggaacg catacaagcc 3720
tgggtcagat cccggcttcc tgcctgttgc cgagagcgag attcctggtc ggcctatatc 3780
tttcctcctc agtcaaggtt tcgtctcctg tgtcaccgga tcatcaccca caagatgttt 3840
gaccatgtgg tcctcgtcat catcttcctc aactgtatca ccatcgctat ggagcgcccc 3900
aaaattgacc cccacagcgc tgagcgcatc ttcctgaccc tctccaacta catcttcacg 3960
gcagtctttc tagctgaaat gacagtgaag gtggtggcac tgggctggtg ctttggggag 4020
caggcctacc tgcgcagcag ctggaatgtg ctggacggct tgctggtgct catctccgtc 4080
atcgacatcc tggtctccat ggtctccgac agcggcacca agatccttgg catgctgagg 4140
gtgctgcggc tgctgcggac cctgcgtcca ctcagggtca tcagccgggc ccagggactg 4200
aagctggtgg tagagactct gatgtcatcc ctcaaaccca ttggcaacat tgtggtcatt 4260
tgctgtgcct tcttcatcat ttttggaatt ctcggggtgc agctcttcaa agggaagttc 4320
ttcgtgtgtc agggtgagga caccaggaac atcactaaca aatccgactg cgctgaggcc 4380
agctaccgat gggtccggca caagtacaac tttgacaacc tgggccaggc tctgatgtcc 4440
ctgtttgtgc tggcctccaa ggatggttgg gttgacatca tgtatgatgg gctggatgct 4500
gtgggtgtgg atcagcagcc catcatgaac cacaacccct ggatgctgct atacttcatc 4560
tccttcctcc tcatcgtggc cttctttgtc ctgaacatgt ttgtgggcgt ggtggtggag 4620
aacttccata agtgcagaca gcaccaggag gaggaggagg cgaggcggcg tgaggagaag 4680
cgactacgga ggctggagaa aaagagaagg aatctaatgt tggacgatgt aattgcttcc 4740
ggcagctcag ccagcgctgc gtcagaagcc cagtgcaagc cctactactc tgactactcg 4800
agattccggc tccttgtcca ccacctgtgt accagccact acctggacct cttcatcact 4860
ggtgtcatcg ggctgaacgt ggtcactatg gccatggaac attaccagca gccccagatc 4920
ctggacgagg ctctgaagat ctgcaattac atctttaccg tcatctttnc ttttgagaaa 4980
tatagcaaaa taccctaccg gggggagggg ggcagatttt ccaggtggaa ccagctggac 5040
ctggctattg tgcttctgtc catcatgggc atcacactgg aggagattga ggtcaatgct 5100
tcgctgccca tcaaccccac catcatccgt atcatgaggg tgctccgcat tgctcgagtt 5160
ctgaagctgt tgaagatggc tgtgggcatg cgggcactgc tggacacggt gatgcaggcc 5220
ctgccccagg tggggaacct gggacttctc ttcatgttat tgtttttcat ctttgcagct 5280
ctgggcgtgg agctctttgg agacctggag tgtgatgaga cacacccttg tgagggcttg 5340
ggtcggcatg ccacctttag gaactttggt atggcctttc tgaccctctt ccgagtctcc 5400
actggtgaca actggaatgg tattatgaag gacaccctcc gggactgtga ccaggagtcc 5460
acctgctaca acactgtcat ctcccctatc tactttgtgt ccttcgtgct gacggcccag 5520
tttgtgctgg tcaacgtggt catagctgtg ctgatgaagc acctggaaga aagcaacaaa 5580
gaggccaagg aggaggccga gctcgaggcc gagctggagc tggagatgaa gacgctcagc 5640
ccgcagcccc actccccgct gggcagcccc ttcctctggc ccggggtgga gggtgtcaac 5700
agtcctgaca gccctaagcc tggggctcca cacaccactg cccacattgg agcagcctcg 5760
ggcttctccc ttgagcaccc cacgatggta ccccaccccg aggaggtgcc agtcccccta 5820
ggaccagacc tgctgactgt gaggaagtct ggtgtcagcc ggacgcactc tctgcccaat 5880
gacagctaca tgtgccgcaa tgggagcact gctgagagat ccctaggaca caggggctgg 5940
gggctcccca aagcccagtc aggctccatc ttgtccgttc actcccaacc agcagacacc 6000
agctgcatcc tacagcttcc caaagatgtg cactatctgc tccagcctca tggggccccc 6060
acctggggcg ccatccctaa actaccccca cctggccgct cccctctggc tcagaggcct 6120
ctcaggcgcc aggcagcaat aaggactgac tccctggatg tgcagggcct gggtagccgg 6180
gaagacctgt tgtcagaggt gagtgggccc tcctgccctc tgacccggtc ctcatccttc 6240
tggggcgggt cgagcatcca ggtgcagcag cgttccggca tccagagcaa agtctccaag 6300
cacatccgcc tgccagcccc ttgcccaggc ctggaaccca gctgggccaa ggaccctcca 6360
gagaccagaa gcagcttaga gctggacacg gagctgagct ggatttcagg agacctcctt 6420
cccagcagcc aggaagaacc cctgtcccca cgggacctga agaagtgcta cagtgtagag 6480
acccagagct gcaggcgcag gcctgggtcc tggctagatg aacagcggag acactccatt 6540
gctgtcagct gtctggacag cggctcccaa ccccgcctat gtccaagccc ctcaagcctc 6600
gggggccaac ctcttggggg tcctgggagc cggcctaaga aaaaactcag cccacccagt 6660
atctctatag accccccgga gagccagggc tctcggcccc catgcagtcc tggtgtctgc 6720
ctcaggagga gggcgccggc cagtgactct aaggatccct cggtctccag cccccttgac 6780
agcacggctg cctcaccctc cccaaagaaa gacacgctga gtctctctgg tttgtcttct 6840
gacccaacag acatggaccc ctga 6864
<212> Type : DNA
<211> Length : 6864
SequenceName : 9
SequenceDescription :
Sequence
--------
<213> OrganismName : Ptgs2
<400> PreSequenceString :
atgacgatcc gacaccaagg ccagcagtac aggccgagga tggcatttct tcaaaagatt 60
gaagcactcg tgaaggacat gcagaaccca gagacgggag tcagaatgca gaaccagaga 120
gtcttggtca ccagtgtccc tcatgccatg acaggaggcg atgttctgca atggatcatc 180
cagcgccttt ggatctctaa cctcgaggcg cagaacttgg gtaacttcat cgtcaagtac 240
ggctacatct accctttgca agacccgaag aatctcgtcc tcaaacctga cagcagcctc 300
tatcgatttc agacgccgta cttctggccc actcagcagt ggccagctga ggacaccgac 360
tatgccatct atctagctaa gcgaaatatc aagaagaagg ggattttaga agaatatgaa 420
aaggaaaact atgatttctt gaacaagaag attaattaca agtgggattt tgtcatcatg 480
caggccaagg agcagtaccg gactggaaag gagaggaaca aagctgacag gtatgcgctg 540
gattgccagg agaaggcgta ttggctggtg caccgaagcc ctcctggaat gaacaatgtg 600
ttagactacg gcctggaccg cgtgaccaat ccaaacgaag ttaagaaaca aacagtcact 660
gctgtcagaa aggagattat gtattaccag caggccttaa tgaggtccac agtgaagtct 720
tcggtgtccc ttggaggaat cgtcaagtat agtgagcagt tctcgtccaa tgatgccatc 780
atgtctggct gccttccaag taatccttgg atcacagacg acacccagtt ctgggattta 840
aacgccaagt tggtggaggt cccaaccaag atgcgggtgg agagatgggc tttcaacttc 900
agcgaactga ttcgagaccc caagggccgg cagagcttcc agtactttct caagaaggaa 960
ttcagtgggg agaacctggg attctgggaa gcctgtgagg atctgaagta tggggatcag 1020
tccaaggtca aggagaaggc agaggagatc tacaagctgt tcctggcacc gggtgcaagg 1080
cgatggatca acatagacgg caaaaccatg gacatcaccg tgaaggggct gagacacccc 1140
caccgctatg tgttggacgc ggcgcagacc cacatttaca tgctcatgaa gaaggattct 1200
tatgctcgct atttgaaatc tccgatctat aaagaaatgc tggccaaagc tatcgagcca 1260
caggaaacca ccaagagaag ctccaccctc ccatttatga gacgccacct acgctccagc 1320
ccaagccctg tcattctgcg gcagctggaa gaagaagaga gagctcgaga agcagccaac 1380
accgtggaca tcacccagcc aggtcagcac ttggctccca gccctcacct ggccgtgtac 1440
acagggacct gcgtgcctcc ctctccctcc agccccttct caccatcctg ccgctcgccc 1500
aggaagccct tcccttcccc aagtcgcttc atccggcggc ccagcattgc catctgcccc 1560
tcgcccatcc gagtggccct ggagggttct tcagggctgg agggcaaggg ggaagccagc 1620
tggtctggtg ccaaccctgg gcccccagtc actgagagca tcgagacctc tgtagaccgc 1680
tcacgaccac acagccagcc cagggccccg ctcaaggccc gcgctgccct gtcccttggc 1740
aggtttctga gacggggctg tttggcatca ccagtttttg ccaggctctc accgaagtgc 1800
ccttctgtgt cacacgggaa ggtgcagcct ctgggggaca tgggtcaaca gctgcccagg 1860
ctgaaaccca agaaagtagc caactttttc cagatcaaaa tggaaatgcc tacggacagt 1920
gggccctgcc tgatggactc ggatgacccc ggagcaggag agtctggcga ccagaccacg 1980
gaaaaggaag tcatctgccc ctgggaaagc ctggcggaag ggaaggcggg ctga 2034
<212> Type : DNA
<211> Length : 2034
SequenceName : 10
SequenceDescription :
Sequence
--------
<213> OrganismName : Kcnk2
<400> PreSequenceString :
ggtttatatc cggaatccca tggaattgtc ggtaattcaa tgtatgatcc tgtctttgat 60
gcttcgttcc atctacgagg gcgagagaag tttaatcata ggtggtgggg aggccaaccg 120
ctatggatta cagccaccaa gcaaggggtg agagctggaa cattcttttg gtctgtgagc 180
atccctcatg aacggaggat cctaaccatt cttcagtggc tttctctgcc agacaacgag 240
aggccttcag tttatgcctt ctactcagag cagcctgatt tttctggaca caagtacggc 300
ccttttggcc ctgagatgac aaatcctctg agggagattg acaagaccgt ggggcagtta 360
atggatggac tgaaacaact caggctgcat cgctgtgtga acgttatctt tgttggagac 420
catggaatgg aagatgtgac atgtgacaga actgagttct tgagcaacta tctgactaat 480
gtggatgaca ttactttagt gcctggaact ctgggaagaa ttcgagccaa atctatcaat 540
aattctaaat atgaccctaa aaccattatt gctaacctca cggtaagcct ctgcccttgg 600
agcagcttcg ataggctcac cttcccatgt ttgccttccc ggtgggtggt taggaacatt 660
ttcctcactg acctgcaaat cctaactgat catacaattg ttttaaggaa acctttggac 720
gtttataaga aaccatcagg aaaatgtttt ttccagggtg accacggctt tgataacaag 780
gtcaatagca tgcagactgt tttcgtaggt tatggcccaa cttttaagta caggactaaa 840
gtgcctccat ttgaaaacat tgaactttac aatgttatgt gcgatctcct aggcttgaag 900
cccgctccca ataatggaac tcatggaagc ttgaatcacc tactgcgtac aaataccttt 960
aggccaacca tgccagacga agtcagccga cctaactacc cagggattat gtaccttcag 1020
tccgagtttg acctgggctg cacctgtgac gataaggtag agccaaagaa caaattggaa 1080
gaactcaata aacgtcttca taccaaagga tcaacagaag ctgaaaccgg gaaattcaga 1140
ggcagcaaac atgaaaacaa gaaaaacctt aatggaagtg ttgaacctag aaaagagaga 1200
catctcctgt atggacggcc tgcagtgctc tatcggacta gctatgatat cttataccat 1260
acggactttg aaagtggtta tagtgaaata ttcttaatgc ctctctggac atcgtatacc 1320
atttctaagc agggatgcag agcgactgag tgcaagtgtt tggtgaagct gctaagggga 1380
gataaaagaa tagatccact ggcttcaaac tctgattttc tgttgagatt ggtaagcaat 1440
ggactctgtt tgttctccca cctgatctcc tccccagaag ctaagtatga tgcattcctc 1500
gtaaccaaca tggttccaat gtaccccgcc ttcaaacgtg tttgggctta tttccaaagg 1560
gttttggtga agaaatatgc ttcagaaagg aatggagtca acgtaataag tggaccgatt 1620
tttgactaca attacgatgg cctacgtgac actgaagatg aaattaaaca gtatgtggaa 1680
ggcagctcta tacctgtccc cacccactac tacagcatca tcaccagctg cctggacttc 1740
actcagcctg cagacaagtg tgacggtccc ctctctgtgt cttccttcat ccttcctcac 1800
cgacccgaca atgatgagag ctgtaatagc tccgaggatg agtcgaagtg ggtagaggaa 1860
ctcatgaaga tgcacacagc tcgggtgcgg gacattgagc acctcactgg tctggatttc 1920
taccggaaga ctagccgtag ctattcggaa attctgaccc tcaagacata cctgcataca 1980
tatgagagcg agatttaa 1998
<212> Type : DNA
<211> Length : 1998
SequenceName : 11
SequenceDescription :
Sequence
--------
<213> OrganismName : Rag1
<400> PreSequenceString :
atggctgtcc ccttgccatc taccctgaga ctcagttctg cacctgatga aattcagcac 60
ccgcacatca aattttccga gtggaaattt aagctgttta gggtgagatc ctttgaaaag 120
gcacccgaag aagcacaaaa agagaaggat tcctcagaag ggaaaccttg tctcgagcag 180
tctccagtag ttctagataa gcctgggggt cagaattcag ttctgactca acgagcattg 240
aaactccatc ctaaattttc aaagaaattc catgttgatg ggaagtcaag cgacaaagca 300
attcaccaag ccaggcttag acacttctgc cgcatctgtg gcaatcactt caagagtgac 360
gggcacaacc ggagataccc agtccacggg cccgtggacg ctaaaactca aagccttttc 420
cgaaagaagg aaaaaagagt cacgtcctgg ccagatctca ttgccagagt tttccggatt 480
gatgtgaagt cagatgttga ctccatccac cccactgaat tctgccataa ctgttggagc 540
attatgcaca ggaagttcgg cagtgctcac agtcaggtct actgcccaag gaatgtgacc 600
gtggagtggc acccccacac accgtcctgt gacatctgct ttactgccca tcggggactg 660
aagaggaaga gacatcagcc caacgtgcag ctcagcaaga aactaaaaac tgtgctcaac 720
catgctagac gggaccgtcg caagagaact caggctaggg tcagcagcaa ggaggtcatg 780
aagaagatct ccaactgcag taagattcat ctcagtacca agcttcttgc agtagacttc 840
ccagcacact ttgtgaaatc catctcctgc cagatatgtg aacacattct ggccgatccg 900
gtggagacca cctgtaagca cctgttctgt agaatatgca ttctccggtg cctcaaggtc 960
atgggcagct attgtccctc gtgccgatat ccatgcttcc ctactgacct gcagagtccg 1020
gtcaagtcct ttctgagcat cttgaattct ctgatggtga agtgtcctgc ccaagagtgc 1080
aatgaggaag taagtctgga aaaatataac caccatgtct caagccacaa agaatctaaa 1140
gagactttgg tgcatattaa taaagggggc cggcctcgcc agcatctcct gtcactgacg 1200
cgaagggctc agaaacatcg gctgagggag ctcaagattc aagtcaaaga atttgcagac 1260
aaagaagaag gtggagatgt gaagtctgtg tgcttgacgt tgttcctgct ggcactgagg 1320
gcaaggaatg agcacagaca agctgatgag ctcgaggcca tcatgcaagg ccggggctcc 1380
ggtcttcaac cagctgtttg cttggccatc cgtgtcaata ccttcctcag ctgtagccaa 1440
taccataaga tgtacaggac ggtgaaagct atcactggga ggcagatttt tcaacctttg 1500
cacgctcttc gcaatgctga gaaggtcctc ctaccaggct accacccctt tgagtggcag 1560
ccccctctga agaacgtgtc ctccagaact gacgttggaa ttattgatgg gctctctgga 1620
cttgcctcct ccgtagatga atacccagtg gacacaattg caaagaggtt ccgctatgac 1680
tctgctttgg tgtctgcttt gatggacatg gaggaagaca tcttggacgg catgagatcc 1740
caagatcttg atgactacgt gagtggtccc ttcaccgtgg tggtaaagga atcgtgtgat 1800
ggaatggggg atgtgagtga gaagcacggg agtgggcccg cagttccaga aaaggcagtt 1860
cggttctctt tcaccgtcat gagagttaca gtagagcatg gctctcagaa cgtgaagata 1920
tttgaggaac ccaagcccaa ttctgaactg tgttgcaagc cactgtgcct tatgctggca 1980
gatgagtctg accacgagac acttactgct attctcagcc ccctcatcgc tgagagggag 2040
gccatgaaga gcagtgaatt gctgctggag atgggaggca tccccaggac ttttaaattt 2100
atcttcaggg gcactggata tgacgagaaa cttgtcaggg aagtagaagg cttggaagct 2160
tctggctcag tctacatttg tacactttgt gatgccaccc gtctggaagc ctcccaaaat 2220
cttgtcttcc actccataac cagaagccac gccgagaatc tgcagcgcta tgaggtctgg 2280
cggtccaatc cctatcacga gtcagtggaa gaactccggg accgggtgaa aggagtctct 2340
gccaaacctt tcatcgagac agtcccttcc atagatgcgc ttcactgtga cattggaaat 2400
gcagctgaat tctataagat tttccagctg gagatagggg aagtgtataa aaatcccaat 2460
gcctctaaag aggaaaggaa gagatggcag gccaccttgg acaaacatct gcggaaaagg 2520
atgaacttaa aaccaatcat gaggatgaat ggcaactttg cccggaagct tatgacccaa 2580
gagactgtgg acgcagtttg tgagttaatt ccttctgagg agaggcacga agctctcagg 2640
gagctgatgg acctttacct gaagatgaaa ccggtgtggc gctcatcgtg tcctgctaaa 2700
gagtgcccgg agtccctttg tcagtacagt ttcaactcac agcgtttcgc tgagctcctc 2760
tccaccaagt tcaaatacag atacgagggc aaaatcacca attactttca caaaaccttg 2820
gcacacgtcc ctgaaattat tgaaagggat ggctctattg gggcatgggc aagtgagggc 2880
aatgagtctg gtaacaaact gtttaggcgc ttccggaaaa tgaatgccag gcagtccaag 2940
tgctatgaga tggaagatgt cctgaaacac cactggctgt atacttcaaa atacctccag 3000
aagtttatga atgcccataa tgcattaaaa aactctgggt ttaccatgaa ctcaaaggag 3060
actttagggg actctttgga cattgaggac tctctggaaa gccaagattc aatggagttt 3120
taa 3123
<212> Type : DNA
<211> Length : 3123
SequenceName : 12
SequenceDescription :
Sequence
--------
<213> OrganismName : Sstr4
<400> PreSequenceString :
atgaacacgc ctgcaactct gcccctgggg ggcgaggaca ccacctggac ccctgggatc 60
aacgccagct gggctccgga tgaggaggag gatgcagtgc ggtccgacgg cacggggaca 120
gcgggcatgg taactatcca gtgcatctat gcgctcgtgt gtctggtggg cctggtagga 180
aacgccctgg tcatattcgt gatcctacgc tatgccaaaa tgaagacagc caccaacatc 240
tacctgctca acctggccgt cgctgatgag ctcttcatgc tcagtgtgcc atttgtggcc 300
tcggcggctg ccctgcgcca ctggccgttc ggggcggtgc tgtgccgcgc agtgcttagt 360
gtggacggcc ttaacatgtt cacgagtgtc ttctgcctca cagtgctcag cgtggatcgc 420
tatgtggctg tagtgcaccc tctgcgagct gccacctacc ggcggcccag cgtggccaag 480
ctaatcaacc tgggagtgtg gctagcatcc ttgctggtca ccctgcccat cgcagtcttc 540
gctgacacta ggccagctcg tgggggtgag gcagtagctt gcaacctgca ctggcctcac 600
ccggcctggt ctgcagtctt tgtgatctat acttttttgc tgggcttcct actcccggtt 660
ctggctatcg gattatgtta cctgcttatc gtgggcaaga tgcgtgctgt ggccctgcgg 720
gctggctggc aacaacggag gcgctcagag aagaagatca ctaggctcgt gctaatggtg 780
gtgactgtct ttgtgctatg ctggatgcca ttctatgtag tgcagcttct gaatctgttt 840
gtcaccagcc tcgatgccac tgtcaaccat gtgtccctca tcctcagcta tgccaacagc 900
tgtgccaacc cgattctcta tggtttcctc tcagacaact tccgacgctc tttccagcgg 960
gttctgtgcc tgcgctgctg tctcctggaa acaactggag gtgctgagga agagcccctg 1020
gactactatg ctactgctct caaaagcaga ggtggcccag gatgcatatg ccctccattg 1080
ccctgccagc aggagcccat gcaagcagaa cctgcctgca agcgagtccc tttcaccaag 1140
accactactt tctga 1155
<212> Type : DNA
<211> Length : 1155
SequenceName : 13
SequenceDescription :
Sequence
--------
<213> OrganismName : Ptgs2
<400> PreSequenceString :
gaccccaagt tacgtgaact tctggatgtt gggaacatcg gacacttgga acagcgcatg 60
ataactgtgg tgtatgggcc agacctggtg aatatctccc acctgaatct tgtggctttt 120
caagaggaag tggccaagga atggacaaat gaggttttca gtttggcaac aaacctgctg 180
gctcagaaca tgtccaggga cgcatttctg gagaaagcat atactaagct caagcttcag 240
gtgaccccag aagggcgcat tcctcttaaa aacatctatc gactgttttc ggcagaccgg 300
aagcgagtgg aaactgcgct agaggcctgt agtcttccat cgtcaaggaa cgattccatc 360
cctcaagagg actttactcc agatgtatac agagttttcc tgaacaatct ttgtccccga 420
cctgaaattg ataacatctt ctctgaattt ggtgccaaaa gcaaaccgta ccttactgtt 480
gatcagatga tggattttat caaccttaag cagagagatc cccggctgaa tgaaatactt 540
tacccacctc tgaagcaaga gcaggtccaa gtgttgattg agaagtacga gcccaacagc 600
agcctcgcca agaaagggca gatgtcagtg gatggattca tgcgctacct gagcggagaa 660
gaaaatggag tcgtttcacc tgagaaactg gatttgaacg aagacatgtc tcagcccctg 720
tctcactatt tcatcaattc ctcacacaac acctacctca cagctggcca gttggctggg 780
aactcgtctg tagagatgta tcgccaggtg cttctgtctg gatgtcgctg tgtggagctg 840
gactgctgga agggcaggac cgctgaggaa gagcctgtca tcacccatgg attcaccatg 900
acaacagaaa tatccttcaa ggaagtcata gaagccatcg cagagtgtgc gttcaagact 960
tctccttttc ccatcctcct ttcctttgag aaccatgtgg attccccgaa gcaacaagcc 1020
aagatggccg agtattgccg attaatcttt ggtgatgccc tccttatgga gccactggaa 1080
aaatacccac tggaatctgg ggtacctctt ccaagcccta tggatttaat gtataaaatc 1140
ttggtgaaaa acaagaagaa gtcacacaag tcgtcagagg gaagtggtaa aaagaagctc 1200
tctgagcaag cttccaacac gtacagcgac tcttccagcg tgttcgagcc ttcgtctccg 1260
ggagctgggg aagcagatac ggagagtgat gacgatgacg acgatgatga ctgtaaaaag 1320
tcttccatgg atgaggggac tgctggcagc gaggccatgg ccacagaaga gatgtctaac 1380
ctggtgaact atattcagcc tgtcaagttt gagtcctttg aaacttcaaa aaaaagaaat 1440
aaaagctttg aaatgtcttc cttcgtggaa accaaaggac tcgaacaact cacgaagtct 1500
ccagttgaat ttgtcgaata caacaagatg cagcttagca ggatatatcc caaaggaaca 1560
cgcgtggact catccaacta catgcctcag ctcttctgga atgctggctg tcagatggtg 1620
gcgctcaact tccagacagt ggatctagct atgcagataa acatgggcat gtacgaatac 1680
aatgggaaga gtggctacag gctgaagcca gagttcatga ggaggccaga caagcatttt 1740
gatccattta ctgaaggaat cgtagatggg atagtggcca acactttatc tgttaagatt 1800
atttcaggtc agtttctctc tgataagaaa gttgggactt atgtggaagt ggatatgttt 1860
ggtttgcctg tggacacaag aaggaaggca tttaaaacca agacatccca aggaaatgct 1920
gtaaatcctg tctgggaaga agagccaatt gtattcaaaa aggtagttct gccttctctg 1980
gcctgtttaa ggatagcagc atatgaggaa ggaggcaaat ttattggcca ccggatcttg 2040
cctgtgcaag caattcggcc aggctatcac tacatctgcc tgcggaatga gaggaaccag 2100
cccctgatgc tgccagctgt ctttgtctac atagaagtca aagactatgt cccagacacg 2160
tatgcagatg taattgaagc attatcaaac ccaatccgat atgtcaatct gatggaacag 2220
agagctaagc agttggctgc attgacactg gaggatgaag aggaagtcaa gaaggaggct 2280
gaccccgggg aaacgtcatc cgaggctcca agtgaaacca ggacaactcc agcagagaat 2340
ggggtgaatc acaccgcaac ccttgcaccc aagccacctt cccaggctcc acacagccag 2400
cctgctccag ggtctgtgaa ggcacccgcc aaaacagagg atctgattca gagcgtgtta 2460
acagaagtag aggcgcagac cattgaagag ctcaagcaac agaaatcgtt cgtgaaactt 2520
caaaagaagc actacaaaga aatgaaagac ctggtcaaga gacaccacaa gaaaaccacc 2580
gagctcatca aggagcatac caccaagtac aatgagattc agaatgacta cttgagaagg 2640
agggcagcct tggaaaagtc cgccaaaaag gatagcaaga agaaatctga acccagcagc 2700
ccagatcatg gctcatccgc cattgagcaa gacctcgcgg ccctggatgc agaaatgact 2760
cagaagttga tagacttgaa agacaagcaa caacagcagc tgcttaatct tcggcaagag 2820
cagtattaca gtgagaagta ccagaagcgg gagcacatta aattggtaag ccagaagctg 2880
ccgggctctg cagaggag 2898
<212> Type : DNA
<211> Length : 2898
SequenceName : 14
SequenceDescription :
Sequence
--------
<213> OrganismName : Mapt
<400> PreSequenceString :
atggctgaac cccgccagga gtttgacaca atggaagacc aggccggaga ttacactatg 60
ctccaagacc aagaaggaga catggaccat ggcttaaaag agtctccccc acagccccca 120
gccgatgatg gatcagaaga accagggtcg gagacctctg atgctaagag cactccaact 180
gctgaagacg tgactgcgcc cctagtggaa gagagagctc ccgacaagca ggcgactgcc 240
cagtcccaca cggagatccc agaaggcacc acagctgaag aagcaggcat cggagacacc 300
ccgaacatgg aggaccaagc tgctgggcat gtgactcaag aaccgcagaa ggtcgagatt 360
ttctcacaaa gtttgcttgt cgaaccaggg cgtcgtgaag gccaggcccc agattcaggg 420
atctcagact ggacccacca acaggtgcct agcatgtctg gggctcccct cccgccacaa 480
ggcctcagag aggctacaca ccaacctttg ggaacaagac ctgaggatgt agagagaagt 540
cacccggcct ctgagctgct gtggcaagag tcacctcaga aggaagcctg gggcaaagac 600
aggctgggaa gtgaggagga ggtggacgaa gacatcacca tggatgaatc gtcccaggaa 660
tcccctccct cccaagcctc cctggcccct ggcacggcca cccctcaggc ccgctccgtt 720
tctgcttccg gggtctctgg ggagaccact agcatccctg gattcccagc tgagggttcc 780
atcccacttc ctgctgattt cttctccaaa gtctccgcag agacccaggc ctcaccgcca 840
gaagggcctg gcacggggcc ctcggaggaa gggcacgagg ctgcccctga gttcacattc 900
cacgtggaaa tcaaagccag cgcgccgaag gaacaggatt tggaaggggc tacagtggtg 960
ggggcccctg cagaggagca aaaggcccga ggcccctctg tgggaaaggg cacgaaagag 1020
gctagccttc tggaaccaac tgacaagcaa cctgcagccg gcctgccagg aaggccagtc 1080
agtcgggttc ctcaacttaa agctcgagtg gccggcgtaa gcaaagacag gacaggaaat 1140
gacgagaaga aagccaagac atccacacct tcctgtgcta aaaccccgag caataggcct 1200
tgccttagcc ccacacgtcc cactcctggt agctcagacc ctttgatcaa accctccagc 1260
cctgccgtgt gccctgagcc agccacctct cctaaatacg tctcttctgt cacaccccga 1320
aatggcagtc ctggaacaaa gcagatgaaa ctcaagggcg ccgatggcaa aacgggggcg 1380
aagatcgcca cacctcgggg agcagccact ccgggccaga aaggcacatc caatgccacc 1440
aggatcccag ccaagaccac acccagccca aagactcctc caggatcagg tgaaccacca 1500
aaatccggag aacgaagcgg ctacagcagc cccggctcgc ccggaacccc tggcagtcgc 1560
tcccgtaccc catccctacc aacgccgccc acccgagagc ccaaaaaggt ggcagtggtt 1620
cgcactcccc ctaagtcacc gtctgccagt aagagccgcc tacagactgc ccctgtgccc 1680
atgccagacc taaagaacgt caggtccaag attggctcca ctgagaacct gaagcaccag 1740
ccgggaggcg gcaaggtgca gataattaat aagaagctgg atcttagcaa cgtccagtcc 1800
aagtgtggct caaaggacaa tatcaaacac gtcccgggcg gaggcagtgt gcaaatagtc 1860
tacaagccag tggacctgag caaggtgacc tccaagtgtg gttccttagg gaacatccat 1920
cacaagccag gaggtggcca ggtagaagta aaatcagaga agctggactt caaggataga 1980
gtccagtcga agattggctc cttggataac atcacccatg tccctggagg agggaataag 2040
aagattgaaa cccacaagct gaccttcagg gagaatgcca aagccaagac agaccatgga 2100
gcagaaatcg tgtacaagtc acctgtggtg tctggggaca catctccacg gcacctcagc 2160
aacgtctcct ccacgggcag catcgacatg gtggactctc cacagcttgc cacgttagcc 2220
gatgaagtgt ccgcctcttt ggccaagcag ggaaaacctg tgttactgag ttctgaagtt 2280
tggaactaca gccatgattt tggccaccat acagacctgg gactttag 2328
<212> Type : DNA
<211> Length : 2328
SequenceName : 15
SequenceDescription :
Sequence
--------
<213> OrganismName : Ptprz1
<400> PreSequenceString :
atggattact tacaaaacaa tttccgagaa caacagtaca agttttccag gcaggtgttt 60
tcttcgtaca ctgggaagga agagattcat gaagcagtgt gcagttcaga accagaaaat 120
gtgcaagctg accctgagaa ttacaccagc cttctgatca catgggaaag gcctcgggtt 180
gtttatgaca caatgattga gaagtttgcg gttctgtacc agccactgga gggaaacgac 240
caaaccaagc atgagttttt aacagatggc tatcaggact tgggtgccat tctcaataac 300
ttaataccta acatgagtta tgtgctccaa atagtggcca tatgctctaa tggcctttat 360
ggaaagtaca gtgaccaatt gatagtcgac atgcctactg aggatgctga acttgacctc 420
tttcctgaat taattggaac tgaagaaata atcaaggagg aagactatgg aaaaggcaat 480
gaagaagaca ctggcttgaa tcccggtaga gacagtgcca caaaccaaat aaggaaaaag 540
gaaccccagg tttctaccac aactcactat aatcacatgg ggactaaata taatgaagcc 600
aagactaacc gatctccaac gaaaggatct gaattctctg gaaagagtga tgttctcaac 660
acatccctga atcctacttc ccaacaggtt gctgaattca atccagaaag agaaatgtcc 720
ttgccttctc agattggaac taacctgcca ccacacagtg tggaaggcac ctcagcctcc 780
ttaaacagtg gctctaaaac tctccttgtc ttcccacaga tgaacttgtc tgggactgca 840
gaatccttaa atatggtttc cataacagag tacaaagagg tgtctgctga cctcagtgag 900
gaagaaaact tactgactga tttcaagctc gatagtggag cagatgattc gtcaggctct 960
agccctgcgt cctccactgt ccccttttcc acagataatc tatcccatgg atatacatct 1020
tcttcagata cgcccgaggc ggtcacgtat gatgtcctta ggccagaatc tacgagaaat 1080
gctctagagg attcggctcc atcaggttca gaagaatcac taaaggatcc ctctcttgaa 1140
gggagtgtgt ggttccctgg atccacagac ctaacaacac agtctgagac tggatctggg 1200
agagagggct ttctccaagt taactccacg gacttccaag ttgatgaatc gagggagaca 1260
actgagacat tttctccaga tgctaccgcg tcccggggtc cttcggtcac agatatggaa 1320
atgccacatt attctacctt tgcctacccc ccgactgaag taacaccaca tgctttcact 1380
ccatcctcca gaccacttga tttggctccc actagcaaca tcctccattc gcagacaact 1440
caaccagtat acaatggtga gacacctctt caaccttcct acagtagtga agtctttcct 1500
ctagtcaccc ctttgttgct tgacaatcag accctcaaca ctacccctgc tgcttcaagt 1560
agtgattcgg ccttgcatgc tacgcctgta ttccccagtg ttggtgtgtc atttgactcc 1620
atcctgtctt cctatgatga tgcacctctg ctcccatttt cctctgcttc cttcagtagt 1680
gacttgtttc accatctgca tacggtttct caaacccttc cgcaagttac ttcagctgct 1740
gagagggatg agctgtcttt gcatgcttct ctgctggtgg ctgggggtga tttgctgtta 1800
gagcccagcc ttgttcagta ttctgatgtg atgtcacatc aggtcactat tcatgctgct 1860
tcggacacat tggaatttgg tagtgagtct gctgtccttt ataaaacgtc tatggtttct 1920
caaatcgaat cacccagcag tgatgtcgtt atgcatgcat attcgtcagg gcctgaaact 1980
tcttatgcca ttgagggctc ccaccacgtg ctcactgttt cttccagttc tgcaatacct 2040
gtgcatgatt ctattggtgt agctgatcag gggtccttac ttatcaatcc tagccatata 2100
tcactgcctg agtcctcatt tattactcca actgcatcat tactgcagct tcctcctgcc 2160
ctctctggtg atggggagtg gtctggagcc tcctctgata gtgaattgct tttacctgac 2220
acagatgggc tgagaactct taacatgtct tcacctgttt ctgtagctga ttttacatac 2280
acgacatctg tgtctggcga tgatattaag ccgctttcta aaggtgaaat gatgtatgga 2340
aatgagactg aactgaaaat gtcttctttc agtgacatgg catacccttc taaaagcaca 2400
gtcgtgccaa agatgtctga tattgtaaat aagtggagtg aatctttaaa agaaacctct 2460
gtttccgtat ctagcataaa cagcgtgttt acagagtctc tggtttatcc cataactaag 2520
gtttttgatc aggagattag tcgagttcca gagattatct tcccagttaa acctacacac 2580
acagcatctc aagcatctgg tgacacttgg cttaaacccg ggcttagcac aaactcagag 2640
cctgcgctct ctgacactgc ttctagtgaa gtattacacc cttcaacaca gcccttgctc 2700
tatgaggccg catctccttt taatacggaa gcattgctgc aaccttcctt tccggcttct 2760
gatgttgaca ccttgcttaa aactgccctt ccctctgggc ctcgtgatcc agtgctgact 2820
gaaaccccca tggttgagca aagtagctct tccatgtctc ttcccctggc atcagagtct 2880
gcttcaagca aaagcacgct gcactttaca tctgtaccag ttctcaatat gtcaccttct 2940
gatgtgcacc ccacttcact tcaacgctta acagttcctc actcgaggga ggaatatttt 3000
gaacaaggtt tgcttaagag caaaagtccc cagcaagtcc tgccgtcctt gcacagccat 3060
gacgagtttt tccaaactgc acatctggac attagccagg cctaccctcc aaaaggaagg 3120
catgcatttg ctactcctat tttatcaatc gatgaaccac aaaatacact tataagcagg 3180
cttgtgtatt ctgaggacat tttcatgcac cctgaaattt ctattactga taaggcactt 3240
actggtctac caacgaccgt ttctgatgta cttatagcta ctgaccattc tgttccatta 3300
ggaagtgggc ccatttccat gacaactgtt tctcccaaca gagatgattc tgtgaccaca 3360
accaagttgc ttcttccttc taaagctact tctaagccga ctcatagtgc cagatctgat 3420
gccgatttag taggaggtgg tgaagatggt gatgactatg atgatgatga ttatgatgac 3480
atagatagtg atcgctttcc cgtaaataag tgtatgtcat gttcacccta tagagaatca 3540
caggaaaagg taatgaatga ctcggacacc caagaaagca gtcttgtgga tcagagtgac 3600
ccaatttcac atttgctctc tgagaatacc gaagaagaaa atggaggcac gggtgtaact 3660
agggtggata aaagtcctga taagtcacca ccaccaagta tgctacccca gaagcacaat 3720
gatggaagag aggaccgtga cattcagatg ggtagtgctg tccttcctca caccccagga 3780
tctaaagcat gggcagtttt gacaagtgat gaagagagtg ggtcagggca aggcacctca 3840
gatagcctta atgataatga gacttccaca gatttcagtt tcccagatgt taatgaaaag 3900
gatgctgatg gtgtcctgga agcagatgac acaggcatag ctccgggatc tccacggtcc 3960
tccacaccat ctgttactag tgggcattca ggagtatcca acagttcaga ggcagaggcc 4020
agtaatagta gccatgagtc tcgtattggt ctagctgagg ggttggagtc tgagaagaag 4080
gcggttatac cccttgtgat cgtgtctgcc ctgactttta tctgtctagt ggttcttgtt 4140
ggtattctca tctactggag aaaatgcttc cagacggctc acttttattt agaagacaat 4200
acatcccctc gagtaatatc tacaccacca acacccatct ttccaatttc agatgatatt 4260
ggagcaattc caataaagca ttttccaaag cacgtagcag acttacatgc aagtaatggg 4320
ttcactgaag aatttgagac actgaaagag ttttaccagg aagtgcagag ctgcactgtt 4380
gacttaggta ttacagcaga cagctccaat cacccagaca acaagcacaa gaacagatat 4440
gtcaacatcg tagcctatga tcatagcagg gttaagctca cacaacttgc tgaaaaagat 4500
ggaaaactga ctgattacat caatgccaat tatgttgatg gttacaacag gccaaaggct 4560
tacattgctg cccagggtcc actgaagtcc acagcagaag atttctggag aatgatatgg 4620
gagcataatg tggaagtcat cgttatgata acaaacctcg tggagaaagg aagaagaaaa 4680
tgtgaccagt actggcctac tgatggcagt gaagaatacg ggagcttcct ggtcaaccag 4740
aagaatgttc aggtgcttgc ttattatact gtgaggaatt tcaccctaag aaacacaaag 4800
ataaaaaagg gctctcagaa aggaagatcc agtggacgcc tagtcactca gtatcattac 4860
acccagtggc ctgatatggg tgttcccgag tactccctac ccgtgctggc ctttgtgagg 4920
aagactgctc aggccaagcg acatgcagtc gggccagttg ttgtccactg cagcgctggc 4980
gtggggagaa cgggcacata cattgtacta gacagtatgc tacagcagat tcaacacgaa 5040
ggaaccgtca acatatttgg tttcttaaaa cacattcgtt ctcaaaggaa ttatttggtg 5100
caaacagagg agcaatacgt cttcattcac gacacactgg ttgaggccat actcagcaaa 5160
gagacagagg tgcctgacag ccacatccat tcctatgtta atacactcct catacccgga 5220
ccatcaggca agacaaaact agagaaacaa ttccagcttc tgagtcagtc aaatattctt 5280
cagagtgact actccacggc cctgaagcag tgtaacaggg agaagaacag aacatcctcc 5340
atcatccccg tggaaagatc gagggtgggc atttcatccc tgagtgggga aggcacagac 5400
tacatcaatg catcctatat tatgggttat taccagagca atgaattcat catcacccag 5460
cacccccttc tacacaccat caaggacttc tggagaatga tatgggatca taatgcccag 5520
ctggtggtta tgattccaga tggtcaaaac atggcagagg atgaatttgt ttactggcca 5580
aataaagatg agcccataaa ttgcgagagc ttcaaagtca cgcttatgtc tgaagaacac 5640
aaatgtcttt cgaatgagga aaaactgata gttcaagact tcatcttgga agcgacacag 5700
gatgattatg tgctggaagt aaggcatttt cagtgcccga aatggccaaa tccagatagt 5760
cccattagta aaacatttga acttataagt attatcaaag aagaagctgc taacagagat 5820
gggcccatga ttgttcacga tgagcatgga ggagtaacag cagggacatt ttgtgctctc 5880
acaaccctta tgcaccaact agaaaaagaa aactccatgg atgtttacca agtagccaag 5940
atgatcaatt tgatgaggcc gggagtcttc actgacattg agcagtacca gtttctctac 6000
aaagtggtcc tcagcctggt cagcacaagg caggaagaga atccatccac ctccctggat 6060
agtaatggtg cagctttgcc tgatggaaat atagctgaaa gcctggagtc tttagtctga 6120
<212> Type : DNA
<211> Length : 6120
SequenceName : 16
SequenceDescription :
Sequence
--------
<213> OrganismName : Map2k3
<400> PreSequenceString :
atggagtcgc ccgccgccag cccgccggcc agcttgcctc agaccaaagg aaaatccaaa 60
aggaaaaggg atttacggat atcctgtgtg tccaagccac ccgtgtccaa ccccacaccc 120
ccccggaacc tggactcccg gaccttcatc actatcggag acagaaactt cgaagtggag 180
gctgatgact tggtgaccat ctcagagctg ggccgcggag cctatggggt ggtggagaag 240
gtgcggcatg ctcagagtgg taccatcatg gctgtcaagc gcatccgggc cactgtgaac 300
tcacaggagc agaaacgtct gcttatggac ctagacatca acatgcgcac tgtcgactgc 360
ttctatactg tcaccttcta tggtgccctc tttagagagg gggatgtgtg gatctgcatg 420
gaactcatgg acacgtccct ggataagttc taccggaagg tgctagagaa gaacatgaaa 480
attccggaag acattctggg ggagattgct gtatccatcg tgcgggccct ggagcaccta 540
cacagcaagc tgtctgtgat ccacagagat gtgaagcctt ccaatgtcct catcaacaaa 600
gaggggcacg tgaagatgtg cgactttggc atcagtggct acctggtgga ctctgtggca 660
aagacaatgg atgctggctg caagccttac atggcccctg agaggatcaa ccctgagctg 720
aatcagaagg gctacaacgt caagtctgat gtctggagcc ttggcatcac catgattgag 780
atggccattc tgcgattccc ttacgagtct tgggggacac cgttccagca gctgaagcag 840
gtggtggagg agccatcccc acagctccca gcagaccagt tctcccctga gtttgtggac 900
ttcacaagcc agtgcctcag gaagaatcct gcggaacgca tgagctacct ggagctgatg 960
gaacacccgt tcttcacctt gcacaaaact aagaagacgg acattgctgc ctttgtgaag 1020
gagatcctgg gagaggattc atag 1044
<212> Type : DNA
<211> Length : 1044
SequenceName : 17
SequenceDescription :
Sequence
--------
<213> OrganismName : Ccl2
<400> PreSequenceString :
atgcaggtct ctgtcacgct tctgggcctg ttgttcacag ttgctgcctg tagcatccac 60
gtgctgtctc agccagatgc agttaatgcc ccactcacct gctgctactc attcactggc 120
aagatgatcc caatgagtcg gctggagaac tacaagagaa tcaccagcag caggtgtccc 180
aaagaagctg tagtatttgt caccaagctc aagagagaga tctgtgctga ccccaataag 240
gaatgggtcc agaagtacat tagaaaactg gaccagaacc aagtgagatc agaaactaca 300
gtcttctata aaattgcatc aaccctaagg acttcagcac ctttgaatgt gaacttgacc 360
cataaatctg aagctaatgc atccactctc ttttccacaa ccacctcaag cacttctgta 420
gaagtgacca gtatgacaga gaactag 447
<212> Type : DNA
<211> Length : 447
SequenceName : 18
SequenceDescription :
Sequence
--------
<213> OrganismName : Per1
<400> PreSequenceString :
atgagcggtc ccctagaagg ggctgatggg ggaggagacc ccaggcccgg agaacctttt 60
tgtcctggag gagttccatc ccctggggcc ccacagcatc ggccttgtcc aggccctagc 120
ctggctgatg acactgatgc aaacagcaat ggctcaagtg gcaatgaatc caatggacac 180
gagtccaggg gtgcatctca gcggagttct cacagttcat cttctggcaa tggcaaggac 240
tcagctctgc tggagaccac tgagagcagc aagagtacaa actcacagag cccatcccca 300
cccagcagct ccattgccta tagtctcctg agtgcaagct cagagcagga caacccgtct 360
accagtggct gcagcagtga acagtcagct cgagccagga cccagaaaga actcatgacc 420
gcacttcggg agctcaaact tcggctgcca ccagagcgtc ggggaaaggg ccgctctggg 480
accctggcca cactccagta tgctctggcc tgtgtcaagc aggtgcaggc taaccaggaa 540
tattaccagc agtggagcct ggaggagggt gagccctgtg ccatggacat gtctacttac 600
accctggagg aattggagca tatcacatct gaatacactc tccgcaacca ggataccttc 660
tcggtggctg tgtccttcct gacaggccgg attgtctata tttcggagca ggcaggtgtc 720
ctgctgcgtt gcaaacggga tgtgtttcgg ggtgctcgct tctcagagct cctagctccc 780
caggatgtgg gtgtcttcta tggctctact acaccatctc gcctgcccac ctggggcact 840
ggcacctctg caggttcagg cctcaaggac ttcacccagg aaaagtctgt cttctgccga 900
atcagaggag ggcctgaccg ggatccaggg cctcgctacc agccattccg cctaacccca 960
tatgtgacca agattcgtgt ctcagatggg gcccctgcac agccgtgctg cctgctcatt 1020
gcagagcgca tccactctgg ttatgaagct ccccggattc ctcctgacaa gaggatcttc 1080
accacacggc acacaccaag ttgcctcttc caggatgtag atgaaagggc tgccccactg 1140
ctgggttacc taccccagga tctcctgggg gctccggtac ttctctttct acatcctgag 1200
gaccgacctc tcatgctggc cattcataag aagattctgc agttggcagg ccagcccttt 1260
gaccactccc ctattcgatt ttgtgctcgg aatggggaat atgtcaccat ggataccagc 1320
tgggccggct ttgtgcaccc ctggagccgc aaggtggctt tcgtgctggg ccgccataaa 1380
gtgcgcacgg cacccctgaa tgaggacgtc ttcacacccc cagttcccag tccagctccg 1440
tccctggact ctgatatcca ggagctctca gagcagatcc atcgattgct gctgcagcca 1500
gtgcacagct ccagcaccac ggggctctgt ggagttggcc ctctgatgtc ccctggtcct 1560
ctccacagcc ctggctcctc cagtgatagc aatgggggtg atgctgaggg gcctgggcct 1620
cctgctccag tgactttcca gcagatctgt aaggatgtgc atctggtaaa gcaccaggga 1680
caacagctct tcattgagtc ccgggccaag cctccgcccc ggccccgcct ccttgctaca 1740
ggtacattca aggccaaagt ccttccctgc cagtccccaa acccggaact ggaggtggcc 1800
cctgctcctg accaagcctc attagcattg gcccctgagg agccagagag gaaagagtcc 1860
tctggctgct cctaccagca aatcaactgc ctggacagca tcctcaggta tttggaaagc 1920
tgcaacattc ctaacacaac caagcgtaaa tgtgcctcct cttcctgcac ggcctcttca 1980
gcctctgatg atgacaagca gagggcgggt ccagttcctg tgggggccaa gaaagatacg 2040
tcgtcagcag tgctgtctgg ggagggggca actcctcgga aggagccagt ggtgggaggc 2100
accctgagcc cgctcgccct ggccaataag gcagagagcg tggtgtccgt caccagtcag 2160
tgtagcttca gctccaccat cgtccatgtg ggagacaaga agcccccgga gtcggacatc 2220
atcatgatgg aagacctgcc tggcctggcc cctggtccag cccccagtcc agcccccagc 2280
cccacagtag cccctgaccc agccccagat gcttatcgcc cagtgggtct gaccaaggcc 2340
gtgctgtccc tgcacaccca gaaggaagag caagccttcc tcagccgctt cagagacctc 2400
ggcaggcttc gtgggcttga cacctcttct gtggcgcctt cagcccctgg ttgccaccat 2460
ggccccattc cctctggtcg ccgacaccac tgccgatcta aagcaaagcg ttctcgccac 2520
caccagaccc cccgacccga aaccccctgc tatgtgtctc atccttcacc tgtgccctct 2580
tctggaccct ggccaccccc accagccact acccccttcc cagcagtggt ccagccctac 2640
ccactcccag tgttctcccc tcgaggagga ccccagccgc ttcctcctgc ccccacatct 2700
gtgtcacctg ctaccttccc ttctccctta gtgaccccaa tggtggcctt ggtgctccct 2760
aactatttat tcccttcccc aactagttac ccatatgggg tatcccaggc tcctgttgag 2820
gggccaccta cacctgcttc ccactcacct tctccatccc tacccccacc acctcccagc 2880
cccccccacc gcccagactc cccactgttc aactcaagat gcagttcccc actccagctc 2940
aatctgctgc agcttgagga gtccccccgc actgaagggg gtgctgctgc aggaggcccc 3000
ggaagtagtg ctgggcccct gcctcccagt gaggagtctg ctgagccaga gcccagactg 3060
gtggaggtca cggagtcatc caatcaggat gcactttcag gctccagtga cctgctagag 3120
ttactgctcc aggaggactc tcgctctggc acaggctccg cagcctcggg ctccctgggc 3180
tccggcctgg gctctgggtc tggttcggga tcccacgaag ggggaagcac ctcagccagc 3240
atcactcgca gcagtcagag cagccataca agcaagtact ttggcagcat cgactcttca 3300
gaggctgaag ctggagctgc tcaggccagg actgagcctg gggaccaggt cattaagtat 3360
gtgctccagg atcccatctg gctgctcatg gccaacgctg accagcatgt catgatgacc 3420
taccaggtgc cgtccaggga tgcagcgtct gtgctgaagc aagaccggga gaggctccgg 3480
gccatgcaga aacaacagcc acggttctca gaggaccagc ggcgggaact gggtgctgtg 3540
cactcctggg tccggaaggg ccagctgcct caggccctcg atgtaacggc ttgtgtggac 3600
tgtggtagca gtgttcaaga tcctggccac tcggacgacc ctctcttctc agaactggat 3660
ggattggggc tggagcctat ggaagagggt ggaggcgagg gaggtggtgt tggcgggggt 3720
ggaggtggtg ttggcggggg tgggggtgat ggtggtgagg aggcccagac ccaaattggg 3780
actaagggct caagctctca ggactctgcc atggaggaag aagaacaagg tgggagctct 3840
tccagtccag ctttacctgc agaagagaat ggcaccagct ag 3882
<212> Type : DNA
<211> Length : 3882
SequenceName : 19
SequenceDescription :
Sequence
--------
<213> OrganismName : Lyn
<400> PreSequenceString :
atgggatgta ttaaatcaaa aaggaaagac aatctgaatg acgatggagt agatatgaag 60
actcaaccag tacgtaatac tgaccgaact atttatgtga gagatccaac gtccaataaa 120
cagcaaaggc cagttcctga atctcaactt ttaccaggac agagatttca agcaaaagat 180
ccagaggagc aaggggacat tgtggtggcc ttgtatccct atgatggcat ccacccagac 240
gacttgtctt tcaagaaagg agaaaagatg aaagttctgg aagagcacgg ggagtggtgg 300
aaagctaagt ccctttcatc aaagagagaa ggcttcatcc ccagcaacta cgtggccaag 360
gtcaacacct tagaaaccga agagtggttc ttcaaggaca taacaaggaa agatgcagaa 420
cgacagcttc tggcaccagg gaacagtgcc ggggctttcc tgatcagaga aagtgaaact 480
ttaaagggaa gcttctctct ttccgtcaga gattacgacc ctatgcatgg cgacgtcatt 540
aagcactaca aaatcagaag cctggacaat ggtggttatt acatctctcc gaggatcact 600
tttccctgta tcagtgacat gattaagcat taccaaaagc agtctgatgg tctatgcaga 660
agactggaga aggcatgcat cagtcccaaa ccacagaagc catgggataa agatgcttgg 720
gagatccccc gggagtccat taagctggtg aaaaaactcg gcgcagggca gttcggggaa 780
gtctggatgg gttactataa caacagcaca aaagtggctg taaagaccct caagcctggc 840
accatgtctg ctcaagcatt cctggaagag gccaacctca tgaagacctt gcagcatgac 900
aagctagtgc ggctgtatgc cgtggtcacc aaggaggagc ccatctacat cattaccgag 960
ttcatggcca agggtagctt gctggatttc ctcaagagtg acgaaggcag caaggttctg 1020
ctcccgaaac tcattgactt ttcagctcag attgcagaag gcatggcgta catcgagcgg 1080
aagaactaca tccaccgcga tctgcgagct gccaacgtgc tggtctctga gtctctcatg 1140
tgcaagattg cagactttgg cctcgcgaga gtaatcgaag ataatgaata cacagcgagg 1200
gaaggtgcca agttccctat caagtggacg gctccagagg ccatcaactt cggctgcttc 1260
actatcaagt ctgacgtgtg gtccttcgga attctcctgt acgagatcgt cacctatggg 1320
aagattccct acccagggag aactaacgca gatgtgatga ccgcactgtc acaggggtac 1380
cgaatgccac gaatggagaa ctgtccagat gagctctatg acatcatgaa aatgtgctgg 1440
aaggaatcag cagaggagag gccaaccttt gactacttac agagtgtact ggatgacttc 1500
tacactgcca cggaagggca gtatcagcag cagccatag 1539
<212> Type : DNA
<211> Length : 1539
SequenceName : 20
SequenceDescription :
Sequence
--------
<213> OrganismName : Tlr2
<400> PreSequenceString :
atgctgcaag ctctttggct cttctggatc ttgatggctg tgataggcct ctcaagggaa 60
ggccattctg cccaggcatc tctgtcatgt gatgctgctg gtgtgtgtga tggcagctcc 120
aggtctttca cctctattcc ctcgggactc acagcaaaca caaagaagct tgacctgtct 180
ttcaacaaga tcacctacat tggccatggt gacttgcgag cctgtgtgaa cctccgggtt 240
ctgacattgg agtccagcgg aatcaacaca atagagggag atgcctttta ttctctgggc 300
agtcttgaac acttggactt gtctaataat cacctatcta gtttatcttc ctcctggttc 360
aggccccttt cctctttgaa atacttaaac ttaatgggaa atccttacag gacactgggg 420
gaaacatcac tgttctccaa tctcacaaat ttacaaaacc ttagggtagg aaatgttgac 480
actttcagtg agataaggag aatagatttt gctgggctga cctctctcaa cgaacttgaa 540
attcaggtat taagtctcgg caactatgag tcccgaagtc tacagtcaat tagagacatc 600
tatcacctga ccctgcactt gagcgagtct gctttcctgc tggggatttt tgcagatatt 660
ctgagttccg tgagatattt agaactaaga gatactaact tggctaggtt ccaattttct 720
gaactgtctg tagacgaaat caattcgcca atgaagaagc tggcattccg gaatgcagat 780
ctcaccgata aaagttttaa tgaactcctg aagctgttgc gttacatctt ggaactgatg 840
gaggtggagt ttgatcactg caccctcaat ggggttggta atttcaaccc ctcagagtca 900
gacgtagtga gggagctagg taaagtagaa acggtaacaa tacggagcct gcacatcccc 960
cagttctatt tgttctatga tctgagcact gtgtattccc tcctggagaa agtgaagcga 1020
atcacagtag agaacagtaa ggtctttctg gttccctgct ctttctcaca gcatttaaaa 1080
tcattagagt tcttagacct cagcgaaaat ctgatggttg aagagtattt gaaaaactca 1140
gcctgtgagg gtggctggcc ttctctacaa agcttggttt tgagtcagaa tcatttgaga 1200
tcaatacgaa aaactgctga gattttgctg actctgaaaa acctgacagc ccttgacatc 1260
agcaagaaca gttttcagcc tatgcccgac agttgtcagt ggccaggaaa gatgcgcttc 1320
ctgaacttgt ccagtacagg gatacaggcc gtcaagacat gcattcctca gaccctggag 1380
gtgttggatg ttagtaacaa caatctcgat tcattttctt tgtttttgcc tcggctccaa 1440
gagctgtata tttccagaaa taaactgaag acactcccag aagcttcatt gttccctgtg 1500
ttacaggtca tgaagatcag agagaacgca ataagtactt tctctaaaga ccagcttggt 1560
tcttttccca aactggagac tctggaagca ggtgacaacc atttcatctg ctcctgtgaa 1620
ctcctgtcct tcattctgga gaggccagcc ctggtccatg tcctggttga ctggccagac 1680
agctacctgt gtgattctcc gcctcgcctg catggccaga ggcttcagga tgcccggccc 1740
tcagtcttgg agtgtcacca ggccgcactg gtctctggag tctgctgtgc ccttctcctg 1800
ttgatcctgc tcttaggcgc cctgtgttac catttccatg ggctgtggta tctgagaatg 1860
atgtgggcgt ggctccgggc caagaggaag cccaagaaag ctccttgcag ggacctttgc 1920
tatgatgcct ttgtttccta cagcgagcag gattcctatt gggtggagaa cctcatggtc 1980
cagcagctgg agaactctga cccacccttc aagctgtgtc tccacaagcg ggactttgtt 2040
ccgggcaaat ggatcattga caacatcatt gattccatcg aaaagagcca caaaacagtg 2100
ttcgtgcttt ctgagaactt cgtacgcagt gagtggtgca agtatgaact ggacttctcc 2160
cacttcaggc tctttgacga gaacaatgac gcggccatcc ttgttttgct ggaacccatt 2220
gagaagaaag ccattcccca gcgcttctgc aaactgcgca agataatgaa cactaagaca 2280
tacctggagt ggcccttgga tgaaggccag cgggaagtgt tttgggcaaa tctgagaact 2340
gcaataaaat cctag 2355
<212> Type : DNA
<211> Length : 2355
SequenceName : 21
SequenceDescription :
Sequence
--------
<213> OrganismName : Hdc
<400> PreSequenceString :
atgatggagc ccagtgaata ccgtgaatac caagctagag ggaaagagat ggtggattac 60
atctgccagt acctgagcac cctgcgggag aggcaggtga ccccaaatgt gaagcctggg 120
tacctgcgag cccagatacc ttcaagtgct cctgaggaac ccgacagctg ggatagcatc 180
tttggggaca ttgagcaaat catcatgcct ggggtggttc actggcagag cccccacatg 240
cacgcctact atccggctct cacctcttgg ccatccctgc taggagatat gctggctgac 300
gccatcaact gcttggggtt cacgtgggct tccagcccgg cctgcacaga gctggagatg 360
aacatcatgg actggctggc gaagatgctg gggctcccgg acttcttcct gcaccaccat 420
cccagcagcc aggggggagg cgtcttgcag agcactgtca gcgaatccac tttaattgcc 480
ctgctggcag caaggaagaa caaaatccta gaaatgaaag cgcatgagcc caatgctgat 540
gagtcctctc tgaacgctcg tcttgttgcc tatgcctctg accaggctca ctcttcagtg 600
gagaaggctg gcttgatttc ccttgtgaag atcaaatttc tgcctgtgga tgacaacttc 660
tcactccgag gagaagctct ccagaaggcc atcgaggaag acaagcaaca gggcttggtg 720
cctgtgtttg tctgtgcaac cttagggacc actggagtct gtgcatttga taagctgtca 780
gagctggggc ccatctgtgc cagggaggga ctgtggctcc acgtcgatgc tgcttatgca 840
ggaacagcct ttctgtgccc tgagctccgg ggcttcctga agggcattga gtacgccgac 900
tccttcacct ttaacccttc caagtggatg atggtgcact ttgactgcac tgggttctgg 960
gtcaaggaca agtacaagct acagcagacc ttcagtgtga accccatcta cctcagacat 1020
gcgaactctg gtgtcgccac tgacttcatg cattggcaga tccccttgag ccggcgcttt 1080
cgctccatta agctgtggtt tgtgattcgg tccttcgggg tgaagaatct tcaagcacat 1140
gtcagacacg gtacagacat ggctaaatac tttgaatctc tggtcaggag cgaccctgtt 1200
ttcgaaattc ctgctgagag gcaccttggt ctggtggttt ttcgtctgaa gggtcccaac 1260
tgtctcacag aaagtgtgtt aaaggaaata gccaaaactg gccaggtctt cctcatccca 1320
gccactatcc aggacaagct gatcatccgt ttcaccgtga cgtcccagtt caccaccaag 1380
gatgacatcc tgagagattg gaacctcatc cgagaggctg ctaaccttgt cctgagccag 1440
cactgcactt ctcagccgag ccctcgggcc aagaacctta ttccaccgcc ggtgaccaga 1500
gactccaaag acctgaccaa tgggctatcc ctggagtctg tcaacgaggg aggagatgac 1560
ccagtacagg tccggaagat cttcaggctg ccaggagaca gtctggaaac gacaatggat 1620
ccctttgatg attgcttctc agaagaggcc tccgatacca ccaagcacaa gctgtcgtcc 1680
tttctgttca gttacttgtc gcagaacaag aagaagacaa tgcggtccct cagctgcaac 1740
agtatgccta tgagtgccca gaagtcacct cccccagatg cttccgtgaa gcatgggggc 1800
ttcttccggg ccagaatctt ttctgggttc ccagaagaaa tgatgatgat gaagaaaggt 1860
ggcttcaaaa agctgatcaa gttctacagt gttcccagct ttcctgaatg cagctctcag 1920
tgtggtaccc tccagctgcc ctgctgccct ctgcaggcca tggtgtag 1968
<212> Type : DNA
<211> Length : 1968
SequenceName : 22
SequenceDescription :
Sequence
--------
<213> OrganismName : Il6
<400> PreSequenceString :
atgaagtttc tctccgcaag agacttccag ccagttgcct tcttgggact gatgttgttg 60
acagccactg ccttccctac ttcacaagtc cggagaggag acttcacaga ggataccacc 120
cacaacagac cagtatatac cacttcacaa gtcggaggct taattacata tgttctcagg 180
gagatcttgg aaatgagaaa agagttgtgc aatggcaatt ctgattgtat gaacagcgat 240
gatgcactgt cagaaaacaa tctgaaactt ccagaaatac aaagaaatga tggatgcttc 300
caaactggat ataaccagga aatttgccta ttgaaaatct gctctggtct tctggagttc 360
cgtttctacc tggagtttgt gaagaacaac ttacaagata acaagaaaga caaagccaga 420
gtcattcaga gcaatactga aaccctagtt catatcttca aacaagagat aaaagactca 480
tataaaatag tccttcctac cccaacttcc aatgctctcc taatggagaa gttagagtca 540
cagaaggagt ggctaaggac caagaccatc caactcatct tgaaagcact tgaagaattt 600
ctaaaggtca ctatgaggtc tactcggcaa acctag 636
<212> Type : DNA
<211> Length : 636
SequenceName : 23
SequenceDescription :
Sequence
--------
<213> OrganismName : Prok2
<400> PreSequenceString :
atggaggacc cgcgctgtgc cccgctactg ctacttttgc tgctaccgct gctgctcaca 60
ccgcccgccg gagatgccgc ggtcatcacc ggggcttgcg acaaggactc tcagtgtgga 120
ggaggaatgt gctgcgctgt cagtatctgg gttaagagca taaggatctg cacacctatg 180
ggccaagtgg gagacagctg ccaccccctg actcggaaaa gtcatgttgc aaatggaagg 240
caggaaagaa gaagggcgaa gagaagaaag aggaagaagg aggttccatt ttgggggcgg 300
aggatgcacc acacttgtcc ctgcctgcca ggtttggcat gtttaaggac ttctttcaac 360
cgttttattt gtttggcccg gaagtga 387
<212> Type : DNA
<211> Length : 387
SequenceName : 24
SequenceDescription :
Sequence
--------
<213> OrganismName : Gch1
<400> PreSequenceString :
atggagaagc cgcggggtgt aaggtgcacc aatgggttcc ccgagcggga gctgccgcgg 60
cccggggcca gccgacctgc cgagaagtcc cggccgcccg aggccaaggg cgcacagcca 120
gccgacgcct ggaaggcagg gcggccccgc agcgaggagg ataacgagct gaacctcccc 180
aacctggcgg ccgcttactc gtccatcctg cgctcgctag gcgaggaccc ccagcggcag 240
gggctgctca agacgccctg gagggcggcc accgccatgc agttcttcac caagggatac 300
caggagacca tctcagatgt cctgaacgat gctatatttg atgaggacca tgacgagatg 360
gtgattgtga aggacattga catgttttcc atgtgtgagc atcacctggt cccatttgtg 420
ggaagggtcc atattggtta tcttcctaac aagcaagtcc ttggtctcag caaacttgcc 480
aggattgtgg aaatctacag tagaagacta caagttcaag aacgccttac caaacagatt 540
gcagtggcca tcacagaagc cttgcagcct gctggcgtcg gggtagtgat tgaagcaaca 600
cacatgtgta tggtcatgcg aggtgtgcag aaaatgaaca gcaagactgt cactagcacc 660
atgctaggcg tgttccggga agacccaaag actcgggagg agttcctcac actcatcagg 720
agctga 726
<212> Type : DNA
<211> Length : 726
SequenceName : 25
SequenceDescription :
Sequence
--------
<213> OrganismName : Gyg1
<400> PreSequenceString :
gatcaggctt ttgtgacgct caccacaaac gatgcctatg ccaaaggggc gctggtcctg 60
ggctcatctt tgaaacagca caggactact aggaggacgg ttgtactcgc cagcccacag 120
gtttcagact ccatgagaaa agttttagag actgtctttg atgaagtcat catggtagat 180
gtcttggaca gtggtgattc tgctcatcta accttaatga agaggcctga gttgggcatc 240
acgttgacta aactccactg ctggtcactc actcagtatt ccaaatgtgt gttcatggat 300
gcagatactc tggttctctc aaatattgat gatctttttg aaagagaaga attgtcagca 360
gcaccagacc cagggtggcc tgactgtttc aattctggag tctttgtcta tcaaccctca 420
attgaaacgt ataaccagct gttgcatctt gcttctgagc aaggtagttt tgatggtggg 480
gaccagggcc tactgaatac atattttagt ggctgggcaa cgacagatat cacaaaacac 540
ttgccatttg tgtataacct gagcagcctc tcaatatact cctacctccc ggcatttaaa 600
gcgtttggta aaaatgccaa agttgtgcac ttcctgggac gaaccaagcc atggaattac 660
acgtacaatc cccaaacaaa aagtgtcaaa tgtgaatccc aggacccaat tgtgagtcac 720
ccagagtttc tgaacctgtg gtgggacacc ttcaccacca atgtcttacc cctgctccaa 780
caccatggcc ttgtcaaaga tgccggttcc tatctaatga tggaacatgt cacaggagcc 840
ttgtcagacc tgtcctttgg ggaggcccca cctgcatcac agccttcttt gtcctcagaa 900
gaaaggaagg aacggtggga acagggccag gctgattata tgggagcaga ttcttttgat 960
aacatcaaga gaaaacttga cacttaccta cagtag 996
<212> Type : DNA
<211> Length : 996
SequenceName : 26
SequenceDescription :
Sequence
--------
<213> OrganismName : Myd88
<400> PreSequenceString :
atgtctgcgg gaggcccccg cgtgggatcc gtgtccgtgg actcctactt gttctctcta 60
ccgttggtcg cgctcaacgt gggagtgagg cgccgcctct cgctgttctt gaacccgcgg 120
acaaccgcgg cggccgactg gacctcgctg gcggaggaga tgggtttcga gtacttggag 180
atccgcgagt ttgagacgcg ccccgatccc actcgcagtt tgttggatgc ctggcagggg 240
cgctctggct cgtcggtcgg caggctgcta gagttgctag ccttgttaga ccgtgaggat 300
atactgtatg aactgaagga ccgcatcgag gaggactgcc agaaatacat acgcaaccag 360
cagaaacagg agtctgagaa gcccttgcag gtggccagag tggagagcag tgtcccacag 420
acaaaggaac tgggaggcat caccaccctc gatgaccccc tggggcaaac gccggagctt 480
ttcgacgcct tcatctgcta ctgccccagt gatattgagt ttgtgcagga gatgatccgg 540
caactagaac agacagacta tcggcttaaa ttgtgtgtgt ccgaccgcga tgtcctgcct 600
ggcacctgcg tgtggtccat cgccagcgag ctcattgaga aaaggtgtcg tcgcatggtg 660
gtggttgttt ctgacgatta cctgcaaagt aaggaatgtg acttccagac caagtttgct 720
ctcagcctgt ctccaggtgt ccaacagaag cgactgatcc ctatcaagta caaagcaatg 780
aagaaggact ttcctagtat cctacggttc atcactatct gcgactatac caacccttgc 840
accaagtcct ggttctggac ccgtcttgcc aaggctctgt ccctgccctg a 891
<212> Type : DNA
<211> Length : 891
SequenceName : 27
SequenceDescription :
Sequence
--------
<213> OrganismName : Hdc
<400> PreSequenceString :
atgggcctgg gtgtcctgtg tctggccctt gtcctgcttg gggtcctgca gagccaggcc 60
caggactcaa ctcagaactt gatccctgcc ccacctctga tcagtgtgcc cctgcagcca 120
ggcttctgga ccgaacggtt ccagggcagg tggttcgttg tcggcctggc aggcaatgcg 180
gtccagaaag aaagacaaag ccgctttacc atgtacagca ccatctatga gctacaggaa 240
gacaatagct acaacgtcac ttccatcctc gtcaggggcc agggctgtcg ctactggatc 300
agaacattcg ttccaagctc caggcctggc cagttcaccc tggggaatat tcacagctac 360
cctcagatac agagctacga tgtgcaagtg gccgacactg actacgacca gtttgccatg 420
gtatttttcc agaagacctc tgaaaacaaa cagtacttca aagtcaccct gtacggaaga 480
accaaggggc tgtccgatga actgaaggag cgattcgtca gctttgccaa gtctctgggc 540
ctcaaggata acaacatcgt tttctctgtt cccaccgacc aatgcattga caactga 597
<212> Type : DNA
<211> Length : 597
SequenceName : 28
SequenceDescription :
Sequence
--------
<213> OrganismName : Il1r1
<400> PreSequenceString :
atgctgccga ggcttgtgac atcttcggct aaatcctcca tcctggagaa tatgaaagtg 60
ctacttgggt tcatttgtct cattgtgcct ctgctgtcgc tggagaccga caaatgcacg 120
gagtatccaa atgaggtcat ttcattttca tccgtaaatg aaattgacat tcgcagctgt 180
cctcttactc caaacgaaat gcatggcggc accataatct ggtataaaaa tgacagcaag 240
acccccatat cagcggacaa ggactccagg attcatcagc agaatgaaca tctttggttt 300
gttcccgcca agatggagga ttcaggctat tactattgta taatgagaaa ctcaacatac 360
tgcctcaaaa ctaaaataac catgagtgtc ttagagaatg accctggctt gtgctataac 420
acacaagcca gcttcataca gcggctccat gttgcagggg atggaagtct tgtgtgccct 480
tatctggatt ttttcaaaga tgaaaataac gagttaccca aagttcagtg gtataagaac 540
tgtaaacctc tgcctcttga cgatggaaac ttctttggat tcaagaataa actgatggtg 600
atgaatgtgg ctgaagagca cagagggaac tatacttgcc gcacgtccta cacataccag 660
gggaagcaat atcccgtcac acgagtaata acatttatca caatagatga cagcaagagg 720
gacagacctg tgattatgag cccacggaat gagacgatgg aagctgaccc aggatccacg 780
atacaactga tctgcaacgt cacgggccag ttcaccgacc ttgtctactg gaagtggaat 840
gggtcggaaa ttgaatggga cgatccaatc ctagccgaag actatcagtt tttggaacac 900
ccttcagcca aaagaaagta cactctcatt acaacactta acgtttcaga ggtcaaaagc 960
cagttttatc gctatccgtt catctgcttc gttaagaaca ctcatattct ggagactgca 1020
cacgtacggt tagtataccc agttcctgac ttcaagaatt acctcatcgg gggctttgcc 1080
atcttcacag ctacagccgt gttctgtgct tgcatctaca aagtcttcaa ggttgatata 1140
gtgctttggt acagggactc ctgctctgat tttcttcccc caaaagcttc agatggaaag 1200
acctatgatg cctatgttct ttatcccaag acctacggag agggatcctt tgcatacttg 1260
gatacttttg tgtttaagct gttgccggag gtcttggagg gacagtttgg atacaaactg 1320
ttcatttgtg gaagggatga ctatgttggg gaagatacca tcgaggttac taatgaaaac 1380
gtaaagagaa gcagaaggct gatcatcatt ttagtgagag atatgggaag cttcagctgt 1440
ctgggccagt catctgaaga gcagatagca atatacgatg ccctcatccg ggaaggaatt 1500
aaaatcatcc tgctcgagtt ggagaaaatc caagactatg agaaaatgcc agaatctatt 1560
caattcatta agcagaagca tggggccatt tgctggtcag gagactttaa agaaagaccg 1620
cagtctgcca agaccaggtt ctggaaaaac ttaagatacc agatgccagc ccaacggcga 1680
tcaccactgt ctaaacatca cttactaacc ctggatcctg tgctggacac taaggagaaa 1740
ctgcaggcgg agacacactt accacttggc tag 1773
<212> Type : DNA
<211> Length : 1773
SequenceName : 29
SequenceDescription :
Sequence
--------
<213> OrganismName : Il1rl1
<400> PreSequenceString :
atgattggca aatggagaat ggggctttgg gctttggcaa ttctgacagt tcccatgtat 60
ttcatagtga cagagggcag aaaaacatcc tggggtctag aaaacgaggc tttaattgtc 120
agatgccccc aaagaggagg tgcgattaac cctgtggaat ggtattattc aaatacaaat 180
gaaagaattc ctactcaaaa gagaaatcgg atcttcgtct caagagatcg tctgaagttt 240
ctaccagcca aagtggaaga ctctgggatt tatacgtgtg ttatcagaag ccctgaatcg 300
attaagaccg gatctttgaa tgtcaccata tataaaagac caccaaactg caaaatccct 360
gattacatga tgtactcgac agtagatgga tcagataaaa attccaagat aacatgtcca 420
acaattgcct tgtataattg gacagcgcct gttcagtggt ttaagaactg caaagctctc 480
caagggccaa ggttcagggc acacatgtcc tatttgttca ttgacaaagt gagtcatgtt 540
gatgaaggtg actacacatg tcgattcact cacacggaga acggaaccaa ttacattgtg 600
actgccacca gatcattcac agttgaagaa aaaggcttct ctacatttcc agtaattaca 660
aaccctccac acaactacac agtggaagtg gaaataggaa aaacagcaaa cattgcctgc 720
tcagcttgct ttggcacagc ctctcagttc gttgctgtcc tgtggcagat taacaaaacg 780
agaattggat cttttggcaa agcaagaatt caagaagaga aaggcccaaa taaaaggcat 840
acaaacaatg gcatgatttg cttaacctca ctgttaagga taactggtgt gaccaacaag 900
gacttctccc tgaaatatga ctgtgtggcc atgaaccatc acggagtgat aaggcacccc 960
gtaagactga gaaggaaaca accaattgac caccaaagca cctactacat agttgccgga 1020
tgtagtttat tgctaatgtt tatcaatgtc ttggtgatag tcttaaaagt gttctggatt 1080
gaggttgctc tgttctggag agatataatg gcaccttaca aaacccagaa tgatggaaag 1140
ctctatgatg cttacatcat ttaccctcgg gtcttccggg gcagcgcatc agggaccggc 1200
tctgtggagt actttgttca ctacactctg cccgacgttc tcgaaaataa atgtggctac 1260
aagttgtgca tttacgggag agacctgctg cctgggcaag atgcggccac tgtggtggaa 1320
agcagtatcc agaatagtag acggcaagtg tttgtcctgg cccctcacat gatgcacagc 1380
aaagagtttg cctatgagca ggagatcgcc ctgcacagcg ccctcatcca gaacaactcc 1440
aaggtgattc tgattgaaat ggagcctatg ggtgaggcaa gccgactgca gcttggggat 1500
ctgcaagatt ctctccagca tcttgtgaaa atgcagggga ccatcaagtg gagggaagac 1560
cacgtggccg acaaacagtc tctaagctcc aaattctgga agcatgtgag ataccaaatg 1620
ccagtcccga aaagaccccc caagatggca tctgttgccg ctccgttgag tggcaaggtg 1680
tgcttggacc tgaaacactt ttga 1704
<212> Type : DNA
<211> Length : 1704
SequenceName : 30
SequenceDescription :
Sequence
--------
<213> OrganismName : Tuba1c
<400> PreSequenceString :
atgcgtgagt gcatctccat ccacgttggc caggctggtg tccagatcgg caatgcctgc 60
tgggagctct actgcctgga acatggcatc cagcctgatg gccagatgcc aagtgacaag 120
accattgggg gaggagatga ctccttcaac accttcttca gtgagacagg agctggcaag 180
cacgtgcccc gggcggtgtt cgtagacctg gaacccacag ttattgatga agttcgaact 240
ggcacctacc gccagctctt ccacccagag cagctcatca caggcaagga agatgctgcc 300
aataactatg cccgtggcca ctacaccatt ggcaaggaga tcattgacct tgtcttggac 360
agaattcgca agctggctga ccagtgcacg ggtctccagg gcttcttggt tttccacagc 420
tttggtgggg gaactggctc tgggttcacc tccctgctga tggagaggct ctctgtcgac 480
tacggaaaga agtccaagct ggagttctcc atttacccag ccccccaggt ttccactgct 540
gtggttgagc cctacaattc catcctcacc acccacacca ccctggagca ctctgattgt 600
gccttcatgg tagacaatga ggccatctat gacatctgtc gtagaaacct cgacattgag 660
cgcccaacct acactaacct taaccgcctt attagccaga ttgtgtcttc catcactgct 720
tccctcagat ttgatggggc cctgaatgtt gatctgacag aattccagac caacctggtg 780
ccctaccctc gaatccactt ccctctggcc acttatgccc ctgtcatctc tgctgagaaa 840
gcctaccatg agcaacttac agtagcagag atcaccaatg cctgctttga gccagccaac 900
cagatggtga aatgtgaccc tcgccatggt aaatacatgg cttgctgcct gctgtaccgt 960
ggtgatgtgg tccccaagga tgtcaatgct gccattgcca ccatcaagac caagcgtacc 1020
atccagtttg tggactggtg ccccactggc ttcaaggttg gcattaatta ccagcctccc 1080
actgtggtac ctggtggcga cctggccagg gtgcagagag ctgtgtgtat gctgagcaac 1140
accacagcca ttgctgaggc ctgggctcgc ctggatcaca agtttgatct gatgtatgcc 1200
aagcgtgcct ttgtgcactg gtatgtgggt gagggcatgg aggaggggga gttctctgag 1260
gcccgtgagg atatggctgc cctagagaag gattatgagg aggttggggc agatagtgct 1320
gaaggagacg atgagggtga agaatattaa 1350
<212> Type : DNA
<211> Length : 1350
SequenceName : 31
SequenceDescription :
Sequence
--------
<213> OrganismName : Bambi
<400> PreSequenceString :
atggatcgcc actccagcta catcttcatc tggctgcagt tggagctctg cgccatggct 60
gtgctgctca ccaaaggcga gatcagatgc tactgtgatg ccgctcactg tgtggcaact 120
ggttacatgt gtaagtccga gcttagtgcc tgcttctcca gactccttga tcctcagaac 180
accaattccc cactaaccca cggctgcctg gactcactcg caagcacagc agacatctgc 240
cgagccaaac aggcccaaaa ccactctggt cccaccatgc ccactttgga atgctgtcat 300
gaagacatgt gcaattaccg aggactgcat gatgtcctct ctcctcccaa gagtgaagcc 360
tcaggacaag gaaacagata ccagcatgac agcagcagaa acctcatcac taaggtgcag 420
gagctgactt cctccaaaga actgtggttc cgtgcagccg tgatcgcggt tcccattgct 480
ggcggactga tcttggtgct gctcattatg ttggccttgc gaatgctgcg aagtgagaac 540
aagaggctgc aggatcagcg gcagcagatg ctctctcgtt tgcactacag cttccatgga 600
caccactcca agaagggaca ggttgcaaag ttggacttag agtgcatggt gcccgtcagt 660
gggcaggaga actgctgtct gacctgcgac aaaatgaggc aagcagatct cagcaacgag 720
aagatcctct cccttgtgca ctggggcatg tacagtggtc atgggaagct ggaattcgta 780
tga 783
<212> Type : DNA
<211> Length : 783
SequenceName : 32
SequenceDescription :
Sequence
--------
<213> OrganismName : Slc1a3
<400> PreSequenceString :
atgacaaaaa gcaacggaga agagcccagg atgggaagca ggatggaaag attccagcaa 60
ggggtgcgca agcggacgct cctggccaag aagaaagttc agaacatcac caaggaggat 120
gtgaagagct acctgtttcg gaatgccttt gtgctactca ccgtcagcgc tgtcattgtg 180
ggtacaatcc ttggatttgc cctccgaccg tataaaatga gctaccggga ggtcaagtac 240
ttctcctttc ctggggagct tctgatgcgg atgctgcaga tgttggtctt acccctgatc 300
atctccagtc ttgtcacagg aatggcggcc ctagatagta aggcatctgg gaagatgggg 360
atgcgagctg tggtctatta catgactacc accatcattg ctgtggtgat cggcataatc 420
attgtcatca tcatccaccc cggaaagggc acgaaagaaa acatgtacag agaaggtaaa 480
atcgtgcagg tgactgccgc agatgccttc ctggatttaa tcaggaacat gttcccaccc 540
aatctggtag aagcctgctt taaacagttt aaaaccagct atgagaagag aagctttaaa 600
gtgcccatcc aggccaacga aacactgttg ggcgccgtga tcaacaacgt gtcagaggcc 660
atggagactc tgacccggat ccgggaggag atggtacccg ttcctgggtc tgtgaatggg 720
gtcaatgccc tgggcctcgt tgtcttctcc atgtgcttcg gcttcgtgat cggaaacatg 780
aaggagcagg ggcaagcgct aagagagttc ttcgactctc tcaatgaagc catcatgaga 840
ttggtagcgg tgataatgtg gtatgcacct ctgggcatcc tcttcttgat cgcagggaag 900
attgttgaga tggaagatat gggtgtgatt ggggggcagc ttgccatgta tacagtgaca 960
gtcatcgtcg gcctcctcat tcatgccgtc atcgtcctgc ctctcctcta cttcctggta 1020
acccggaaga acccctgggt tttcattgga gggttgctgc aagcactcat cacagccctg 1080
gggacctcct caagttctgc caccctgccc atcactttca agtgcctgga agaaaacaat 1140
ggtgtggaca aacgcatcac cagatttgtg cttcccgtgg gggccaccat taacatggat 1200
gggaccgccc tctacgaggc tttggccgcc attttcatcg ctcaagttaa caactttgac 1260
ctgaattttg gacagattat aacaataagt atcacagcca cagccgcaag cattggggca 1320
gctggcattc ctcaggccgg tctagtcacc atggtcatcg tgctgacatc tgtgggcctg 1380
cccacggatg acatcacact catcattgca gtggactggt ttctggaccg cctccgaacc 1440
accaccaacg tgctgggtga ctccctcggg gccgggattg ttgaacactt gtcccgacat 1500
gaactgaaga accgagatgt tgaaatgggg aactccgtga ttgaggagaa tgaaatgaaa 1560
aagccgtatc agctgattgc ccaggacaat gaaccagaga aacccgtggc agacagcgaa 1620
accaagatgt ag 1632
<212> Type : DNA
<211> Length : 1632
SequenceName : 33
SequenceDescription :
Sequence
--------
<213> OrganismName : Map3k8
<400> PreSequenceString :
atggagtaca tgagcaccgg aagcgacgag aaagaagaga ttgatttatt aattaaccat 60
ttaaacgtgt cggaagtcct ggacatcatg gagaaccttt atgcaagtga agagcctgca 120
gtgtatgagc ccagtctgat gaccatgtgt ccagacagca atcaaaacaa ggaacattca 180
gagtcgctgc ttcggagtgg ccaggaggtg ccctggttgt cgtctgtcag atatgggact 240
gtggaggatc tgcttgcatt tgcaaaccat atctcgaata cgacaaagca tttttacgga 300
tgtcggcccc aagaatctgg gattttatta aatatggtaa tcagtcccca gaatggtcgc 360
taccaaatcg actcggatgt tctccttgtc ccgtggaagc tgacgtacag gagcattggt 420
tctggtttcg ttcctcgggg ggcctttgga aaagtgtact tagcacaaga catgaagaca 480
aagaaaagaa tggcatgtaa actgatccct gtagatcagt ttaagccatc agatgtggaa 540
atccaggcct gcttccggca cgagaacatt gctgagttat acggtgcggt cctatggggc 600
gacactgtcc atctcttcat ggaagctggc gagggagggt ctgtcctgga gaagctggag 660
agctgtgggc ccatgagaga atttgaaatt atctgggtga caaagcacgt tctcaaggga 720
cttgattttc tgcactccaa gaaagtcatc caccacgata tcaaacctag caacattgta 780
ttcatgtcta cgaaagctgt gttggtagat tttggcctga gtgttcaaat gacagaagat 840
gtctatctcc ccaaggacct ccggggaaca gagatctaca tgagccctga ggtgattctg 900
tgcaggggcc attccacaaa agcagacatc tacagccttg gagccacgct cattcacatg 960
cagacaggca ccccaccctg ggtgaagcgc taccctcgat cggcctatcc ctcctacctg 1020
tacataatcc acaagcaggc acctcccctg gaagatattg ctggtgactg cagtccaggc 1080
atgagggagc tgatagaagc cgccctggag aggaacccca accaccgccc aaaagcagca 1140
gacctactga aacacgaagc cctgaatccc ccaagagagg accagccacg gtgtcagagt 1200
ctggactctg ccctctttga ccggaagagg ctgctgagca ggaaggagct agaacttcct 1260
gagaacattg ctgattcatc atgcacagga agcaccgagg agtctgaagt gctcaggaga 1320
cagcgttccc tctacattga tctcggagct ctggctggct acttcaatat tgttcgtggt 1380
ccaccaaccc tggaatatgg ctga 1404
<212> Type : DNA
<211> Length : 1404
SequenceName : 34
SequenceDescription :
Sequence
--------
<213> OrganismName : Mmp9
<400> PreSequenceString :
atgaacccct ggcagcccct gctcctggtg ctcctggctc taggctacag ctttgctgcc 60
cctcaccagc gccagccgac ttatgtggtc ttcccccgag acctgaaaac ctccaacctc 120
acggacacac agctggcaga ggattacctg taccgctatg gttacactcg ggcagcccag 180
atgatgggag agaagcagtc cctgcggccc gctttgctga tgcttcagaa gcagctgtcc 240
ctgccccaga ctggtgagct ggacagcgag acactaaagg ccattcgttc accgcgctgt 300
ggtgtcccag acgtgggcaa attccaaacc ttcgaaggcg acctcaagtg gcaccatcat 360
aacatcacct attggatcca aagctacacc gaagacttgc cgcgagacgt gatcgatgac 420
tccttcgcgc gcgccttcgc ggtgtggagc gcggtgacac cgctcacctt cacccgcgtg 480
tacgggctcg aagcagacat tgtcatccag tttggtgtcg cggagcacgg ggacgggtat 540
cccttcgacg gcaaggatgg tctactggca cacgcctttc cccctggccc cggcattcag 600
ggagatgccc acttcgacga cgacgagttg tggtcgctgg gcaaaggcgc cgtggtcccc 660
acttactttg gaaacgcaaa tggtgcccca tgtcactttc ccttcacctt cgagggacgc 720
tcctatttgt cctgcaccac ggatggccgc aacgacggca agccttggtg tggcacgaca 780
gctgactacg acacagacag aaaatatggt ttctgcccca gtgagaatct ctacacggag 840
catggcaacg gagacggcaa accctgcgta tttccattca tcttcgaggg ccactcctac 900
tctgcctgca ccactaaagg tcgctcggat ggttatcgct ggtgcgccac caccgccaac 960
tatgaccagg ataagctgta tggcttctgt cctactcgag ccgacgtcac tgtaactggg 1020
ggcaactcgg caggagagat gtgcgtcttc cccttcgtct tcctgggcaa gcagtactct 1080
acctgtaccg gcgagggccg cagtgatggg cgcctctggt gcgcgacgac gtcgaacttc 1140
gacgctgaca agaagtgggg tttctgtcca gaccaagggt acagcctgtt tctggtggca 1200
gcgcacgagt tcggccatgc gctgggctta gatcattctt cagtgccgga agcgctcatg 1260
taccccatgt atcactacca cgaggactcc cctctgcatg aagacgacat aaaaggcatc 1320
cagcatctgt atggtcgtgg ctctaaacct gacccaaggc ctccagccac caccgcagct 1380
gaaccacagc cgacagctcc tcccactatg tgtcccactg cacctcccat ggcctatccc 1440
acagggggcc ccacagtcgc ccctacaggc gccccctcac ctggccccac aggtccccct 1500
actgctggtc cttctgaggc ccctacagag tcttcgactc cagtagacaa tccttgcaat 1560
gtggatgttt ttgatgccat tgctgatatc cagggcgctc tgcatttctt caaggacggt 1620
cggtattgga agttctcgaa tcacggagga agccaattgc agggcccctt tcttattgcc 1680
cgcacgtggc cagctttgcc tgcaaagttg aactcagcct ttgaggatcc gcagtccaag 1740
aagattttct tcttctctgg gcgcaaaatg tgggtgtaca caggccagtc ggtgctgggc 1800
cccaggagtc tggataagtt gggtctaggc tcagaggtaa ccctggtcac cggacttctc 1860
ccgcgtcgtg gagggaaggc tctgctgatc agccgggaac gtatctggaa attcgacttg 1920
aagtctcaga aggtggatcc ccagagcgtt actcgcttgg ataacgagtt ctctggcgtg 1980
ccctggaact cacacaacgt ctttcactac caagacaagg cctatttctg ccatgacaaa 2040
tacttctggc gtgtgagttt ccacaaccgg gtgaaccagg tggaccacgt ggcctacgtg 2100
acctatgacc tcctgcagtg cccttga 2127
<212> Type : DNA
<211> Length : 2127
SequenceName : 35
SequenceDescription :
Sequence
--------
<213> OrganismName : Nedd4l
<400> PreSequenceString :
tttccttgca gtgacccata cgtgaagctc tcgttgtacg tagctgacga gaacagagaa 60
ctcgctctgg ttcagactaa gacaattaaa aagacgctga acccaaagtg gaatgaagag 120
ttttatttta gagtaaatcc atctaatcac aggctcttat ttgaagtatt tgacgagaac 180
agattgacac gagacgactt tctgggccag gtggacgtgc ctcttagtca ccttccgaca 240
gaagatccaa ccatggagag accctataca tttaaggatt ttctcctgcg acctagaagt 300
cataaatcac gcgtcaaggg gtttttgagg ttgaaaatgg cctacatgcc gaaaaacgga 360
ggtcaggatg aagaaaacag cgagcagagg gacgacatgg agcatggatg ggaagttgtt 420
gactcaaacg actcagcttc ccagcaccag gaggagctcc ctcctcctcc cctgccacca 480
ggatgggaag agaaagtgga caatttaggc cgaacttact atgtcaacca caacaacagg 540
agtacgcagt ggcaccgacc tagcttgatg gatgtatcgt cagagtcaga caataacatc 600
aggcagatca atcaggaggc cgcacaccgg cgtttccgct ctcggaggca cattagtgaa 660
gacttggagc ctgaggcctc tgaaggtggt ggagaaggcc ctgagccttg ggagaccatt 720
tcagaggaag tgaacatggc gggagattct ctcagcctgg ctctaccccc acctcctgcc 780
tccccagtgt caaggaccag cccccaggag ctgtcggaag aactgagcag aaggttgcag 840
atcactccgg actccaatgg ggaacagttc agtgctctga ttcagagaga gccctcgtct 900
aggctccggt cctgcagtgt taccgacgcg gttgctgaac aagctcacct tccaccgccc 960
agcaccccaa ctaggcgagc ccgttcgtca actgtcacgg gtggtgagga atcaacgcca 1020
tcagtggcct atgtacatac cacgccgggc ctaccttcag gctgggaaga aagaaaagat 1080
gctaagggac gcacatacta tgtcaatcat aacaatcgaa ccacaacttg gactcgacca 1140
atcatgcagc ttgcagaaga cggtgcctct ggatcagcca caaacagtaa caaccaccta 1200
gtcgaacccc agatccgccg gcctcgtagc ctcagctcgc caacagtaac cttatctgcc 1260
ccactggagg gtgccaagga ttcacccata cgccgtgctg tgaaagatac cctttccaat 1320
ccacagtccc ctcagccatc accttacaac tcccccaaac cacaacacaa agtcacacag 1380
agcttcctgc caccaggctg ggagatgagg atagcgccaa acggccgacc cttcttcatt 1440
gaccataaca caaagacgac aacctgggaa gatccacggc tgaaatttcc agtacatatg 1500
cggtcaaaag catctttaaa ccccaatgac ctgggccctc ttcctcctgg ctgggaagaa 1560
aggatccacc tggacggccg cacattttac attgaccata atagcaaaat tactcagtgg 1620
gaagatccaa gactacagaa tccagccata actggtccgg ctgtgccgta ctccagagaa 1680
tttaagcaga aatacgacta ctttaggaag aaattaaaga aacctgctga tattccaaac 1740
aggtttgaaa tgaaactcca cagaaacaac atatttgaag aatcctatcg gaggatcatg 1800
tctgtaaaga gacctgacgt cctaaaggct agactgtgga tcgagtttga atcagagaaa 1860
ggcctggact atgggggcgt ggccagagag tggttcttct tactgtccaa agagatgttc 1920
aatccctact atggcctctt cgagtactct gccacggaca actacacact tcagatcaat 1980
cccaactcag gcctgtgtaa cgaagatcac ttatcctatt tcactttcat tgggagagtt 2040
gctggcctgg cagtgtttca tgggaaactc ttagatggat tcttcattcg acctttctac 2100
aagatgatgc tggggaagca aataactctg aatgacatgg agtctgtgga cagcgagtac 2160
tacaactctt tgaagtggat cttggaaaac gaccccacgg aacttgacct catgttctgc 2220
atagatgaag agaactttgg gcagacttac caagtggacc tgaagcccaa tgggtcagaa 2280
atcatggtaa ccaatgagaa caagcgagaa tatattgact tggtcatcca gtggagattt 2340
gtgaacaggg tccagaagca aatgaatgcc ttcttggagg gatttacaga acttcttcca 2400
atcgacttga ttaaaatttt tgatgaaaat gagctggagt tgctgatgtg cggccttggt 2460
gatgtggacg tgaatgattg gagacagcac tccatttaca agaacggcta ctgccccaac 2520
caccctgtca tccagtggtt ctggaaggcc gtgctgctga tggatgctga gaagcggatc 2580
cggttactac agtttgtcac aggcacctcc agagtaccca tgaatggatt tgccgaactt 2640
tatggttcca atggtcctca gctgtttaca atagagcaat ggggtagtcc tgaaaaactg 2700
cccagagctc atacatgctt taaccgcctt gatttacctc cgtatgaaac ctttgaagat 2760
ctacgggaga agcttctcat ggccgtggag aatgctcaag gcttcgaagg tgtggattaa 2820
<212> Type : DNA
<211> Length : 2820
SequenceName : 36
SequenceDescription :
Sequence
--------
<213> OrganismName : Cd14
<400> PreSequenceString :
atgaagctta tgctcggctt gttgctgttg cctttgacac tggtgcatgc ctctcccgcc 60
acaccagaac cctgtgagct ggaccaggac gaggaaagtg tccgctgcta ctgcaacttc 120
tcagatccgc agcccaattg gtccagcgct tttctatgcg cgggggcgga agacgtggag 180
ttctacggcg gcggtcgcag cctggagtac cttctaaagc gtgtggacac ggaagcaaat 240
ctggggcagt acactgatat tatcaggtct ctgcccttga agaggcttac tgtgcggtcc 300
gcgcgggttc ctactcagat tctattcgga accctgcgtg tgctcggata ttctggcctc 360
cgggaactga ctcttgaaaa cctcgaggta accggcaccg cgctttcgcc gcttctggat 420
gccaccggac ccgatctcaa caccttgagc ctccgcaacg tgtcgtgggc aacaacggat 480
acctggctcg cagaactgca gcagtggcta aagcctggac tcaaggtact aagtattgcc 540
caagcacact cactcaactt ttcttgcaaa caggtcggcg tcttccctgc ccttgccacc 600
ttagatctgt ctgacaaccc tgagttgggc gagaaaggac tgatctcggc cctctgtccg 660
cacaaattcc cgaccctcca agttttagcg ctgcgcaacg cggggatgga gacgaccagc 720
ggcgtgtgct ctgcgctggc cgcagcaaga gtgccactgc aggcactgga tctcagtcac 780
aattcactgc gggatactgc tggcactccg agctgtgact ggcccagtca gctaaactcg 840
ctcaatctat ctttcactgg gctggagcac gtacctaaag ggctgccagc caagcttagc 900
gtgcttgatc tcagttacaa caggctggat aggaaaccta ggccagagga gctgcctgaa 960
gtggggagcc tgtcacttac aggaaatccc tttttgcact ctgaatccca gtcggaggcg 1020
tataactctg gcgtagtcat agccacagct ctttcacccg gatcagcggg cttgtcagga 1080
actttggctt tgctcctagg acatcgcctc tttgtttaa 1119
<212> Type : DNA
<211> Length : 1119
SequenceName : 37
SequenceDescription :
Sequence
--------
<213> OrganismName : Sod2
<400> PreSequenceString :
atgttgtgtc gggcggcgtg cagcgcgggc agaagactgg gccccgcggc cagtaccgcg 60
ggctcccggc acaagcacag cctccctgac ctgccttacg actatggcgc gctggagccg 120
cacattaacg cgcagatcat gcagctgcac cacagcaagc accacgcgac ctacgtgaac 180
aatctgaacg tcaccgagga gaagtaccac gaggcgctgg ccaagggaga tgttacaact 240
caggttgctc ttcagcctgc actgaagttc aatggcgggg gccatatcaa tcacagcatt 300
ttctggacaa acctgagccc taagggtggt ggagaaccca aaggagagtt gctggaggct 360
atcaagcgtg actttgggtc ttttgagaag tttaaggaga aactgacagc tgtgtctgtg 420
ggagtccaag gttcaggctg gggctggctt ggcttcaata aggagcaagg tcgcttacag 480
attgccgcct gctctaatca ggacccactg caaggaacca caggccttat tccactgctg 540
gggattgatg tgtgggagca cgcttactat cttcagtata aaaacgtcag acctgactat 600
ctgaaagcca tttggaatgt aatcaactgg gagaatgtta gccaaagata catagtttgc 660
aagaagtga 669
<212> Type : DNA
<211> Length : 669
SequenceName : 38
SequenceDescription :
Sequence
--------
<213> OrganismName : Acsl6
<400> PreSequenceString :
atgctgacct tcttcttggt gtcggggggt tccctctggc tgtttgccga gattgccctg 60
tcacttctgg agaagatgca gacccaggag atcctgagga tcctgcggct gcccgagcta 120
tcggacttgg gccagttttt ccgcagcctc tcagccacca cccttgtgag tatgggtgca 180
ctggctgcca tccttgcata ctggctcact caccggccaa aggccttgca accaccatgc 240
aacctcctga tgcagtcgga agaagtagag gacagtggtg gagcccggcg atctgtgatt 300
ggggattgca ctcagttgct tacccactac tatgacgatg cccggacgat gtaccaggtg 360
ttccgacgtg ggcttagcat ctcagggaat ggaccctgtc ttggcttccg gaagccagag 420
caaccttacc agtggctgtc ctatcaagag gtggccaaaa gggctgaatt cctggggtca 480
ggacttctcc agcatgactg taaagtgggc acagagcagt tcattggcgt ttttgcacaa 540
aatcggccag agtggatcat tgctgagctg gcctgctaca catattccat ggtggtggta 600
ccgctctatg acacactggg cccagggtct atccgctaca tcatcaatac agcggacatc 660
tgcactgtaa tcgtggataa gccgcataag gctatactcc tgctagaaca cgtggagagg 720
aaggagactc cgggcctcaa gctggtcatc ctcatggagc catttgacga tgccctgaga 780
gagaggggaa agaagtgcgg ggtggacatc aagtccatgc aggctataga ggactccggc 840
caagagaatc atcgtgtccc cgtgccccca cggcccgatg acctctccat tgtgtgtttc 900
acgagcggta caacagggaa ccccaaaggt gcgatgctca cccacgggaa cgtggtggcc 960
gatttctcgg gctttctgaa agtcacagag agtcagtggg cccccacttg tgcggatgta 1020
cacttttcct atttgccttt agcacacatg tttgagcgaa tggtgcagtc tgttgtctac 1080
tgccatggag ggcgtgtggg cttcttccag ggagacatcc gcctcctctc agacgacatg 1140
aaagctctcc gccccaccat cttccctgtg gtcccacggc tgctgaatcg gatgtatgac 1200
aagatcttcc accaggcaga cacctcactg aagcgctggc tcctggagtt tgcagcaaag 1260
cgcaagcagg ctgaggtccg gagcggaatc atcagaaaca atagtatctg ggatgaactc 1320
ttctttaata agattcaggc cagtcttgga gggcacgtga gaatgattgt taccggagca 1380
gcccccgcat caccaacagt cctgggattc ctacgagcag ctctggggtg ccaggtctat 1440
gaaggttatg ggcaaactga atgcacagct gggtgtacct tcacaacgcc aggggactgg 1500
acatcagggc acgtgggagc ccctctgccc tgcaaccaca tcaagctggt cgacgcagag 1560
gaactcaact actggaccag caaaggagaa ggagagatct gtgtgaaagg accaaatgtg 1620
ttcaaaggct acttaaaaga cgaggacagg acaaaggagg ccctggacag tgacggctgg 1680
cttcacacgg gagacattgg aaaatggctg ccggagggaa cgcttaaaat catcgatcgg 1740
aaaaagcaca tatttaaact tgctcagggg gaatacgttg cgcccgagaa gattgagaac 1800
atctacatcc gaagtgagcc tgtggcgcaa atctacgtcc atggggacag cttaaaggcc 1860
tttctggttg gcattgttgt gcctgaccct gaagtcatgc cttgctgggc tcagaagaaa 1920
ggaatcgaag ggaactacca ggaactctgc aaaagtaagg aattgaagaa agccattctg 1980
gatgacatgg tgatgttggg gaaagaaagt ggactgcatt cttttgaaca ggttaaagcc 2040
atttacatcc attgtgacat gttctcagtt caaaatggct tgctgacacc aacactaaag 2100
gctaagaggc ccgagctgag agagtacttc aaaaagcaaa tagaagagct gtactcaatc 2160
tccatgtga 2169
<212> Type : DNA
<211> Length : 2169
SequenceName : 39
SequenceDescription :
Sequence
--------
<213> OrganismName : Alox12
<400> PreSequenceString :
atgggccgct accgcgtccg cgtggtcact ggggcctggc tcttctcggg atccgtcaac 60
ctggtgcgtc tgtggctggt cggggcgcac agggaggcga ggctggagct gcagctgcgg 120
ccagcgcggg gcaaggagga ggagtttgat ttcgatgttg ccgaggactt ggggccactg 180
cagttcgtga aactgcacaa agagcacaca gttgtggacg acgcctggtt ctgcaacctc 240
atcacagttc aggggcccgg gatgagcgca gaggccgtct tcccctgcta ccgctgggtg 300
cagggagaag gaatcctgag actgccggag gggacagccc gtctggcagg agacaatgcc 360
ttggatgtct tccagaagca tcgagagaag gaactgaagg aaagacaaca gacctaccgc 420
tgggccacct ggaagcaagg cttacctcag acaatagcag cagactgtaa ggatgacctc 480
cctccaaaca tgagattcca tgaggagaag agactggact ttgaatggac gctgaaggcg 540
ggggttctgg aaatgggcct caaacgtgtt tataccctcc tgagaagctg gaaccgtctg 600
gaagactttg atcagatctt ctggggccag aagagtgcct tggctgagaa ggttcaccgg 660
tgttggcagg aagatgagct ctttggctac cagtttctca atggcgccaa ccccatgctg 720
ttgagacgct ccacctctct gccctccaga ctggtactgc cccctgggac agaggagctt 780
caagcgcagc tggagaaaga actcaaggat ggatgcctgt ttgaggctga ctttatcctg 840
ctggatggaa ttccagctaa tgtgatccga ggagaacagc agtacctggc tgcccctctt 900
gtcatgttga ggatggaccc cagtgggaag ctgctcccca tggctatcca gattcagcct 960
cccaatccca gctccccagc tccaacattg ttcctgccct cagatcctcc acttgcctgg 1020
ctcttggcta agatctgggt ccgaaattca gatttccaac tgcaggagct ccaattccat 1080
ttgctgaaca ctcatctggt ggctgaggtc attgctgttg ccaccatgag gtgcctccca 1140
ggactacacc ctatctttaa gctcctagtt ccgcacatcc gttacactat ggaaattaac 1200
acacggagcc ggacccagct catctcagat ggagggatat ttgatcaggt agtgagcaca 1260
ggtggaggcg gccatgttca gttgctcact cgggcagtgg ctcagctgac gtactgctcc 1320
ctctgtcctc ccgatgatct ggctacccga ggcctgctga gagtcccaag tgccctctac 1380
gctcaggatg ctttgcagct ctgggaggtc actgccaggt atgtgaacgg gatggtccat 1440
ctcttctacc agagtgacga tattgtgagg ggagacccag agctgcaggc ctggtgtcgg 1500
gagatcactg aggtggggct gtgccatgcc caggacagag gattccctgt ctccttccag 1560
tcccgggcac agctctgcca tttccttacc atgtgtgttt tcacatgtac ttcccagcat 1620
gctgccatca accagggcca gctggactgg tacggttggg tacctaatgc tccatgcaca 1680
atgaggatgc ctccaccaac cagcaaggac gatgtgacga tggagaccat catgggctca 1740
ctccctgatg ttcagaagtc ctgtctgcag atgaccatca catggcacct gggccgcctc 1800
cagccagaca tggtacctct aggacaccac aaagaaaagt atttctcaga cccaaggacc 1860
aaagctgtgc tcagccaatt tcaagcagat ctggaaaatt tggagaaaga gattacagcc 1920
cggaaccagc agcttgacct gccctacgaa tacctcaagc ctagccgtat agagaacagc 1980
atcaccatct ga 1992
<212> Type : DNA
<211> Length : 1992
SequenceName : 40
SequenceDescription :
Sequence
--------
<213> OrganismName : Gria2
<400> PreSequenceString :
atgcaaaaga ttatgcatat ttctgtcctc ctttctcctg ttttatgggg actgattttt 60
ggtgtctctt ctaacagcat acagataggg gggctatttc caaggggcgc tgatcaagaa 120
tacagtgcat ttcgggtagg gatggttcag ttttccactt cggagttcag actgacaccc 180
catatcgaca atttggaggt agccaacagt ttcgcagtca ccaatgcttt ctgctcccag 240
ttttcaagag gagtctacgc aatttttgga ttttatgaca agaagtctgt aaataccatc 300
acatcattct gtgggacact ccatgtgtcc ttcatcacac ctagcttccc aacagatggc 360
acacatccat ttgtcatcca gatgcgacct gacctcaaag gagcactcct tagcttgatt 420
gagtactacc aatgggacaa gttcgcatac ctctatgaca gtgacagagg cttatcaaca 480
ctgcaagctg ttctggattc tgctgcagag aagaagtggc aggtgactgc tatcaatgtg 540
gggaacatca acaatgacaa gaaagatgag acctacagat cgctctttca agatctggag 600
ttaaaaaaag aacggcgtgt aatcctggac tgtgaaaggg ataaagtaaa tgacattgtg 660
gaccaggtta ttaccattgg aaaacatgtt aaagggtacc attatatcat tgcaaatctg 720
ggattcactg atggggacct gctgaaaatt cagtttggag gagcaaatgt ctctggattt 780
cagattgtag actacgacga ttccctggtg tctaaattta tagaaagatg gtcaacactg 840
gaagagaaag aataccctgg agcacacaca gcgacaatta agtatacttc ggccctgacg 900
tatgatgctg tccaagtgat gactgaagca ttccgtaacc ttcggaagca gaggattgaa 960
atatcccgga gaggaaatgc aggagattgt ttggccaacc cagctgtgcc ctggggacaa 1020
ggggtcgaaa tagaaagggc cctcaagcag gttcaagttg aaggcctctc tggaaatata 1080
aagtttgacc agaatggaaa acgaataaac tacacaatta acatcatgga gctcaaaaca 1140
aatggacccc ggaagattgg gtactggagt gaagtggata aaatggttgt caccctaact 1200
gagctcccat caggaaatga cacgtctggg cttgaaaaca agactgtggt ggtcaccaca 1260
ctattggaat ctccatatgt tatgatgaag aaaaatcatg aaatgcttga agggaatgag 1320
cgttacgagg gctactgtgt tgacttagct gcagaaattg ctaaacactg tgggttcaag 1380
tacaagctga ctattgttgg ggatggcaag tatggggcca gggatgccga caccaaaatt 1440
tggaatggta tggttggaga gcttgtctac gggaaagctg acattgcaat tgctccatta 1500
actatcactc tcgtgagaga agaggtgatt gacttctcca agcccttcat gagtcttgga 1560
atctctatca tgatcaagaa gcctcagaag tccaaaccag gagtgttttc ctttcttgat 1620
cctttagcct atgagatctg gatgtgcatt gtgtttgcct acattggggt cagtgtagtt 1680
ttattcctgg tcagcagatt tagcccctac gagtggcaca ctgaggaatt tgaagatgga 1740
agagaaacac aaagtagtga atcaactaat gaatttggga tttttaatag tctctggttt 1800
tccttgggtg cctttatgca gcaaggatgc gatatttcgc caagatccct ctctgggcgc 1860
attgttggag gtgtgtggtg gttctttacc ctgatcataa tctcctccta cacggctaac 1920
ttagctgcct tcctgactgt agagaggatg gtgtctccca tcgaaagtgc tgaggatctg 1980
tctaagcaaa cagaaattgc ttatggaaca ttagactctg gctccactaa agagtttttc 2040
aggagatcta aaatcgcagt gtttgataaa atgtggactt atatgaggag tgcagagccc 2100
tctgtgtttg tgaggactac cgcagaagga gtagccagag tccggaaatc caaaggaaag 2160
tatgcctact tgctggagtc cacaatgaac gagtacatcg agcagaggaa gccttgtgac 2220
accatgaaag tgggaggaaa cttggattcc aaaggctacg gcatcgccac acctaaagga 2280
tcctcattaa gaaccccagt aaatcttgca gtattgaaac tcagtgagca aggcgtctta 2340
gacaagctga aaaacaaatg gtggtacgat aaaggtgaat gtggagccaa ggactcggga 2400
agtaaggaaa agaccagtgc cctcagtctg agcaacgttg ctggagtatt ctacatcctt 2460
gtcgggggcc ttggtttggc aatgctggtg gctttgattg agttctgtta caagtcaagg 2520
gccgaggcga aacgaatgaa ggtggcaaag aatccacaga atattaaccc atcttcctcg 2580
cagaattccc agaattttgc aacttataag gaaggttaca acgtatatgg catcgagagt 2640
gttaaaattt ag 2652
<212> Type : DNA
<211> Length : 2652
SequenceName : 41
SequenceDescription :
Sequence
--------
<213> OrganismName : Ncam1
<400> PreSequenceString :
tttttttttt cttttgcagt ttccctgcag gtagatattg ttcccagcca aggagaaatc 60
agcgttggag agtccaaatt cttcctgtgt caagtggcag gagatgccaa agataaggac 120
atctcctggt tctcccccaa cggggagaaa ctgagcccaa accagcagcg gatctcagtg 180
gtgtggaacg atgatgactc ctctaccctc accatctaca acgccaacat tgatgatgcc 240
ggcatttaca agtgcgtggt caccgctgaa gacggcaccc agtccgaggc cactgtcaat 300
gtgaagatct tccagaagct catgttcaag aatgcgccaa ccccacagga gtttaaggaa 360
ggggaagatg ctgtgattgt ctgtgatgtg gtcagctctc tgcccccaac catcatctgg 420
aaacacaaag gccgagatgt catcctgaaa aaagatgtcc ggttcatagt cctatccaac 480
aactacctgc agatccgagg catcaagaaa acagatgagg gcacttaccg ctgtgaaggc 540
aggatcctgg cccgggggga gatcaacttc aaggacattc aggtcattgt gaatgtacca 600
cccactgtcc aggccagaca gagcatcgtg aatgccactg ccaacctggg ccagtctgtc 660
accctggtgt gtgatgccga tggcttccca gagcccacca tgagctggac aaaggatggg 720
gaacccatag agaatgagga ggaagatgac gagaagcaca tcttcagtga cgacagttcg 780
gagctgacca tcaggaatgt ggacaaaaat gacgaagccg aatacgtctg catcgctgag 840
aacaaggctg gcgagcagga tgcctccatc cacctcaagg tcttcgcaaa gcccaaaatc 900
acctatgtag agaatcagac agccatggaa ctagaggagc aagtcactct gacatgtgaa 960
gcctccggag accccattcc ttccatcacc tggagaacgt ccacccgaaa catcagcagt 1020
gaagaaaagg catcgtggac tcgaccagag aagcaagaga ctctagatgg gcacatggtg 1080
gtacgcagcc atgctcgtgt gtcctccctg accctgaaga gcatccagta cacagatgct 1140
ggagaataca tctgcactgc cagcaacacc atcggccagg actcccagtc catgtacctt 1200
gaagttcaat atgctcccaa gctccagggc cctgtagctg tgtacacttg ggaagggaac 1260
caggtgaaca tcacctgtga ggtctttgcc tacccaagtg ccacaatctc ctggttccga 1320
gatggccagt tgctgccaag ctccaactac agcaatatca agatctacaa caccccatct 1380
gcgagctatc tggaggtaac ccctgattcc gaaaatgact ttggaaacta caactgcaca 1440
gcggtgaacc gtattggaca ggagtccttg gaattcatcc tggttcaagc agatacacca 1500
tcttccccat ccatcgaccg ggtggaacca tactccagca cagcacaggt acaatttgat 1560
gagccagaag ccacaggtgg agttcccatc ctcaaataca aggctgagtg gaagtcgctg 1620
ggtgaagaag catggcattc caagtggtat gatgccaaag aagccaacat ggaagggatt 1680
gtcaccatca tgggcctgaa gcctgagaca aggtacgcgg tacgactggc ggccctcaac 1740
ggcaaggggc tgggcgagat cagtgcagcc actgagttca agacacagcc agtccgggaa 1800
cccagcgcac ccaagctgga agggcagatg ggagaggacg ggaactccat caaggtgaac 1860
ctgatcaagc aggatgacgg cggctccccc atcagacact atctggtcaa gtacagagcg 1920
ctcgcctccg agtggaaacc agagatcagg ctcccgtccg gcagtgacca cgtcatgctc 1980
aagtccctag actggaacgc cgagtacgaa gtatatgtgg tagctgagaa ccagcaagga 2040
aaatccaagg cagctcactt cgtgttcagg acttcagccc agcccacggc catcccagcc 2100
aatggcagcc ccactgcagg cctgagcaca ggcgccattg tgggcatcct cattgtcatt 2160
ttcgtcctac tcctggtggt catggacatc acctgctact tcctgaacaa gtgtggcctg 2220
ctcatgtgca tcgctgttaa cctgtgcggc aaagcggggc ccggagccaa gggcaaagac 2280
atggaggagg gcaaggctgc tttctcgaaa gatgagtcta aagaacccat tgtagaggtc 2340
cgaacggagg aggaacggac tccaaaccat gacggaggga agcacacaga gcccaacgag 2400
accacaccac tgacagagcc cgagaagggt cctgtagaaa caaagtccga gccccaggag 2460
tcagaagcaa agccagcgcc aactgaagtc aagacggtcc ccaatgaagc cacacaaacg 2520
aaagagaatg agagcaaagc atga 2544
<212> Type : DNA
<211> Length : 2544
SequenceName : 42
SequenceDescription :
Sequence
--------
<213> OrganismName : Gpr84
<400> PreSequenceString :
atgtggaaca gctcagatga caacttctcc tgctaccatg agtctgtatt gggctatcga 60
tactttgcag ttatctgggg catggtagtg gctgcaacag gcaccgtggg caatgtgctc 120
accctgttgg ccttggccat ccgtcccaaa ctccgaaccc gtttcaacct gctcattgcc 180
aacctcaccc tggctgatct actctactgc acgctcctgc agcctttctc cgtggacaca 240
tacctccacc tccattggcg caccggcgcc atcttctgta gaatattcgg actcctcctc 300
tttacttcca attctgtctc cattcttacc ctctgtctca ttgctctagg acgctacctt 360
ctcattgccc accctaagct ctttccccag gttttcagtg ccaaggggat cgtgctggca 420
ctagtgggca gctgggttgt gggggtgacc agctttgccc ccctctggaa tgtttatgtc 480
ttggtgccag ttgtctgcac ctgcagcttt gaccgcgtgc gaggccggcc ttacaccacc 540
atcctcatgg gcatcttctt tgtggttggg ctcagcagcg tgggcgtctt ctactgcctc 600
atccaccgcc aagtgaagcg tgcggctcga gcgctggaca aatatgggct gcaggaggcc 660
agcatgcgct cccatcaggt gtctgggaca catgaagctg tgccaggcca cttccaggag 720
ctagacagcg ggcttgcatc aagaggtccc agcgaaggga tttcatctga gccagtcagt 780
gctgcgacga cacagaccct ggaaggtgat tcgtcagaag cgggggacca gggcatgaga 840
aaggcagctc agcagatctc agagagaagc cttccagaag tgcatcgcaa gactggagga 900
gctgcaggag cacgcagagc cacggatgca ccatcggagt tcgggaaggt gacccgtatg 960
tgctttgcag tgttcctttg cttcgtcctc agctacatcc ctttcctgct gctcaacatt 1020
ctggacgcca ggggccgcgc tccacgagta gtgcatatgg ttgctgccaa cctcacctgg 1080
ctcaacagct gcatcaaccc tgtgctctat gcagccatga accgccagtt tcgccaggct 1140
tatggctcca tcctgaaacg cgggccacag agtttccgac ggttccatta g 1191
<212> Type : DNA
<211> Length : 1191
SequenceName : 43
SequenceDescription :
Sequence
--------
<213> OrganismName : C3
<400> PreSequenceString :
atgggaccca cgtcagggtc ccagctacta gtgctactgc tgctgttggc cagctccctg 60
ctagctctgg ggagccccat gtactccatc attactccca atgtcctgcg gctggagagt 120
gaagagactt tcatactaga ggcccatgat gctcagggtg atgtcccagt cactgtcact 180
gtgcaagact tcctaaagaa gcaagtgctg accagtgaga agacagtgtt gacaggagcc 240
actggacatc tgaacagggt ctccatcaag attccagcca gtaaggaatt caatgcagat 300
aaggggcaca agtacgtgac agtggtggca aacttcgggg caacagtggt ggagaaagcg 360
gtgctagtaa gctttcagag tggttacctc ttcatccaga cagacaagac catctacacc 420
ccaggctcca ctgttttcta tcggatcttc actgtggaca acaacctatt gcctgtgggc 480
aagacagtcg tcatcgtcat tgagaccccg gacggcgttc ccatcaagag agacattcta 540
tcttcccaca accaatatgg catcttgcct ttgtcttgga acattccaga actggtcaac 600
atggggcagt ggaagatccg agccttctat gaacatgcac caaagcagac cttctctgca 660
gagtttgagg tgaaggaata cgtgctgccc agtttcgaag tcctggtgga gcctacagag 720
aaattttatt acatcgatga cccaaagggc ctggaagttt ccatcacagc cagattcctg 780
tatgggaaga acgtggacgg gacagctttc gtgatctttg gggtccagga tgaggataag 840
aagatttctc tggcccagtc cctcacccgc gtgctgatcg aggatggttc aggggaggca 900
gtgctcagcc gaaaagtgct gatggacggg gtacggccct ccagcccaga agccctagtg 960
gggaagtccc tgtacgtctc tgtcactgtt atcctgcact caggtagcga catggtagag 1020
gcagagcgca gtgggatccc aattgtcact tccccgtacc agatccactt caccaagaca 1080
cccaaattct tcaagccagc catgcctttc gacctcatgg tgtttgtgac caaccctgat 1140
ggctctccag cccgcagagt gccagtagtc actcagggat ccgacgcgca ggctctcacc 1200
caggatgatg gtgtggccaa gctgagcgtc aacacaccca acaaccgcca acccctgact 1260
atcacggtcc gcaccaagaa ggagggtatc ccggacgcgc ggcaggccac caggacgatg 1320
caggcccagc cctacagcac tatgcacaat tccaacaact acctgcactt gtcagtgtct 1380
cgggtggagc tcaagcctgg ggacaacctc aatgtcaact tccacctgcg cacggacgct 1440
ggccaagagg ccaagatccg atactacacc tatctggtta tgaacaaggg gaagttactg 1500
aaggcaggcc gtcaggttcg ggagcctggc caggacctgg tggtcttgtc actgcccatc 1560
actccagaat ttataccttc cttccgcctg gtggcttact acaccctgat tggagctaat 1620
ggccaaaggg aggtggtggc cgactcagtg tgggtggatg tgaaggactc ctgtgtaggc 1680
acgctggtgg tgaaaggtga cccaagagat aaccgacagc ccgcgcctgg gcatcaaacg 1740
acactaagga tcgaggggaa ccagggggcc cgagtggggc tagtggctgt ggacaagggg 1800
gtgtttgtgc tgaacaagaa gaacaaactc acacagagca agatctggga tgtagtagag 1860
aaggcagaca ttggctgcac cccaggcagt gggaagaact atgcgggtgt cttcatggat 1920
gctggcctga ccttcaagac aaaccaaggc ctgcagactg atcagagaga agatcctgag 1980
tgcgccaagc cagctgcccg ccgccgtcgc tcagtgcagt tgatggaaag gaggatggac 2040
aaagctggtc agtacaccga caagggtctg cggaagtgtt gtgaggatgg catgcgtgat 2100
atccctatga agtacagctg ccagcgccgg gctcgcctca tcacccaggg cgagagctgc 2160
ctgaaggcct tcatggactg ctgcaactat atcaccaagc ttcgtgagca gcacagaaga 2220
gaccatgtgc tgggcctggc caggagtgat gtggatgaag acataatccc agaagaagat 2280
attatctcta gaagccactt cccagagagc tggttgtgga ccatagaaga gttgaaagaa 2340
ccagagaaaa atggaatctc tacgaaggtc atgaacatct ttctcaaaga ttccatcacc 2400
acctgggaga ttctggcagt gagcttgtcc gacaagaaag ggatctgtgt ggcagacccc 2460
tatgagatca cagtgatgca ggacttcttc attgacctgc gactgcccta ctctgtggtg 2520
cgcaatgaac aggtggagat cagagctgtg ctcttcaatt accgtgaaca ggagaaactt 2580
aaggtaaggg tggaactgtt gcataaccca gccttctgca gcatggccac tgccaagaag 2640
cggtactacc agaccatcga aatccctccc aagtcctctg tggctgtgcc ttatgtcatt 2700
gtccccttga agatcggcct ccaggaggtg gaggtcaagg ccgccgtctt caaccacttc 2760
atcagtgatg gtgtcaagaa gatactgaag gtcgtgccag aaggaatgag agtcaacaaa 2820
actgtggctg tccgtacact ggatccagaa cacctcggtc aagggggagt gcagagggag 2880
gatgtacctg cagcagacct cagtgaccaa gtgccagaca cagattctga gaccagaatt 2940
ctcctgcaag ggaccccggt ggctcagatg gccgaggacg ctgtggacgg ggagcggctg 3000
aaacacctga tcgtgacccc ctctggctgt ggggagcaga acatgattgg catgacaccc 3060
acggtcattg cagtacacta tctggatcag accgaacagt gggagaaatt cggcctagag 3120
aagaggcaag aagctctgga gctcatcaag aaagggtaca cccagcagct ggctttcaaa 3180
cagcccagct ctgcctatgc tgccttcaac aaccggcctc ccagcacctg gctgacagcc 3240
tatgtggtca aggtcttctc tctggctgcc aacctcatcg ccatcgactc tcaggtcctg 3300
tgtggggctg tcaaatggct gattctggag aaacagaagc cagatggtgt ctttcaggag 3360
gacggaccag tgattcacca agaaatgatt ggtggcttcc ggaacaccaa ggaggcagat 3420
gtgtcgctta cagcctttgt cctcatcgca ctgcaggaag ccagagatat ctgtgagggg 3480
caggtcaaca gccttcccgg gagcatcaac aaggcagggg agtatcttga agccagttac 3540
ctgaacctgc agagaccata cacagtagcc attgctgggt atgccctggc cctgatgaac 3600
aaactggagg aaccttacct caccaagttt ctgaacacag ccaaagatcg gaaccgctgg 3660
gaggagcctg gccagcagct ctacaatgtg gaggccacct cctacgccct cctggccctg 3720
ctgctgctga aagactttga ctctgtgcct cctgtggtgc gctggctcaa cgagcaaaga 3780
tactacggag gtggctatgg ctccacgcag gctaccttca tggtattcca agccttggct 3840
caataccaaa cagatgtccc tgaccacaag gacttgaaca tggatgtgtc cctccacctc 3900
cccagccgca gctccccaac tgtgtttcgc ctgctatggg aaagtggcag tctcctgaga 3960
tcagaagaga ccaagcagaa tgagggcttt tctctgacag ccaaaggaaa aggccaaggc 4020
acactgtcgg tggtgacagt gtatcacgcc aaagtcaaag gcaaagccac ctgcaagaag 4080
tttgacctca gggtcaccat aaaaccagcc cctgagacag ccaagaagcc ccaggatgcc 4140
aagagttcta tgatccttga catctgcacc aggtacttgg gagacgtgga tgctactatg 4200
tccatcctgg acatctccat gatgactggc tttattccag acacaaacga cctggaactg 4260
ctgagctctg gagtagacag atacatttcc aagtatgaga tggacaaagc cttctccaac 4320
aagaacaccc tcatcatcta cctagaaaag atctcacact ccgaagaaga ctgcctgtcc 4380
ttcaaagtcc accagttctt taacgtggga cttatccagc cggggtcggt caaggtctac 4440
tcctactaca atctagagga gtcatgcacc cggttctatc atccggagaa ggacgatgga 4500
atgctgagca agctgtgcca caatgaaatg tgccgctgtg cagaggagaa ctgcttcatg 4560
catcagtcac aggatcaggt cagcctgaat gaacgactag acaaggcttg tgagcctgga 4620
gtggactacg tgtacaagac caagctaacg acgatagagc tgtcggatga ttttgatgag 4680
tacatcatga ccatcgagca ggtcatcaag tcaggctcag atgaggtgca ggcaggtcag 4740
gaacgaaggt tcatcagcca cgtcaagtgc agaaacgccc taaagctgca gaaagggaag 4800
cagtacctca tgtggggcct ctcctccgac ctctggggag aaaagcccaa taccagctac 4860
atcattggga aggacacgtg ggtggagcac tggcccgagg cagaggaatg tcaggatcag 4920
aagaaccaga aacagtgcga agacctcggg gcattcacag aaacaatggt ggttttcggc 4980
tgccccaact ga 4992
<212> Type : DNA
<211> Length : 4992
SequenceName : 44
SequenceDescription :
Sequence
--------
<213> OrganismName : Adra2a
<400> PreSequenceString :
atgttccgcc aggagcagcc gctggccgag ggcagctttg cgcccatggg ctccctgcag 60
ccggatgccg gcaatagcag ctggaacggc accgaggcgc ccggaggcgg cacccgggcc 120
accccttact ccctgcaggt gacgctgacg ctggtgtgcc tggctggcct gctcatgctg 180
ttcaccgtgt ttggcaacgt gctggttatt atcgcagtgt tcaccagccg cgcgctcaaa 240
gcgccccaga acctcttcct ggtgtctctg gcctcagcgg acatcctggt ggccacgctg 300
gtcattccct tttctttggc caacgaggtt atgggctact ggtactttgg taaggtgtgg 360
tgcgagatct acttggccct cgacgtgctc ttttgcacgt cgtccatagt gcacctgtgc 420
gccatcagcc ttgaccgcta ctggtccatc acgcaggcca tcgagtacaa cctgaagcgc 480
acgccgcggc gcatcaaggc catcattgtc actgtgtggg tcatctcggc cgtcatctcc 540
ttcccgccac tcatctccat agagaagaag ggcgctggcg gcgggcagca gccggccgag 600
ccgagctgca agattaacga ccagaagtgg tatgtcatct cgtcgtccat cggctccttc 660
ttcgcgcctt gcctcatcat gatcctggtc tacgtgcgta tctaccagat cgccaagcgt 720
cgcacccgcg tgccgcccag tcgccggggt ccggacgcct gttccgcgcc gccggggggc 780
gccgatcgca ggcccaacgg gctgggcccg gagcgcggcg ctggtaccgc gggcgcggag 840
gccgagccgc tgcccaccca gcttaacggc gccccggggg agcccgcgcc cacccggccg 900
cgcgacgggg atgcgctgga cctagaggag agttcgtcgt ccgagcacgc cgagcggccc 960
caggggcccg gcaaacccga gcgcggtccc cgggccaagg gcaagaccaa ggcgagccag 1020
gtgaaaccgg gggacagtct gccgcggcgc gggcccgggg ctgcggggcc gggggcttcg 1080
gggtccgggc agggagagga gcgtgccggg ggcgccaaag cgtcgcgctg gcgcgggagg 1140
cagaaccgcg agaaacgctt cacgttcgtg ctggcggtgg tgatcggcgt gttcgtggtg 1200
tgttggttcc cgttcttttt cacctacacg ctcatagcgg tcggctgccc ggtgccctac 1260
cagctcttca acttcttctt ctggttcggc tactgcaaca gctcgctgaa ccctgttatc 1320
tacaccattt tcaaccacga cttccgccgc gccttcaaga agatcctctg ccgtggggac 1380
agaaagcgca tcgtgtga 1398
<212> Type : DNA
<211> Length : 1398
SequenceName : 45
SequenceDescription :
Sequence
--------
<213> OrganismName : Nbl1
<400> PreSequenceString :
atgctttggg tcctggtggg gactgttctc cctgtcatgt tgctggctgc cccgccaccc 60
atcaacaagc tggccctgtt tccggacaag agtgcctggt gcgaagccaa gaacatcacg 120
cagattgtgg gccacagcgg ctgtgaggcc aagtctatcc agaacagggc gtgcctagga 180
caatgcttca gttacagcgt ccccaacacc ttcccgcagt ccacagagtc cctggtgcac 240
tgtgactcct gcatgccggc ccagtccatg tgggagattg tgaccttgga gtgccccggc 300
cacgaggagg tgcccagggt ggacaagctg gttgagaaga ttgtacactg cagctgccaa 360
gcctgcggca aggaacccag tcatgagggc ctgaacgtct acatgcaggg tgaagatggg 420
ccaggctccc agccaggatc gcactcccac tcccatcccc accctggtgg ccagacccct 480
gaacctgaag aacctcctgg agcccctcaa gttgaggaag agggggctga ggactga 537
<212> Type : DNA
<211> Length : 537
SequenceName : 46
SequenceDescription :
Sequence
--------
<213> OrganismName : Ache
<400> PreSequenceString :
atgaggcctc cctggtaccc cctgcataca ccctccctgg cttctccact cctcttcctc 60
ctcctctccc tcctgggagg aggggcaagg gctgagggcc gggaagaccc tcagctgctg 120
gtgagggttc gagggggcca gctgaggggc atccgcctga aggcccctgg aggcccagtc 180
tcagcttttc tgggcatccc ctttgcagag ccacctgtgg gctcacgtag atttatgcca 240
ccagagccca agcggccctg gtcaggaata ttggatgcta ccaccttcca aaatgtctgc 300
taccaatacg tggacaccct gtaccctggg tttgagggta ccgagatgtg gaaccccaat 360
cgagagctga gtgaagactg cctttatctt aatgtgtgga caccataccc caggcctact 420
tctcccacac ctgtcctcat ctggatctat gggggtggtt tctacagtgg agcatcctcc 480
ttggacgtgt atgacggccg tttcctggcc caggttgagg gaaccgtgtt ggtatctatg 540
aactaccgag tgggaacctt tggcttcttg gctctaccag gaagcagaga cgcccctggc 600
aatgtaggcc tgctggatca acggcttgcc ttgcaatggg tacaagaaaa tatcgcagcc 660
tttgggggag acccaatgtc agtgactctg tttggggaga gtgcaggtgc agcctcagtg 720
ggcatgcaca ttctgtccct gcccagcagg agcctcttcc acagggctgt cctgcagagt 780
ggcacaccca acgggccctg ggccactgtg agtgcgggag aggccaggcg cagggccaca 840
ctgctggccc gccttgtggg ctgtccccca ggtggcgctg gtggcaatga caccgagctg 900
atatcctgct tgaggacaag gcccgctcag gacctggtgg accacgagtg gcatgtgctg 960
cctcaagaaa gtatcttccg gttttccttc gtgcctgtgg tggacgggga tttcctcagt 1020
gacacgccgg aggccctcat caatactgga gattttcaag acctgcaggt gctggtgggt 1080
gtggtgaagg acgagggctc ctactttctg gtttacgggg tcccaggctt cagcaaagac 1140
aatgaatctc tcatcagccg ggcccagttc ctggctgggg tgcggatcgg tgtaccccaa 1200
gcgagtgacc tggcggccga ggctgtggtc ctgcattata cagactggct gcaccctgag 1260
gaccctgccc acctgagaga tgccatgagt gcggtggtag gcgaccacaa cgttgtgtgc 1320
cctgtggccc agctggctgg gcgactggct gcccaagggg ctcgggtcta tgcctacatc 1380
tttgaacacc gtgcctccac attgacttgg cccctctgga tgggggtgcc ccatggctat 1440
gaaatcgagt tcatctttgg gctccccctg gatccctcac tgaactacac cgtggaggag 1500
agaatctttg ctcagcgact tatgaaatac tggaccaatt ttgcccgcac aggggtgccc 1560
atggatggtt gtgaaaaaag gaagaaatac ccacaaagga aaggggatgg agagaaagcc 1620
acagacaaga gacaaaaact gctagagacc tttaatccca gtacaccaga gacagaggac 1680
attctgatgc ggggtgccct ggccgtagac acgctggacg aggcggagcg ccagtggaag 1740
gccgagttcc accgctggag ctcctacatg gtgcactgga agaaccagtt cgaccactat 1800
agcaagcagg aacgctgctc agacctgtga 1830
<212> Type : DNA
<211> Length : 1830
SequenceName : 47
SequenceDescription :
Sequence
--------
<213> OrganismName : c1qb
<400> PreSequenceString :
atgaagacac agtggagtga gatcttgaca cccctgttgc tgctgctcct gggtttgctc 60
catgtctcct gggcccaaag cagctgtact gggtcccctg gcatccctgg ggtccctggc 120
atccctgggg tccctggctc tgatggcaaa ccaggcactc cagggataaa aggagagaaa 180
gggctccccg gactggctgg agaccatggt gagttaggag agaaagggga tgcagggatc 240
cctgggatcc caggcaaagt tggccccaag ggtcccgtcg gccctaaggg tgctccaggc 300
ccccctggac cccgcggtcc caaaggtgac tctggagact acaaggctac ccagaaagta 360
gccttctctg ccctgaggac ggtcaacagc gccctgcgac caaaccaggc cattcgcttt 420
gaaaaggtga tcaccaatgt taatgataac tacgagccgc gcagtggcaa gttcacctgc 480
aaggtacctg gcctctacta cttcacctac cacgccagtt cccgcgggaa tctgtgtgtg 540
aacatcgtgc gcggccgcga ccgagaccgc atgcagaaag ttctcacctt ctgcgactat 600
gcccaaaaca ccttccaggt caccacgggt ggggtagtct tgaagctgga gcaggaagag 660
gttgttcacc tgcaggccac agacaagaac tccctgctgg gcgtcgaggg agccaatagc 720
atcttcactg gctttctgct tttccctgac atggatgtat ga 762
<212> Type : DNA
<211> Length : 762
SequenceName : 48
SequenceDescription :
Sequence
--------
<213> OrganismName : c1qc
<400> PreSequenceString :
atggttgtag gaaccagctg ccagccccag catggactct acctgctgct gctccttctg 60
gccctacccc tcaggagcca ggccaacgct ggctgctatg ggatcccagg gatgccaggc 120
ctgccgggaa cccctgggaa ggatgggcat gatggacttc aggggcccaa gggtgagccg 180
ggaatcccag ccatccctgg gacacaagga cccaagggtc agaagggcga gccgggtatg 240
cctggccatc gtgggaaaaa cggccccatg gggacctctg ggtcgccagg ggatccaggc 300
cccaggggtc ctcccgggga gccgggtgag gagggtcgat acaaacagaa gcatcagtcg 360
gtgttcacgg tcacccggca gaccgcgcag tacccagcgg ccaatggcct tgtcaagttc 420
aattccgcca tcaccaatcc tcagggggat tacaacacaa acacggggaa gttcacctgc 480
aaagtgcccg gcctctacta cttcgtccac cacacatccc agacggccaa cctgtgcgtg 540
cagctgctcc tcaacaatgc caaggtgacc agcttctgcg accacatgtc caacagcaag 600
caggtcagct caggaggagt actcctgcgg ctgcagaggg gcgacgaggt gtggctggcc 660
gtcaacgact acaacggcat ggtgggcact gagggctctg acagcgtctt ctctggtttc 720
ctactgtttc ctgactag 738
<212> Type : DNA
<211> Length : 738
SequenceName : 49
SequenceDescription :
Sequence
--------
<213> OrganismName : Timp1
<400> PreSequenceString :
atggcgccct ttgcatctct ggcctctggc atcctcttgt tgctatcatt gatagcttcc 60
agtaaagcct gtagctgtgc cccaacccac ccacagacag ctttctgcaa ctcggacctg 120
gttataaggg ctaaattcat gggttcccca gaaatcatcg agaccacctt ataccagcgt 180
tatgagatca agatgactaa gatgctcaaa ggattcgacg ctgtgggaaa tgccacaggt 240
ttccggttcg cctacacccc agccatggag agcctctgtg gatatgtcca caagtcccag 300
aaccgcagcg aggagtttct catcgcgggc cgtttaagga acggaaattt gcacatcact 360
gcctgcagct tcctggttcc ctggcataat ctgagccctg ctcagcaaaa ggccttcgta 420
aagacctata gtgctggctg tggggtgtgc acagtgtttc cctgttcagc catcccttgc 480
aaactggaga gtgacagtca ttgcttgtgg acagatcaga tcctcatggg ctctgagaag 540
ggctaccaga gcgatcactt tgcctgcctg ccacggaatc cagatttgtg cacctggcaa 600
taccttgggg tctcgatgac ccgaagcctt cccctggcaa aagctgaagc ctga 654
<212> Type : DNA
<211> Length : 654
SequenceName : 50
SequenceDescription :
Sequence
--------
<213> OrganismName : Lum
<400> PreSequenceString :
atgaatgtat gtacgttcac tcttgtcttg gcattagtcg gtagtgtcag tggccaatac 60
tatgattatg atgcccctct cttcatgtat ggggaactgt cacccaactg tgcaccagaa 120
tgtaactgtc cccacagcta cccaactgcc atgtactgtg atgatctcaa gttgaaaagt 180
gtgcccatgg tgccccctgg catcaagtac ctttacctga ggaataacca gatcgaccat 240
attgatgaaa aggcctttga gaatgtaacg gatctgcagt ggctcattct tgaccacaat 300
cttctagaaa actccaagat caaaggaaag gtcttctcta agctgaaaca actgaagaag 360
ctgcatataa actacaacaa tttgaccgag tccgtgggtc cgctcccaaa gtccctacaa 420
gacctgcagc tggccaataa taagatcagc aagctgggct ccttcgacgg gctggtaaac 480
ctgaccttca tttaccttca acacaaccag ctcaaagagg aggctgtctc ggcttctctg 540
aaaggcctta agtcactcga atacctcgac ttgagcttca atcagatgag caagctgccc 600
gctggccttc caacatctct tctaactctc tacctagaca acaataagat caccaacatt 660
cctgatgagt atttcaatcg cttcaccggg cttcaatact tgcgtttatc tcacaatgag 720
ctggctgaca gtggcgtgcc tggaaactca tttaacatat catctctgct cgagctcgat 780
ctctcctaca ataagctcaa gagtatacca accgttaatg aaaaccttga aaactattac 840
ctggaggtca ataaactcga aaagtttgat gtcaagagct tctgtaagat cctgggacca 900
ctatcttact ccaagatcaa gcatttgcgc ttggatggca atcccctcac tcaaagcagt 960
ctgccccctg acatgtacga gtgtctacgt gtagcaaatg aaatcacggt taattaa 1017
<212> Type : DNA
<211> Length : 1017
SequenceName : 51
SequenceDescription :
Sequence
--------
<213> OrganismName : Csrp3
<400> PreSequenceString :
atgccgaact ggggtggagg tgcaaaatgt ggagcctgcg acaagacggt ttaccatgca 60
gaagaaatcc agtgcaatgg gaggagcttc cataagacct gtttccactg catggcctgc 120
aggaaggctc tggacagcac cacagtggca gctcatgagt cagagatcta ctgtaaggtc 180
tgctatgggc gcaagtatgg ccccaagggg atcgggtttg gacaaggcgc tggctgcctc 240
agcacagaca ccggcgagca ccttggcctg cagttccaac aatccccaaa gccagcacgt 300
gcagccacca cgagcaaccc ttccaagttc tctgcgaagt ttggagaatc agagaagtgc 360
ccacgatgcg gaaagtcggt atatgctgct gagaaggtca tgggaggtgg caagccctgg 420
cataagacct gctttcgctg cgccatctgt gggaagagcc tggagtccac aaatgtcact 480
gacaaggatg gggagcttta ttgcaaagtt tgctatgcca aaaattttgg ccccacaggc 540
attgggtttg gagggcttac acaccaagtg gaaaagaagg agtga 585
<212> Type : DNA
<211> Length : 585
SequenceName : 52
SequenceDescription :
Sequence
--------
<213> OrganismName : Stmn4
<400> PreSequenceString :
atgaccctcg cagcctataa ggagaagatg aaggaactcc cactagtgtc tctgttctgc 60
tcctgttttc tgtctgatcc cctgaataaa tcatcctaca aatatgaagg ctggtgtggg 120
agacagtgta ggaggaaagg tcaaagccag cggaaaggca gtgctgactg gagagaaaga 180
agagaacagg cagatacggt agacctgaac tggtgtgtca tctctgatat ggaagtcatc 240
gagctgaata agtgtacctc gggccagtcc tttgaagtca tcctgaagcc accttccttt 300
gacggggtgc ctgagtttaa tgcctccctc ccaagacgtc gagacccatc gctagaagag 360
atacagaaga agctagaagc agcagaggag cgaaggaagt accaggaagc tgagctccta 420
aaacaccttg cagagaaacg agagcatgag cgtgaggtaa tccagaaagc tatcgaggaa 480
aacaacaact tcatcaagat ggcgaaagag aagctggccc agaagatgga gtccaataag 540
gaaaaccggg aggcccatct ggctgccatg ttggagcggc tgcaagagaa ggacaagcac 600
gcagaggagg tgcggaaaaa caaggagctg aaggaagagg cctccaggta a 651
<212> Type : DNA
<211> Length : 651
SequenceName : 53
SequenceDescription :
Sequence
--------
<213> OrganismName : Uchl1
<400> PreSequenceString :
atgcagctga aaccgatgga gattaacccc gagatgctga acaaagtgtt ggccaagctg 60
ggggtcgccg ggcagtggcg ctttgccgac gtgctagggc tggaggagga gactctgggc 120
tcagtgccat ctcctgcctg cgccctgctg ctgctgtttc ccctcacggc ccagcatgaa 180
aacttcagga aaaaacaaat tgaggaactg aagggacaag aagttagccc taaagtttac 240
ttcatgaagc agaccatcgg gaactcctgt ggtaccattg ggctgatcca cgcagtggcc 300
aataaccaag acaagctgga atttgaggat ggatcagtcc tgaaacagtt tctgtctgaa 360
acggagaagt tgtcccctga agacagagcc aagtgtttcg agaagaacga ggccattcag 420
gcagcccatg actccgtggc ccaggagggc cagtgccggg tagacgacaa agtgaatttc 480
cattttatcc tgttcaataa tgtggacggc cacctctacg agctcgatgg gcgaatgcct 540
ttcccggtga accatggcgc cagttcagag gactctctgc tgcaggatgc cgccaaggtc 600
tgcagagaat tcactgagcg cgagcaggga gaggtccgct tctccgcagt ggctctctgc 660
aaagcagcct aa 672
<212> Type : DNA
<211> Length : 672
SequenceName : 54
SequenceDescription :
Sequence
--------
<213> OrganismName : Ctsk
<400> PreSequenceString :
atgtgggtgt tcaagttttt gctgctaccc gtggtgagct ttgctctatc cccggaggaa 60
acgctggaca cgcagtggga gctgtggaag aagacccacg ggaagcagta caacagcaag 120
gtggatgaaa tctctcggcg tttaatttgg gaaaaaaacc tgaagaaaat ttctgtccat 180
aatcttgagg cctctcttgg tgcccatacg tatgagctgg ccatgaatca cctgggagac 240
atgaccagcg aagaagtggt tcagaagatg actggactca gagtgccacc ttcgcgttcc 300
ttcagtaatg acactctcta taccccagag tgggaaggca gagtcccaga ctccatcgac 360
tatcgaaaga aaggctatgt tactccagtc aaaaaccagg gccagtgtgg ttcctgttgg 420
gctttcagct ctgcgggtgc cctggagggc caactcaaga agaaaactgg caaactctta 480
gctctgagtc cccagaatct tgtggactgt gtgtctgaga actatggctg tggaggcggc 540
tatatgacca ctgccttcca atatgtgcag cagaatggag gcattgactc tgaagacgct 600
tacccgtatg tggggcagga tgaaagttgt atgtataacg ccacggcaaa ggcagctaag 660
tgcagagggt acagagagat ccctgtgggg aacgagaaag ccctgaagag agcagtggct 720
cgggtaggac ccgtctctgt gtccatcgat gcaagcttga catctttcca attttacagc 780
agaggtgtgt actatgacga aaactgcgac cgtgataatg tgaaccatgc cgtgttggtg 840
gtgggctatg gcacccagaa gggaaataag tactggataa ttaaaaacag ctggggagaa 900
agctggggaa acaaaggcta tgttctcttg gctcggaata agaacaatgc ctgtggcatt 960
accaacctgg ccagcttccc caagatgtga 990
<212> Type : DNA
<211> Length : 990
SequenceName : 55
SequenceDescription :
Sequence
--------
<213> OrganismName : Lxn
<400> PreSequenceString :
atgccgccca gtcgaccccc gccgccggcg ctgctactga gcctctggct actgccgagc 60
ctcgcactgg ccgctgctgc cgcagcgccg gtgaagccgg agtacaccgt cgtctccggg 120
cagcccccgg ccgtggggct gccacgcggg atcctgcagc tggcggcgcg cgctgcgctg 180
cacttcctca acttccgcgc cggctcgccc agcgcgctac gggtgctggc cgccgtgcag 240
gagggccgcg cgtgggttga ccctcaggag ggctgcgagg tggacctggt gtttagcaca 300
gagcactaca accccgagca ggaaggagag gaacgtttgg gcaaatgttc tgcgagggtg 360
tttttcaaga atgaaaagcc cagaccggcc gttaacgtaa cctgcacacg gctctttgag 420
aaatcgaaga gacaagaaaa ggattatctg ctttacaagc agatgaagca actgaagacc 480
cgtctggacg tcgtcagcat acctgataat caaggtcaca ttgacccttc actgagaccc 540
ctgtgggact tggctttcct cggcagctcg tacgtgatgt gggagaagac aagccagttt 600
ctgcactact acctgatcca gctcagcagc gtgaagcagt tgaaaacaga tgatgacagc 660
attgattttg acttcactgt tctacttcat gaattctcaa cacaggaaat cattccctgc 720
cgtattcata tggtctggta ccctggcaag cccctaaaag tcaattacca ttgtcaagag 780
ctacagaacc cagaagaaac ctctggaact gcggaagcat cagctatgga gccagccgag 840
ttcagtactt tctaa 855
<212> Type : DNA
<211> Length : 855
SequenceName : 56
SequenceDescription :
Sequence
--------
<213> OrganismName : Nsf
<400> PreSequenceString :
gcaggagaga ctatgcaagc tgcgagatgc cctactgatg aattgtctct aagcaactgt 60
gcagttgtga acgaaaagga ttaccagtct ggccagcatg tgatggtgag gacgtccccc 120
aaccacaagt acatatttac gctgcggacc catccgtccg tggttcccgg atgcatcgcg 180
ttcagcttac cccagcgaaa atgggctgga ctttctattg ggcaggacat agaagtcgcc 240
ttgtattcgt ttgacaaagc caagcagtgc atcggcacaa tgaccatcga gatcgacttc 300
ctgcagaaaa agaacatcga ctccaaccct tacgacaccg acaagatggc tgccgagttc 360
atccagcagt tcaacaacca ggccttctca gtgggacagc agcttgtctt tagcttcaat 420
gataagctct ttggattgct ggtgaaggac atcgaagcca tggatcccag catcctgaag 480
ggagagcctg cgtcaggtaa aaggcagaag atggaaatag gaattcaagt gtttcacagt 540
caagttgcat ttgaaaaagc agaaaactca tcactcaatc ttattggcaa ggctaaaacc 600
aaggaaaatc gccagtctat catcaatccc gactggaact ttgagaaaat ggggatcggc 660
ggtctggata aggagttttc agatattttc cgacgagcat ttgcttctcg ggtgttccct 720
ccggagatcg tggaacaaat gggttgcaaa catgttaaag gcatcctgtt atacggaccc 780
cctggttgtg gtaagactct cttggctcga cagattggca agatgctgaa tgcaagagag 840
cccaaggtgg tcaatgggcc ggaaatcctt aacaaatatg tgggagaatc agaggccaac 900
atccgcaagc tctttgctga tgcagaagag gagcagagac ggctcggtgc caacagcggc 960
ctgcacatca tcatctttga tgaaatcgac gccatctgca agcagagagg gagcatggcc 1020
ggcagcaccg gggtgcacga cactgtggtc aaccagctgc tgtccaagat cgatggcgtc 1080
gagcagctga acaacatcct cgttattgga atgaccaatc gaccagattt gattgatgag 1140
gctctccttc gacctggaag actggaagtt aagatggaga taggcttacc agatgagaag 1200
ggccgactgc agatccttca catccacaca gcaaggatgc gagggcacca gctactgtct 1260
gcggatgtgg acatcaagga actggctgtg gagactaaga atttcagtgg cgccgagctg 1320
gagggcctgg tgcgagcagc gcagtccaca gccatgaaca gacacataaa ggccagcaca 1380
aaagtggaag tagacatgga gaaggcagag agcctgcagg tgacaagagg ggacttcctc 1440
gcttccctgg agaatgatat caaaccggca ttcggcacaa accaagagga ctatgcaagt 1500
tacattatga atggaatcat caagtggggt gaccccgtga cccgagtcct cgacgacgga 1560
gagctgctgg tccagcaaac taaaaacagt gaccgcacac cgctggttag cgtccttctg 1620
gaaggccctc ctcacagcgg gaagactgcc ctcgctgcaa agattgccga ggaatcaaac 1680
ttccccttca tcaagatctg ctcccccgat aagatgattg ggttctctga gacagccaag 1740
tgtcaggcca tgaagaagat ctttgatgat gcttacaaat ctcagctcag ttgtgtggtc 1800
gtggatgaca ttgagaggtt gctcgattac gtccccatcg gcccccggtt ctccaacctg 1860
gtgttacaag ctctgctcgt gttactgaaa aaggcacctc ctcagggccg caagcttctc 1920
atcatcggga ccaccagccg caaagatgtc ctgcaggaaa tggagatgct caacgccttc 1980
agcaccacca tccacgtgcc caacatcgcc acaggagagc agctgctgga agctctggag 2040
cttttgggca acttcaaaga taaggaacgc accacaattg ctcagcaagt caaagggaag 2100
aaagtctgga taggaatcaa gaagttacta atgttgattg agatgtccct gcagatggac 2160
cctgagtacc gtgtgaggaa attcttggcc ctcatgagag aagaaggcgc tagtcccctg 2220
gactttgact ga 2232
<212> Type : DNA
<211> Length : 2232
SequenceName : 57
SequenceDescription :
Sequence
--------
<213> OrganismName : Adora1
<400> PreSequenceString :
atgccgccct acatctcggc cttccaggct gcctacattg gcatcgaggt gctcattgcc 60
ttggtctctg tgcccggaaa tgtactggtg atttgggctg tgaaggtgaa ccaggcactt 120
cgcgatgcca ccttctgctt catcgtgtca ctggcggtag ctgatgtggc cgttggcgcc 180
ctggtcatcc cactggccat ccttatcaac attgggccac agacctactt ccacacctgc 240
ctcatggtgg cctgccctgt cctcatcctc acccagagct ccattctggc tctgctcgcc 300
attgctgtgg atcgatacct ccgagtcaag atccctctcc ggtacaagac agtggtgacc 360
cagcggcggg cggcagtggc catagctggc tgctggattc tctcccttgt ggtaggcctg 420
acacccatgt ttggctggaa caacctgagt gtggtagagc aagactggag agccaacggc 480
agtgttgggg agcccgtgat caagtgtgag tttgagaagg ttatcagcat ggagtacatg 540
gtctacttca acttcttcgt ctgggtgctg ccgccactgc tcctcatggt cctcatctac 600
ctggaggtct tctacctgat ccgtaagcag ctcaacaaaa aggtgtcagc ctcctccggt 660
gacccccaga agtactacgg gaaggagctg aagatcgcca agtcgctggc cctcatcctc 720
ttcctctttg ccctcagctg gctgccgctg catatcttga actgtatcac cctcttctgc 780
cccacctgcc agaaacccag cattctgatc tacatcgcca tcttcctcac acacggcaac 840
tccgccatga accccatcgt ctatgccttc cggatccaca agttccgggt cacctttctg 900
aagatttgga atgaccactt ccgatgccag cctaagcctc ccatcgatga agacctccca 960
gaggagaaag ctgaggacta g 981
<212> Type : DNA
<211> Length : 981
SequenceName : 58
SequenceDescription :
Sequence
--------
<213> OrganismName : Adora2a
<400> PreSequenceString :
atgggctcct cggtgtacat cacggtggag ctggccatcg ctgtgctggc catcctgggc 60
aacgtgctcg tgtgctgggc cgtgtggatc aacagtaacc tgcagaacgt caccaacttc 120
tttgtggtat cgctggcggc ggctgacatt gcagtgggtg tgctcgccat ccccttcgct 180
atcaccatca gcaccggctt ctgcgccgcc tgccacggct gcctcttctt cgcctgtttt 240
gtcctggtcc tcacgcagag ttccatcttt agcctcttgg ctatcgccat cgaccgctac 300
atcgccatcc gaattccact ccggtacaat ggcttggtga caggtgtgag ggcgaagggc 360
atcattgcaa tttgctgggt gctgtcgttt gccattggcc tgacccccat gctgggctgg 420
aacaactgca gtcagaaaga cgggaactcc acgaagacct gcggcgaggg ccgggtgacc 480
tgtctgttcg aggacgtggt gcccatgaat tacatggttt actacaactt ctttgcgttc 540
gtgttactgc cccttctgct catgctggcc atctacctac ggatttttct ggcggcccgg 600
agacagctga agcagatgga gagccagccc ctgccagggg agcggactcg gtccacgctg 660
cagaaggagg tccacgctgc caagtccctg gccatcatcg tcgggctctt tgctctgtgc 720
tggttgccgc tgcacatcat caactgtttc accttcttct gctccacgtg ccggcacgcc 780
cctccgtggc tcatgtacct ggccatcatc ctctcccaca gcaactccgt cgtcaacccc 840
ttcatctacg cctacaggat ccgggagttc cgccagacct tccggaagat catccgaacc 900
cacgtcctga ggcggcagga acccttccag gcagggggtt ccagtgcctg ggccctggca 960
gctcacagca ctgagggaga gcaggttagc ctccgcctta atggccaccc cctgggggta 1020
tgggccaacg gcagtgccac ccattccgga cggcggccca atggctacac tctggggctg 1080
gggggtggag ggagtgccca aggctctcct cgggatgtgg agcttcctac ccaggagcgc 1140
caggaaggcc aagagcaccc tggcctaagg ggtcatctgg tccaggctag agtaggagct 1200
tcctcatggt cttcagagtt tgccccttcc tga 1233
<212> Type : DNA
<211> Length : 1233
SequenceName : 59
SequenceDescription :

Claims (7)

  1. Use of N6- (2-hydroxyethyl) adenosine and derivatives thereof in the manufacture of a formulation for reducing joint swelling in the treatment of gout, wherein the derivatives of N6- (2-hydroxyethyl) adenosine are of formula II or formula III:
    Figure DEST_PATH_IMAGE002
    wherein R1 is C (CH3)2CH2OH, CH2CH2CH2OH, CH (CH3) CH2OH, and R2 is H; r is CH3O, H, OH.
  2. Use of N6- (2-hydroxyethyl) adenosine and derivatives thereof in the manufacture of a formulation for reducing the expression level of inflammasome NLRP3 in the treatment of gout, wherein the derivatives of N6- (2-hydroxyethyl) adenosine are of formula II or formula III:
    Figure DEST_PATH_IMAGE004
    wherein R1 is C (CH3)2CH2OH, CH2CH2CH2OH, CH (CH3) CH2OH, and R2 is H; r is CH3O, H, OH.
  3. Use of N6- (2-hydroxyethyl) adenosine and derivatives thereof in the preparation of a formulation for the treatment of gout pain by up-regulating the mRNA expression of the adenosine a1 receptor, the adenosine A2A receptor, up-regulating the adenosine a1 receptor protein expression, and reducing the adenosine A2A receptor protein expression, wherein the derivatives of N6- (2-hydroxyethyl) adenosine are represented by formula II or formula III:
    Figure DEST_PATH_IMAGE006
    wherein R1 is C (CH3)2CH2OH, CH2CH2CH2OH, CH (CH3) CH2OH, and R2 is H; r is CH3O, H, OH.
  4. Use of N6- (2-hydroxyethyl) adenosine and derivatives thereof in the preparation of an autophagy-promoting level formulation in the treatment of gout, wherein the derivatives of N6- (2-hydroxyethyl) adenosine are of formula II or formula III:
    Figure DEST_PATH_IMAGE008
    Figure DEST_PATH_IMAGE010
    wherein R1 is C (CH3)2CH2OH, CH2CH2CH2OH, CH (CH3) CH2OH, and R2 is H; r is CH3O, H, OH.
  5. Use of N6- (2-hydroxyethyl) adenosine and derivatives thereof in the preparation of a formulation for promoting degradation of p62 in the treatment of gout, wherein the derivatives of N6- (2-hydroxyethyl) adenosine are of formula II or formula III:
    Figure DEST_PATH_IMAGE012
    wherein R1 is C (CH3)2CH2OH, CH2CH2CH2OH, CH (CH3) CH2OH, and R2 is H; r is CH3O, H, OH.
  6. Use of N6- (2-hydroxyethyl) adenosine and derivatives thereof in the preparation of formulations of regulatory gene sequences SEQ ID No.48 to SEQ ID No.59 in the treatment of gout, wherein the derivatives of N6- (2-hydroxyethyl) adenosine are represented by formula II or formula III:
    Figure DEST_PATH_IMAGE014
    wherein R1 is C (CH3)2CH2OH, CH2CH2CH2OH, CH (CH3) CH2OH, and R2 is H; r is CH3O, H, OH;
    the N6- (2-hydroxyethyl) adenosine and the derivatives thereof can regulate the down-regulation expression of mRNA from SEQ ID No.48 to SEQ ID No.56 and regulate the up-regulation expression of mRNA from SEQ ID No.57 to SEQ ID No. 59.
  7. 7. The use according to any one of claims 1 to 6, wherein the N6- (2-hydroxyethyl) adenosine is isolated directly or indirectly from Cordyceps cicadae, Cordyceps militaris, Cordyceps sinensis and Cordyceps sinensis mycelia, fruiting bodies and spores containing N6- (2-hydroxyethyl) adenosine, or is artificially synthesized.
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