CN110863048A

CN110863048A - Probe library, detection method and kit for detecting effectiveness of DNA homologous recombination repair pathway

Info

Publication number: CN110863048A
Application number: CN201911239803.1A
Authority: CN
Inventors: 刘松柏; 王晓晓
Original assignee: Suzhou Vocational Health College
Current assignee: Suzhou Vocational Health College
Priority date: 2019-12-06
Filing date: 2019-12-06
Publication date: 2020-03-06

Abstract

The invention provides a probe library, a detection method and a kit for detecting the effectiveness of a DNA homologous recombination repair pathway, wherein the probe library consists of probes shown in SEQ ID NO. 1-579, and the probe library is prepared into the detection kit which can be used for detecting genes related to the DNA homologous recombination repair pathway. The probe library is used for enriching target DNA fragments to be analyzed, and then sequencing is carried out on the enriched DNA fragments through a sequencing means, so that the effectiveness of gene detection is realized. The gene related to the DNA homologous recombination repair pathway can be used for predicting the occurrence tendency of tumors, evaluating the malignancy degree and clinical prognosis of the tumors and guiding the screening and research and development of new drugs, so the invention has important guiding significance on the research direction of gene functionality.

Description

Probe library, detection method and kit for detecting effectiveness of DNA homologous recombination repair pathway

Technical Field

The invention belongs to the technical field of gene detection, and particularly relates to a probe library, a detection method and a kit for detecting the effectiveness of a DNA homologous recombination repair pathway.

Background

The abnormal DNA damage repair pathway is closely related to the tumor generation tendency and the sensitivity of the DNA damage inducing anti-tumor drugs to cells. The DNA homologous recombination repair pathway mainly repairs DNA damage of which single-strand damage repair fails when cells are in S phase and G2 phase, DNA damage caused by topoisomerase inhibitors, and DNA double-strand crosslinking damage caused by alkylating agents such as TMZ and the like, and is one of the most important ways in a DNA repair mechanism. In brief, when the DNA is damaged by double strand break at S phase and G2 phase of the cell, ATM/ATR is used as a damage sensing element to phosphorylate H2A, then MRE11/RAD50/NBS1 complex (MRN) MRE11 cuts the broken end of the DNA in the direction of 5 '-3' end by using nuclease activity, and the exposed single strand DNA is blocked and protected by RPA. The RAD51 protein complex then replaces the RPA and searches for homologous DNA templates, and invades the 3' end into the template strand with the help of proteins such as RAD54 and forms a D-loop structure. The process of DNA damage repair is then completed by the final formation of two complete DNA strands through the steps of DNA synthesis, shearing, and re-stitching with the aid of a template.

Synthetic Lethality (Synthetic Lethality) strategy has been widely used in recent years in the study of tumors. The concept of synthetic lethality in tumor studies is: when the function of two important genes that are not in the same repair pathway is suppressed from one of them, the cell is not lethal, but after the function of both genes is suppressed, the cell is dead. In clinic, if one of the mutations exists in the tumor cells, and the gene is normal in normal cells, the other gene can be used as a target point, and the function of the other gene is inhibited, so that the aims of specifically killing the tumor cells and individually treating the tumor cells are fulfilled.

Earlier researches find that the gene involved in the DNA homologous recombination repair pathway has embryonic genetic mutation and somatic mutation in specific tissues, and the genetic mutation and somatic mutation are highly related to the generation and treatment effects of tumors. Wherein, BRCA1/BRCA2 gene mutation will increase the probability of suffering from breast cancer, ovarian cancer, melanoma and hematologic tumor; XRCC2 gene mutation tumor cells are more sensitive to cross-linked chemotherapeutic drugs; the rate of frameshift mutations in the RAD50 gene is up to 30% in gastrointestinal cancers. The mutation of the genes causes the change (attenuation or deletion) of the effectiveness of the DNA homologous recombination repair pathway, and has important significance for the generation, prognosis and treatment strategy formulation of tumor diseases.

Disclosure of Invention

The invention aims to provide a probe library, a detection method and a kit for detecting the effectiveness of a DNA homologous recombination repair pathway.

In order to achieve the purpose, the invention provides the following technical scheme:

a kit for detecting the effectiveness of a DNA homologous recombination repair pathway comprises a probe library which is composed of probes shown in SEQ ID NO. 1-579 and aims at genes related to the DNA homologous recombination repair pathway.

Further, the genes related to the DNA homologous recombination repair pathway include LIG1, MRE11, NBN, PARG, PARP1, PARPBP, RAD50, TP53BP1, XRCC2, XRCC3, EXO1, PCNA, POLD1, POLD2, POLD3, POLD4, RFC1, RFC2, RFC3, RFC4, RFC5, RPA1, RPA2, RPA3, RPA RAD 4, BARD1, BLM, BRCA1, BRCA2, BRIP 2, DMC EI 2, DNA2, RFD 2, EME2, ERCC 2, FACCM 2, FEN 2, GEN 2, H2, HELQ, HFM 2, INO 2, KANST 2, MUT 2, SMNSS 2, PSNSS 2, PSNS7, PSNSRADR 2, PSRQRADR 2, PSRWD 2, PSR3672, PSRWD 2, PSR3672, PSRNS7, PSR3672, PSRNS3672, PSR36.

Further, probe sequences corresponding to the gene LIG1 are shown as SEQ ID NO. 1-11, probe sequences corresponding to the gene MRE11 are shown as SEQ ID NO. 12-17, probe sequences corresponding to the gene NBN are shown as SEQ ID NO. 18-23, probe sequences corresponding to the gene PARG are shown as SEQ ID NO. 24-29, probe sequences corresponding to the gene PARP1 are shown as SEQ ID NO. 30-40, probe sequences corresponding to the gene PARPBP are shown as SEQ ID NO. 41-45, probe sequences corresponding to the gene RAD50 are shown as SEQ ID NO. 46-57, probe sequences corresponding to the gene TP53BP1 are shown as SEQ ID NO. 58-71, probe sequences corresponding to the gene XRCC2 are shown as SEQ ID NO. 72-74, probe sequences corresponding to the gene XRCC3 are shown as SEQ ID NO. 75-78, probe sequences corresponding to the gene EXO1 are shown as SEQ ID NO. 84, and probe sequences corresponding to SEQ ID NO. 88-79, the probe sequence corresponding to the gene POLD1 is shown as SEQ ID NO. 89-101, the probe sequence corresponding to the gene POLD2 is shown as SEQ ID NO. 102-106, the probe sequence corresponding to the gene POLD3 is shown as SEQ ID NO. 107-110, the probe sequence corresponding to the gene POLD4 is shown as SEQ ID NO. 111-113, the probe sequence corresponding to the gene RFC1 is shown as SEQ ID NO. 114-123, the probe sequence corresponding to the gene RFC2 is shown as SEQ ID NO. 124-127, the probe sequence corresponding to the gene RFC3 is shown as SEQ ID NO. 128-131, the probe sequence corresponding to the gene RFC4 is shown as SEQ ID NO. 132-135, the probe sequence corresponding to the gene RFC5 is shown as SEQ ID NO. 136-138, the probe sequence corresponding to the gene RPA1 is shown as SEQ ID NO. 139-144, the probe sequence corresponding to the gene RPA2 is shown as SEQ ID NO. 145-148, and the probe sequence corresponding to SEQ ID NO. 151-3, the probe sequence corresponding to the gene RPA4 is shown as SEQ ID NO. 152-153, the probe sequence corresponding to the gene BARD1 is shown as SEQ ID NO. 154-158, the probe sequence corresponding to the gene BLM is shown as SEQ ID NO. 159-169, the probe sequence corresponding to the gene BRCA1 is shown as SEQ ID NO. 170-178, the probe sequence corresponding to the gene BRCA2 is shown as SEQ ID NO. 179-194, the probe sequence corresponding to the gene BRIP1 is shown as SEQ ID NO. 195-204, the probe sequence corresponding to the gene EME1 is shown as SEQ ID NO. 205-209, the probe sequence corresponding to the gene DNA2 is shown as SEQ ID NO. 210-219, the probe sequence corresponding to the gene EID3 is shown as SEQ ID NO. 220-221, the probe sequence corresponding to the gene EME1 is shown as SEQ ID NO. 222-225, the probe sequence corresponding to the gene EME2 is shown as SEQ ID NO. 229, and the probe sequence corresponding to ERCC NO. 230-1, the probe sequence corresponding to the gene FANCM is shown as SEQ ID NO. 233-245, the probe sequence corresponding to the gene FEN1 is shown as SEQ ID NO. 246-248, the probe sequence corresponding to the gene GEN1 is shown as SEQ ID NO. 249-254, the probe sequence corresponding to the gene H2AFX is shown as SEQ ID NO. 255-256, the probe sequence corresponding to the gene HELQ is shown as SEQ ID NO. 257-265, the probe sequence corresponding to the gene HFM1 is shown as SEQ ID NO. 266-280, the probe sequence corresponding to the gene INO80 is shown as SEQ ID NO. 281-294, the probe sequence corresponding to the gene KAT5 is shown as SEQ ID NO. 295-300, the probe sequence corresponding to the gene MUS81 is shown as SEQ ID NO. 301-307, the probe sequence corresponding to the gene MCNFATC 2IP is shown as SEQ ID NO. 308-310, the probe sequence corresponding to the gene NSE 1 is shown as SEQ ID NO. 318-315, the probe sequence corresponding to NSE NO.2 is shown as SEQ ID NO. 316-46316, the probe sequence corresponding to the gene NSMCE3 is shown as SEQ ID NO. 319-320, the probe sequence corresponding to the gene NSMCE4A is shown as SEQ ID NO. 321-324, the probe sequence corresponding to the gene PALB2 is shown as SEQ ID NO. 325-331, the probe sequence corresponding to the gene PARP2 is shown as SEQ ID NO. 332-337, the probe sequence corresponding to the gene PAXIP1 is shown as SEQ ID NO. 338-346, the probe sequence corresponding to the gene POLH is shown as SEQ ID NO. 347-351, the probe sequence corresponding to the gene POLQ is shown as SEQ ID NO. 352-369, the probe sequence corresponding to the gene PPP4C is shown as SEQ ID NO. 370-372, the probe sequence corresponding to the gene PPP4R1 is shown as SEQ ID NO. 373-380, the probe sequence corresponding to the gene PPP4R2 is shown as SEQ ID NO. 381-384, the probe sequence corresponding to the gene SEQ ID NO. 35385-398, the probe sequence corresponding to the gene PPP NO.373 is shown as SEQ ID NO. 26-395, the probe sequence corresponding to the gene RAD51B is shown as SEQ ID NO. 399-402, the probe sequence corresponding to the gene RAD51C is shown as SEQ ID NO. 403-405, the probe sequence corresponding to the gene RAD51D is shown as SEQ ID number 406-409, the probe sequence corresponding to the gene RAD52 is shown as SEQ ID number 410-413, the probe sequence corresponding to the gene RAD54B is shown as SEQ ID number 414-419, the probe sequence corresponding to the gene RAD54L is shown as SEQ ID NO. 420-426, the probe sequence corresponding to the gene RBBP8 is shown as SEQ ID NO. 427-434, the probe sequence corresponding to the gene RDM1 is shown as SEQ ID number 435-439, the probe sequence corresponding to the gene RECQL is shown as SEQ ID NO. 440-445, the probe sequence corresponding to the gene RECQL4 is shown as SEQ ID number 446-402, the probe sequence corresponding to gene RECQL5 is shown as SEQ ID NO. 457-464, the probe sequence corresponding to the gene RMI1 is shown as SEQ ID number 465-468, the probe sequence corresponding to the gene RMI2 is shown as SEQ ID number 469-470, the probe sequence corresponding to the gene RTEL1 is shown as SEQ ID No. 471-483, the probe sequence corresponding to the gene SHFM1 is shown as SEQ ID No.484, the probe sequence corresponding to the gene SLX1A is shown as SEQ ID No. 485-489, the probe sequence corresponding to the gene SLX1B is shown as SEQ ID number 490-494, the probe sequence corresponding to the gene SLX4 is shown as SEQ ID No. 495-503, the probe sequence corresponding to the gene SMARCAD1 is shown as SEQ ID number-513, the probe sequence corresponding to the gene SMC5 is shown as SEQ ID number 514-524, the probe sequence corresponding to the gene SMC6 is shown as SEQ ID number 536, and the probe sequence corresponding to the gene SPO11 is shown as SEQ ID No. 537-540, the probe sequence corresponding to the gene SWSAP1 is shown as SEQ ID number 541-542, the probe sequence corresponding to the gene TOP3A is shown as SEQ ID number 543-550, the probe sequence corresponding to the gene TOP3B is shown as SEQ ID number 551-557, the probe sequence corresponding to the gene UIMC1 is shown as SEQ ID number 558-562, the probe sequence corresponding to the gene WRN is shown as SEQ ID number 563-575, and the probe sequence corresponding to the gene ZWIM 7 is shown as SEQ ID number 576-579.

A method for detecting a gene associated with a DNA homologous recombination repair pathway comprising the steps of:

(1) obtaining a DNA sample library of a subject;

(2) hybridizing all probes shown as SEQ ID NO. 1-579 in the kit of claim 1 with the DNA sample library;

(3) and (3) separating the hybridization product in the step (2), releasing the gene segment hybridized with the probe in the kit, and sequencing the separated gene segment by adopting a sequencing technology so as to detect the mutation condition of the gene.

Further, the DNA sample library in the step (1) is composed of double-stranded DNA fragments;

the step (1) comprises the following steps: extracting whole genome DNA, and then fragmenting the whole genome DNA; or mRNA is extracted, fragmented, and then double-stranded cDNA is synthesized using the fragmented mRNA as a template.

Further, the probe in the step (2) is selectively labeled.

Further, the probe in the step (2) is labeled with biotin.

Has the advantages that: the invention discloses a probe library, a detection method and a kit for detecting the effectiveness of a DNA homologous recombination repair pathway, which are used for integrally detecting and analyzing the variation condition of the DNA homologous recombination repair pathway participating in genes and mainly have the following meanings:

1. by analyzing the variation condition of the DNA homologous recombination repair pathway participating in the gene, the effectiveness (attenuation or deletion) of the DNA homologous recombination repair pathway in human tissues or cells is evaluated, the occurrence tendency of tumor diseases is predicted, and patients are guided to take corresponding preventive measures.

2. The effectiveness (weakening or deletion) of the DNA homologous recombination repair pathway in the cells of the tumor patients is evaluated by analyzing the variation condition of the DNA homologous recombination repair pathway participating in the gene, and the method has important guiding significance for evaluating the malignancy degree and clinical prognosis of the tumor.

3. The effectiveness (attenuation or deletion) of the DNA homologous recombination repair pathway in the cells of the tumor patients is evaluated by analyzing the variation condition of the DNA homologous recombination repair pathway participating in the gene, and the method has important guiding significance for the selection of radiation and chemotherapy medicaments and the formulation of treatment strategies (such as synthetic lethal scheme and the like).

4. The effectiveness (weakening or deletion) of the DNA homologous recombination repair pathway in the cells of the tumor patients is evaluated by analyzing the variation condition of the DNA homologous recombination repair pathway participating in the gene, and the method has important guiding significance for the selection of new therapeutic targets, the research and development of targeted drugs and the like.

Drawings

FIG. 1 is a flow chart of the detection method of the present invention.

Detailed Description

The present invention is further described below with reference to specific examples, which are only exemplary and do not limit the scope of the present invention in any way. It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention, and that such changes and modifications may be made without departing from the spirit and scope of the invention.

The invention provides a method for repairing a gene related to a pathway by DNA base excision, which mainly comprises the following steps:

(1) obtaining a DNA sample library of a subject; extracting whole genome DNA, and then fragmenting the whole genome DNA; or extracting mRNA, fragmenting the mRNA, and synthesizing double-stranded cDNA by using the fragmented mRNA as a template;

(2) designing a DNA probe hybridized with the gene aiming at the gene segment to be detected, and screening a plurality of probes from the DNA probe library as a DNA probe library;

(3) hybridizing the DNA probe library with the DNA sample library, and enriching the DNA sample library to obtain a DNA fragment of the gene to be detected;

(4) and (4) separating the hybridization product in the step (3), releasing the gene segment hybridized with the probe in the kit, and sequencing the separated gene segment by adopting a sequencing technology so as to detect the mutation condition of the gene.

In the implementation process, each probe in the DNA probe library may be labeled with biotin, and then the magnetic beads labeled with streptavidin are used to adsorb the hybridization product after hybridization, releasing the enriched gene fragment to be detected from the magnetic beads, and then sequencing the gene fragment.

The specific experimental process is as follows:

first, prepare cDNA/DNA sample library

1. Preparation of DNA sample library

1.1 DNA extraction

Human genome DNA is extracted by a commercial DNA extraction kit, and the quality and the concentration of a DNA template are detected by a spectrophotometry and a gel electrophoresis system for the extracted DNA. The absorbance of the DNA template at 260nm is more than 0.05, and the ratio of the absorbance A260/A280 is between 1.8 and 2, which is qualified.

1.2 DNA fragmentation

Mu.g of qualified genomic DNA was diluted to 100. mu.L with TE buffer. And (3) fragmenting the DNA by using a tissue homogenizer, wherein the fragment length is 150-200 bases.

The DNA was purified using a commercial purification kit.

1.3 quality testing of DNA sample libraries

And (5) carrying out qualitative and quantitative analysis on the DNA by using a biological analyzer, and determining that the length peak value of the DNA fragment is reasonable.

2. Preparation of cDNA sample library

2.1 mRNA extraction

Human mRNA is extracted by adopting a commercial mRNA extraction kit, and the quality and the concentration of the extracted mRNA are detected by using a spectrophotometry and a gel electrophoresis system. The absorbance A260/A280 ratio is between 1.8 and 2.

2.2 fragmentation of mRNA

Fragmenting mRNA by using a commercial kit; the mRNA was purified by column chromatography using a commercial kit.

2.3 Synthesis of first and second Strand cDNA of mRNA Using a commercial reagent cDNA Synthesis kit

The cDNA was purified by column chromatography using a commercial kit.

3. cDNA/DNA end repair

The DNA fragment is end-repaired using Klenow fragment, T4 DNA polymerase and T4 polynucleotide kinase, since Klenow fragment has 5 '-3' polymerase activity and 3 '-5' polymerase activity, but lacks 5 '-3' exonuclease activity. Therefore, the DNA fragment can be conveniently and accurately subjected to end repair. And (4) carrying out column purification on the repaired DNA fragment.

The cDNA/DNA was filled in at the 5 'protruding sticky ends and blunt-ended at the 3' protruding sticky ends using T4 polymerase and Klenow E.coli polymerase fragments to generate blunt ends for subsequent blunt end ligation. The reaction was carried out in a PCR amplification apparatus at 20 ℃ for 30 min.

TABLE 1

4. Adding base A to the 3' end of cDNA/DNA sample

A DNA fragment having a cohesive end A was obtained by adding a base A to the 3' -end of the end-repaired DNA fragment using Klenow having 3' -5 ' exonuclease activity, and the reaction was carried out in a PCR amplification apparatus at 37 ℃ for 30 min. The treated DNA fragment was subjected to column purification.

TABLE 2

5. Adding linkers at both ends of cDNA/DNA

TABLE 3

Reactive materials	Volume (μ L)
		cDNA/DNA sample library	20
2 XT 4 DNA ligase buffer	5
		DNA both ends linker	5
T4 DNA ligase	5
		Ultrapure water	The total volume is compensated to 50 mu L

6. Isolating cDNA fragments of appropriate length

The DNA fragments were separated using an electrophoresis gel, and 150-and 250-base cDNA fragments were excised on the gel in accordance with the DNA molecular weight.

Gel samples containing the cDNA library were column purified using a commercial kit.

7. Quality detection of cDNA fragment sample library

And (3) carrying out qualitative and quantitative analysis on the cDNA by using a bioanalyzer, and confirming that the length peak value of the separated cDNA fragment is reasonable.

PCR conditions were as follows: placing in a PCR amplification apparatus, pre-denaturing at 95 deg.C for 10 s, denaturing at 95 deg.C for 30 s, annealing at 65 deg.C for 30 s, extending at 72 deg.C for 1min, co-circulating 20 times (cDNA sample bank) or 5-8 times (DNA sample bank), and finally extending at 72 deg.C for 5 min.

And (3) purifying the PCR amplification product by a column by using a commercial kit.

8. Amplification of DNA templates

And (3) carrying out polymerase chain reaction on the treated DNA sample by using a PCR amplification instrument to increase the content of the DNA so as to meet the requirement of hybridization with the probe.

TABLE 4

Reactive materials	Volume (μ L)
		Post-adapter cDNA/DNA sample library	20
10 XDNA polymerase buffer	5
		DNA polymerase	1
Joint positive primer	1
		Linker reverse primer	1
Ultrapure water	The total volume is compensated to 50 mu L

9. Quality detection of amplified cDNA/DNA sample library

And (3) carrying out cDNA/DNA qualitative and quantitative analysis by using a bioanalyzer, and confirming that the length peak value of the purified fragment is reasonable and about 200 bp.

Second, design principle of probe

According to a human reference genome HG19, the gene related to the DNA base excision repair pathway and all coding sequences thereof are obtained by combining Ensembl, CCDS, Gencode, VEGA, SNP and CytoBand databases.

The design of the probe has several major considerations:

(1) specificity of

Stringent specificity parameters may be effective in reducing probe binding in non-target regions, but also limit regions of a part of exons that have a lower degree of reproducibility, resulting in reduced coverage of the probe design. Too loose specificity parameters will directly reduce the amount of data on the target area, resulting in reduced capture efficiency and increased sequencing costs. Therefore, a reasonable specificity parameter is key to balancing coverage and capture efficiency. We consider a probe with a sequence similarity across the genome of no more than 3 as the optimal threshold for specificity parameters.

(2) Stability of binding

The indicators of the binding ability of the probe to the template are the minimum free energy (. DELTA.G) and the melting temperature (Tm), and since these two parameters are somewhat complicated to calculate, the binding ability of the probe to the template is generally indirectly expressed by a more direct and simple GC content. In general, the greater the GC content, the greater the binding stability. In fact, the closer the GC content is to 50% of the probe, the better the capture effect. The higher the GC content, the better the binding ability of the probe to the target DNA fragment is, however, the better the binding ability to the target DNA fragment is to its original complementary fragment (consistent length on the one hand, no mutation mismatch on the other hand), and therefore, the higher the concentration of the probe is needed to promote it to take some advantage in competition for binding to the DNA complementary fragment.

We will prefer to design probes with GC contents close to 50%, and for unavoidable GC extremes we will add modified bases to the probes and thus alter the GC extremes.

(3) Concentration of Probe

As can be seen from the above binding stability, the capture effect of the probes with different binding capacities is greatly different. Too high and too low binding capacity are detrimental to capture, and therefore, different concentrations of probes for different GC contents need to be set in order to maximize uniformity of capture efficiency. Through summarizing historical capture data, different probe concentration parameters are set for probes with different GC contents, the concentration base number of the probe with the GC content of 40-60% is set to be 1, then the concentration base numbers of the probes with the GC contents of 30-40% and 60-70% are 1 x 22, and the concentration base numbers of the probes with the GC contents of 20-30% and 70-80% are 1 x 24.

(4) Position of the probe

1. The optimal probe placement position is 100% coincident with the target region, but due to the effects of randomly interrupted libraries, sequence repeatability, GC content, mutation types, etc., the actual probe design strategy is as follows:

2. since libraries are typically generated by random disruption, to maximize capture of target libraries, probes are typically designed in a tiling fashion;

3. if the target area has a repeated sequence area, the probe design can be extended to two sides to search areas with better specificity under the condition of ensuring the coverage of the target area during design;

4. if the target area is an extreme GC area, in the design process, under the condition of ensuring the coverage of the target area, a probe is designed by extending and searching areas with more proper GC content to two sides;

different design considerations are also required for different mutation types:

1. for insertions or deletions exceeding 60bp, probes need to be designed on both sides of a mutation breakpoint besides the probes need to be covered, and the closer to the breakpoint, the better;

2. for CNV regions exceeding 10 kbp, the optimal probe design strategy is to place sparse probes at intervals, so that on one hand, CNV can be detected, and on the other hand, the sequencing cost can be reduced;

3. for intron regions where fusion occurs, if the fusion site is not defined, then full coverage of the entire intron is required; if the fusion site is defined, probes need to be designed on both sides of the fusion site.

4. For short-chain repeat regions such as MSI and STR, probes need to be designed to extend 60bp on both sides in addition to the probes covering them.

Hybridization of DNA capture probes

1. Hybridization of DNA sample libraries with biotinylated DNA Probe libraries

The cDNA/DNA sample pool was mixed with hybridization buffer at 95 ℃ for 5 minutes, and then maintained at 65 ℃. The reaction was performed in a PCR amplificator.

The mixture was then mixed with a pool of probes at 65 ℃ for 5 minutes. The hybridization reaction was placed in a PCR amplification apparatus and incubated at 65 ℃ for 24 hours.

Fourthly, obtaining the hybridized gene segment

1. Preparation of streptavidin magnetic beads

The separation of the hybridization products was performed using Dynabeads streptavidin magnetic beads. The beads were placed on a homogenizer and mixed, requiring 50. mu.L of beads per sample.

And (3) washing magnetic beads: mixing 50 μ L of magnetic beads and 200 μ L of binding buffer solution, separating and purifying the magnetic beads and the buffer solution by an external magnetic field, discarding the buffer solution, and repeating the steps for three times.

2. Isolation of the hybridization product

The hybridization product was mixed well with streptavidin magnetic beads and shaken for 30 minutes at room temperature. Separating and purifying the magnetic beads by an external magnetic field.

To the beads, 500. mu.L of washing buffer was added, incubated at 65 ℃ for 10 minutes, and the beads were isolated and purified by an external magnetic field. The above steps were repeated three times.

3. cDNA/DNA enrichment sample Release

Mixing the magnetic beads with 50 mu L of elution buffer solution, incubating for 10 minutes at room temperature, separating and discarding the magnetic beads through an external magnetic field, and collecting supernatant, wherein the supernatant is the enriched gene segments related to the DNA base excision repair pathway.

Fifth, PCR amplification and purification

The enriched gene fragments were further amplified in preparation for loading into a sequencing instrument.

TABLE 5

Sixthly, detecting gene mutation by adopting next generation sequencing technology

The next generation of commercial sequencing instruments were used for sequencing and the sequencing results were analyzed using the existing sequencing software analysis package.

Example 1 detection of mutations in MRE11, RAD50, NBN, DNA2, RAD51C, BRCA2 genes

Firstly, constructing a sample library

1. Extraction of DNA

The sample DNA was extracted using a commercial kit according to the conventional DNA extraction method for tissue samples.

2. DNA fragmentation

The DNA sample was fragmented using a DNA fragmenter to a fragment length of 150-200 bp.

3. DNA sample pool quality detection

4. DNA end repair

The DNA was filled in at the 5 'protruding sticky ends and blunt-ended at the 3' protruding sticky ends using T4 polymerase and Klenow E.coli polymerase fragments to generate blunt ends for subsequent blunt end ligation. The reaction system is shown in Table 1, and the reaction is carried out in a PCR amplification instrument at 20 ℃ for 30 min.

5. Adding base A to the 3' end of the DNA sample

The reaction was carried out in a PCR amplification apparatus at 37 ℃ for 30 minutes, and the reaction system is shown in Table 2.

6. Adding linkers at both ends of DNA

The reaction system is shown in Table 3.

7. DNA fragment sample library obtained by amplification

The Polymerase Chain Reaction (PCR) was carried out in a PCR amplification apparatus, and the reaction system is shown in Table 4.

8. Quality detection of amplified DNA sample libraries

And (3) carrying out qualitative and quantitative analysis on the DNA by using a biological analyzer, and confirming that the length peak value of the purified fragment is reasonable and about 200 bp.

If the concentration of the obtained DNA sample library is low, the sample is dried at low temperature (below 45 ℃) by a vacuum concentrator and then dissolved with nuclease-free water to reach the required concentration.

Secondly, preparing a DNA probe library of MRE11, RAD50, NBN, DNA2, RAD51C and BRCA2 genes

According to the above-mentioned method and idea of designing a probe, a probe having Biotin (Biotin) at the 5' end was designed and synthesized for the test.

Thirdly, hybridizing the DNA sample library with a biotinylated DNA probe library

The DNA pool was mixed with a hybridization buffer (10 mM Tris-HCl, 2% bovine serum albumin, pH 8.0) (after mixing, the concentration of the DNA pool did not exceed 50 ng/. mu.L at most) under reaction conditions of 95 ℃ for 5 minutes, and then maintained at 65 ℃. The reaction was performed in a PCR amplificator.

Then, with a DNA sample library: the probe pool was added to the above mixture at a molar ratio of 1:100 under reaction conditions of 65 ℃ for 5 minutes. The hybridization reaction was placed in a PCR amplification apparatus and incubated at 65 ℃ for 24 hours.

Fourthly, obtaining the gene segments of MRE11, RAD50, NBN, DNA2, RAD51C and BRCA2 which are subjected to hybridization enrichment

1. Preparation of streptavidin magnetic beads

Dynabeads streptavidin magnetic beads are placed on a mixing instrument to be mixed uniformly, 50 mu L of magnetic beads and 200 mu L of binding buffer (10 mM Tris-HCl, 2% bovine serum albumin, pH8.0) are mixed uniformly on the mixing instrument, the magnetic beads and the buffer are separated and purified by using an external magnetic field, the buffer is discarded, and the steps are repeated three times, and 200 mu L of binding buffer is added each time.

2. Isolation of the hybridization product

The hybridization reaction mixture in step three was mixed with the treated streptavidin magnetic beads of step four and shaken for 30 minutes at room temperature. The magnetic beads were separated and purified from the buffer using an external magnetic field, and then 500. mu.l of a washing buffer (phosphate buffer, 0.1% Tween-20, 0.1% SDS, pH 7.4) was added to the magnetic beads, incubated at 65 ℃ for 10 minutes, and mixed uniformly every 5 minutes. And separating and purifying the magnetic beads and the buffer solution by using an external magnetic field, and repeating the steps for three times.

3. Release of enriched DNA samples

The beads were mixed with 50. mu.l of elution buffer (10 mM sodium hydroxide solution), incubated at room temperature for 10 minutes, and mixed uniformly every 5 minutes. Separating and purifying the magnetic beads and the buffer solution by using an external magnetic field, reserving supernatant, and discarding the magnetic beads, wherein the supernatant is a DNA sample library containing the enriched MRE11, RAD50, NBN, DNA2, RAD51C and BRCA2 gene fragments.

Fifth, PCR amplification and purification

The enriched DNA sample library was further amplified in preparation for loading into a sequencing instrument, and the reaction system is shown in table 5.

Sixthly, verification of detection sensitivity

Mutant and wild-type plasmids were constructed for MRE11 (c.2092a > G), RAD50 (c.572c > T), NBN (c.425a > G), DNA2 (c.2430c > G), RAD51C (c.186a > C), and BRCA2 (c.1114a > C) mutations in the pathway, samples of different abundances were mixed according to the copy number ratio of the mutant to the wild-type, sensitivity was examined by capturing and sequencing using the above-described probe library, and each sample was tested 3 times repeatedly, with the following results:

TABLE 6

Gene to be tested	5% plasmid	1% plasmid	0.5% plasmid
				MRE11	5.12%	1.03%	0.55%
RAD50	5.04%	1.10%	0.61%
				NBN	5.19%	0.98%	0.44%
DNA2	4.95%	0.97%	0.53%
				RAD51C	4.97%	1.07%	0.45%
BRCA2	5.09%	1.14%	0.60%

As can be seen from the table, the detection probe library and the detection method provided by the invention have better detection sensitivity for low-abundance samples, and can reach the detection sensitivity level of about 0.5%.

The optimized probe library was used to detect 88 pathway-associated genes in 10 tumor samples of lung cancer patients, 8 of which were missense mutated in exon regions in at least 1 pathway-associated gene (80%), and 4 of which were missense mutated in exon regions in more than 5 pathway-associated genes (40%).

Sequence listing

<110> Suzhou academy of health and occupational technology

<120> probe library, detection method and kit for detecting effectiveness of DNA homologous recombination repair pathway

<141>2019-12-02

<160>579

<170>SIPOSequenceListing 1.0

<210>1

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>1

cgaataaacc gagggaagcg aagggagatg cccttgtcac tatccacctg cggaagcggg 60

atggagactc ctgcggtcca gccccagcga ccccctgctc 100

<210>2

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>2

cgatcaccac caggtccagg gtgtcaccca cgccatcaag gtagtccttc ttcagctggg 60

agaaggggag gcaagagatg agaaggggga gcgcccaagg 100

<210>3

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>3

ggaaaggggc tcacgtacca gggactgcag ggccggcagg gagaagagag atgagacatc 60

tttgtgagaa taaagacaat aagccctaaa tgtgaggcga 100

<210>4

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>4

cttccagggc gtggatctgt cacgatggga gaagggaggg gaaatcagct gagtcccctc 60

atgtggcctc agctttctct tctgacccca cctgcactgg 100

<210>5

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>5

cgggaacctc gctggggtgg cgggtgagaa caagataggg gaagcctttc tagaactcac 60

acagtttgga aagagagctc ggcctgctcc cagaagcctg 100

<210>6

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>6

gtccgctcag ggacctgggg agagagcagg ccagggaagg gggcttgtct gcacctcccc 60

aatcttgcct cctcccttct ctgatctcct cgaccttgat 100

<210>7

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>7

ctgaggtaga ggacagggag gaggtctgga ggcgacaggg ccaccacgga gcgcagcaag 60

ttgctcagcg tctccaccat ccggagcctg gaggagggga 100

<210>8

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>8

tccctccttt cctggagccc ctggctcctc ttccttcact tcttttttga ctgctggctt 60

ccggggggct aggaatgaag acagaaaaca gtgggtcttt 100

<210>9

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>9

ctttctttcg gggtctcctc ttctgacgat agacagaacg gtcagatggc aaaaaaatcc 60

cattgaacct acaagggcat tttgactctg gagacagtct 100

<210>10

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>10

gtccagggca ggcttctgga agaggaaaga acagttctag agtgagcggg ggaaggaggg 60

actccatttt ccaaaagttg agagtagagg ggactgaaac 100

<210>11

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>11

gtggaaaaat gacctagagg agcataaaag ggggtaaaaa aaggagaata acagcaccaa 60

taccctgcct atctatgctg tatcctataa cttccttttt 100

<210>12

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>12

actcataagg tcatcagcac taaaggcaga agcagactcc tctgactgag atctgagtgc 60

tctggccctg gtcatagcct aagagggaga agaaggagaa 100

<210>13

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>13

ttgttccttc tgaaggcttt gtgataagtt tcccaaagtt gatctcttct cctagaaaaa 60

aagaagtata tcaaaaaata gcttctatca taatgttaaa 100

<210>14

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>14

ggaattttat gcatattcat cttcctccct ttaatacgca gcaaaccaac atgtctgaag 60

tggagagaaa tgaacaccga gtcacagtgt aaatttcctc 100

<210>15

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>15

ctcaacattg ttactttttt attgacaaac attcgataga gcctttcatc tggaatggat 60

cctgaaatgg acattacatt atttttaaat tgttttctta 100

<210>16

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>16

ctgtgggatc gtcatgattg ccatgaatac taaacactgg aattgaaatg ttgaggttgc 60

catcttgata gttcacccat ggaaacctta aaaaaaaaaa 100

<210>17

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>17

tcatttcctc tgactgcatc tttctccata aatccaagat gaatatctgt tgcaactaat 60

attttaaatg tgttttcatc atcactatat taagaaagaa 100

<210>18

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>18

gtcaataaca gcttttttgg aagcatctca ctatcatcct gaagtttgtc attgttctta 60

aatggggtta agatggatag gtaagaaaga gaagaaataa 100

<210>19

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>19

ctttacagtg ggtgcatctt gtgaaagcat tctgaatttt tgttccattt tggagacttt 60

gatttctttt ggcctttcac tcaaatccct gtagaaaaag 100

<210>20

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>20

taggtctaag accttgccta ttagaataaa atagtttaag tatgataata tattaaaact 60

agcaactttt attcagataa tgtcaagata aagcaacctc 100

<210>21

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>21

atttttactt ccaatagatg gttcatcaag aggtgggtaa aaactgtaaa aataattaaa 60

gtatattcta attatatact actatgtttg ctattaaatt 100

<210>22

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>22

gagacatcta aacaagaaga gcatgcaacc aaaggctcat actctattct gtaaatgaga 60

ataagttaaa taaagtcata gtatcagagt tgcagagatg 100

<210>23

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>23

gatcattttc aatcagaatg gcacagtttt tccttccaac aacgtactca acgccagtca 60

aaagtctgta tggttctcct gagataaatt tttttttaaa 100

<210>24

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>24

aatatctgta ttaaggctga ggcaaagaga aaagacacgg ctatatcatg acattttcca 60

cctagatacc tttagctctt taccagctgg tgtgccacag 100

<210>25

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>25

gaagtgaaga gcatcgatgg caacgatctc agtgcagcgc cgctgccagt cgtccctggg 60

acaggaagga aaggggagaa aagataagga acaggtagtc 100

<210>26

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>26

gacattgtga tggaatgatt catcttctgt ttcaggagtg gtattggctg ataaaagaaa 60

caaaaaaata cagacgagaa gagcaataat tagtttagca 100

<210>27

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>27

cttttggaaa aaagaaaaac atatgaggaa gctattctaa gttgttttgc atcacagaat 60

caaaggtcaa acaagcaagt accaaaccat ttttcagaga 100

<210>28

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>28

tctggagaaa ggtgaggcgg aacgtattta gggatcttcc tttctgttct ttgatgtttg 60

gtttcccatt gttcttttct aaggtcaaga caaatgtatt 100

<210>29

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>29

tatctgtgtc actgtgatca tcattttgag gtgaccgatc aatgttagca ttactaaact 60

gctctggtac cagggttact gtttgaggtt cactttccaa 100

<210>30

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>30

tgcccaaacc tgaaaaacag aagtcacaag tgacatgaac tgtgagtaca gatgtggcaa 60

agcttccagg gagatgagct ctatttgatg ttgggtccat 100

<210>31

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>31

ggagaccatg tcagcgaaat agatcccttt accaaacatg tagcctgtct ggaaggtcgg 60

aaaagggaga gctgagaatc ttctgatggg aaattaggag 100

<210>32

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>32

gaatctctgt caaccacctg gataaacaga atcttgggat tagcacaaaa gagacccagg 60

agagctacag aggaggaatg ctcaggctca gtcaatgcat 100

<210>33

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>33

cctgagacac cgcctggaga ggaggggaca gaaggaatgc aagactgagg gagcagctcc 60

aagcccccgg ccaggctttc tcttttagca ggtgggtgct 100

<210>34

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>34

tcactgcctc ttcatccttc aggaaaaaag cacattgcta agagacccaa atcaacaact 60

caagcaaggt atctgcgtct gtggggctgg actgcagaca 100

<210>35

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>35

gcgcagagtg ttccagtcct gtcccagagg aaaagcacct acagttttct ctccccttga 60

ggtgctagca ctctcacgga gaagggatct gcaggcctga 100

<210>36

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>36

ttcatgttgg ataatggctt atctgggatg aaaggagaga atcattcagc aaggccagct 60

ctggtgctgc tccccagtaa ggggaggtgg aggagcaggt 100

<210>37

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>37

gcatcgctct tgaagaccag ctgacccgag cattcctcgc agggaaggag ggcaccgaac 60

accatgccat cagctactcg gtccaagatc tgcagccagt 100

<210>38

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>38

ttcatccact ccatccacct catcgccttt tctctttctg aaggagacac aggatatgag 60

agacagccag agccattaaa agtctgacac ccaatgactt 100

<210>39

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>39

gagtcttctc tgccttgcta ccaattccat cctggccttt gcctggagaa tcaaacagac 60

agcaatgctc atctcaacag ccccaaaatg cagctcagag 100

<210>40

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>40

ttggcgtact cgactcgata gagcttatcc gaagactccg ccatcctccc ctagctgccg 60

ccaaagctcc ggaagcccga cgccacgacc tagaaacacg 100

<210>41

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>41

tgtttatcaa aaatgtaggg ctttgacttc taattgtgaa aattataaca cagtatctcc 60

tgtaagtatt ttttaaacaa ttctatttta atcaaattaa 100

<210>42

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>42

caacaagtaa atacaaccgt gataatgaaa aggtactgat aaactgtgag taaattaaag 60

cagactataa tccctttcaa atcactgaat ttggtggtac 100

<210>43

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>43

acatgtaaag ggattgtcta attttattaa tttcattgac aaattagatg agattcttgg 60

agaaatacca aacccaaggt aatgactttt catatattac 100

<210>44

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>44

taatgctcct accaaaaaca aagcagagct tttatatgat gaggaaaaca caatccatca 60

tcatggaacg tctattctta cactttttag gtaagttatg 100

<210>45

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>45

ctcaacataa aaatgctaaa atacctaaga aatcaaatga ttcacagaat agattgtacg 60

gcaaactagc taaagtagca aaaagtaata aatgtactgc 100

<210>46

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>46

tatatttgta ctggagattt ccctcctgga accaaaggaa atacatttgt acacgatccc 60

aaggtaatgg tgctagtaca attttgtatt tttataatta 100

<210>47

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>47

caagaagatt ctaattggcc tttaagtgaa ggaaaggctt tgaagcaaaa gtttgatgag 60

attttttcag caacaaggtt tgtaaccctt aaatagactt 100

<210>48

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>48

agagaaaatg gaaaaggttt gtggtggtag aattttgttc tgcttcaaaa ttttgggatt 60

attgtaatga actttatttg aatccatttt gccatccaca 100

<210>49

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>49

agtgaaagac agattaaaaa ttttcacaaa cttgtgagag agagacaaga aggggaagca 60

aaaactgcca accaactgat ggcaagtatt ttgaaataca 100

<210>50

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>50

tacaacaaca cgtacccaaa tggagatgct gaccaaagac aaagtatgat ttttcttttt 60

gttctaatta tactgtctgg tacttaaaat agcctacctt 100

<210>51

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>51

tgaaagtgat ttagacaggc ttaaagagga aattgaaaaa tcatcaaaac agcgaggtaa 60

gttgtctact ttatattatc aggatacttt gacacctttg 100

<210>52

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>52

actcttgggt acaataatgc ctgaagaaga aagtgccaaa gtatgcctga cagatgttac 60

aattatggag aggttccagg taagtttatt gtagtttaag 100

<210>53

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>53

aatttgcaac gtcgtcagca actggaggag cagactgtgg aattatccac tgaagttcag 60

tctttgtaca gagagataaa ggtaagaata tccatacatg 100

<210>54

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>54

gagaaggtta aaaatattca tggctatatg aaagacattg agaattatat tcaagatggg 60

aaagacgact ataagaaggt aatttaaaac ttaaaattat 100

<210>55

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>55

acaacatttg aaggaaatgg gtcaaatgca ggttttgcaa atgaaaaggt atgcttttaa 60

aataatcttc agtttaaata aacgtcttta ttactggaat 100

<210>56

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>56

tcgtggacaa ggtgagtacc atggtgtatc acaaatgctc tttccaaagc cctctccgca 60

gctcttcccc ttatgacctc tcatcatgcc agcattacct 100

<210>57

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>57

aacaaatctt gaccgagaaa acattgaatc tcttgcacat gctctggttg agtaagtatc 60

tcttgcacat gctctggttg agtaagtatc tcacatttgg 100

<210>58

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>58

tgttggtctg ataccaagag taccttcaga ttctggaaag gattttcacg gggttgccta 60

tgaaggagac aggaaaggac cttagcatga caagtaatat 100

<210>59

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>59

tgaaatcttc aaggatatag ccagctcctg ctcgaagctg ggattctgta tactgcttgt 60

tgaaaggagg aatttccaaa aattctatat taaaaaaaaa 100

<210>60

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>60

ctgacgttac tgcgccgttt ccgcttccct tccaccaaat tgtctatggc aggataagcc 60

aaacaggttg gtcaaactct atggtatgag gccctgaact 100

<210>61

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>61

ccacttggct acaacacgga gccctacaaa gctatttcct ggagaggagg catctaagcc 60

atcagaaggg ccagcagcag cctggaaagg aatttctgga 100

<210>62

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>62

ccaggtcacc tgaggagccc ccagtctgtg aaggggaaac ttcagtttca cactcctgac 60

actctacaat tggctcttca gtctcctgca aggaaaaaat 100

<210>63

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>63

cctcaaggaa cactccatgg tttggattcc tatgttattt tggctgggcc tttcaatcaa 60

ggccttacta ggattttcct tattagtact ccgtccttct 100

<210>64

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>64

cccaagtatg ggatcatggg tctccaccat gctttcagac atgacatcac tggttgctat 60

ggtgctttct ggatagttgc taatacctga aagaagtgag 100

<210>65

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>65

tctgctctca ctaaaggtaa ggaaggctgt gaagaatctt gctctacagg ttctgtttct 60

gcagtccctg atttcagatc tccttcatat tctacactct 100

<210>66

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>66

tcccctgtca aagatagccc aagatcctca ggggaattct ttggttcaat ctctgaagtt 60

ttagaacact caactgtcaa agatgaacta tgcatatctc 100

<210>67

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>67

gtagatcgga aagcatcagg agaaggagca acaagatctg aagaattcct ttatataaag 60

agagaatcac aggttatttt accatagcca cagttttgca 100

<210>68

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>68

tccataagtt cttgtgcaga caactgttct tttgcttcca tagcagcaac agatgctttg 60

gggctaaaag gcatgtcctc tgacctagga aattcatatc 100

<210>69

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>69

atatggcaca gtattttcct caacatcctg gctctgggag agttccagaa ccccaaaacc 60

caactgtgat gaggcagtat ctaggaacaa aatgccaaga 100

<210>70

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>70

ctgatggaac cacatgtgtc caagttagaa gaatccacag ggtctgaaaa aaataactgg 60

atattagcat gaaagacatt taccaacaaa ccttaataca 100

<210>71

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>71

gaaatctgaa tccaactgac ttccagtagg gtccatctgc tcccctggaa tggaataaca 60

aaagatcagt tccgtgtaac ctactagcct tgctcacgca 100

<210>72

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>72

agtctatgtc cacatcacac agtcgtcgag aggcatgaga aggttcttct gatgagctcg 60

aggctttctg cattatagtt tgtgtcgttg caaaaagaac 100

<210>73

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>73

gcatttctgt ttttcctgtt ccttctgggc catgaaattc aagaatatca cctgtgtaaa 60

atttaaaaat ctcagtcaaa atgcagtagc tcaagggtag 100

<210>74

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>74

gcaaacagat ttggttctat ttctttcaag gaacttctac cttcaagtcg ggcaaggagc 60

ttataaaaga agagagaagg aaaactcatt atttaaaaat 100

<210>75

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>75

agcggcccgt gtgctgcgcc ctgctcctcc atggcctctg tcacctggaa gagcacagtc 60

caggtcagct gcaacggctg agggtcttct cgatggttag 100

<210>76

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>76

gcagccgcgg ctgctgggcc atgagctgct gcaggcgctt gtgcgggaag gcgtcttccg 60

tgcagatgta gacggctcct gggaagcaag agtgcctgat 100

<210>77

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>77

aggctcaggc gctggtgctg cgtggggaac cgctccttct gctggtgcag ctgcagtgct 60

aaagggcagg gatagtgtca ggcctgactc tcctgggcct 100

<210>78

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>78

cttcaagtct ggtccagaaa agtgtaaaac ctcctttacc gatttcagtt tggctgaaat 60

aacacagata aattacagga aaatgtcaga ctgtcacaac 100

<210>79

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>79

taaaaaggaa gtagagagat ctagaagaga gtaagttaat tctctactta atctctaact 60

tcattgcact aaggtcagac actgtagtct atatgatacc 100

<210>80

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>80

tgcaagccat aattacagag gactcggatc tcctagcttt tggctgtaaa aaggtactca 60

cctctgacta ctatatatta cttttctatg tagatagtag 100

<210>81

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>81

tcccatcaaa aggaaactta ttcctctgaa cgcctatgaa gatgatgttg atcctgaaac 60

actaagctac gctgggcagt atcctttctg aaacagaatg 100

<210>82

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>82

ggttaaatct cccaaggaaa tcatccattg tgaaaagacc aagaagtggt acgtatttca 60

gttttgcaaa atgctggtga atattggtca tatttaaaga 100

<210>83

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>83

ataatcatat tccaggtgat catattccag acaaggcaac agtgtttaca gatgaagagt 60

cctactcttt tgagagcagc aaatttacaa ggaccatttc 100

<210>84

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>84

gagaaagcat cataatgccg agaacaagcc ggggttacag atcaaactca atgagctctg 60

gaaaaacttt ggatttaaaa agtgagttgc cttgtttctt 100

<210>85

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>85

ctcagtgcaa aagttagttg aactggttca ttcatctcta tggtaaccta caaaacaaaa 60

gattcatcat tgaaaaacat caagaaagtt gcaatctatt 100

<210>86

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>86

atagtctgaa actttctcct ggtctaccaa aagaaagcag atgcttttga gaaatactga 60

cacagagttt tgattttctg tagcttcgtg actcggtaaa 100

<210>87

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>87

gtgtaatgat atcttcattg ccggcgcatt ttagtatttt ggacatacta gaagacagga 60

gacacatgct ttaaaatcaa cgccgtctgc tgaagggctg 100

<210>88

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>88

ggcctcgttg atgaggtcct tgagtgcctc caacaccttc ttgaggatgg agccctggac 60

caggcgcgcc tcgaacatgg tggcggagtg gcaacaacgc 100

<210>89

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>89

gcccctcatc ttccaacagt tggagattga ccattatgtg ggtgagttta ggggttatgg 60

gtgagtgctg gggccctgcg ctcctggggc agaggccggg 100

<210>90

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>90

gagtgagtgc tcccccagga tcagcgggtt ggagggtccc ctcgggaggc cattggctgg 60

tcccagcttc ttccatccac aggcatgttt gggtaccacg 100

<210>91

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>91

cggacatcgt cggctgcaac tggctggagc tcccagctgg gaaatacgcc ctgaggctga 60

aggagaaggt gcagggcttc ccagggcagg gctgggtggg 100

<210>92

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>92

cgcctggcgc tcaccctgcg gccctgtgcc cccatcctgg gtgccaaggt gcagagctac 60

gagaaggagg aggacctgct gcaggtagct ctcgctccac 100

<210>93

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>93

cgcgtgcaga tggacatgct gcaggtatgg gcgggaggtg gggtgtgtcc ctgtccttgg 60

aaggccactg cccaggcccg cagcccacca gcccacccac 100

<210>94

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>94

cgagggtcac tggcgtgccc ctcagctacc tgctcagtcg tggccagcag gtcaaggtcg 60

tatcccagct gttgcggcag gtcagtagcc gagacttgtc 100

<210>95

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>95

acctgtgtta caccacgctc cttcggcccg ggactgcaca gaaactgggg tatagtgccc 60

aattcagcat gtgtcccccg aggcccatct gggccttccc 100

<210>96

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>96

ggcgcccagg tgggcaagtt gccgtgcctg gagatctcac aggtgggcac tcgggcccct 60

ggaaggcaac tgggggcagg tgggccccct gtgtaggaga 100

<210>97

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>97

cggactgggt gtcaggtcac ttcccgtcgc ccatccggct ggagtttgag aaggtgcgtg 60

gctgggtcag gggctctgca tttaggtgcc ctcatcaggg 100

<210>98

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>98

atcaccaagg agctgacccg cgcggcctcc gactatgccg gcaagcaggc ccacgtggag 60

ctggccgaga ggtcctgcgc ggggcgggtg gcctggccag 100

<210>99

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>99

tgccgaggct gtgctactgc gtacgggggc accaggggac tgggggcacc ctgggggggc 60

agaggagatc accggcccac cacctgcctc ctctcctgca 100

<210>100

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>100

gaaggaggtg agagggccgg gaggtgagga ggggccaggt ggggaggcgg gggcgccctg 60

ctcagccgct gccgtcccca ggtatcccat ctgaatgccc 100

<210>101

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>101

cctggacctg aggcctggtg accttgcaag catcccatgg ggcgggggcg ggaccaggga 60

gaattaataa agttctggac ttttgctata tggtgctttg 100

<210>102

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>102

ttgtagaagg ggtaacaacc tggaggagaa ggggcagctc tgaggagggt tccgcctcag 60

cactagcact ctgcacagga tgtggggctg cagcccctcc 100

<210>103

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>103

ttggtgggat caaactcgcc tggcatcacg tccacgggca ctgaggcctg gaaggcacag 60

ggcagggaga gctcacaggg ccccgaagga gccccctaca 100

<210>104

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>104

gacaccagta gcacaaacct gcgggagaag gtggggtcct ccagggtgcc gagaagggag 60

gcagcccctc ctaggtgcaa ctcaaagatt ccactgacca 100

<210>105

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>105

ctgggtgtat gtatttactc cgaggaggct gggggagcag gttgtgctgg aatgcagaga 60

caggaggtat aatcttgggg ccagagccca ccaaagctct 100

<210>106

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>106

tgtgggccct ctgggcagcc tgctcagaaa acatggccac actcctgact tgcttggtcc 60

acacagcttc gcccaggcca aggaggttca ctgcgaaaac 100

<210>107

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>107

cttgcagaac tgcagcaagt aagcgtctta atgttccttg tgggcttctt tacgaattga 60

ttttgtaaga tgtttacaca gtggctgcct cttaagagtg 100

<210>108

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>108

atccagcaaa aaagcagagc ctgttaaggt gctgcagaag gaaaaaaaaa ggtaggaaaa 60

ttttgttgct tattggggaa gagtctttac tgggggtgag 100

<210>109

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>109

ccgtctccac ctcttgaacc agtgccaaag actgagcctg aacctccttc tgtcaaggta 60

aaattatact gggattcttg catgtccatg catcctttgt 100

<210>110

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>110

tgggcaaagc caacagacag gtgtccatta ctggcttctt ccagaggaaa taaactgcca 60

tctctggtag atcagagact tggagtggtc aagggagaag 100

<210>111

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>111

accagcgctg cagccgtgtg atccctgcca gggtgggaag aagactctgg agacttgtgg 60

ggggtggggt agagtctgag ctggagaatg tgtgtgttgg 100

<210>112

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>112

tggggctcct cccctgcaat gacagctgct cttcagtacg aggttggctt cagtctcctg 60

cccctcacct cccagccttc ctcaccaccg ctttgcctct 100

<210>113

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>113

tccctcctct tcacaaccgg gtaggaatca gtgatgagcc gcttccggcc catggcggcc 60

acccaggcag gcagagaagg aggcaactgc ggggaagagg 100

<210>114

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>114

ctgtgtctag atgcctttat agcttgaagt gagtatggag taaggtgggc ttccttattg 60

taagctcttg tgaaggctgc tttcacctat atgaaaggag 100

<210>115

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>115

aaactgggtc atgtaccccc tcatcaactc tccaggaaga acactggcat aaatggcctg 60

aaaaaaaatc aattgcagtc cagaatttat gttccgtaca 100

<210>116

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>116

atctgacttg tccacaagtg acatgtgagc agtctcctct ccagctgcaa acactttccg 60

ggcaacatca aatgggccct gaaaaaagag agggacacac 100

<210>117

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>117

cttctttaaa tgcaatagac atcatagcac cctgaaattg acaagggagg agtcctcaat 60

gatttttaac tcatataatc aggtatttta aaaatattta 100

<210>118

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>118

agaggctgct ccatctgacc caggttgagg agcaatggga tgagacaaaa acaaaataac 60

aattgctcaa aaactgctgc tctgtagaaa attatgtaac 100

<210>119

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>119

acgctgcttt aaaactagag ccatcatctt tgccggaaaa tttaccaaac tttgctgcta 60

ggaaaaaaga agttccagag tgtcaaccta tatcacctaa 100

<210>120

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>120

atcagattca acaggccatc ttcatcaata atttttgtcc ccaaggctgc ggcctgttga 60

ttaaaaatgt aaaccatcaa aactgcatcc tgcatcctac 100

<210>121

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>121

cagaatcttc aggacttaca gactttggga acagggaaag gaaaatgaac aaagtcatac 60

agaattcatg caaaatttaa aatacatatctagaaataaa 100

<210>122

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>122

gtcctttcga gcctaaacaa attttaaaag tgtcaaatgt gacaaataat agaaaaacta 60

ttaccataaa atctgttgtt aaaatccatc aaaattttaa 100

<210>123

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>123

ccaggtttag aagatactgg cagtttttct ggtggctttt tggcattttt tacctgcaac 60

gtctcctctg actctgaatc tgtatgtgag agaaaaataa 100

<210>124

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>124

tcttctggtg agtagcccag atgccacaag tgagcaagaa tctagacaaa ggagacagaa 60

aaggctgctt accactttaa actgtaagaa gacatgtgat 100

<210>125

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>125

ggtcagcttt gtgtaccgga ggactgcaca gcgggactga atgggctctg aacagagacg 60

ggacagtagt gaggcttccc tgcagaggcc ggcatcatcc 100

<210>126

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>126

cctcacaacg tcaatgcccc tgaaagaatg acaggttttt actggcacct tctgagacca 60

attcagttgc cttcacaagg acttttaaac aatcggtata 100

<210>127

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>127

tgttgggcac atttccttcc cttgcaaaga cctacggcga aaatgatcat taaaaccggt 60

taaaacttgc ttctggatga ctacataaaa aagatagaaa 100

<210>128

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>128

aactttatgg tgttggagtg gaaaaattga gaattgaaca tcagaccatc acagtaagca 60

tttcactttg aggccctgaa agtaatttat agcggggact 100

<210>129

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>129

tctacatcta aagtgatccc acctattcgt agtaggtgct tggcggttcg tgtgcctgct 60

cccagcattg aagatgtagg tcaagttaca cttttctgaa 100

<210>130

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>130

tatctgaggg agactgcaaa tgctattgtc agtcagcaaa ctccacaaag gtaccagtat 60

aaaatgatga cagtaaagct ttcattatca ggatatcata 100

<210>131

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>131

acttggaagc gtttgtggcc aaattcatgg cactttataa gaagttcatg gaggatggat 60

tggaaggcat gatgttctga cttctgtcag ttattcttgc 100

<210>132

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>132

aatcctataa taaaaaaaac ttttggtatg atgacttaat attcctttcc ccaaagttag 60

taagctgact ttaccttgac cacagcttct agtttgtcaa 100

<210>133

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>133

gcttttctta agtctccttc tgacacttta acaagataag ctattccctg aagagaaaag 60

agttgttttt aacctatgat ggccaattaa ggatttataa 100

<210>134

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>134

tcatagaatc tgcttcatcc agaatcacaa tcttaaaagg cggacacggc ttcccactga 60

ttcagagaaa cacataagag ttgaacatta atatgtatat 100

<210>135

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>135

ttaagaaatg cttgcatggt acttcaccct ggtcaggtgc aagacagaaa aaaaaagctt 60

ttattgaaac ttttattgcg aatcagcacc ataggaaagc 100

<210>136

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>136

tcctgaactc atggttcccc gcctggaaca tgtcgtggaa gaagagaagt gagtattttg 60

cgggcctttg gggatggagt gtagtagaaa caggcttgtg 100

<210>137

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>137

aacatcctgg actggatgtt gaatcaagat ttcaccacag cctacagaag tatcctttct 60

catgacctcc tggccaccga gacctgaagg tggccccagg 100

<210>138

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>138

cattgctgca tttcaagtca ccagagacct gattgttgca gaggcctaga tgctctgagg 60

gccattcaca attctcaggg ctcagcagtg atgggagaac 100

<210>139

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>139

aagcagttgg agtgaagatt ggcaatccag tgccctataa tgaaggtaaa atgctttggc 60

gtaggttgta gcactcaaat gaatacctct ttatatattc 100

<210>140

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>140

cactccttac cagtccaagt gagttgttgc atagagtaag ttcagagtgt acttatgaaa 60

tcggagaagc tattatggac tcttgagtta tttatgcgtg 100

<210>141

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>141

tcacggggat tgatgacctc gagaacaagt cgaaagactc acttgtaggt aagctcgtgt 60

atgagaagga agagcaggga tgactagctt tctttgcagt 100

<210>142

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>142

gagcctctcc gtgctgtctt caagcactat cattgcgaat cctgacatcc cagaggccta 60

taagcttcgt ggatggtagg ttttgtgggg ctaaacaaag 100

<210>143

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>143

agaaagtgat tgatcaacag aatggattgt accgctgtga gaagtgcgac accgaatttc 60

ccaatttcaa gtaccgcatg atcctgtcag taagtagcct 100

<210>144

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>144

gatctttcat attcagagtc agggtcaaag tggagaccta caacgtaagt aagggcctgg 60

gcagcagggt tggtggtggg gaggtgctgt ttgtcaccta 100

<210>145

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>145

aaagttcaac ccttcaggtc ttggacaagc cttaatcaaa ttcaacacct gaagattcaa 60

atcagaaaga ttttagcaat tattttggat cagcctcccc 100

<210>146

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>146

taggtgctct ccctgctgag ggctgaatta agaaataagt tagcaatatt agaaaatcca 60

tcaagttaaa cagtctttac tacttaaaat agctcgttaa 100

<210>147

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>147

cacaatgtgc tgggctcggg ctctctgaaa agaaaaaaca tgcaaaattc aattaagaaa 60

gtaataacta ccactcattc aacacctgcc atgtgccaag 100

<210>148

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>148

cctgttttga acaacaggat tagtgcctgt gccacgtccc acgcctccga gaaacccgca 60

ggctcccgga ggcttcgccc cttcaaacac tgcccgagtc 100

<210>149

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>149

gatctgaaag aaacatttaa gcaaacattt aatctacaat ggaaagttgt aacatcaatt 60

attatctaag atatttttac ctatttcctt tttctcaccc 100

<210>150

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>150

ccttggcggt tactcttcca accacttcca caattccaga gatttcttca tcaagctaag 60

acacagaaca agacatcgat ttggtgatat cacattttca 100

<210>151

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>151

agcatgccgg cgttgatgcg cgacctgggc aagtccatca tgtccaccat gattatggtc 60

caagactgcg gctggcggga aacccacgga cgactgaaac 100

<210>152

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>152

tgtttgaccc tgtgttcaag gttaggggaa ttatagtttc ccaggtctcc atcgtggggg 60

taatcagagg ggcagagaag gcttcaaatc acatttgtta 100

<210>153

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>153

gggctcagct ctgcgacctt agcgtcaagg ccatcaagga agcgattgat tatctgaccg 60

ttgagggcca catctatccc actgtggatc gggagcattt 100

<210>154

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>154

tagacatgct tttacccctg acaaaaacac aagaattaaa gcaaactaag tatcaagtga 60

gcactatatc tctctcatta aaatcaagca atttacctaa 100

<210>155

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>155

acgctgccca gtgttcatct gttaatataa aaggagatac cagtgttaaa aacattagac 60

gactagacaa agacattaaa cagactgtta cttgatataa 100

<210>156

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>156

attttgatac ccggtggtgt tcaccaatgc cttatgctgg agcaataatt ccactacctt 60

caggtgccca tgattgcaag cttcatgcta attaaatttt 100

<210>157

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>157

tgtttttcct ccctgatgta ccaccaactt tacgtttgca tgaaggtggt gaagaacatt 60

caggcaatgg tatattttct gagggcaccg tttgcttaac 100

<210>158

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>158

atttatcttc aagtcttgta tccaggccgg ggtgtaacac actggacatc cagttccaat 60

gcagtcactt acacaattac tttaaaataa ttaaaaaaaa 100

<210>159

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>159

cagcaggaca ggaaacacag agaggtggat caaaatcatt attgccagat ttcttgcaga 60

ctccgaagga agttgtatgc actacccaaa acacaccaac 100

<210>160

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>160

tccagaagaa attatttctg cttcttcttc ctcttcaaaa tgccttaggt aaactagcta 60

aataattagc attattattt gtttctggga tactttaaat 100

<210>161

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>161

attaattgat actattcctg atgataaact gaaacttttg gattgtggga acgaactgct 60

tcagcagcgg aacataaggt atcttaattt tcccccttct 100

<210>162

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>162

tgtcatctac tgctcaaaat ataaacttct cagagtcaat tcagaattat actggtaagt 60

ttaaaataaa ttgaatgctt atatgaaaac aaaactgtcc 100

<210>163

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>163

cttccttgga tgtaagttat aaaaatacta ataaaaacac gccttagaaa caattaaatt 60

tcagtcctct ggataacctt tttattaaat agttcgtgat 100

<210>164

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>164

ggaagctctt ggcacgtttt gttattgatg aagcacattg tgtcagtcag gtaaatactg 60

ttttttatat ccggaaatac cgataaatac atactaccaa 100

<210>165

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>165

agcctaaaaa ggtggcattt gattgcctag aatggatcag aaagcaccac ccatgtgagt 60

acagccatgt gattagctgt ctagaagtaa caaatgtctt 100

<210>166

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>166

gctggaagag atggggaaat atctcactgc ctgcttttct atacctatca tgatgtgacc 60

agactgaaaa gacttataat gagtaagctg ggctccattg 100

<210>167

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>167

ctggaagatt tactatgaat atgctggtcg acattttctt gggtaagtca tctgttttga 60

atgtttgagt tacttcaatt gaaattgaac atctaaagaa 100

<210>168

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>168

tccattactt caatattttt aataccgtca ctctcaagaa gcttgcaggt gggtacacat 60

gtatcctttg ttacgtggca cagattaata ggccgaaagt 100

<210>169

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>169

gaaatgaaag gaagaggaaa aagatgccag cctcccaaaggtctaagagg agaaaaactg 60

cttccagtgg ttccaaggca aaggggtatg ttttgtgaca 100

<210>170

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>170

ggtttcttcc attgaccaca tctcctctga cttcaaaatc atgctgaaag aaaccaaaca 60

caacccatca ggataagaga aagagaagct tccttcaatg 100

<210>171

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>171

aatgcagagg ttgaagatgg tatgttgcca acacgagctg actctggggc tctgtcttca 60

gaaggatcag attcagggtc atcagagaag aggctgattc 100

<210>172

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>172

gtgaagttaa tactgcttta aatggaatga gaaaacaaat ctactttact gctttgttct 60

gatagtgata attcaggtta gaatactgat ttttttcaaa 100

<210>173

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>173

cttcagagac gcttgtttca ctctcacacc cagatgctgc ttcaccttaa ataacaaaaa 60

cagaggttca gatgtaaaag cagactataa acgctgcaac 100

<210>174

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>174

atgactactt cccataggct gttctaagtt atctgaaatc agatatggag agaaatctgt 60

attaacagtc tgaactactt cttcatattc ttgctttttt 100

<210>175

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>175

ggggttttca aatgctgcac actgactcac acatttattt ggttctgttt ttgccttccc 60

tagagtgcta acttccagta acgagatact ttcctgagtg 100

<210>176

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>176

tagattttca gttacatggc ttaagttggg gaggcttgcc ttcttccgat aggttttccc 60

aaatattttg tcttcaatat tactctctac tgatttggag 100

<210>177

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>177

cttttttgca gaatccaaac tgatttcatc cctggttcct tgaggggtga tttgtaacaa 60

ttcttgatct cccacactat agggaaaaga cagagtccta 100

<210>178

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>178

ttagatgttc aggagagtta ttttcctttt ttgcaaaatt atagctgttt gcatctgtaa 60

aatacaaggg aaaacattat gtttgcagtt agagaaaaat 100

<210>179

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>179

aaactaaaat ggatcaagca gatgatgttt cctgtccact tctaaattct tgtcttagtg 60

aaaggtatga tgaagctatt atattaaaat atttaaatga 100

<210>180

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>180

tgctcatagg taataatagc aaatgtgtat ttacaagaaa gagcagatga ggttgataat 60

tgtcatctct aatacttctg ttaaaaggaa atatgaaaag 100

<210>181

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>181

aaatctacaa aaagtaagaa ctagcaagac taggaaaaaa attttccatg aagcaaacgc 60

tgatgaatgt gaaaaatcta aaaaccaagt gaaagaaaaa 100

<210>182

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>182

tttgaagcaa atgcttttga agcaccactt acatttgcaa atgctgattc aggtacctct 60

gtcttttttt ttttgtaaat agtacatata gttttataga 100

<210>183

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>183

atcaagaaga aactacttca atttcaaaaa taactgtcaa tccagactct gaagaacttt 60

tctcagacaa tgagaataat tttgtcttcc aagtagctaa 100

<210>184

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>184

tgctggcctg ttgaaaaatg actgtaacaa aagtgcttct ggttatttaa cagatgaaaa 60

tgaagtgggg tttaggggct tttattctgc tcatggcaca 100

<210>185

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>185

gggttttcat acagctagcg ggaaaaaagt taaaattgca aaggaatctt tggacaaagt 60

gaaaaacctt tttgatgaaa aagagcaagg tactagtgaa 100

<210>186

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>186

ataattttga ggtagggcca cctgcattta ggatagccag tggtaaaatc gtttgtgttt 60

cacatgaaac aattaaaaaa gtgaaagaca tatttacaga 100

<210>187

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>187

agacaaacaa cagttggtat taggaaccaa agtgtcactt gttgagaaca ttcatgtttt 60

gggaaaagaa caggcttcac ctaaaaacgt aaaaatggaa 100

<210>188

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>188

acatccactc tgcctcgaat ctctctgaaa gcagcagtag gaggccaagt tccctctgcg 60

tgttctcata aacaggtatg tgtttgtcta caatactgat 100

<210>189

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>189

tttgctaata gatgcctaag cccagaaagg gtgcttcttc aactaaaata caggcaagtt 60

taaagcatta cattacgtaa tcatatacgg cagtatggtt 100

<210>190

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>190

tgttggttgt gttgatgtaa ttattcaaag agcataccct atacaggtat gatgtattct 60

tgaaacttac catatatttc tttcttttga tacaattaat 100

<210>191

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>191

ctttatgaag cagtgaagaa tgcagcagac ccagcttacc ttgaggtgag agagtaagag 60

gacatataat gaggcttgat gattattcaa ggtgagaagc 100

<210>192

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>192

agtatcaaca actaccggta caaacctttc attgtaattt ttcagttttg ataagtgctt 60

gttagtttat ggaatctcca tatgttgaat ttttgttttg 100

<210>193

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>193

ttatttgctg gagatttttc tgtgttttct gctagtccaa aagagggcca ctttcaagag 60

acattcaaca aaatgaaaaa tactgttgag gtaaggttac 100

<210>194

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>194

ttacctccac ctgttagtcc catttgtaca tttgtttctc cggctgcaca gaaggcattt 60

cagccaccaa ggagttgtgg caccaaatac gaaacaccca 100

<210>195

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>195

atgacccgag ctcaggtgtt gccttcggta ttttaccagt aaaatactgt cccaaagaat 60

taaagcttga ccagctaact ctctttgttt gtttgttgaa 100

<210>196

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>196

actagaataa gagctcccca atcatttctg tgtctaatac atctagaaaa aatagggaaa 60

aagtcaaata attataacat cggaaataaa tccagttttc 100

<210>197

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>197

tcttaaacaa cagaaaaaag catatccaaa attctcagaa attgcttatt cttgtcattt 60

tgaaaatacc tgatttataa ttatagtaat tacagtagca 100

<210>198

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>198

cacagagatt ccgacccttg gggcctgacc caatggtacc aacccaaacc tagaatatga 60

atatgtcatt attagagtta tgcctgaaaa aggcatggaa 100

<210>199

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>199

tttgtccagg agtaagtctg ttgaatcgca attttataat catctgcaaa tctagatgca 60

aagaaagtgc taattaagtg gcaaaacttt taaaacctat 100

<210>200

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>200

tttcatttcc actccatatt ttacaagctg attcataatc tctttctaca agatattcag 60

cgtttgcttc taaccaactg aaataaaata aaacaattgt 100

<210>201

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>201

gatcactaat tttatgaact ccatgataaa aatagcagga ttttccctag aaacaaatat 60

gcataactga aatgtgaacc aatattagca tagaaggaat 100

<210>202

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>202

tccaaattgt gtacttctgt tccaaagcaa tgacgttttc taatctgtaa acacagaacc 60

aaaatgaagt ttaaggtgaa ctagaagttt aactggctag 100

<210>203

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>203

caacatgaca attgtacttc agctttttca cttacgccct catctgctgg tttccctaaa 60

aatgaaagaa catctattta taatatatct aattaaataa 100

<210>204

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>204

taaatcttca ccccaccaat tgtatattca gaccacattg aagacatagt gctttcctgt 60

ttatttcaga ttcctaacta caacagaaat gaaaatgtca 100

<210>205

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>205

tgcctgaaag ctgaattaat aaaatactct ttcaggtttc atcatatgga ctatatatgg 60

caatatctgc aattacaagg caatctttct gtggtggatg 100

<210>206

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>206

atcgataatc tacacaggat taatgtaaaa ataaacatgc atttggaaat tgaaggaaga 60

cgttatttga atagagatca atagaagaaa aatattatgc 100

<210>207

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>207

ggcgatctgg acggctggag tatgccaaga ttaaggatcc aataagtcaa ttctaaaaaa 60

gtttagacaa ccactacaaa acataatatc ttccgtaaat 100

<210>208

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>208

cctcttttca ctatactcaa atgcagtcaa gaatcctggt tcctacagaa agataaaagg 60

aaatgttcaa aaagagttta aagatcatgg ttgtattttc 100

<210>209

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>209

cttcttgttg tcatctgtat acctttgatg gtacagattc ctactgattt cagtttctta 60

atgtcagcca cgttctgtaa attaaagaat gggcacagca 100

<210>210

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>210

tggttatagc aacattaaga cgtcgccaat ctttcaagag ttcaccaacc tgtaagaaat 60

ataattttca attattcaag ttcaaaggaa tggttaaata 100

<210>211

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>211

ctggcgctgg aacctaagtg gaaaaatata cagcctgctg ataatacaat ctctaaagag 60

tactataagt acgcaactgg ccataaagac tatactaccg 100

<210>212

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>212

tctgtcaata aatcagattc atgtttatca gtgtactaaa tctgttcctt gaaaataatc 60

tagtttaaaa ttaacactta agtgtctgcc taccttgctt 100

<210>213

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>213

ttcaaaagaa tattgtcaac agcagagtgt gtatagctgg tcaacaaaac gctaaaacca 60

caggcgtaga gaattcttac ctaataatgg gtaagagaaa 100

<210>214

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>214

aataattaaa tctcgaagtt ttttgctgaa aagtgaaaaa gcacttttag taatattcct 60

tagaaaagtg gagtgaaatt caaatttgct cattgttaca 100

<210>215

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>215

aattatgtaa atattgccca tcacaaacta tctttacatg ttccattcta atcaggtttc 60

caatgcaact gccactcttc tccctatgaa aagaccaaag 100

<210>216

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>216

taataattct atgaaaaaaa aggtgaatgt ctttttaaga gttaaataaa gtttatcatg 60

tctttttcac tacatatgta aaacttgcag atttaaaaac 100

<210>217

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>217

aggggaccaa atgctttctt caatatccat tggtttcacg acttcaatgt tacatgttga 60

attatcctta ctattatcac ttggcctgaa aaaaaaaaaa 100

<210>218

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>218

aaacacctca tggagaaccg taccaattag catttggcgt gtggctggat cagagctcta 60

caaaagcaaa tcacacagtt tatttcacaa catattaaca 100

<210>219

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>219

cagaactgtt cttggaaagg aagctaccac tttcttctga aatctaaagc acacacatac 60

aaaactattt tagcacaacc atgaaataag aagccatcca 100

<210>220

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>220

gcgaacaact ccttaaccga ggctctggag gaagccaacg tcctctttga tggcgtgagc 60

cgaaccagag aagcagccct cgacgcccgg tttcttgtta 100

<210>221

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>221

ttgttgcaaa cctactttcg aaagtatcct gatactcctg tgtcctattt tgagtttgtg 60

attgatccaa actctttttc tcgtactgtg gagaatatat 100

<210>222

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>222

agccgagtca gaaggtccag ggaagaggct cacacggatg ccggcagcag agacaagcaa 60

ggcagaagga aagcaccctg agaagacagg aaagaaagaa 100

<210>223

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>223

gcaggtgggc agagccagag ggtgggagga cacggaacag agggctgact cttactagga 60

agcaagtatt aatgcagttt ctgccccttc atgcagggaa 100

<210>224

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>224

taaacagacc aagaagcagc agcagagaca accagaggcc agcatagggt ccatggtatc 60

cagggtagac gctgaagagg taagaacgtc ctgttgcctg 100

<210>225

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>225

tcagcagctg aaccgagtca gcctggaaat ggccagtgca gttgtgaatg cctatccctc 60

cccacagctc ctggtacagg tatgctgctc cagggctcag 100

<210>226

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>226

ccgacccctg cccccgcagc gtgagtggtc gcgggttccc gagggccagc cgcgagttgg 60

ctgttttgct tccatgattt cagccctgga gctgtccctg 100

<210>227

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>227

ggatgcctac ctgtggtacc gctcactctc atgcccacag cagggctggc tgggacgggg 60

gttcagggga ggtgggcaca cttctggggt tgctgtggca 100

<210>228

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>228

gttaccaagg ctctcgccca gtatcccctc aagtgcgtga tgccaaggct gaaggggggc 60

aggatcacct caaggtagtg gtgcctcccc ggccttttgg 100

<210>229

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>229

catctgcctc ttcctgacca cagccaaccc tgatctcctg ctggacctgg gctcctgacc 60

acacgtggga ccaccaggac agcatgcagc cttggggaca 100

<210>230

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>230

cgcccagctt cctcggggct gggataacag gatacagggc agccgggagg tgaggtatca 60

gattatagat ttgcttcatt atggtcagtc ataagaattg 100

<210>231

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>231

ttcagtacgg gattgcccct ctggggaggg acgaagggca gaagccatca atagggatga 60

cccttgataa ccacagggcc ctcctccacc tcttcttgca 100

<210>232

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>232

gctggcggcc ctgagggctg gggcaccccc tctttgtcct tcccagggtc catctggagc 60

ctgaaaggga aggtgccagg agcgagtgag ccactggcgt 100

<210>233

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>233

tctagaggag cttgtcccgc tgctgaaata aagtgtttag ttattgatga agctcataaa 60

gctctcggaa actatgctta ttgccaggta ataattttgt 100

<210>234

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>234

taattctggc aagagatcag tttaggaaaa acccatctcc gaatattgtg gtaggtattt 60

ttaaataaat tttgatgaca gattaaattt tcactgaaag 100

<210>235

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>235

acgtacacgt agtacttcag caaatggtat ttctgctatc caacaaggtc tggtttttct 60

tttaaaatta tgtattgtgt tgtgtttctt aatcacagtt 100

<210>236

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>236

gtaatgactt ttgtcggcca tgcctcaggg aaaagcacga agggttttac ccagaaggag 60

caactggagg taattatttt tggaattgat aaaaataaaa 100

<210>237

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>237

cttgcagcga aagtcatcta tcttttccta tagggatggt aaataaattt tgcatttgac 60

acatgcattt ttcccctgtt cttacttagc aggtcgtatc 100

<210>238

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>238

ttttataggc cttatgcaaa tgatagaggg aatgagacac gaagaggtgg ggttttattg 60

taactttctc ttgctggtat gatagtaaaa ctagagtact 100

<210>239

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>239

gcctctcagt ggactctcag acttggaata tgaaattgct aagggtactg cacttgagaa 60

tttgcttttc ttaccctgtg cagagcattt acgaagtgat 100

<210>240

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>240

tttaccagtg caaaaaaaag ttatgagtac accactctct aaatcaaaca cattgaactc 60

attttctaag ataagaaagg aaatacttaa gacaccagat 100

<210>241

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>241

agtgaagttg attctccact tcatgctgtc aaaaagcgca gatttcctat aaacagagta 60

agtaaatacc aggtaatgta tagtaatcca aattcctttg 100

<210>242

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>242

gatgagtcag aaaatgaaca agattcctca ttacttgact ttttaaatga tgaaactcaa 60

ctttcacagg ctataaatgg taaatgttat aatgatcctt 100

<210>243

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>243

ggaacaaaat tgtgcacatt caaaaaagaa attatccaga attattttac cagatgattc 60

aagtgaggag gagaacaatg taaatgataa aagagaatct 100

<210>244

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>244

ttgcaagtag aagtttgtcc tcttaatggc tgtgattaca tcgtgagtaa tcgcatggtg 60

gtggaaagga ggtctcaatc tgagatgtta aatagtgtca 100

<210>245

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>245

agactgaaat ctgatatata atcaagctgc tcaagatggg gttttcaaag acctctcaca 60

atattaaatg cacttcaata atcattgctg ttttatgttt 100

<210>246

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>246

acctgatggg catgttctac cgcaccattc gcatgatgga gaacggcatc aagcccgtgt 60

atgtctttga tggcaagccg ccacagctca agtcaggcga 100

<210>247

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>247

tcctgctagg cagtgactac tgtgagagta tccggggtat tgggcccaag cgggctgtgg 60

acctcatcca gaagcacaag agcatcgagg agatcgtgcg 100

<210>248

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>248

ccaagggatc cactaagaag aaggcaaaga ctggggcagc agggaagttt aaaaggggaa 60

aataaatgtg tttccccatt atacctcctt caccccagaa 100

<210>249

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>249

tctcagaaaa cagggagatc acattttaaa tcagtcttaa gagaggtgag cattcagatt 60

tgattcagta attccgattt gaattaaagg gtgcatttta 100

<210>250

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>250

ttggctgtga ttatctccca aaggtaagct gaaattgtca tatttatttg ctattcataa 60

agtctttttc gtactttatg tgctgtataa atatgaatat 100

<210>251

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>251

aatactgctg tccttgtgag tggcaccgta cagaacatga taggcaactc agtgaagtag 60

agaacaatat taagaagtaa gtttttttaa aaactcatga 100

<210>252

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>252

caactacagc caattcggta atgtaaagaa ctgtatggtg aaggtggtgt ttttacttga 60

gtattttata attaaaatat tcctaatatc tttaagctcg 100

<210>253

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>253

ttgcttttac ctaaaaatac tccatgtttg aatgcacaag aacagttcat gtcttctcta 60

agacctttgg ctatacagca aattaaagct gtcagtaagt 100

<210>254

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>254

aacagctgaa aatgaagaaa gctgtttccc agattcaaca aaaagttctc tgagttctct 60

acaatgtcat aagaaagaaa acaactctgg tacttgtttg 100

<210>255

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>255

tactcctggg aggcctgggt ggccttcttg ccgcccgagg gcgccttcgg ccccacggtg 60

gcgctggtct tcttgggcag cagcacggcc tggatgttgg 100

<210>256

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>256

ccttggcgcg ggccttgccg ccagtcttgc cgcggcccga catgctagcg aggtagaccg 60

gtgaagcacg acggctcaaa cactagaaca gacgcccgcc 100

<210>257

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>257

gacttttgta acctgcactg tataactgtt ttgctcgacc ctgaaaagtg ttacaaaaat 60

cagtaggata atagtttggg attagaaaaa agaaaattaa 100

<210>258

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>258

aggtataaag aacaaaagac agatatagcc tgttgacaac gttcttgtcc accttctaga 60

aagacacaat caaataaatt cgtttactag acctgctaaa 100

<210>259

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>259

cttcaagtct ctgtacagaa tgtcacaata agctaaatct atagttccta aaagaaagat 60

acaaatattc aatctttcac aattaccaga ggggcaaaga 100

<210>260

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>260

tgaacaagat ggctgtaaca gttttccaat ggtttagtta ttaactccaa tacctataaa 60

ggttaaagca aaaccatgcc ttgtgttatt attaaaaata 100

<210>261

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>261

cttcaagttc ttaatcacct cacatttttc tttctcctta tgtttcagat attccctatg 60

aaaaagatct gttagaaata tgagcccttg atcttttagt 100

<210>262

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>262

tcaacttcat atattgtatc atttattttc agatattctt ttaactcaac cttgaattaa 60

aaggacattt gcaattaata cgacatataa attcatcttt 100

<210>263

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>263

agagtgattt cttttccctt cttttagttg gaggaaatct tcctttgctt ccagcatatt 60

cttcaacaaa gaaaccgagt tctataccaa aacttgacaa 100

<210>264

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>264

agagtgtctt tgagctgttt acttctagaa aatattggtg tctgggcctt cgcatttcca 60

gtcatggcat tttttagatg atctttaata ctttttctcc 100

<210>265

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>265

ctcatctccg ggcacgagct cggccgcggt gggagcgcca aaaatacacc ccaagcttgg 60

acggttcctt ttggggagag acacccgccg gcggatgcgg 100

<210>266

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>266

aattttgtca tggaggatgc actgaacttg ggcatagcag aatttgataa agaaatatcc 60

gacatctcat gtgatgaaac aaaactaaaa attaaaatta 100

<210>267

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>267

atcatcaaaa tcatcccaaa cttcatttcc caattcaaag ttcacattca aaacttctga 60

aaatagagaa ttgcttttat ctgcatctgt caaatgttgg 100

<210>268

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>268

ttgactcttt aatttctgac ttctgtgcaa ctccaatttt acctatgaaa agaaacttca 60

gattctttag gttaaacttc agatcttatt cttataaagt 100

<210>269

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>269

actggaaaat gaaaaaaaag tacacaaatg tttatttgtc atataaatcc acatatgaga 60

acacttattt ctttttatct ctcttacatt tttataactt 100

<210>270

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>270

ataacagtca ctaatatttc tgccgtcgta tcactatatc ttgtaatctt taaaaaagga 60

caagtataaa aagtgttaaa aataacctta cttctcatac 100

<210>271

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>271

aaccagcatt tacgattgca tttgacaatg ttatacctgt ggaaaattaa tcaaacaaca 60

acttaaaaat aatgcacttt aaataaaaca tatatttaaa 100

<210>272

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>272

ccatgtctga aaatctttgc ggtatcttgt gtcaaagcaa aatcttgtat gggaatgcat 60

cctagttgag cctgaataag actgggggaa agaaaaaaaa 100

<210>273

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>273

caatcttcct gcttctgtaa gaaaagacag aaaaatgaac ggtcccctca tcagctgaac 60

caactgtttt tttatgttta acaaacattt cctgagggga 100

<210>274

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>274

gtatgcagta ctatctctgc atttaaatgt tcaataagat gtctgtgcaa actaatgaaa 60

aaaaactttg cattatgaat atgcagttca atgccataac 100

<210>275

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>275

ttataactac taggtgagca ggcaaattta ctcccatagc taaagtactg gtagtaactg 60

catcagatta agacatagta attttgagcc atttaacttt 100

<210>276

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>276

tctcagtttt gaatctctta cggaatatgc atacttctgt aacctattta aaaataccat 60

aaaattattg agttactccc agtaacatta gagaactctg 100

<210>277

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>277

ggtctatggc tctcatccat tttcagacac acagctggtc tttcaccatc tgaaagccat 60

tctgcaatct ttgaaacaca aaaatatgtg cattaaaatt 100

<210>278

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>278

ccagtcatca aaacgctgac tgcacaaggc ttttattggt gccactgtaa caatataaaa 60

tatttacttt gaacatcagt tcaattttaa aattcttttc 100

<210>279

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>279

tttcactgag ccaatgtgag agtccaattc attgtcatta gaataagcac tcccatgtat 60

attgtcagat attttaaata atctgcaaac aaaaaaaaga 100

<210>280

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>280

gaaatcaatg gagcaggagg gagaaaccaa tccaatgact tttcattgtc tggatggcta 60

tataaaatat aaaaatgtga gtatatatgt taataaagat 100

<210>281

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>281

cggcctcggc ttcgggctga gtgaccacgt cctgcagctg gcatttcctg aatggaaatt 60

cctgtgggaa caaatgggcc aaaagggaaa gaaaaaaaaa 100

<210>282

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>282

caccctcttt tctccttttc ccatccaatt catcttcttt tttcttctgg gaacacacgg 60

ataaatatgg aaaacgtgtg aggatgcacc ccaaaagaaa 100

<210>283

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>283

gtttcaaggt atctggtttg aagttcccac ctgaaatcac catccgctga atctacacca 60

aagcagatca aaatgtcacc tccaggcatc cattccctta 100

<210>284

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>284

tgagccatca agcctcatgt aggtatgctt cctgtaaacc atgtattcct gccaaccagg 60

ataaaaggac acagtaaatc tgatgcaaat tactgtattc 100

<210>285

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>285

ttctgcactt cggtcattgc agtaagaatc caatggcact gcggtaacct gcagttaaag 60

attcacatga gatggctctt tcacgttgtc catacacact 100

<210>286

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>286

cgtagctgat ggagcctgta ggaggctttc agagacagga aaagagctaa ccatctgaaa 60

caaaccacag cagacacgct tattcagtgc tccatggagg 100

<210>287

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>287

aaatggagac caagtttctt gccgttcaaa taactccggg tgattacaca cctaaaagga 60

agggaaatgg taagacaata ttaccacatg cagacatcat 100

<210>288

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>288

atggcttcaa aatcatgtgt aagcgagaaa gttgatctga aatgccggga ggcccccaaa 60

taatacatta tagtgatttc acaaaaacaa cagaaacaaa 100

<210>289

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>289

ccaacgaaca ctgtttgata aaataagtta caaattcatg ttagcaataa attgttcttt 60

aattatccta ctgagacccc atattgacaa aaatgccttc 100

<210>290

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>290

cccaaatgtt ctctctctgc aacagaaaaa cccagtcagc caactacagg aaaagggaag 60

gtatttaatt caaaattata attaatgaca agaacaatct 100

<210>291

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>291

taactctccc caaacccagt gccagacttg tttgctgccc gtagggcagc tgctcgactt 60

tcttttgcat cttcatcaaa tgaccttgtc tggaaagtaa 100

<210>292

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>292

cggcgggcac gaggcaaggt ttccttacag ttcttctggg cctgcaaggc agctcgacgc 60

acctccttca tgcactggtg agcaagctga aaacaacaac 100

<210>293

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>293

atattgctgc aactgaagca ggcaaagacc atgatgggcc tgttttctat agtacagctt 60

tcaaattacc tttactacag aaaactaagc cagaggaaat 100

<210>294

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>294

actggggcaa taatggatta ctgtcatcca gtccatcttc actgtcatca ctataaattg 60

aagaatgagt ccacaattac agctgaccca ataaaatata 100

<210>295

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>295

tttctacgtc cattacattg actgtgagtt ctgggcctga ggtggggcat cagggtaggg 60

ttgggggaca gtctttggca ttctgtcctg agccatcccc 100

<210>296

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>296

ctcaacggta ccctcagcaa ttccagggac cttgctttct tctcaggtcc caccttctct 60

accttctgac ccacctttgt tggtttctct ctgcagaaac 100

<210>297

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>297

agtggcagcc cagccaggac ggaagcgaaa atcgaattgt ttgggcactg atgaggtggg 60

tctggggagc agcagaaggg aactgggtga aaaggaaggg 100

<210>298

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>298

aagggcacca tctccttctt tgagattgat ggacgtaaga acaaggttag tgcttgagag 60

gcagtgaggc gctggggtga atcaaatgac agcttcttct 100

<210>299

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>299

tccctaccag cgccggggct acggcaagct gctgatcgag ttcagtgagt atgtgtgctg 60

cggccagggg gtagtggacc cactatcggt gcctcacagg 100

<210>300

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>300

caatctcatc aactactaca aggtagggag gcaggcaggg gagacaggtg tgtgggatgc 60

agagtgcagt cctctgtggg ctgaccacct gctgaaccca 100

<210>301

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>301

ggctctgccg gatgctggac gagcggctgc agcggcaccg aacatcgggc ggtgagcgcc 60

tcggaaaggg gtcggtgatc ccccacctcc cccaggtgga 100

<210>302

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>302

ggcactcagg agcccgagtg atactgctgg tgctctaccg ggagcacctg gtgagcactg 60

ggctacaccg ggaggcggaa ccatggcagt ggggtgggag 100

<210>303

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>303

caggagcagc ttcagcagag ctgtgaggag gagggcagag gagtggggaa aacagggagg 60

aggggatggg aaatgaggcc aaagccccgc cccaacccat 100

<210>304

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>304

aggtgaaggg ccgtggacag gctggcacca ggggcagggc ctggtgggta ggggatcgca 60

agctaacggc tggcttgtca gcagcaaacc ctggggagtt 100

<210>305

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>305

gcatggttcc gtccacaacc tcagccttcc tgagagcaca ctgctgcagg ctgtcaccaa 60

cactcaggtg agctgggagg gcagggccag gcaggcaggc 100

<210>306

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>306

caagaataag gtactgtctc tgcctagctt ctcagacatg gcctggccca gacccccact 60

gatccagccc tttcccgaac ccaggcccag tcggtgcgag 100

<210>307

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>307

gagcaccatt aagtgtgggc gtctacagag gtgagggcaa gagacggaac ctggagggag 60

tggcagggac tggggctgcc ctaggcccag ggcgtgaccc 100

<210>308

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>308

tgaggactaa ggataaagaa gagaagaaaa agacagagtt tctgtgagtg aggccagggc 60

ccttgggccc tgggagcagg aagtgagttg gaggggtaag 100

<210>309

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>309

cactcaaaat ccgttgccgg gctgacctgg tcagattgcc cctcaggatg gtgagtgcct 60

gaggcccatg ggagaaggac ccaggagctg cttctggaga 100

<210>310

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>310

cactggaagt ctcactgtct cgagtgagtg ggagagatgg ctctccacgc ccctcaccct 60

gtcctctgct gcctcttgtc tctcttgtca gttaatggag 100

<210>311

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>311

gcagctttga ccctgaaaca ggaaaggcca atgacggcgg agctggtgca cacctccatg 60

ttctgcaaac ctccggggaa gccacaaggg aaatgggcag 100

<210>312

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>312

ccccttcctt ctgcagggac acacaggagg tggccaccct cagccaggcc ctctccccat 60

tcaccacctc tcttccctct gtgatcccac agcccagtgc 100

<210>313

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>313

ttaagttgat caaccaggtt caatatgttt gtggaagacg caaagccggt ttctgagtca 60

ataatcagtt ccagctggaa gaaagagcag gtatcatgct 100

<210>314

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>314

ttatctcaat atacaaggac tccaagacac tgttaatgtt gttgatgaag tcctccaact 60

tatctacggt ggcattgcct ggaaataaac agaccaaaaa 100

<210>315

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>315

agcgccggtg gacatcagtc atgacgccca ttctccttgt gctgccctgc atgtgggaac 60

gaactgaaaa ggaagtaaat gacactagtc aaccccaagc 100

<210>316

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>316

ttggatcggc aactaaacca ttatgtaaag gctgttcaat ctacaataaa tcatgtaagt 60

ttataccact ccctggttat atatttggtt acaactcact 100

<210>317

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>317

gatataattg tgacccaaag tcagaccaac ttcacctgcc ccattacaaa ggtaccgctt 60

cctcctactt cccctgaaag aaacacgatt cacttcacag 100

<210>318

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>318

aattgagaac cataacaaga aaagacatcg tcattccgag taggaaaagc cacctgcctg 60

cagggacacc agcagcctac ctcctacccc agctgtctgt 100

<210>319

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>319

attcgtagtc gacggggtcg gtgtggggta tccgccggta ttccaggtaa cgctgtcgca 60

caaagtcctc agtaatgagt ttctttggat ctccgaaaat 100

<210>320

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>320

tctggctcct gggccccacg gcgggggcgg cctgggcccg gcgggcgccc tgaggcgagg 60

ggccctgcga cccctgcgag ccgcccggcc cgcgggacgt 100

<210>321

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>321

tgtgtgttat gttcaaatcc ctcattttct tcattaatac taacaggctc tgtttgaaag 60

acaaattttt caaatttatc aaaggttatt aaatcggaac 100

<210>322

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>322

cttctttctc tgttgcttct tgatgagatt cttccattct tcttaactga aaaaagtcat 60

tatcaagctg acagacctac ttactggcct attaacgttt 100

<210>323

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>323

tcaggactat cttcatcacg gatgagttct tcagcttcta gcggatttac acccatatgt 60

gtgagctaca aaaatgaagg aaaacaaaaa acccagttaa 100

<210>324

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>324

ccgcgcagag ccgcggcggg acctgggcga caaaggggac cgcgagcggg agcgggagcg 60

ggtgcgatcc cgatgcgggt cgcggccccg gccccggccc 100

<210>325

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>325

gagctgaaac acagggcttc gcaacgactc actctctttg gcacagggat gactcaggac 60

aataaagaga agcccctaat ttcggagaaa aataaatatc 100

<210>326

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>326

ttctttgcct ctgtaattaa aacagtatga aaagtcagta ctttgcacta aagcagtctc 60

taggtagccc ttctccgcat tgttgaactg cataatataa 100

<210>327

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>327

cgagattata cacatcaggc actggaacta tctgtaatac tggaacctaa ataaaacaaa 60

gcagccaaaa attatgcttg gttgtttcat ttttgtttaa 100

<210>328

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>328

actgtcgaat tgtttagtat cactggcaag acagactgag tctttcaaat gagcaagttg 60

gggtgtgcag caagttcgtc cagcaacttc tgtagatgct 100

<210>329

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>329

gacaagtcat tatcttcagt gggcccagcg ggagagctga ctttagttaa tgagagaagt 60

ttctgagagg ttcttgaact tggttgtcct gtgcatgtgc 100

<210>330

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>330

tgttccttta gtcttttccc agacaatctg agtgaatcag tgccaaagac acagtctctc 60

tcctgtgaaa taaatgtcct cttctgctgc ttctttcttc 100

<210>331

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>331

tgaaggcggg ctagtgtctt gctgtattcc cttttcaaga atgctaattt ctcctttaac 60

tggaagaaga aaaacaccaa caatactggg caagtggaaa 100

<210>332

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>332

gaagatgatg cccagaggaa cttcagtgtt tggatgagat ggggccgagg taatgatttt 60

tattgagatt ttatgagttg gcattcagaa agtcagaagc 100

<210>333

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>333

ttaataaagt tgatctgtaa tgttcaggcc atggaagaaa tgatgatgga aatgaagtat 60

aataccaaga aagccccact tggtaggact tcacattttc 100

<210>334

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>334

tactagaggt gagatatgta tgatttgaga agtattatat cccttatacc agtgtcctcc 60

cacattgatt ctatatctca tcttctcagg ctttgggaga 100

<210>335

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>335

ggagaaggat ggtgagaaag aagccttcag agaggacctt cataacaggt ctgagtctag 60

ctttgcgttt ggaaagacac tccttgcccg aaagtacagc 100

<210>336

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>336

actgctttgc ctctcgccta aagaatacag gactgctgct cttatcagag gtgagacagg 60

agtatgtctg tgatctctag tttattaatt ccagtttttt 100

<210>337

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>337

gtccgtatgc ggtacctttt aaaggttcag tttaatttcc ttcagctgtg gtgaatgttg 60

atattaaata aaccagagat ctgatcttca agcaagaaaa 100

<210>338

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>338

aattatttcc gacaaactct aaggaaaaga aaatgagttt ctcagtgacc gaacgctgaa 60

tgtgatacag ggcaatgacg gactcgctgg cggactccac 100

<210>339

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>339

aagagaaaag tacttctgcc tcagcatctc ggagaatgta gttctgctca tctggaaaac 60

agaacagcac atactctgaa aagtgtggac acgtgaagtg 100

<210>340

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>340

aggggtcaat tctggagtta gctttttagt gggaggtggt acgtcttcaa ttctgtggaa 60

gaaatacaca taaaatagta gtgatttcat atttacttac 100

<210>341

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>341

cgtatatttg gcacctgcca aataagccat taattttagg tcatctctgt cactatcaac 60

aaatccagtc acagaaataa tctaagaaaa aaagagaaaa 100

<210>342

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>342

catgtgcctg gattatctac acacaaagac ccgaccaatg cagtcatcaa tcactcagaa 60

tagaggagaa ttccaatttc aaataaggca gctattaaaa 100

<210>343

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>343

gctgaatctg ctgttgctgc tgctgctgga gcaggctgtg ctgctgctgg agctgggcaa 60

gctgctgctg ctggagctgg tgctgctgca gctgatggaa 100

<210>344

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>344

tgggacattg gcacacaagt taatcaaccc aggctccttt ccctgaggca gcctgcgttt 60

tgctgcagct aactgtggga cttcggccgg ggtccagttt 100

<210>345

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>345

gtaaccaaag cccacagggc acttctgtct tcagatgaca cctgacagaa agttagaaag 60

aaggctttta ccatacattt caatctgtgc atggctatat 100

<210>346

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>346

tgacctccct gaacatctcc tcaggaactt tgggcgcctg gtccgacatg atcgcggcgg 60

cccgggaggc tccgcggcgg cgcccggccc cgcccacccc 100

<210>347

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>347

ggaaagctaa cctcaccaag taagaaaaaa acattattta aggagacata aaggagtcga 60

aaataatact ccatgaggct aggaactggt gttttgaatt 100

<210>348

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>348

ccatagagag ggagactggt tttcagtgtt cagctggaat ttcacacaat aaggtgaagg 60

ctaatagtag atttcaaaga gaaacattga tatccttagt 100

<210>349

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>349

ttcactgaat cccagctcca gagtcatttt ggggagaaga atgggtaagt gattcatttt 60

ttttaaaatc ataaccttta tggagatgct atattcaaat 100

<210>350

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>350

gatgcattta ctgtcatcaa gaactgtaat acttctggaa tccagacaga atggtgagtt 60

cttttctagc tcatcttctc agaatagatg atgattctta 100

<210>351

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>351

ctggtaccgg tatgggatat gccagaacac atggactatc attttgcatt ggagttgcag 60

aaatcctttt tgcagcccca ctcttcaaac ccccaggttg 100

<210>352

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>352

ttgggcagaa catcccttgc agttttctct ttcgtgacaa tcctacttca tgaaaaagga 60

gcaaaactga tcagcatgtc gctaagtcat aggagaatgt 100

<210>353

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>353

gaattgatta atccctacaa agaaaataca gaaataatta attagaacca aagtctatcc 60

ttcacttcat tcactggctt aaatatggca aaatacacca 100

<210>354

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>354

cctcagttca agctgagagt agtcagcagc cagtattgaa ccacctgaag tagaagtgat 60

ttcagaaaag ctagtacaaa gtttctatat cacacaatcc 100

<210>355

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>355

tgatttcaaa atctcttggc acattctgaa tatttggttc tgtaaaggtt attcgtccta 60

aaatcaagca gaataaagac ataaaatcag gaaaaaaaat 100

<210>356

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>356

ccttggtttt tcatctctct atttgggggc aacttcaatt ccaaaaataa aacctgcaag 60

aaattaatgt ctctttagtc aagaatgaaa cttgcaagga 100

<210>357

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>357

ggagtggaag ctcatgagga agaaaactgg taactatgct atgaagagtc ggctcctgag 60

aatctggatc tagtaaccag catgccacct gaatgggata 100

<210>358

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>358

acaaccttta atgggaaatc catcatctct aataggaatt tcctgaggtg agctagctaa 60

gtaaaacaaa agtgaaacag ttaaaaatct ctaaaaataa 100

<210>359

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>359

gatactttat ctaaaatcct ttgcagtcct ggacttagat caaatgatgc ccctgaccat 60

atgaatgaat gattttgcct ggtcccagtt aattttgatt 100

<210>360

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>360

tcttcaaaat cacagaggac taaacctaag tcagaaacat gattattttt agttttgttt 60

gttgtataag tacctgtttt ttcttgtagt ctagaaatat 100

<210>361

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>361

tttcttgctc tgaaaatgga acatgtctga tgttcttgat tcccattctg gaaattacaa 60

ttaaaggaac ttgtatgctc tctactttta tttaagtctt 100

<210>362

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>362

aaattgggaa agtagtagtt ccatgttgtg ccagcccaga cggttggaaa atactgtaat 60

catccctaga acattcatag aatatttgtt gaattcaatt 100

<210>363

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>363

cattgaagtt ggcaacttct cccataaaca gaaaaatcga taccaatcaa tagtagtcca 60

atcctcaaac ataggtgtaa cctaaaagga agaagtatta 100

<210>364

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>364

ggcagcataa gtatgcatat cttgtgatgt acttgccact ccaccaacta ttatctgaaa 60

gaagatattt ggaaatttct gtagcttttt aagaaaacat 100

<210>365

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>365

acccgaatga gaccttgacg aaaggctcct tcaatgatat ccctctcctc aaaagtaaga 60

cctaaaaaaa ggaggttttt atatatttat tgatatataa 100

<210>366

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>366

aatcgtctca taacataaac taacaacatg gtcctcatct ccctaaaaca gaaagataaa 60

taaccacttt agtggtcctt tcaaaagatt ctcacatcag 100

<210>367

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>367

agataccctc ggtgagagtc tcccagcata tgtaattcat ccacaaccac cattcctaaa 60

aagattttcc agatactagg tttttacaga atgtcacatc 100

<210>368

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>368

cccagcactt gtaggagcta aaacatgatt attccacaag attataagaa aaaagtaata 60

ttcggtacaa ttcattaata aatgttttaa gccatgtgta 100

<210>369

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>369

tgctgtcacc gccgcttccc gagaacgaat ctgagcctga ttctgaacgc cgccgtttcc 60

cactccgacg cagaagattc atggcaaact cttctcggcc 100

<210>370

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>370

cctcctgctg ctggcactta aggtggcagt ccccggcttc tgcaccccca acctgggcga 60

cctcgggccg ggcctgtctt agtccgttcc gccctcatct 100

<210>371

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>371

gcctcatgat gggcccatgt gtgacctcct ctggtctgac ccagaaggtg agggcatgtg 60

ggcaggggca ggcagggaca gccaggaggg gttgggaaag 100

<210>372

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>372

agagacacgg ggcatcccct ccaagaagcc cgtggccgac tacttcctgt gaccccgccc 60

ggcccctgcc ccctccaacc cttctggccc tcgcaccact 100

<210>373

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>373

gcatgagatg cacagcaaac tggtccatgg gaaggcagtc atcctcaatg acagtctggg 60

gaagagaaac agctgctcta ggcttctctg tcaatgtagc 100

<210>374

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>374

tgggacgtaa atagtcataa acatctctgg gactatataa ctctagaagt aaaatcagct 60

gtctacaaaa aggaattaca aaaagacaat gtttaaaaat 100

<210>375

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>375

taactgcaag ctcgtggatg gagaatgcta gagttcgtcg aactttccac tgcagaaatg 60

aaaacacatt agtaagctaa ccacaaagta cgcagtactt 100

<210>376

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>376

gagtggagtc catattctgt taggaaaaaa taactactta aagagctgtc ctgtctgtac 60

atcttcattt aagctatctt actaagttac ttacctttca 100

<210>377

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>377

tcaggaagag gagtcctcca gaaatggaag gagttataca attcctgatc taagagagct 60

gaatcttgtg aagtggtgcc aacctctggt cgtaacatag 100

<210>378

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>378

gaacaaagct ggaaaaatct gggcagctat gtgaaaagga aagagtcttg ttagttggat 60

aaagatagca gatttcatca gttacttcgc tttcattttc 100

<210>379

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>379

gtctccacat caaatcgttc aatgagctcc tgctccaaca gagccagcaa agctgcctga 60

cttgttttcc tcacctagga gaaaaataac aacacaaaga 100

<210>380

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>380

tcatcatcgc agacttccct caaggtatcg agcaaactcc gggccaccat ttgtctacac 60

aaaaaaaaca aaattatgta tgttcaatgg catcaatagc 100

<210>381

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>381

agccaagact ggagaaacaa tgtgagttga aaacatgcat ttgtcgttat agaccagtgc 60

attattaaga attgctcagg aaagggaaaa aagtatattt 100

<210>382

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>382

tatattccct ttgatgaaat gaaggaaaga atactgaaaa ttgtcactgg atttaatggg 60

tatgcactta atactgtttt aaagatttaa tttttagcag 100

<210>383

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>383

caaatttgca gcaaaatgag gagaaaaatc acaggtttgt atgttttata tttaaaaaca 60

gtgtttttat taaaagttaa agttaacatt taatcagtac 100

<210>384

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>384

tgtaagtagt agttcttctg actgccgtga aacagaagaa ttagtaggat ccaattccag 60

taaaactgga gagattcttt cagaatcatc catggaaaat 100

<210>385

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>385

gatgcgacag aatcccactg agacgcttcg gagagtgttg ccaaaagtca gagtaagttg 60

gtatgaaata agattggagt ttcccatttt ttcccagtag 100

<210>386

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>386

cccagatgtt gaagtcagca caacaagaga aaaacccaaa tcctgataag acttgaggat 60

ttttcgaaaa ttaaatgcaa aatagttggg gcaaatgttg 100

<210>387

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>387

tttagttagt tgtaaaattt taggaaaatt gaccaacaaa tttgatgccc acacgtgagt 60

atttgtatgt aattttcggt ctactttatt acattcgttt 100

<210>388

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>388

cagcttttga aactttggtt aatctgcttg atatatttga tacaggtaaa tcatgtggct 60

acatctttgc ttctgaaaac agtgtttttc tacatgtttt 100

<210>389

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>389

cagattccac cccaaatcct agagcaggag aagaaatata tttcagtacg gaagaactgt 60

gcttataact ttccggtaat aaatatgtat ttatatttac 100

<210>390

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>390

agaaaataag gtaaacttca tctttcagaa acattctgag ttgtgtaaat attatcctac 60

tctacagggt gttttgaggc atcaatgaaa gaatgtttgg 100

<210>391

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>391

tcattcaaaa attaattgaa cgtaagtaat cattgtctac tattttgaaa aaggaaagta 60

aacaaactag ttggctttag ttatgtctaa cttatgtatc 100

<210>392

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>392

gatgttctgg ctattgtaaa aagagtaagt atcactcttg ccacaatgtt gcattttttg 60

cattaaggca gtaagaatct tagcttcact atttcagctt 100

<210>393

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>393

ccccatttct gttcctggac cctcttctgt caccccatcg acaagtaaga aataacttct 60

ttttatatct ttttgtaatt tttcttcctt gtatacaaat 100

<210>394

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>394

gagcagtgga agtaaagata cacaaccacg gaaggctacc ttgtaagtaa tcaagtgatg 60

tcagactgag tgtattatcc tcctcttttg cttaacacac 100

<210>395

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>395

aggagctaat aaatattaag ggaattagtg aagccaaagc tgataaaatt ctggtaagta 60

ctgcttactt aacctaggga ggcattagtg ggaatagtac 100

<210>396

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>396

ctgtcacctg ccaggtgagc tgttggggct atagctaatc aaataagcaa gcattacttc 60

attcctgcta tttgcaagca tctgttagga tggccataaa 100

<210>397

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>397

cagctccttt atcaagcatc agccatgatg gtagaatcta ggtatgtgtt cagtataaga 60

caccaaatat gttcttaaga gtccttccct gaatcttgta 100

<210>398

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>398

aaaacctatt ggaggaaata tcatcgccca tgcatcaaca accaggtaag gtgttgatgg 60

gatcagttct tcttttcgga atgtcatatt aactgtgaag 100

<210>399

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>399

tatgtatggt cagcagggcc tgtgccccaa agatgcaaac ggtatattta tattttatta 60

tgatttgatt atgaatgatt cctcatctca ttaaacatgt 100

<210>400

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>400

tctgcattta gtgctgaaag gtatgagatt ttattttcta ttataatgtt ttacttttgt 60

aacttatata cagcatgaaa catttacaca taggttaaca 100

<210>401

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>401

aatctcaaag aaagaaacaa gttcttggca agagaggcat cctccttgaa gtatttggct 60

gaggagtttt caatcccagt aagtttttct ttttttctct 100

<210>402

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>402

ttgattcaga gagaagacag gtgggtgctt tgacagtatt ctctgactat gaaggtcggg 60

gaatgagata taccaagcaa tctgagcgtc ttctgaaaat 100

<210>403

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>403

atattcttgg gggtggagtg cccttaatga aaacaacaga aatttgtggt gcaccaggtg 60

ttggaaaaac acaattatgg taaaataaag tgttctcctt 100

<210>404

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>404

ttactggcac aagtttatct tcttccagat ttcctttcag aacactcaaa ggtatgagtc 60

agactactga aatgtaacta accaagtatt ttttgaggtg 100

<210>405

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>405

aaggttcctt gagcacccgg aaacggtcac gagacccaga ggaagaatta taacccagaa 60

acaaatctca aagtgtacaa atttattgat gttgtgaaat 100

<210>406

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>406

gtgctgggca caaagctcca ggagcgtccg agggcaggtt tgagcctccc gctgtccctg 60

tctcgagtta tgtggttggt cacctgcagc agaaacagac 100

<210>407

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>407

tccggagagc ttctgcctga agcggtggaa aagaaaagca aggactttgg ataagaggga 60

gtaggggggt caaggtaagg ctgagaagga agaggcacct 100

<210>408

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>408

ttgccgctac ctgggcctcc tacaatttca gtcacttctc cagtatagag accagcatca 60

agcagtttat caagactgat ggcagaagag aagaaaatca 100

<210>409

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>409

gcaaccaggg cctgccaaag ggccccagac tgctcagcaa caaattgccc gtagaagctg 60

gcatcccagg gtgtcattca ccctacttct caatatctga 100

<210>410

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>410

ggaggggccg gaggcgctgc tacggttcac agaggagaga aaggacaagt catcatcaca 60

tcactgcatg ggatttcaga gcgtgggtcc actcccctct 100

<210>411

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>411

tccacagacg gttcaagatc ttgtctcttc gctttagtta aatccacttc aagaggcaac 60

tagaaggaaa gaagaaaaac aaattccttc aactggctct 100

<210>412

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>412

tatgaaccat cctgggggca gaaaaggagt ttgaactcaa acacgagagc ggcaggcgtg 60

ccacaactcc cctgttcctc aagcagcagg gttcaaagcc 100

<210>413

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>413

tcattggcca gattaattac ccgatgaccc tcaatgtagc acacctagaa aaacaaatgt 60

ttttaaggaa aagctgtgtt aattccttac cacacttaaa 100

<210>414

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>414

caaagacctt gcttactgat ctgcctttga tagatctttt cttctattgt acctaaagag 60

aaaacattaa ttagatttcc ttcagatctt tatgttcatt 100

<210>415

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>415

cctttgtata gactcttttc ttcattttta tcacaagttg agctacattc cttttcctat 60

tcaaaatgat gattgttaat gctggctcaa gtttgttttt 100

<210>416

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>416

ttacaaaatc aattaatgca aaaaattctt gcagatcattctgaattgga gtacctaaag 60

agagacaaaa atgagtaaaa ggtcaagttt gtgttttaca 100

<210>417

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>417

cctaaaccca tttcatcagc aagaatagct ccacatctgc cattcattct gttagaaata 60

attttacttc ctttaatcac aatagaaaaa tattttatgc 100

<210>418

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>418

ctgaagtcat ctggagagat tacacccatg acttctattt cttttccaca aatcatcagt 60

gtttggccct cttcaatctt ttcaagctct ttgaatttat 100

<210>419

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>419

tagtactttc ttcactaggc agatttaaac tgcatattct aagatcattt tgtgacggga 60

gaaaggtgtt attaattgca acaccctaaa agaaacaaat 100

<210>420

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>420

gtcagctaac caatcaacca ccttgtctgg acagcagtca gcatgtaagc cagaactgca 60

acctgcatgt gtatgtctgt gcccagtcac tcagcctagg 100

<210>421

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>421

ggcctcatca gagagaggta aatgagggtg aggggaacga ggtatgggct atgggctgag 60

cctgggagac taccatccct gggacagcag cagcgtaggt 100

<210>422

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>422

tcatatgtga cgaggtactt gactctcagc agtctgggtg gtaggagaaa atctgtcaaa 60

atctcttcac tgagtattgc cttccaaggg ctgtgctagt 100

<210>423

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>423

cagcattgtg aataggtaat gaccttaagc gaagtcatta gaattgcctc ccaaaccatc 60

catggccaat cctttggggg ctttgcctct ctagagccct 100

<210>424

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>424

cttggacctc ttccctcctg gttacagctc taaggccctg gagccccagc tgtcaggtga 60

cccttttcct accagtattt gggcttctct aggaggaggg 100

<210>425

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>425

ggcccgggtc tggcgagatg gtcaaaagaa gacttgctat atctaccgcc tgctgtctgt 60

aaggatggtg atagtagtca tagtaggggt gggtcatgga 100

<210>426

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>426

atcaccttcg tcttccacca gcgttctcat gaggagcagc ggggcctccg ctgataacca 60

gctggtctgg gtgtagctct tagaggaagg agatagggaa 100

<210>427

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>427

aagttttaga agatcggtga gtctggcact taggtcttga gtaagaagtg atttcctcca 60

taataagaag tacattgact ttcatttgta attagttttg 100

<210>428

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>428

tgtccgatac atagaacaaa cacatactaa attggagcac tctgtgtgtg caaatggtaa 60

gagttggagt tgtattttag ttctctggtt ttgtaaacca 100

<210>429

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>429

gtgttcaaga agaatctgta agtaattgtt tagtttggca ataacatgaa ttaattttat 60

gtctttttag gtcagttctt agagaattaa gcaagagaat 100

<210>430

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>430

gtatatctag attagaaaaa actagatcaa aatctgaaga tagtgccctt ttcacacatc 60

acagtcttgg gtctgaagtg aacaagatca ttatccagtc 100

<210>431

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>431

cagttcttca gttaaatcca tgtagaactg gtaaaataaa gtctctacaa aacaaccaag 60

gtgtgtacac cataaacagg atctccactt ttttaatgac 100

<210>432

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>432

aaagttcaag taagatctgt ttttgttttg ttattttttt taataacgtt gtgtgaagtt 60

tgtagttgta ccattgcact gattagctca agtgacctct 100

<210>433

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>433

ggagagaaga aaactgcttg ggcacacgtg taaggaatgt gaaattgtaa gtactaatgt 60

agatactaat ttttttttaa gtacggcttt atagataata 100

<210>434

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>434

ttacaacgca atattttctc caaaaggcaa ggagcagaag acatagacgt tgaaacagaa 60

acagaaggat gaaggacagt tttttccttc ttagttattt 100

<210>435

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>435

tccagggaga gcaagggacc tgcaaaatgt gcgctagtta gggtggcagg cagaacgcac 60

attacggtca ttcattccaa aatgttgccg tttttgctaa 100

<210>436

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>436

ccttttcata aggaatgata atggtcctaa atccaaccaa aacaaatgga tttaaggtgc 60

ctatttgaat gataattgct atatgtttaa aaaataaaaa 100

<210>437

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>437

ctttcttcaa ggtcagaaag ctcctgaagc tgtaaggata tttaatgtaa ggtccttcct 60

ggggtcttaa tgtaggcttc aaaatgtttt gttattaaaa 100

<210>438

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>438

actgagaaaa tgctgtgaac agagaatgct gtgggggtgg gacaagtaaa tgcatgaaat 60

ctcacgccca gaaaacaaaa ccgcacatgc cctcatattc 100

<210>439

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>439

gtaccaactc cgccatcctc ccttcaccgc acctgcgcgg ctaaccctcg ccccagcatt 60

gcgcctgcgc aaggcacgcc cgcgcttttt taaaaagagg 100

<210>440

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>440

tattttcaaa tacgaaatgg tagcataagc tgtaaaactg tagtcttctc tgcagaaaat 60

aaaggccaac aataagaaag cttttgaagg aatcacggaa 100

<210>441

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>441

acacacgacg acatctgcaa acacatttaa agatacaaat tattaaagga tataataaag 60

ttttaagaat ctctatttca gcttacatag ttatatactg 100

<210>442

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>442

ctactacctg aaatatttta acattttatc agttaattaa atcaagttta aatattttaa 60

aggtaaatta ggcttctatg gaagatatag acctaacctg 100

<210>443

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>443

ctgccgaacc taaaaaaaac ttaacttatt aaaaagtaaa tgaatgagta ccatccaagt 60

ggctgtctat gtacaacttt caggatgcag ttctttcatg 100

<210>444

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>444

tttctctgga gtcacataaa tcagctttaa ctcggagttt ttatttacca tttcagcatg 60

aacccattta acatgctcct attaaaagaa aaaaatagac 100

<210>445

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>445

ttttccagtt taaagacatt ttgcagaata tctttaactt taccagacca tggaaaatct 60

aggaaaagaa agttaagaat cagacaaaca tgtaagacta 100

<210>446

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>446

tcagggacag gaactggcgg atgtcgcagc ggacctggtc ctcccaatcc tggagctgtg 60

tggacaggca catcaggctt cctctgagct cccgtggcac 100

<210>447

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>447

ctgccggaaa gcatgtcaga tgcaggcagg cagcgtccag ggcggtgtgg ggtggggaga 60

ggcgcacctg tcctgggctc gtggtcccac tgcagctggc 100

<210>448

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>448

acagcaaagt ctcgatggct gggggcagag cagggctcag cggacgcggg gacagcccct 60

ccacacccct gtggcttacc ccaggttcct caccctcctc 100

<210>449

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>449

acccggcaac tggccctgca tgaaggctcg ctgtacccgc cgccgttccc ggctgcacat 60

gcccgcgtgg taggcctcgg ctgtggtttt gggggcacga 100

<210>450

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>450

ccggttgcag taaatgataa tggaatcgag gttttgaaaa cgtttgcctt gcagcagcgt 60

caacagtgcc tgatgaggag cggttggcgt gggcagtggg 100

<210>451

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>451

acgtgtacct gggctgcccg aatctgaagg cagcaagatc agaggcacag cccaggtgcc 60

cgcccgctgc ctccctcacc cctaggccca tgaggccccc 100

<210>452

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>452

taggcagcac cagcagcgtg gagatgcctg gatggggcgg gagtcagcag cagggttctg 60

cagcctggcc tcagcccagc ctcagccctg gcagccacgc 100

<210>453

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>453

gaaggaacca gtggctcagg cccaacagca tctgtgtctt cctcacttgc tggggcaggc 60

aggagagggt agaatgggag ctccaggtcg ggcaagacaa 100

<210>454

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>454

tgggctgctg cagggctgag gtggctgtgc ctgtacaggt tcccctggag ggtcttcctc 60

aactgctaca gccccagccc cctccgatgg gggtccagct 100

<210>455

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>455

cccagcagcg gggctctggc gcctgcagga gacaacaggg gcacaggcca gaaaaggctg 60

ttgtggcggc agaagcgctc ccagccaccc ctcccgcacc 100

<210>456

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>456

tcgtcctgta aagggaacgc gtcagccgcg ggccgcgccc tcagcccctc ggcccctggg 60

cagcccgcac ctggctcggt cgccgcccgc gctgccgtcg 100

<210>457

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>457

ggtcttctga gtcagcaagt gtgagaggtg gcgggcaaag cctttaaaca actcctggaa 60

gggagaggga gaagagaagc agagagcagg acccttggtg 100

<210>458

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>458

caggtgctgg tagagggaag agcaggcatc acagcactgg gtcctggtgg ctccctcatc 60

ccaggaggcc taggagagcc catctcaggg gtgagctctg 100

<210>459

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>459

ggctctgtgg atatcggcca cctgggcagg gataggcagg gaggctgtgg cacccgccag 60

ctcctcctga catgccccac ctagccctcc ttttctacta 100

<210>460

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>460

cctccagaag ccgcaggcag tgctcccgtg cctggcacag gacagtgaga ctggtcgcat 60

ggcctcgcgg ctgggggagg gccccggcgg gtggctgagg 100

<210>461

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>461

tctggcagtg gtcgcagcct ttggcgcagg caggcagcgc atccccgaag tacttggcaa 60

tggcggcatg gcggcacctg gagcaggcag caccgcagag 100

<210>462

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>462

aggcttccca tccctgccag cccggccaga ctcctggtag tacccagcca tagacttggc 60

aatattccaa tgggcgacaa acctgtagga tccaaaggga 100

<210>463

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>463

gctgttcaca agcctctcta gtcctgcagt acacaatgcc gcagccagat aactgaatgg 60

ggagatgcag gaagaaaata agcatagcaa gaacagaaca 100

<210>464

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>464

attttcctgc ccctgtgggc atgcacacaa agacgtcctt gttacctgaa aaaatacaag 60

acaacaatat ctcagtgctt cctgcctttt cattgaagtt 100

<210>465

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>465

atttggagca tcctctttta cccgatggca ttttagaaat tccaaaagga gaattaaatg 60

gattttatgc tctgcagatt aattccttgg ttgatgtaag 100

<210>466

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>466

acattcccag agttacagat gttctagatc ctgcattagg tccttctgat gaagaactct 60

tggcaagtct tgatgaaaat gatgagctta cagcaaataa 100

<210>467

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>467

gacaaatcat ttggttgtcc atctgttaga gaccaaaaca ggagtatttt ttcagttcat 60

tgtaatgtac ccttagccca tgattttaca aataaagaaa 100

<210>468

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>468

atgaaatact tactagcttg atagggttct cagtaccaga aatgaaacag tcaaaaaagg 60

atcctcttca ataccaaaag ttcctggaag ggttgcagaa 100

<210>469

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>469

gcagggcagg gtagtgatgg cggaccgcgg cgaggctcgg ctgagggacc cgagcgggga 60

cttctcggtc cgcggcctgg agcgggtgcc gcgcgggcgg 100

<210>470

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>470

gacctttctg ataatcccat ccatgaaagt atgtgggaac tggaggtaga agatttacac 60

aggaatattc cttagagtat gttggaactg tcgttaaaaa 100

<210>471

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>471

gggccttgtc atcctggggc aacgctgctg ctgctgctgg agaccccata ggtgacccta 60

gttcccaggc ctctcctggc ctcctgtggg gatggttggc 100

<210>472

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>472

cagctgtgca tccatcctga ggtgaagaaa caagagagta accatctaca ggtaggctcc 60

tgggctcccg ctccggctca gtgtccgaca ggcgagtgct 100

<210>473

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>473

cgacatcata ttcatgccgt acaattactt gttggatgcc aaggtggggg ctcagtcctg 60

tagctgacga ctcctgatgt ccaggggtgt ccctgggctt 100

<210>474

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>474

aagacattgc aaagctgaag agtaagtgtt gccctccccg cctccttgca gctgggtggg 60

gcctcctcct tgcgaggagg tgggtgacac ctcctcgacc 100

<210>475

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>475

gaaagcgagg tacagacctg ggcccacacg ctccccgccc gcccgggtgc agtgcccggc 60

accaccatgc cacaggctag gcacatgccc agccgtggat 100

<210>476

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>476

gtgggggtcg tccccagagg ccccgatgga gcccagttga gctccgcgtt tgacagacgg 60

tgagggcctg tccctgggcc ctgctggggt gggaggtggg 100

<210>477

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>477

gtgagttaca gcagggtggg gctggggtaa ggcggtctgg tgactgagcc cccgccccgt 60

ggccaaggga gcccccgtga ccgagccgcc tcgccccaca 100

<210>478

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>478

ttgccgagcg aactgtgagt tcctgcccag ggaggggatg agggtgttgt ccccagagga 60

gccagaaatg ggtccaccca cccccatggt tctgcagatg 100

<210>479

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>479

cggggagccc tggcgaggag caggtacagt tccagggcct tgggatggac acagaccctc 60

tgtctcctga ggccaacccg accccgccca tctggcctca 100

<210>480

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>480

gtctcggccc cctctttgct gaggacccca agaagcacaa cctgctccaa ggtgccctgg 60

cttgcagagg ccacccaccc tgagggcagt gctgccgccg 100

<210>481

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>481

agagcacctg aaccagggca ggccccacct gtcgcccagg ccacccccaa caggtagctg 60

actcctgaac cgtgtgcagc ctacgacttg gtgggtccct 100

<210>482

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>482

ctgtgcttac ccacagggct ccccaaccag gtagggcacc tgcctggctg ctcctggcag 60

cgccccaacc gcacgcagcc ctgggagtga gcagcaaagc 100

<210>483

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>483

agcagagcgt catgcaggtc ttctggccag agccccagtg agtgcccacg gaggccccca 60

gcacacccaa cgtggcttga tcacctgcct gtccagctct 100

<210>484

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>484

ctaagccagc ccagtctaaa aatagaaaca gatgctgtct aaatatttct catacattat 60

ttccacaatt acaaaaactt tgaaaagctt gctactgaac 100

<210>485

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>485

gtaaggaagg agaccgggca gcggcggccg ggtgagggct tgggttccgc ccctcgctcc 60

gagccgccct gatgcccctg tacgccgccc gcagtttgag 100

<210>486

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>486

agaggggccc ttgtgttgcc cccaccctgg ctgcctgcta agggcccatg tgatctgcct 60

ggcagaggag tttcttcagg aagaaccagg gcagcttctg 100

<210>487

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>487

cactgctcgt cgggtccagc agcacaatgg gggccgcaaa aaaggcgggg cctggcggac 60

cagcgggcga gggccctggt gagaggggga ggccttctgt 100

<210>488

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>488

ccgccgcacg tgcctctggc cttcgggcct ccaccgcccc aggccccggc cccaaggcgc 60

cgcgcaggtc cctttgatga cgcggagcct gagccagacc 100

<210>489

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>489

agaagaggtg agtgggcttt ggtggcgggc tccctacccc actccctgcc ctgggctgcc 60

tgtgaccaca ctgcttgcct ctgcaggcac actggacaga 100

<210>490

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>490

gtaaggaagg agaccgggca gcggcggccg ggtgagggct tgggttccgc ccctcgctcc 60

gagccgccct gatgcccctg tacgccgccc gcagtttgag 100

<210>491

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>491

agaggggccc ttgtgttgcc cccaccctgg ctgcctgcta agggcccatg tgatctgcct 60

ggcagaggag tttcttcagg aagaaccagg gcagcttctg 100

<210>492

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>492

cactgctcgt cgggtccagc agcacaatgg gggccgcaaa aaaggcgggg cctggcggac 60

cagcgggcga gggccctggt gagaggggga ggccttctgt 100

<210>493

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>493

ccgccgcacg tgcctctggc cttcgggcct ccaccgcccc aggccccggc cccaaggcgc 60

cgcgcaggtc cctttgatga cgcggagcct gagccagacc 100

<210>494

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>494

agaagaggtg agtgggcttt ggtggcgggc tccctacccc actccctgcc ctgggctgcc 60

tgtgaccaca ctgcttgcct ctgcaggcac actggacaga 100

<210>495

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>495

ggtcccttgg gcctatgggc cccaggtcct gtggtggcct cctgctgggc atggacccct 60

gcccttgaag gcttgtaggt ctgggaggcg agggtctggc 100

<210>496

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>496

tagtgcagct tcctcggatg ggggtggtgt ccaggagtcc cggggagcga cagtcacggc 60

tgtcggcggc ctcgttcatc ctgcggctgg ggctgctggt 100

<210>497

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>497

agaggatgac ctcatcttct tcgttcagtt tggatgaaga tttctgagat ctggagctcg 60

aatggtcagg atttgactgg gttaggtcaa tagacggaga 100

<210>498

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>498

cccacattga cctcaagagt tcctggaaat tctcggccct gctttcgcaa ttctctgctt 60

ccttctcctc ccatggtttg ccctctgagt cagtggcaat 100

<210>499

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>499

accatggcgc caaagtcagc aaccagcagc ccgagggaga gctgaagcag gaggagagga 60

agagccgtca cctccccacc tctgctctgc taactgggca 100

<210>500

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>500

gggtgccgtg gagagcgggt gaccttcgct cgctcagctc tgagtgctca ggtggcacca 60

gaggcggcac gggctcctgc ataaggccct gaaagaagcc 100

<210>501

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>501

cttgctggtg ggtcctctcc gtttcagacc tctactgtga tcactgaagc tagaaaacag 60

ccaaagagaa aagttactgg ggctagagga gtgcacgctt 100

<210>502

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>502

cctacccgtg caaactcctg ctgcagggtc aaggccaccg cagcgtcgct ctctggggca 60

gggggcccaa gcccatacac tgtggagaag caccaaagat 100

<210>503

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>503

gggcctggct gccagacgga ggtttcttct ctgcagggcc ttgaagggtt ttggtcttgg 60

tagcagtttg tttggtcctt ttcaatttgc ttcttatctg 100

<210>504

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>504

aaattgctcc aatacagttc aagagaaaac attcaacaaa gatacagtga ttatagtgta 60

agctgattaa tagatatatt gtatttgcat gtgtgtgaga 100

<210>505

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>505

gaagatgaat ttaatgatga tcaatctata aaaaagacaa gactggatca tgtaagttta 60

catttgaatt acagtatcaa aattggctgc ttaaggttag 100

<210>506

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>506

aagaccaagg taattattct gggtcataga aaatacatac ttctcattat agtctgtatt 60

ttagtatata agaaaatggt atataagaaa agctattagc 100

<210>507

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>507

aaataaattg accaaacaag ttaccatgct tactggaaat ggaggtggat ggaacataga 60

acaaccttcc attctaaacc aaaggtaatc tttgttgaat 100

<210>508

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>508

ttgttccagc ttcaactata ggtttgtaat actggagaca actgtattta actttatcat 60

gttttatata ggtagaagag agtgtgtgta agggtgtgtg 100

<210>509

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>509

gatttaacat tcatagtaga tatgaagatt acaatgtaat tgtgaccacg taagtattga 60

gaaatttggg gaggatggat atttatgcag cccccaaatt 100

<210>510

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>510

acatgtttag tagtagcacc agtgaaatac gaagaatgtt ttcctctaag acagtaagca 60

taaatgcata ttttctccca aatatgttat ttgtgtttta 100

<210>511

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>511

caggagcaac tctatttggg tcttttcaac agattgaaaa aatctatcaa taacttgggt 60

ataatctgat ttttactctt ttatgtgaaa aagaatcttg 100

<210>512

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>512

aaaatttcga gttttaggat gcatcttgtc tgaattgaaa cagaaggtat taaaaaagaa 60

tggcgtttct tttgtatttt ctcaattact ttaacttctt 100

<210>513

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>513

acaaacaagc agaagataga tgccatagag taggccagac taagtaagtg tttttagttg 60

gaatgtattt ttaattcagt gccactttaa tttgtgtaga 100

<210>514

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>514

tgccatttgc cttggtttag ctggaaaacc tgctttcatg ggacgagcag ataaggtgag 60

ttaatataat tactttttaa gaaatttcaa acctattaat 100

<210>515

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>515

gaaagaaaaa cagctcgagg tactttaaat agacaactca tttgtattgt ttcttattga 60

tttctgtatc tcagaacatg ggagagagag tagtagtatt 100

<210>516

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>516

cgaattgaag aaatggaaaa cgagcgtcac aatttggagg ctcgaatcaa agaaaaggta 60

ctttttggtt tcaattttgg attatctgaa ttttatttta 100

<210>517

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>517

acgtatgatg ctgttttatg gctaagaaat aacagagaca aatttaaaca aagagtctgt 60

gagcccataa tgctcacggt aagaaacttt gttcatcttg 100

<210>518

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>518

gagttcatat gcagacaaag caccttcaag atctttgaat gaacttaagt aagtcttgaa 60

aatactaaga tttatttaaa tattgaatta ttcaacattt 100

<210>519

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>519

ggttggttaa tttgatctga atgttagaaa agaatattaa ctggatttct aatagtttca 60

ctggaacagt tttttaaata tgttaacaat ttttaaatat 100

<210>520

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>520

tgttcaaaaa gcgaaacttg ttaccgaatt aacaaaccta ataaaggtaa ggtattgttt 60

taattttagt cattttttaa aggaaatagc gggcagataa 100

<210>521

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>521

tatgtaacct gggtgcagag cagactcttc ctcaagaata ccagacagta agtataaaaa 60

gtatataatg ctacaattgc catatttaac atttttaaga 100

<210>522

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>522

aactaaaggg aaagaaagtt gaactagatc aatacaggga aaacatttca caggtaattt 60

tttagttttt aatcttttta tcatgtgatt attaatgaaa 100

<210>523

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>523

caggtatggt gattgttctg ttacttggat cttcttatat cctgtaacag gaataaatgt 60

aatcattatt gttgccattg tttagggaat ggacccaatc 100

<210>524

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>524

tacattcact caaccttctt aataaaagta aagagaggga acttgggaat tttttttgtt 60

aaattctgtt tataagtatg gctcaactga ataaaaggag 100

<210>525

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>525

ctcctattaa ccatatcctg aaaaacaaag gcaaaagtta ggattgctat tgtgtaagtc 60

acatttctgt aaaagcagca ttctgtgggc tgatacaagc 100

<210>526

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>526

aaaattcatt tttccacaat aggcccgctg agatagtaag ttgtcaaagt ataatttgca 60

tcgtaaagtc aaacaccttg aaatttaaaa attaggcaca 100

<210>527

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>527

agatttttct acttctatac gctctgggca gatttgtctt gcttgtgaca ttttctccta 60

agaaagtaga tgtttatatc tttaaaactc ttctttgata 100

<210>528

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>528

ttaagatgct ccatattttc tttttgttgc tccatatgtt cctcaaccat tttcattttg 60

cttttatttt cctgagcttc atcttcctga taaaatttaa 100

<210>529

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>529

ctgaagattt aatatctggg ccgtcttatt ttcaacctca ttctccaagt cacttgatag 60

gaaaggagaa gatagaaaat actttaaatc tttttctcaa 100

<210>530

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>530

atctatttct aaagctgtca gaactgttgg aaagtctgga tgataagcag ctctaggaga 60

caaaaataca gaaggattaa cttagcaaat tttaattata 100

<210>531

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>531

cttttgagtc gatcagtttt actatctttc aattctttca gttgcctctg attgtagctc 60

agtgcatgct tcacatctaa ttcttctctc ctaaaaaaca 100

<210>532

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>532

gttatataaa acctaaccaa aaaaattaga cacactttac aaaaatgaaa acacaaatat 60

cccattcacg tccacttttg tcaaatcttc agaggctgaa 100

<210>533

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>533

ctccaatttt gatattatct ctgatggcat tcaattgttt ttcaatttca ttgacctaag 60

aaagaaatta tatagcaaat tgatcagatt aacaataata 100

<210>534

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>534

tcaagttgcg ttgctttcat gaagaactat tatcaataac aaaaaaaaac gcaattagga 60

gtttgtaaac ttccatagaa ctgttaaaaa gaaaaagaaa 100

<210>535

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>535

ttccaccaag accgactatg agagctgtga gtactgcact cttcccacct aaagaaacag 60

atgttgaaga aatcacattc attaaaagaa aaaggaaaaa 100

<210>536

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>536

aaattttctt cctttctttt ggccatcagg tctgaacaaa tatttatagt aacaatgagg 60

taaatcaagt tccatatata ttaaactcaa caaaataaat 100

<210>537

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>537

ataatcacaa gcttggcaag aaatgaagca cctgcattca cgatagacaa cagatcaagc 60

tgggaaaaca taaagtgggc attttgcatt tttatttttt 100

<210>538

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>538

tcgtcgacaa tattatcaat gacatttctt gcatgttaaa agtgtcaagg aggagtctac 60

atatagtaag tagtacctaa tacaaaacat tttattttaa 100

<210>539

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>539

tgtctccttg catcatgatt acggtatatt atctaacttt actacaattc caagactaat 60

gtatactgtt atggtgattg gtaagaggat ttacaatatt 100

<210>540

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>540

tgccaaccat tttggagaaa agaagtatgt ttccttttac aactcaagtg ttgcatgttt 60

aattgtcttt tactttagta gtggctattc acatcgtatt 100

<210>541

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>541

tcctcttcct gacacgaagg cctcttcaaa gcatgccccg cgggaccgga acgactctag 60

acccaatgcg actccaggta accgtggggg tgggagcaga 100

<210>542

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>542

acttcagcca ccggcttggg cctggccggg attgtgggct catggtggcc ctccagaccc 60

aggaggaagc aggtagtggg gacgtcctgc acctggcact 100

<210>543

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>543

ccaaacccac ctaggtggat ccctgggcct ggtgggcatc ccagggaggc gcccaggggt 60

ctatatgcca aggcaggagg ccctcctgct cccggattgg 100

<210>544

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>544

gctgaggtag aacctgggga caaagtgcca tgtcagatga taggagtgca ggagatgctc 60

tccgctgttg gccatcagct aaggcagcct ttcctcagct 100

<210>545

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>545

ggaatcataa cctgcaggga gagagtcgag ctcagtgagg gcccacctga gaccctcagg 60

gacttgggcg acaccaccca ctacccactg caagctctgt 100

<210>546

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>546

gggctggtct ccccgtccac catctccacg gtgctgggct gaaagtggga tccttgctca 60

tagacaggga ggatctacag ggagcggcag gtgcaacagt 100

<210>547

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>547

tggatcgggg gtctgctgtt ccaccaacac cgtcaggttt aagtctctgg gaaaaatgtt 60

tgtttctgtt cggggatagc tgatgtacct aaaaccaagg 100

<210>548

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>548

gatgcctttt ccagttgaat tctacgatac catctttgtg gtcatgagtt actatattaa 60

ggagagacaa acagaaaggc tgtgtctcag agacatgtca 100

<210>549

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>549

ggcatggggt gtgatctcag agaatcgggc tcgcaacacc tgcagattgg gctttactgc 60

agaacacaag gtgttaccaa ggtcaaagtc aaatcacact 100

<210>550

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>550

tgaagtcatt accatggtaa cattctgaat gatgacaaaa ttcaaaattc agttagtctt 60

tttgcagtta ttattctgcc aaatcattaa aatgagaggg 100

<210>551

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>551

gctcgaagtc atccagaggg cagcggagct ccttgtagag cttgatggtg ccgttctggg 60

ggagcgtgta ggtctcatcg cagtgggagc agtgcaggcg 100

<210>552

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>552

ttctccactg cactgcggat ggtggggagc accagctctg catctgcaag tgggcagggg 60

gcagatattg ccctgagcac tcgcacccag ggccatgcca 100

<210>553

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>553

caagtgggca ggctctcctc caggggcacg ctctgccagg gcatgacctc cgtgaagcct 60

ggagagatat gcgccgccac tcagggtccc cagcctgggt 100

<210>554

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>554

ttctgctaac aaccgcttca cctgagggag agaagacaga gcagagtctg tggctgggct 60

cggctgcctg cctgggtttg gctgacgtac cagacctggt 100

<210>555

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>555

ccaggggcct ctgcttggcc ttttctttcc tgcttgtggc ctccacctgg aagacaggac 60

agtcaatgat ttggggaagg aggaagacac caccatagag 100

<210>556

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>556

tggagtctga cacggcccaa aggagatgag agagctgtct aaatcaccgt atttcccctg 60

gaaatattta gtctgaaacc tggagggagt ggaaagatat 100

<210>557

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>557

gagcttggct gaacagttct gcggggtcca ctttgtccca tttgttgtat tttcctacaa 60

accagtcaca gtgacattga gtcacaggag ctcagcctcc 100

<210>558

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>558

ggagacagga gtccacatga cactgatact ctctaaatgg gaccagggat ttacagaggt 60

aacacttctc attcctatcc aataagaaaa aaggaagaaa 100

<210>559

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>559

tggagagact tctctttcaa ggtcaaaagt ttcagaggaa cttagctggg tctctgtaat 60

ttaaaaaagt taaaatccca ttaattttca ttttgtgttt 100

<210>560

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>560

tttccctgac tgatatgtga gcctttaaac agtgatggag gtaccagctg ccatatgcct 60

gtaggtattt gagaaaaagt agggctaagg acaaactttt 100

<210>561

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>561

gttcacctcc ctagcttcct gctcactcat tttgagagcc agagcaaact gttcttcttc 60

tgtcatctct gtaagaggat agggaaaaga gaaggaggaa 100

<210>562

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>562

gtagtttcca catccttctt ctccaggttc cgagattcgg agacttcttt aacttttttc 60

tttctccgtg gcatcctttt gtctagaata aaaggacaat 100

<210>563

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>563

atccattgtg tatagttacg atgctagtga ttgctctttc ctgtcagaag atattaggta 60

agtgatttga atttcctgat tttatttgaa tttggaccct 100

<210>564

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>564

gagatcagtg gaaacttcta cgtgactttg atatcaaatt gaagaatttt gtggagttga 60

cagatgttgc caataaaaag gtaaaagcaa tatatatata 100

<210>565

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>565

ttcaatctct gaggaagtga tggatctggc taagcatctt cctcatgctt tcagtaaatt 60

ggaaaaccca cggaggttaa atattacctt tttttttttt 100

<210>566

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>566

taattgagag tgatgaagat ttagaaatgg agatgcttaa ggtatgttta caattataaa 60

aatattactt caagttcttt ccaaaggaca tttaattaag 100

<210>567

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>567

agaagaagaa gatgatgaaa atgaagctaa tgaaggggaa gaagatgatg ataagggtaa 60

gcactgaagt atgtttgaaa tgactcacct gtgataccta 100

<210>568

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>568

caggtaacat gggcctgctc cagcaacttg aggctgatat tggtaagtga taaagaaaga 60

tctctgtaaa tacttactga gttaatattt aaagttaaac 100

<210>569

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>569

cagggaatat ccttcaggat ctgcagccat ttcttgtcaa aacaaggtaa ggatttaatg 60

gttgatgaat tttggtaatg atttcctttt ttttttttta 100

<210>570

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>570

gattggtaga gctggtcgtg atggacttca aagttcttgt cacgtcctct gggctcctgc 60

agacattaac ttaaataggt aaaaaaaatt tattgttttt 100

<210>571

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>571

ttgggaatta tgggaactga aaaatgctgt gataattgca ggtccaggta aagatttctt 60

attatagatg gacattctaa aagtctttct ttctcttcct 100

<210>572

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>572

cgcccttacg aaaaaggtaa acggtgtagg agtctgcctg tttgacttaa ttttgtttcc 60

cactccacat taaaagatcc tttttgcttt taatagggta 100

<210>573

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>573

tgttccccca gctattctgg caacaaacaa gatactggtg gatatggcca aaatgaggta 60

aactatcttt tgcatgtgtt ctatttattt ccttctaaca 100

<210>574

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>574

agtctatggc catcacatac tctttattcc aagaaaagaa gatgcctttg gtaagtgtga 60

ctttcatgtt acagggaatt tttttagttt acttaaactt 100

<210>575

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>575

aagagatctg ttcaagttct aagagaagca aggaagaagt aggcatcaat actgaggtat 60

taattatata tagaattttc ataaagtgtc agtttgttca 100

<210>576

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>576

gatgcttgca ctggaatata aaacacacac acctattaga aacaggcagg gccagggctg 60

gccagtctaa ccaagatttc tcattaccat cttatttggc 100

<210>577

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>577

cagtaatgac aagaagccaa acatgtgtat gttttactgg aacttccaag gacctacaaa 60

gaaaggatag atgggatcag acctcagatg tgctggaaaa 100

<210>578

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>578

atcaactagg tccaaggcct gggtggctga tgagccaaag agaaacttca gcctgtgaaa 60

taaaaacact tcagattaga aggcctgatt ctcaaagtca 100

<210>579

<211>100

<212>DNA

<213> Artificial sequence (chemical Synthesis)

<400>579

aacactacgg ccatcgcgcc gcaggacacg ccctccacga ccggcggacc gccgcgacgc 60

tccagctgac tgcgcctacc tgtggaggat cctgaccccc 100

Claims

1. A kit for detecting the effectiveness of a DNA homologous recombination repair pathway is characterized by comprising a probe library which is composed of probes shown in SEQ ID NO. 1-579 and aims at genes related to the DNA homologous recombination repair pathway.

2. The kit of claim 1, wherein the genes related to the homologous recombination repair pathway include LIG, MRE, NBN, PARG, PARP, PARPBP, RAD, TP53BP, XRCC, EXO, PCNA, POLD, RFC, RPA, BARD, BLM, BRCA, BRIP, DNA, EID, EME, ERCC, FANCM, FEN, GEN, H2AFX, HELQ, HFM, INO, KAT, MUS, NFF 2, NSMCE, NSMCATCE, NSMCLH 4, PALB, PARP, PAXILP, POQ, PPP4R, PPP4R, SLR 4, SLR 51, SLSC, SLR 51, SLR 3, SLR 51, SWR 51, SAD, EME, RFE, RECE, REC, RFN, RFL.

3. The kit for detecting the effectiveness of the DNA homologous recombination repair pathway of claim 1, wherein the probe sequence corresponding to gene LIG1 is shown in SEQ ID NO. 1-11, the probe sequence corresponding to gene MRE11 is shown in SEQ ID NO. 12-17, the probe sequence corresponding to gene NBN is shown in SEQ ID NO. 18-23, the probe sequence corresponding to gene PARG is shown in SEQ ID NO. 24-29, the probe sequence corresponding to gene PARP1 is shown in SEQ ID NO. 30-40, the probe sequence corresponding to gene PARPBP is shown in SEQ ID NO. 41-45, the probe sequence corresponding to gene RAD50 is shown in SEQ ID NO. 46-57, the probe sequence corresponding to gene TP53BP1 is shown in SEQ ID NO. 58-71, the probe sequence corresponding to gene XRCC2 is shown in SEQ ID NO. 72-74, and the probe sequence corresponding to XRCC3 is shown in SEQ ID NO.75, the probe sequence corresponding to the gene EXO1 is shown as SEQ ID No. 79-84, the probe sequence corresponding to the gene PCNA is shown as SEQ ID No. 85-88, the probe sequence corresponding to the gene POLD1 is shown as SEQ ID No. 89-101, the probe sequence corresponding to the gene POLD2 is shown as SEQ ID No. 102-106, the probe sequence corresponding to the gene POLD3 is shown as SEQ ID No. 107-110, the probe sequence corresponding to the gene POLD4 is shown as SEQ ID No. 111-113, the probe sequence corresponding to the gene RFC1 is shown as SEQ ID No. 114-123, the probe sequence corresponding to the gene RFC2 is shown as SEQ ID No. 124-127, the probe sequence corresponding to the gene RFC3 is shown as SEQ ID No.128 RFC 131, the probe sequence corresponding to the gene RFC4 is shown as SEQ ID No. 132-135, the probe sequence corresponding to the gene 5 is shown as SEQ ID No. 138, and the probe sequence corresponding to the gene RPA 829144, the probe sequence corresponding to the gene RPA2 is shown as SEQ ID NO. 145-148, the probe sequence corresponding to the gene RPA3 is shown as SEQ ID NO. 149-151, the probe sequence corresponding to the gene RPA4 is shown as SEQ ID NO. 152-153, the probe sequence corresponding to the gene BARD1 is shown as SEQ ID NO. 154-158, the probe sequence corresponding to the gene BLM is shown as SEQ ID NO. 159-169, the probe sequence corresponding to the gene BRCA1 is shown as SEQ ID NO. 170-178, the probe sequence corresponding to the gene BRCA2 is shown as SEQ ID NO. 179-194, the probe sequence corresponding to the gene BRIP1 is shown as SEQ ID NO. 195-204, the probe sequence corresponding to the gene DMC1 is shown as SEQ ID NO. 205-209, the probe sequence corresponding to the gene DNA 352 is shown as SEQ ID NO. 210-219, the probe sequence corresponding to the gene EID3 is shown as SEQ ID NO. 220-1, and the probe sequence corresponding to EMID NO. 222-2 25, the probe sequence corresponding to the gene EME2 is shown as SEQ ID NO. 226-229, the probe sequence corresponding to the gene ERCC1 is shown as SEQ ID NO. 230-232, the probe sequence corresponding to the gene FANCM is shown as SEQ ID NO. 233-245, the probe sequence corresponding to the gene FEN1 is shown as SEQ ID NO. 246-248, the probe sequence corresponding to the gene GEN1 is shown as SEQ ID NO. 249-254, the probe sequence corresponding to the gene H2AFX is shown as SEQ ID NO. 255-256, the probe sequence corresponding to the gene HELQ is shown as SEQ ID NO. 257-265, the probe sequence corresponding to the gene HFM1 is shown as SEQ ID NO. 266-280, the probe sequence corresponding to the gene INO80 is shown as SEQ ID NO. 281-294, the probe sequence corresponding to the gene KAT5 is shown as SEQ ID NO. 295-300, the probe sequence corresponding to the gene MUS81 is shown as SEQ ID NO. 307, and the probe sequence corresponding to NFID NO.32 is shown as SEQ ID NO. 308-2 IP, the probe sequence corresponding to the gene NSMCE1 is shown as SEQ ID NO. 311-315, the probe sequence corresponding to the gene NSMCE2 is shown as SEQ ID NO. 316-318, the probe sequence corresponding to the gene NSMCE3 is shown as SEQ ID NO. 319-320, the probe sequence corresponding to the gene NSMCE4A is shown as SEQ ID NO. 321-324, the probe sequence corresponding to the gene PALB2 is shown as SEQ ID NO. 325-331, the probe sequence corresponding to the gene PARP2 is shown as SEQ ID NO. 332-337, the probe sequence corresponding to the gene PAXIP1 is shown as SEQ ID NO. 338-346, the probe sequence corresponding to the gene POLH is shown as SEQ ID NO. 347-351, the probe sequence corresponding to the gene POLQ is shown as SEQ ID NO. 352-369, the probe sequence corresponding to the gene PPP4C is shown as SEQ ID NO. 370-372, the probe sequence corresponding to the gene PPP4R1 is shown as SEQ ID NO. 384-381, and the probe sequence corresponding to the gene 381-380 is shown as SEQ ID NO. 381-380, the probe sequence corresponding to the gene PPP4R4 is shown as SEQ ID NO. 385-394, the probe sequence corresponding to the gene RAD51 is shown as SEQ ID NO. 395-398, the probe sequence corresponding to the gene RAD51B is shown as SEQ ID NO. 399-402, the probe sequence corresponding to the gene RAD51C is shown as SEQ ID number 403-405, the probe sequence corresponding to the gene RAD51D is shown as SEQ ID number 406-409, the probe sequence corresponding to the gene RAD52 is shown as SEQ ID NO. 410-413, the probe sequence corresponding to the gene RAD54B is shown as SEQ ID number 414-419, the probe sequence corresponding to the gene RAD54L is shown as SEQ ID NO. 420-426, the probe sequence corresponding to the gene RBBP8 is shown as SEQ ID NO. 427-434, the probe sequence corresponding to the gene RDM1 is shown as SEQ ID number 435-439, and the probe sequence corresponding to the gene QL 445 is shown as SEQ ID NO.440, the probe sequence corresponding to the gene RECQL4 is shown as SEQ ID number 446-456, the probe sequence corresponding to the gene RECQL5 is shown as SEQ ID number 457-464, the probe sequence corresponding to the gene RMI1 is shown as SEQ ID number 465-468, the probe sequence corresponding to the gene RMI2 is shown as SEQ ID number 469-470, the probe sequence corresponding to the gene RTEL1 is shown as SEQ ID No. 471-483, the probe sequence corresponding to the gene SHFM1 is shown as SEQ ID number 484, the probe sequence corresponding to the gene SLX1A is shown as SEQ ID No. 485-489, the probe sequence corresponding to the gene SLX1B is shown as SEQ ID number 490-494, the probe sequence corresponding to the gene SLX4 is shown as SEQ ID No. 495-503, the probe sequence corresponding to the gene SMARCAD1 is shown as SEQ ID number 504-513, and the probe sequence corresponding to the gene SEQ ID No.5 is shown as SEQ ID No. 524-5, the probe sequence corresponding to the gene SMC6 is shown as SEQ ID number 525-536, the probe sequence corresponding to the gene SPO11 is shown as SEQ ID No. 537-540, the probe sequence corresponding to the gene SWSAP1 is shown as SEQ ID number 541-542, the probe sequence corresponding to the gene TOP3A is shown as SEQ ID number 543-550, the probe sequence corresponding to the gene TOP3B is shown as SEQ ID number 551-557, the probe sequence corresponding to the gene UIMC1 is shown as SEQ ID number 558-562, the probe sequence corresponding to the gene WRN is shown as SEQ ID number 563-575, and the probe sequence corresponding to the gene ZSQIM 7 is shown as SEQ ID number 576-579.

4. A method for detecting a gene associated with a DNA homologous recombination repair pathway, comprising the steps of:

(1) obtaining a DNA sample library of a subject;

5. The method according to claim 4, wherein the DNA sample library in the step (1) is composed of double-stranded DNA fragments;

6. The method according to claim 4, wherein the probe in the step (2) is selectively labeled.

7. The method according to claim 6, wherein the probe in the step (2) is labeled with biotin.