CN102250932A - Method for controlling domestic silkworm pupal stage growth - Google Patents

Abstract

The invention belongs to the field of genetic engineering, and specifically relates to a method of domestic silkworm transgene for controlling domestic silkworm pupal stage growth through UAS/GAL4 dual system. According to the method, piggyBAC transposon vector pigA3GFP is adopted as a base vector; through genetic engineering operation, GAL4 gene expressed transgenic domestic silkworm PDP-GAL4 system controlled by domestic silkworm cocoon protease gene promoter (PDP) is established; through genetic engineering operation, domestic silkworm baculovirus egt gene or charybdotoxin BmKIT3R gene expressed transgenic domestic silkworm UAS-egt or UAS-BmKIT3R system controlled by UAS promoter is established; the PDP-GAL4 system and the UAS-egt or UAS-BmKIT3R system are hybridized, such that larval stage growth of an F1 generation is normal, and pupal stage of the F1 generation is prolonged for 7 to 10 days. According to the invention, with an UAS/GAL4 dual system, the F1 generation silkworm pupal stage is prolonged by using domestic silkworm baculovirus egt gene or BmKIT3R gene. Flexibilities of silkworm cocoon purchasing and filature technology are improved. Therefore, the invention has important application value.

Description

A kind of method of controlling silkworm growth in pupa time

Technical field

The invention belongs to the genetically engineered field, be specifically related to the method for a kind of transgenic bombyx mori by the growth in pupa time of UAS/GAL4 double element system control silkworm.

Background technology

Domestic silkworm silk protein is efficiently synthetic, grow with abnormal, immune and resistance and sex determination be silkworm most important four big proterties.The abnormal artificial adjustment with growth of silkworm is the important content that silk is produced, and the metamorphosis of artificially regulating silkworm has great effect with the production structure and the integral production benefit of growing the silk industry.Silkworm is a complete metamorphosis, and pupa time is very short, only is 2 weeks, because moth mouth cocoon is not suitable for filature, must finish the purchase and the drying work of bright cocoon in the production before the nymphosis moth.Since the receipts of bright cocoon baking link can not be in time and the high temperature of cocoon drying process to the destruction of silk-protein, cause the quality of raw material cocoon seriously to descend.People wish by metamorphosis of artificial adjusting silkworm and growth, prolong pupa time, alleviate the operating pressure and the intensity of bright cocoon purchase and oven dry, even wish to grow termination pupa time, realize fresh cocoon reeling.Like this, not only can only solve bright cocoon receive baking with pupa time the contradiction between too short, make raising raw silk grade become possibility, but also can save the required energy of cocoon drying greatly.At present, conventional method also is difficult to realize having pupa time the prolongation of long period, therefore, is necessary the novel method of fundamentally exploring prolongation process in pupa time even ending pupa development.The research of the parties concerned is received aspects such as drying by the fire present situation, the major reform of realization raw silk complete processing at the optimization silk existing silk cocoon of the industrial structure, reform already and is significant.

The Bombyx complete metamorphosis, it is generally acknowledged insect cast off a skin and metamorphosis is subjected to hormone regulating and controlling, its residing growth and development stage depends on the relative titre of this two parahormone of neotonin and moulting hormone in the hemolymph.Existing many results of study show, by human intervention, change the endocrinosity of insect, can think that the growth of regulating insect is with abnormal.From the outside silkworm is applied neotonin (JH) or juvenile hormone analogue (JHA) can promote or suppress to cast off a skin, handle time end larva in age (4 age) that has just casted off a skin, can increase by 1 time and sleep and cast off a skin, induce 6 instar larvaes with JHA; Apply the number of times of casting off a skin that moulting hormone (MH) also can change silkworm equally, newly-hatched silkworm is with containing MH(100 mg/kg) artificial diet raise, can obviously increase the number of times of casting off a skin, indivedual silkworms can cast off a skin 12 times; Silkworm is applied precocene can induce 3 hibernating worms to occur; Usefulness imidazoles chemical substance KK-42 such as Dedos handle 4 instar larvaes, can induce precocity to pupate; The silkworm in 129-132 hour 5 ages is applied fenoxycarb (fenoxycarb) can be induced and produce permanent pupa (referring to Dedos SG, J Insect Physiol, 2002,48 (9): 857-865).Aforesaid method is all intervened silkworm development metamorphosis by applying certain chemical substance, does not relate to the growth metamorphosis that changes silkworm by genetic manipulation.

Existing more result of study shows that baculovirus has a significant effect with metamorphosis to the just dormancy of insect.Autographa californica multicapsid nucleopolyhedrosisvirus baculovirus (AcNPV) inoculation silkworm larva in 4 age with to the non-target host of silkworm can cause that larvae development delays, and gives the silkworm pupa injection of pupating 2 AcNPV, can induce the generation of artificial diapause pupa.The Owain result of study shows, baculovirus EgtThe coded product of gene is the steroidal uridine diphosphoglucose based transferase of casting off a skin (Ecdysone UDP-glucosyl transferase, EGT), glucosyl group in this enzyme energy intravital uridine diphosphoglucose of catalysis insect (UDP-glucosyl) is transferred on the MH, form moulting hormone 22-O-β-D-Glucopyranose, make host insect excretory MH inactivation, thereby stop the metamorphosis of larva, prolong getting the food time of larva, impel the pupa premature ripening (referring to Owain PE, O ' Reilly DR, Biochem J, 1998,330:1265-1270).

Infer that from the mechanism of hormone regulating and controlling insectean metamorphosis the MH level of regulating silkworm can be controlled the growth of silkworm, still, how, the MH level of silkworm is controlled, to delay the growth of larva or pupa by molecular biological method, improving the production traits, is the problem that need research and solve.

Publication number is that the Chinese patent application Publication Specification of CN 101418302 discloses a kind of construction process and growth control method of growing controlled silkworm, and this method is with silkworm heat shock protein promotor control silkworm baculovirus EgtGene makes up transgenic bombyx mori, by to transgenic bombyx mori with 41 ~ 43 ℃ of thermal inductions prolongation in 0.5 ~ 2 hour silkworm development, but the temperature and time during the strict control inductive of this method careless slightlyly will cause detrimentally affect.

Scorpion venom (Scorpion venom) is the poison that is stored in scorpion anal spine poison capsule, is the weapon that the scorpion predation is resist the enemy, and also can be used to treat diseases such as tumour, thrombus.From scorpion venom, separate the anti-insect specific neurotoxin that obtains, act on insect because most energy is single-minded, and have characteristics harmless to Mammals or that toxicity is very little, thereby cause the concern of Chinese scholars.Anti-insect scorpion venom have two big classes, and a class is the long-chain toxin, is made up of 60～70 amino acid, acts on Na specifically ⁺Passage contains 3～4 pairs of disulfide linkage; Another kind of is short chain toxin, specific inhibition K ⁺Passage.(BmK) there are 3 toxoid gene, i.e. α in Chinese Scorpion Buthus martensii Karsch at least from buthus martensii Karscs ^-Neurotoxin gene, spasm type insect toxins gene and the type insect toxins gene that collapses from physical exhaustion.BmKIT ₃ ^RBe a kind of of buthus martensii Karscs inhibition type insect toxins gene, the scorpion toxin of this genetic expression has the single-minded optionally neural paralysis of insect lethal effect, the reorganization BmKIT of injection trace ₃ ^RCan cause the silkworm neural paralysis, cause silkworm to collapse from physical exhaustion, and this silkworm that collapses from physical exhaustion is not perishable.Therefore, BmKIT ₃ ^RCan be used as and end the candidate gene that silkworm chrysalis is grown, by transgenic technology, will BmKIT ₃ ^RGene imports silkworm, at the abduction delivering in pupa time, might cause silkworm chrysalis self neural paralysis, ends silkworm chrysalis and grows, and prolongs pupa time.

But, how to guarantee BmKIT ₃ ^RGene is specific expressed in the pupa time of silkworm, is still an open question, does not see the research report of related fields.

Summary of the invention

Goal of the invention of the present invention provides a kind of method of growing in silkworm pupa time of controlling, and prolongs the silkworm time in pupa time, solve bright cocoon receive baking with pupa time the contradiction between too short, increase the handiness of production.

To achieve the above object of the invention, basic ideas of the present invention are: by the GAL4/UAS double element system, at the F1 of silkworm for the specifically expressing in pupa time EgtGene causes pupal cell MH horizontal down-regulation, or the F1 that makes silkworm is for the specifically expressing in pupa time BmKIT ₃ ^RGene causes the silkworm chrysalis paralysis developmental arrest of poisoning, thereby automatically prolongs pupa time, and the growth of the larval stage of silkworm is not influenced.

To achieve the above object of the invention, the technical solution used in the present invention is: a kind of method of controlling silkworm growth in pupa time, it is characterized in that, and may further comprise the steps:

(1) operates tame silk cocoon proteinase gene promotor by genetically engineered PDPUnder the control GAL4 gene clones are advanced PiggyBACTransposon carrier pigA3GFP makes up reorganization transgene carrier A, mixes with helper plasmid, imports and just lays eggs, and the newly-hatched silkworm after the hatching is screened the silkworm that obtains to have fluorescent protein report gene by routine, detects GFPWith GAL4 genes, breeding are made transgenic bombyx mori PDP-GAL4 system; Will by the genetically engineered operation UASSilkworm baculovirus under the promotor control EgtGene or scorpion toxin BmKIT ₃ ^RGene clone is advanced PiggyBACTransposon carrier pigA3GFP; make up reorganization transgene carrier B; mix with helper plasmid; import and just lay eggs; newly-hatched silkworm after the hatching obtains to have the silkworm of fluorescent protein report gene by the routine screening; detect foreign gene, transgenic bombyx mori UAS-egt or transgenic bombyx mori UAS-BmKIT are made in breeding ₃ ^RSystem;

(2) transgenic bombyx mori PDP-GAL4 system of breeding being made and transgenic bombyx mori UAS-egt system or transgenic bombyx mori UAS-BmKIT ₃ ^RSystematic cross, the F1 that obtains silkworm are for larva, and the F1 of gained silkworm grows normal for larval stage, prolong 7-10 days pupa time.

In the technique scheme, described reorganization transgene carrier A is pigA3GFP-ie-neo-PDP-Gal4-PA; Described reorganization transgene carrier B is piggyA3GFP-ie-neo-UAS-IT3R-polyA or pigA3GFP-ie-neo-USA-egt.

Because the technique scheme utilization, the present invention compared with prior art has following advantage:

1. the present invention is by the GAL4/UAS double element system, at F1 for the specifically expressing in pupa time EgtGene cause pupal cell MH horizontal down-regulation, or F1 is for the specifically expressing in pupa time BmKIT ₃ ^RGene causes the silkworm chrysalis paralysis developmental arrest of poisoning, thereby automatically prolongs pupa time, and the growth of the larval stage of silkworm is not influenced.

2. the present invention is by specific expressed for pupa time at F1 EgtGene or BmKIT ₃ ^RGene, pupa time, significant prolongation increased the handiness of cocoon purchasing and silk reeling technology.

Description of drawings

Fig. 1 is the qualification result figure of piggyA3GFP-ie-neo-UAS-IT3R-polyA carrier in embodiment one step 2;

Fig. 2 is the qualification result figure of pigA3GFP-ie-neo-PDP-Gal4-PA carrier in embodiment one step 3;

Fig. 3 is the fluorescence silkworm larva in embodiment one step 4;

Fig. 4 is UAS-BmKIT in embodiment one step 4 ₃ ^RThe qualification result of system;

Fig. 5 is the fluorescence silkworm chrysalis in embodiment one step 5;

In Fig. 6 embodiment one step 5 in the PDP-GAL4 system GFPIdentify; M:DNA maker; Swimming lane 1-5: different transgenic bombyx mori individualities GFPThe PCR product;

Fig. 7 is the fluorescence silkworm chrysalis in embodiment two steps 4;

Fig. 8 is in the UAS-egt system in embodiment two steps 4 EgtQualification result figure.

Embodiment

Below in conjunction with drawings and Examples the present invention is further described:

Embodiment one: tame silk cocoon proteinase gene promotor ( PDP) control GAL4, UASControl BmKIT ₃ ^RThe structure of transgenosis double element system

1. BmKIT3 ^RThe synthetic of gene

According to disclosed scorpion toxin BmKITThe sequence of 3 genes with reference to the preferences of silkworm to codon, has been synthesized and has been comprised initiator codon ATG and terminator codon TGA is 189 nt's in interior length BmKIT3 RGene, concrete nucleotide sequence and corresponding amino acid sequence are respectively shown in SEQ ID No.1 and SEQ ID No.2.The synthetic sequence clone is advanced pUCm-T(Shanghai Shenergy Biocolor BioScience ﹠ Technology Company product), obtain recombinant plasmid pUCm-IT3R, order-checking confirms with the sequence of design in full accord.

2. the structure of effect transgene carrier piggyA3GFP-ie-neo-UAS-IT3R-polyA

(1) pSK-UAS plasmid construction: with the pUAST plasmid DNA (referring to Brand and Perimon, Development, 1993,118:401-415) be template, with UAS-1(SEQ ID No.3:ct G aat tcG cat gcc tgc agg tcg, underscore is EcoR I site) and UAS-2(SEQ ID No.4:tt G ata tcC aat tcc cta ttc aga g, underscore is EcoR V site) be primer, pcr amplification goes out UASFragment (about 350 bp). EcoThe R I/ EcoR V double digestion rear clone advances pBluescript II SK (+) plasmid (Stratagene company product) EcoThe R I/ EcoThe pSK-UAS plasmid is obtained in R V site.

(2) structure of pSK-IT3R-polyA plasmid: with IT3R-1(SEQ ID No.5:ca C tcg agA tgg acg gct ata ttc gc, underscore is XhoThe I site) and IT3R-2(SEQ ID No.6:ca G ggc ccT caa ccg cat gta ttg c, underscore is ApaThe I site) being primer, is masterplate with pUCm-IT3R, and PCR obtains BmKIT3 ^RGene fragment, XhoI and ApaThe I enzyme is cut the identical restriction enzyme site of rear clone to pSK, obtains the pSK-IT3R plasmid; With YCFib-PA-1(SEQ ID No.7:gg G ata tcA aat tgt gtt tgc gtt agg, underscore is EcoR V site) and YCFib-PA-2(SEQ ID No.8:gc G gat ccg gta ccC act gtc caa tcc acc gtc, underscore is BamThe H I, KpnThe I site) be primer, amplification obtains bombyx mori silk fibroin light chain gene poly (A) tailing signal sequence from the domestic silkworm gene group, EcoThe R V and KpnThe I enzyme is cut rear clone to pSK-IT3R's ApaI and KpnThe I site obtains the pSK-IT3R-polyA plasmid.

(3) structure of pSK-UAS-IT3R-polyA plasmid: from the pSK-IT3R-polyA plasmid, use XhoI and KpnI cuts out the IT3R-polyA fragment, and the clone advances the pSK-UAS plasmid that same enzyme is cut, and obtains pSK-UAS-IT3R-polyA.

(4) structure of piggyA3GFP-UAS-IT3R-polyA: the pSK-UAS-IT3R-polyA plasmid is used EcoThe R I/ KpnAfter the I double digestion cut out the UAS-IT3R-polyA fragment, the clone advanced the piggyA3GFP carrier (referring to Cary LC et al., Virology, 1989,172:156 – 69) that same enzyme cuts and obtains the piggyA3GFP-UAS-IT3R-polyA plasmid.

(5) structure of piggyA3GFP-ie-neo-UAS-IT3R-polyA: will use EcoThe R I from pSK-IE-Neo(referring to Zhou Wenlin, etc. silkworm industry science, 2007,33 (1): 30 – 35) in IE-neo fragment (the about 1.7 kb) clone that cuts out advance the piggyA3GFP-UAS-IT3R-polyA plasmid EcoFinal transgene carrier piggyA3GFP-ie-neo-UAS-IT3R-polyA is obtained in R I site.

The piggyA3GFP-ie-neo-UAS-IT3R-polyA carrier is used respectively EcoThe R I and EcoThe R V, EcoThe R I and XhoI, XhoI and KpnThe I double digestion identifies, as a result figure as shown in Figure 1, wherein, M: λ/ HinD Ш standard molecular weight; Swimming lane 2: use EcoThe R I and EcoR V enzyme is cut; Swimming lane 3: EcoThe R I and XhoThe I double digestion; Swimming lane 4: XhoI and KpnThe I enzyme is cut; Fig. 1 is as can be known: band number, molecular weight size that enzyme is cut generation are consistent with theoretical value.

3. activate the structure of transgene carrier pigA3GFP-ie-neo-PDP-Gal4-PA

(1) structure of pSK-Fib-L-polyA plasmid: with TPFib-L-3(SEQ ID No.9:gg C tcg agC aaa ttg tgt ttg cgt tag g, underscore is XhoThe I site), TPFib-L-4(SEQ ID No.10:gc G gta ccC act gtc caa tcc acc gtc, underscore is KpnThe I site) being primer, is template with the domestic silkworm gene group, and pcr amplification goes out the fragment of about 290 bp, through warp XhoI and KpnBehind the I double digestion, the carrier that the clone advances the pBluescript II SK (+) that same enzyme cuts obtains the pSK-Fib-L-polyA plasmid.

(2) structure of pSK-Gal4-PA: design primer GAL4-1(SEQ ID No.11:ag G ata tcA tga agc tac tgt ctt cta tcg, underscore is EcoR V restriction enzyme site) and GAL4-2(SEQ ID No.12:gc A agc ttG cac agt tga agt gaa ctt gcg g, underscore is HinD III restriction enzyme site), with pBGT1(with reference to Lukacsovich T Et al., Arch Insect Biochem Physiol, 2008,69 (4): be template 168-175), pcr amplification goes out total length GAL4 genes; With EcoThe R V and HinD III double digestion PCR product and clone advance the pSK-Fib-L-polyA carrier EcoThe R V and HinThe pSK-Gal4-PA plasmid is obtained in the site of d III.

(3) structure of pSK-PDP-Gal4-PA plasmid: with domestic silkworm gene group DNA is template, with PDP1(SEQ ID No.13:tt G gat ccg aat tcT aca tcc ata acc ctg g, underscore is BamThe H I and EcoR I restriction enzyme site) and PDP2(SEQ ID No.14:tt G ata tcT tca gtt tcg atc cgg cg, underscore is EcoR V restriction enzyme site) for primer PCR amplify cocoon proteinase gene promotor ( PDP), warp BamThe H I/ EcoR V double digestion rear clone advances pSK-Gal4-PA's BamThe H I/ EcoThe pSK-PDP-Gal4-PA plasmid is obtained in R V site.

(4) structure of pigA3GFP-PDP-Gal4-PA plasmid: use EcoThe R I and KpnI cuts out the PDP-Gal4-PA fragment from the pSK-PDP-Gal4-PA plasmid, and the clone advances piggyA3GFP's EcoThe R I and KpnThe pigA3GFP-PDP-Gal4-PA plasmid is obtained in the I site.

(5) structure of pigA3GFP-ie-neo-PDP-Gal4-PA: will use EcoThe R I from pSK-IE-Neo(referring to Zhou Wenlin, etc. silkworm industry science, 2007,33 (1): 30 – 35) in the IE-neo fragment cloning that cuts out advance pigA3GFP-PDP-Gal4-PA's EcoFinal carrier pigA3GFP-ie-neo-PDP-Gal4-PA is obtained in R I site.

Fig. 2 is the qualification result figure of pigA3GFP-ie-neo-PDP-Gal4-PA carrier in the step 3, wherein, and M: λ/ HinD Ш standard molecular weight; Swimming lane 2 and swimming lane 3:pigA3GFP-ie-neo-PDP-Gal4-PA carrier are used EcoThe R I and HinD Ш double digestion; Swimming lane 4:pigA3GFP-ie-neo-PDP-Gal4-PA carrier is used EcoThe R I and BglThe II enzyme is cut; Band number, molecular weight size that enzyme is cut generation are consistent with theoretical value.

4.UAS-BmKIT ₃ ^RThe structure of system and evaluation

(1) UAS-BmKIT ₃ ^RThe structure of system: piggyA3GFP-ie-neo-UAS-IT3R-polyA and helper plasmid are (referring to Tamura T Et al., Nature Biotechnology, 2000,18:81-84) press 1:1 and mix (melting concn 2 μ g/ μ L), only inject virgin moth mating capsule with the kapillary glass needle with 1.5 ~ 2.0 μ L/, the newly-hatched silkworm (G after the hatching is laid eggs in normal mating ₀) add continuously the food 10 000 μ g/mL G418 to 4 sleep age, the combined with fluorescent inverted microscope detects, and filters out anti-G418, has the silkworm of fluorescent protein report gene, keeps to have the silkworm (transgenic bombyx mori that obvious fluorescence shows, referring to Fig. 3), carry out Molecular Detection and conventional silkworm breeding.

(2) UAS-BmKIT ₃ ^RThe evaluation of system: extract the transgenic bombyx mori genomic dna, with DEGFP-1(SEQ ID No.15:tg G aat tcA tgg tga gca agg gcg agg, underscore shows BamH I site) and DEGFP-2(SEQ ID No.16:tt G gat ccT tac ttg tac agc tcg tcc atg, underscore shows respectively EcoR I site) for primer carries out pcr amplification, but specific amplification goes out GFPSpecific band; With IT3R-1(SEQ ID No.5) and IT3R-2(SEQ ID No.6) be that primer also can amplify from the transgenic bombyx mori genome BmKIT ₃ ^RGene.

Qualification result such as Fig. 4, Fig. 4 are UAS-BmKIT in the step 4 ₃ ^RThe qualification result of system, wherein, M:DNA maker; Swimming lane 1: BmKIT ₃ ^RThe PCR product; Swimming lane 2: GFPThe PCR product; The result shows really be transgenic bombyx mori.

5. the structure of PDP-GAL4 system and evaluation

(1) structure of PDP-GAL4 system: pigA3GFP-ie-neo-PDP-Gal4-PA and helper plasmid are pressed 1:1 mixing (melting concn 2 μ g/ μ L), only inject virgin moth mating capsule with the kapillary glass needle with 1.5 ~ 2.0 μ L/, newly-hatched silkworm (the G after the hatching is laid eggs in normal mating ₀) add continuously the food 10 000 μ g/mL G418 to 4 sleep age, the combined with fluorescent inverted microscope detects, and filters out anti-G418, has the silkworm of fluorescent protein report gene, keeps to have the silkworm (transgenic bombyx mori that obvious fluorescence shows, referring to Fig. 5), carry out Molecular Detection and conventional silkworm breeding.

(2) evaluation of PDP-GAL4 system: extraction transgenic bombyx mori genomic dna, with DEGFP-1(SEQ ID No.15) and DEGFP-2(SEQ ID No.16) be that primer carries out pcr amplification, but specific amplification goes out the specific band of GFP; With GAL4-1(SEQ ID No.11) and GAL4-2(SEQ ID No.12) be that primer also can amplify the GAL4 gene from the transgenic bombyx mori genome.Qualification result such as Fig. 6, the GFP qualification result in Fig. 6 step 5 in the PDP-GAL4 system, wherein, M:DNA maker; Swimming lane 1-5: different transgenic bombyx mori individualities GFPThe PCR product; The result shows really be transgenic bombyx mori.

6. PDP-GAL4 system and UAS-BmKIT ₃ ^RThe systematic cross offspring grows pupa time: PDP-GAL4 system and UAS-BmKIT ₃ ^RSystem's phase mutual cross, first familiar generation is normally raised, and larval stage, grows and normal, pupa time to prolong 7-10 days.

Embodiment two: tame silk cocoon proteinase gene promotor (PDP) control GAL4, UAS control EgtThe structure of transgenosis double element system

Technical operating procedure is as follows:

1. activate the structure of transgene carrier pigA3GFP-ie-neo-PDP-Gal4-PA: with the step 3 of embodiment one.

2.PDP-GAL4 the structure of system and evaluation: with the step 5 of embodiment one.

3. the structure of effect transgene carrier pigA3GFP-ie-neo-UAS-EGT

(1) structure of pSK-UAS-egt carrier: silkworm baculovirus (BmNPV) genome DNA extraction is carried out according to a conventional method.According to announcing BmNPV-T3 pnca gene group complete sequence (GenBank registration number: L33180) design PCR upstream and downstream primer Egt-1(SEQ ID No.17:cg C tcg agA tga cta ttc ttt gct ggc, underscore shows XhoThe I site) and Egt-2b(SEQ ID No.18:cg G gta ccT tgg ttg cta ctg gca cat aag cgc, underscore shows KpnThe I site); With the BmNPV genome is template, carries out pcr amplification, reclaims 1.7 kb's EgtGene fragment. KpnI/ XhoBehind the I double digestion, clone the pSK-UAS-IT3R-polyA's of embodiment one step 2 KpnI/XhoI obtains pSK-UAS-egt in the site.

(2) structure of pigA3GFP-ie-neo carrier: use EcoThe R I from pSK-IE-Neo(referring to Zhou Wenlin, etc. silkworm industry science, 2,007 33 (1): 30 – 35) in cut out the IE-neo fragment, the clone advances the piggyA3GFP carrier EcoThe pigA3GFP-ie-neo carrier is obtained in R I site.

(3) structure of pigA3GFP-ie-neo-UAS-egt: BamHI/ KpnI double digestion pSK-UAS-egt carrier returns the UAS-egt fragment, and the clone advances pigA3GFP-ie-neo's BglII and KpnI obtains pigA3GFP-ie-neo-USA-egt in the site.

4. the structure of UAS-egt system and evaluation

(1) structure of UAS-egt system: pigA3GFP-ie-neo-USA-egt and helper plasmid are pressed 1:1 mixing (melting concn 2 μ g/ μ L), only inject virgin moth mating capsule with the kapillary glass needle with 1.5 ~ 2.0 μ L/, newly-hatched silkworm (the G after the hatching is laid eggs in normal mating ₀) add continuously the food 10 000 μ g/mL G418 to 4 sleep age, the combined with fluorescent inverted microscope detects, and filters out anti-G418, has the silkworm of fluorescent protein report gene, keeps to have the silkworm (transgenic bombyx mori that obvious fluorescence shows, referring to Fig. 7), carry out Molecular Detection and conventional silkworm breeding.

(2) evaluation of UAS-egt system: extraction transgenic bombyx mori genomic dna, with DEGFP-1(SEQ ID No.15) and DEGFP-2(SEQ ID No.16) be that primer carries out pcr amplification, but specific amplification goes out GFPSpecific band; With Egt-1(SEQ ID No.17) and Egt-2b(SEQ ID No.18) be that primer also can amplify from the transgenic bombyx mori genome EgtGene, qualification result as shown in Figure 8, Fig. 8 is in the UAS-egt system in embodiment two steps 4 EgtIdentify, wherein, M:DNA maker; Swimming lane 1-3: different transgenic bombyx mori individualities EgtThe PCR product.The result shows really be transgenic bombyx mori.

5.PDP-GAL4 system grows with UAS-egt systematic cross offspring pupa time: PDP-GAL4 system and the mutual cross mutually of UAS-egt system, first familiar generation is normally raised, and larval stage, grows and normal, pupa time to prolong 8-10 days.

SEQUENCE?LISTING

 

＜110〉University Of Suzhou

＜120〉a kind of method of controlling silkworm growth in pupa time

<160> 18

 

<170> PatentIn?version?3.5

 

<210> 1

<211> 189

<212> DNA

＜213〉synthetic

 

<400> 1

atggacggct?atattcgcgg?cagcaacggc?tgcaaagtat?cctgcttatg?gggcaatgaa 60

 

ggctgcaata?aagaatgcag?agcctacggc?gcctcttatg?gatattgctg?gacctgggga 120

 

cttgcctgct?ggtgcgaagg?ccttcctgac?gacaagacat?ggaaatctga?aagcaataca 180

 

tgcggttga 189

 

 

<210> 2

<211> 62

<212> PRT

＜213〉synthetic

 

<400> 2

 

Met?Asp?Gly?Tyr?Ile?Arg?Gly?Ser?Asn?Gly?Cys?Lys?Val?Ser?Cys?Leu

1 5 10 15

 

 

Trp?Gly?Asn?Glu?Gly?Cys?Asn?Lys?Glu?Cys?Arg?Ala?Tyr?Gly?Ala?Ser

20 25 30

 

 

Tyr?Gly?Tyr?Cys?Trp?Thr?Trp?Gly?Leu?Ala?Cys?Trp?Cys?Glu?Gly?Leu

35 40 45

 

 

Pro?Asp?Asp?Lys?Thr?Trp?Lys?Ser?Glu?Ser?Asn?Thr?Cys?Gly

50 55 60

 

 

<210> 3

<211> 24

<212> DNA

＜213〉synthetic

 

<400> 3

ctgaattcgc?atgcctgcag?gtcg 24

 

 

<210> 4

<211> 25

<212> DNA

＜213〉synthetic

 

<400> 4

ttgatatcca?attccctatt?cagag 25

 

 

<210> 5

<211> 26

<212> DNA

＜213〉synthetic

 

<400> 5

cactcgagat?ggacggctat?attcgc 26

 

 

<210> 6

<211> 25

<212> DNA

＜213〉synthetic

 

<400> 6

cagggccctc?aaccgcatgt?attgc 25

 

 

<210> 7

<211> 27

<212> DNA

＜213〉synthetic

 

<400> 7

gggatatcaa?attgtgtttg?cgttagg 27

 

 

<210> 8

<211> 33

<212> DNA

＜213〉synthetic

 

<400> 8

gcggatccgg?tacccactgt?ccaatccacc?gtc 33

 

 

<210> 9

<211> 28

<212> DNA

＜213〉synthetic

 

<400> 9

ggctcgagca?aattgtgttt?gcgttagg 28

 

 

<210> 10

<211> 27

<212> DNA

＜213〉synthetic

 

<400> 10

gcggtaccca?ctgtccaatc?caccgtc 27

 

 

<210> 11

<211> 30

<212> DNA

＜213〉synthetic

 

<400> 11

aggatatcat?gaagctactg?tcttctatcg 30

 

 

<210> 12

<211> 31

<212> DNA

＜213〉synthetic

 

<400> 12

gcaagcttgc?acagttgaag?tgaacttgcg?g 31

 

 

<210> 13

<211> 31

<212> DNA

＜213〉synthetic

 

<400> 13

ttggatccga?attctacatc?cataaccctg?g 31

 

 

<210> 14

<211> 26

<212> DNA

＜213〉synthetic

 

<400> 14

ttgatatctt?cagtttcgat?ccggcg 26

 

 

<210> 15

<211> 27

<212> DNA

＜213〉synthetic

 

<400> 15

tggaattcat?ggtgagcaag?ggcgagg 27

 

 

<210> 16

<211> 30

<212> DNA

＜213〉synthetic

 

<400> 16

ttggatcctt?acttgtacag?ctcgtccatg 30

 

 

 

<210> 17

<211> 27

<212> DNA

＜213〉synthetic

 

<400> 17

cgctcgagat?gactattctt?tgctggc 27

 

 

<210> 18

<211> 33

<212> DNA

＜213〉synthetic

 

<400> 18

cgggtacctt?ggttgctact?ggcacataag?cgc 33

Claims (3)

1. a method of controlling silkworm growth in pupa time is characterized in that, may further comprise the steps:

(1) operates tame silk cocoon proteinase gene promotor by genetically engineered PDPGAL4 gene clone under the control is advanced PiggyBACTransposon carrier pigA3GFP makes up reorganization transgene carrier A, mixes with helper plasmid, imports and just lays eggs, and the newly-hatched silkworm after the hatching is screened the silkworm that obtains to have fluorescent protein report gene by routine, detects GFPWith GAL4 genes, breeding are made transgenic bombyx mori PDP-GAL4 system; Will by the genetically engineered operation UASSilkworm baculovirus under the promotor control EgtGene or scorpion toxin BmKIT ₃ ^RGene clone is advanced PiggyBACTransposon carrier pigA3GFP; make up reorganization transgene carrier B; mix with helper plasmid; import and just lay eggs; newly-hatched silkworm after the hatching obtains to have the silkworm of fluorescent protein report gene by the routine screening; detect foreign gene, transgenic bombyx mori UAS-egt or transgenic bombyx mori UAS-BmKIT are made in breeding ₃ ^RSystem;

(2) transgenic bombyx mori PDP-GAL4 system of breeding being made and transgenic bombyx mori UAS-egt system or transgenic bombyx mori UAS-BmKIT ₃ ^RSystematic cross, the F1 that obtains silkworm are for larva, and the F1 of gained silkworm grows normal for larval stage, prolong 7-10 days pupa time.

2. according to the method for the described control of claim 1 silkworm growth in pupa time, it is characterized in that described reorganization transgene carrier A is pigA3GFP-ie-neo-PDP-Gal4-PA.

3. according to the method for the described control of claim 1 silkworm growth in pupa time, it is characterized in that described reorganization transgene carrier B is piggyA3GFP-ie-neo-UAS-IT ₃ ^R-polyA or pigA3GFP-ie-neo-USA-egt.

Images