CN107586869A - With the soft thorn gene Ts of the cucumber fruits InDel Ts3 molecular labelings isolated and its application - Google Patents

Abstract

The present invention relates to the InDel Ts3 molecular labelings isolated with the soft thorn gene Ts of cucumber fruits and its application.The molecular labeling is made up of the anti-sense primer shown in the sense primer and EM8 shown in ME7.The molecular labeling has 244 nucleotide sequences shown in sequence table SEQ ID NO.1, and 234 nucleotide sequences shown in sequence table SEQ ID NO.2, nucleotide sequence in wherein SEQ ID NO.1 isolates with soft thorn gene, and the nucleotide sequence in SEQ ID NO.2 isolates with hard Ci Jiyin.Compared with prior art, the molecular labeling has high stability, can be applied to cucumber all over the world easy, quick, with high throughput and pierce/the screening of soft thorn type firmly.

Description

With the soft thorn gene Ts of the cucumber fruits InDel-Ts3 molecular labelings isolated and its Using

Technical field

The present invention relates to the molecular labeling of gene engineering technology field, the soft thorn gene Ts of more particularly to a kind of and cucumber fruits The InDel-Ts3 molecular labelings isolated.

Background technology

Cucumber (Cucumis sativus L.) is that Curcurbitaceae (Cucurbitaceae) Cucumis (Cucumis) 1 year is climing Raw herbaceous plant, cucumber is as one of big important vegetable crop in the world ten, and one of main cultivation vegetable crop in China.

Fruit is the most important part of cucumber economic characters, and cucumber fruits belong to Peponidium, by ovary and holder symbiotic developmental Form.It is fruit thorniness to have an important character in cucumber fruits, and fruit thorniness is the epidermal hair of cucumber specialization.Up to the present, it is yellow The research of melon epidermis hair gene is relatively fewer.2015, Zhao J L etc. were obtained using mict microtriches mutant and wild type crosses The 7936 plants of F obtained₂Colony, by the Mict assignments of genes gene mapping it is 71.13kb's in No. 3 chromosomal inheritance of cucumber distance using BSA methods In section.Detailed results refer to：Zhao J L etc. exist《Journal of integrative plant biology》(plant Journal of physiology) 2015 years 925-935 pages of volume 57 deliver it is entitled《Micro-trichome as a class I homeodomain-leucine zipper gene regulates multicellular trichome development in Cucumis sativus.》(microtriche gene is as the homologous slide fastener gene regulation cucumber many cells epidermis hair of I type leucines Educate) text.1058 plants of F that the same year, Wang Y L etc. is obtained using the hairless mutant of tril and wild type crosses₂Colony, pass through BSA methods will control the Tril assignments of genes gene mapping of epidermal hair initial development in No. 6 chromosome UW007183 and UW007211 marks of cucumber Between, genetic distance 37.4kb, detailed results refer to：Wang Y L etc. exist《Theoretical and Applied Genetics》(theoretical applied genetics) 2015 year 305-316 pages of volume 129 is delivered entitled《Identification and mapping of Tril,a homeodomain-leucine zipper gene involved in multicellular trichome initiation in Cucumis sativus》One text.

Mict genes (micro-trichomes) and Tril genes (trichome-less) control cucumber microtriche respectively Shape and hairless character, because fruit thorniness is the specialization of epidermal hair, therefore the fruit thorniness characteristic trait of mict mutant is small fruit thorniness, tril The fruit thorniness characteristic trait of mutant is no fruit thorniness.Tril genes recessive epistasis is in Mict genes.CsTTG1 genes are parallel and direct Tril genes are acted on, to regulate and control the formation of cucumber epidermal hair.Therefore, the soft thorn gene Ts of cucumber fruits research will be other works The research of the trichome development mechanism of thing and cucumber lays the foundation.

As the improvement of people's living standards, quality breeding has mentioned critical positions.Cucumber fruit thorniness character belongs to sense organ product Matter category.The cucumber of American-European greenhouse is have no result knurl, the pericarp that pierces less, is called Fruit Cucumber, its market price is common 2-3 times of cucumber.The pollution of smooth in appearance cucumber is few, easy to clean, sanitary edible, is the preferable kind of pollution-free vegetable.Through inspection Survey shows：Pierce cucumber pulp persticide residue lower than spinosity cucumber 27%, pericarp persticide residue low 18% less without knurl.Cucumber is soft Thorn softness does not stimulate, easy to fall off, enhances the resistance of plant, is the more preferably selection of consumer.Gene Ts controls the shape of soft thorn Into its research will promote quality breeding process.Auxiliary choosing is marked with the molecular labeling with purpose character close linkage It is highly effective method to select in cucumber genetic breeding, and molecular labeling is that objective trait is selected on DNA level, tool Have the advantages that it is efficient, quick, do not limited by environmental condition, can be selected in seedling stage, accelerate the process of breeding.

The content of the invention

It is an object of the present invention to overcome the above-mentioned drawbacks of the prior art and provide a kind of soft with cucumber fruits The InDel-Ts3 molecular labelings and its application that thorn gene Ts is isolated.The present invention utilizes molecular labeling and BSA (Bulked Segregant Analysis) method, there is provided the molecular labeling isolated with the soft thorn gene Ts of cucumber.The molecular labeling of the present invention Can it is easy, quick, be applied to breeding practice with high throughput.

The purpose of the present invention can be achieved through the following technical solutions：

A kind of InDel-Ts3 molecular labelings isolated with the soft thorn gene Ts of cucumber fruits, the molecular labeling have sequence 244 nucleotide sequences shown in table SEQ ID NO.1, and 234 nucleotides sequences shown in sequence table SEQ ID NO.2 Row, the nucleotide sequence in wherein SEQ ID NO.1 isolate with soft thorn gene, the nucleotide sequence in SEQ ID NO.2 and Hard Ci Jiyin is isolated.The molecular labeling is characterised by isolating with soft thorn gene, and the molecular labeling has high stability, can With it is easy, quick, be applied to cucumber all over the world with high throughput and pierce/the screening of soft thorn type firmly.

The molecular labeling is expanded to obtain as the anti-sense primer shown in the sense primer and EM8 shown in ME7, and primer is by Shanghai Hua Jin bio tech ltd synthesizes.

The primer ME7 sequences, it is specially：ME7：5 '-ATAACTGATTTGGTCCTCTCTA-3 ',

The primer EM8 sequences, it is specially：EM8：5’-TAACATTTGTAGACCAAGCAT-3’.

The present invention obtains F using a variety of hard thorn parents and soft thorn parents₁, F₁Individual plant is hard thorn；F₁Acquisition is selfed again A variety of F₂Segregating population, by F₂In segregating population firmly thorn, it is soft lunge row genetic analysis, determine cucumber it is soft thorn character belong to Single-gene recessive inheritance character.From F₂Random each 10 plants of hard thorn individual plants of picking and 10 plants of soft thorn individual plants in colony, and build hard thorn Pond and soft thorn pond.Using SSR molecular marker combination BSA methods, the soft thorn linkage molecule mark of screening cucumber, most soft thorn gene at last Ts is positioned in 109.7kb sections.300 pairs of InDel marks are developed in the 109.7kb, chain mark is further screened with reference to BSA methods Note, finally wherein InDel molecular labelings InDel-Ts3 shows polymorphism between parent, and is isolated with Ts genes.

With the preparation method of the soft thorn gene Ts of the cucumber fruits InDel-Ts3 molecular labelings isolated, the molecular labeling Expand to obtain as the anti-sense primer shown in the sense primer and EM8 shown in ME7,

The primer ME7 sequences, it is specially：ME7：5 '-ATAACTGATTTGGTCCTCTCTA-3 ',

The primer EM8 sequences, it is specially：EM8：5’-TAACATTTGTAGACCAAGCAT-3’.

Reaction system is genomic DNA 30ng, primer 0.5 μm of ol/L, 200 μm of ol/L dNTPs, 2mmol/L MgCl₂, 1 μ l 10 × PCR reactions buffer, 0.6U Taq DNA polymerases, overall reaction system are 10 μ l, and primer is shown in ME7 Anti-sense primer shown in sense primer and EM8.

PCR amplification programs are：94 DEG C of 5min, 94 DEG C of 30s, 55 DEG C of 30s, 72 DEG C of 30s, 32 circulations, amplified production is with 8% Native polyacrylamide gel electrophoresis separates, and electrophoretic buffer is 0.5 × TBE, 160W invariable powers, electrophoresis 3h.

With the molecular labeling that the soft thorn gene Ts of cucumber fruits is isolated and cucumber it is soft thorn character isolate, it is all over the world Cucumber variety can be pierced firmly with this molecular marker screening/it is soft thorn kind (removing stingless no knurl cucumber variety gl).

Traditional breeding method is selected according to the form of plant, because the soft thorn character of cucumber needs plant knot melon When just can determine that, expend that the time is longer, molecular labeling of the invention can be during vegetable seeds or early stage that cotyledon is grown It can identify, it is not only time saving but also accurate, so can be used for Molecular Marker-Assisted Breeding of Cucumber, accelerate the process of cucumber quality breeding.

Compared with prior art, molecular labeling of the present invention has high stability, can it is easy, quick, apply with high throughput / the screening of soft thorn type is pierced in cucumber all over the world firmly.

Brief description of the drawings

Fig. 1 is molecular labeling InDel-Ts3 PCR expanding effect figures.

Embodiment

With reference to specific embodiment, the present invention is expanded on further.These embodiments are merely to illustrate the present invention and not had to In limitation the scope of the present invention.The experimental method of unreceipted actual conditions in the following example, generally according to normal condition, such as Sambrook equimoleculars are cloned：Laboratory manual (New York:Cold Spring Harbor Laboratory Press, 1989) condition described in, or according to the condition proposed by manufacturer.

Embodiment 1

The identification of the structure of hereditary segregating population and the soft thorn gene of cucumber

More than 1. kinds of F₂The structure of colony

Build F₂Soft thorn kind used in colony is：NC073.Hard thorn kind has：S77, SA419-2.

NC073 is obtained by known NC072, wherein NC072, i.e. Csa1G056960-072 gDNA sequences such as sequence Shown in list SEQ ID NO.6.Csa1G056960-072 CDS sequences are as shown in sequence table SEQ ID NO.7.

Wherein it is soft thorn kind NC073 biological properties be：NC073 fruit thorniness softnesses are flexible, and touching to come off, and do not have Tingling sensation.Compared with wild type cucumber SA419-2, the maximum difference of biological structure is basal cell.The base of NC073 fruit thorniness is thin Born of the same parents are by many cells irregular alignment and are in extended bars chondritic, and SA419-2 fruit thorniness is crisp and hard, touches and easily snaps off, and has Tingling sensation, basal cell is then by the chondritic of many cells arrangement form.

Genetic analysis show that NC073 genomic DNAs sport GC in second introne splice site GT, cause Second Exon deletion of CDNA.

Wherein, SA419-2 (Csa1G056960-SA419-2) gDNA sequences are as shown in sequence table SEQ ID NO.3. NC073 (Csa1G056960-NC073) gDNA sequences are as shown in sequence table SEQ ID NO.4.NC073(Csa1G056960- NC073) CDS sequences are as shown in sequence table SEQ ID NO.5.According to NC073gDNA sequences and NC073CDS sequences, use General Biology method can obtain soft thorn kind NC073.

Hard thorn kind S77, SA419-2 is known commercially available prod.

The present embodiment has prepared cross combination using this 3 parents, obtains F₁Generation, F₁Generation is hard thorn individual plant；F₁In generation, is certainly Hand over, backcrossing produces F₂For colony and BC₁Colony.In F₂And BC₁Occur hard thorn and soft thorn trait segregation phenomenon in colony, identification is simultaneously The hard thorn of statistics/soft thorn phenotype, hard thorn and soft thorn are analyzed in F₂And BC₁In segregation ratio, verified using chi-square analysis method, most Show that the soft thorn character of cucumber belongs to the recessive character of nucleus Dominant gene afterwards.

The screening of 2.Ts gene close linkage SSR markers and InDel marks

2.1 Cucumber germplasm DNA extraction

With CTAB methods extraction parent, BC₁And F₂The blade STb gene of segregating population.Method is：Take individual plant spire be put in 2mL from In heart pipe, two steel balls are added, 750uL CTAB extractions cushioning liquid (60 DEG C of preheatings), grinder 60HZ/90s is ground, 60 DEG C 0.5-1h is placed, centre slowly shakes up 1 time.Add isometric chloroform, slowly rock 5min, 12000r/min centrifugation 10min, inhale 500uL supernatants are taken, add two volumes absolute ethyl alcohol, -20 DEG C of placement 30min, supernatant is removed in centrifugation, and 70% alcohol is washed twice.Dry in the air It is dry, 1 × TE dissolvings.Add 10ug/mL RNase.0.8% agarose gel electrophoresis detects its purity, and it is dense that nucleic acid instrument detects its Degree.The final concentration for being diluted to 50ng/uL, -20 DEG C store for future use.

The foundation of 2.2 hard thorns/soft thorn gene pool

BSA methods are from F₂Hard thorn strain and soft each 10 plants of thorn strain individual are randomly selected in segregating population respectively, establishes hard thorn and soft Pierce the gene pool of cucumber.

The screening of 2.3 marks

Two parents and two gene pools are screened with 551 pairs of SSR primers combinations and 300 pairs of InDel marks.Reaction System is genomic DNA 30ng, primer 0.5 μm of ol/L, 200 μm of ol/L dNTPs, 2mmol/L MgCl₂, 1 10 × PCR of μ l Reactions buffer, 0.6U Taq DNA polymerases, overall reaction system are 10 μ l.PCR amplification programs are：94℃5min；94 ℃30s 55℃30s；72℃30s；32 circulations.Amplified production is separated with 8% native polyacrylamide gel electrophoresis, electrophoresis Buffer solution is 0.5 × TBE, 160W invariable powers, electrophoresis 3h.

The molecular labeling is expanded to obtain as the anti-sense primer shown in the sense primer and EM8 shown in ME7, and primer is by Shanghai Hua Jin bio tech ltd synthesizes.

The primer ME7 sequences, it is specially：ME7：5 '-ATAACTGATTTGGTCCTCTCTA-3 ',

The primer EM8 sequences, it is specially：EM8：5’-TAACATTTGTAGACCAAGCAT-3’.

Silver staining is carried out after electrophoresis.Silver staining method is：Glass plate with glue is put into fixer, gently shaken on shaking table To indicator color fade, the composition of wherein fixer is：Glacial acetic acid, absolute ethyl alcohol, the volume ratio of distilled water are 1:10:100； With ultrapure washing 1min-3min；Offset plate after flushing is put into dyeing liquor and shakes half an hour, the component of wherein dyeing liquor is 2g/L silver nitrates；Offset plate after dyeing is put into after being rinsed in ultra-pure water and be put into the plastic casing equipped with nitrite ion, gently shaken It is clear to band, it is put into running water and rinses, statistical result is simultaneously taken pictures.Wherein developer solution component is：30g is added in 1L distilled water NaOH and 4ml formaldehyde is uniformly mixed so as to obtain.

Pierce between two hard thorn, soft thorn parents and firmly and show identical polymorphic bandses, such as Fig. 1 between pond, soft thorn pond It is shown, molecular labeling InDel PCR expanding effects：M represents Marker DL500, and SA419-2 is that cucumber fruits pierce parent firmly； NC073 is the soft thorn parent of cucumber fruits；F₁Represent two parent filial generations；F₂Soft thorn individual plant and F₂Hard thorn individual plant represents respectively F₂The 10 plants of soft thorns selected at random in colony and 10 plants of hard thorn plant.Bar in i.e. firmly thorn parent SA419-2 and hard thorn gene pool Band is consistent, and soft thorn parent NC073 is consistent with soft thorn gene pool band；And the bar pierced firmly in parent SA419-2 and hard thorn gene pool Band is different from soft thorn parent NC073 and soft thorn gene pool band.Genetic linkage analysis is carried out by 721 group of hill bodies, will be with soft thorn The individual that parent NC073 banding pattern is consistent is designated as a, and the individual consistent with hard thorn parent's SA419-2 banding patterns is designated as into b, heterozygosis band Type is designated as h.As a result this pleomorphism site isolates with Ts genes.According to 9930 Cucumber germplasm website (http:// Www.icugi.org/cgi-bin/gb2/gbrowse/cucumber_v2/ the soft thorn base of InDel marking path cucumber) is shown Because Ts physical distance is 10kb.

The above-mentioned description to embodiment is understood that for ease of those skilled in the art and using invention. Person skilled in the art obviously can easily make various modifications to these embodiments, and described herein general Principle is applied in other embodiment without by performing creative labour.Therefore, the invention is not restricted to above-described embodiment, ability Field technique personnel do not depart from improvement that scope made and modification all should be the present invention's according to the announcement of the present invention Within protection domain.

Sequence table

<110>Shanghai Communications University

<120>With the soft thorn gene Ts of the cucumber fruits InDel-Ts3 molecular labelings isolated and its application

<130> 173819-1

<160> 7

<170> SIPOSequenceListing 1.0

<210> 1

<211> 244

<212> DNA

<213>Cucumber (Cucumis sativus L.)

<400> 1

ataactgatt tggtcctctc tacaagtata tttattcatt ctatcaaatt gtctaattaa 60

gctttgtcat gtgataaatt cttctcaatt attttataaa atatttttaa aatattttaa 120

ttacttattt gacttgagtt acgagaaaaa attggtaaat tctagaatgc acttgtgcat 180

tttactcttc actcgacttt tttttttttt tttgttaaat tacatgcttg gtctacaaat 240

gtta 244

<210> 2

<211> 234

<212> DNA

<213>Cucumber (Cucumis sativus L.)

<400> 2

ataactgatt tggtcctctc tacaagtata tttattcatt ctatcaaatt gtctaattaa 60

gctttgtcaa tgtgataaat tcttctcaat tattttataa aatattttaa ttacttgttt 120

gacttgagtt acgagaaaaa attggtaaat tctagaatgc acttgtgcat tttactcttc 180

actcgacttt tttttttttt tttgttaaat tacatgcttg gtctacaaat gtta 234

<210> 3

<211> 2425

<212> DNA

<213>Cucumber (Cucumis sativus L.)

<400> 3

atggctccga cagaggtgaa aacgctattt ctttctcttt tcgtgttaat ttggttgtcc 60

agaatgggcg tctctgatac tgtaagtagc tcgaattcga ctgattttta tcttgtttgc 120

tgcttggtgt tatattcttg ttttggctgt cccttttgaa attgtgtctt gaagttttct 180

tttgctgtgc agatgtttaa cgagtcagga attgggtatt cggttgtttc cagaaaggaa 240

atttcaaaag gtatgaagtt aactcttaga attgctactt tgcctccaag agtttggtaa 300

attgaaggaa aaagaaaaca gtttagggtt ttttcaaatg tctttaatat ttaggggaaa 360

aaatgctccc ttcgttctta ttatttatgt agcgtttcct atttagtttt ttagcttact 420

ttcttcttcc ttgcattcaa gtatactaca ccccatatga gaagttgtct caatactcgg 480

tttgtcattg ttatgctatg gttataatgc ggcatcctca aattctatta ttttctctgt 540

ggctaggacg gtgcccacat ggttggatta ttagcccaag caagactaag tgctttggtt 600

tcatgtccag ccctaaatca tggaatgatt cagagaccca atgcaatagt tttggtggga 660

acttagcagc tctggtaaca tatcaagagt ttagctatgc acaaaatctg tgtaatggaa 720

ctcttggtgg ctgttgggtt ggtggcagag cgttcaactc tttgaatgat ttcgtttgga 780

agtggtcaga taatgtttca aaatggaacg attccatttt tcccagcgca actttgcaat 840

cgaactgcaa aaatgcctct tgcctccgga atgattcggt tgaaacatgt acattaatat 900

ttggtggacc agcaacacca ttccttaggg acgagaaatg caacagttct caccctttta 960

tatgcatgat aaacctaggt atgttatcat cttcgaagtt tttgatacat tattgatcat 1020

agttgactat gtattttgtt tccctcggcc catttccaca cacatagatt tgaaaataaa 1080

aacaaaggag acagagacag aggatcttta tagcaagagg attggaaaga atctaacatg 1140

tttgatattc catttcctta ttctttggta gtttagtcat tgagagatgt tgtgatccac 1200

gctgagatct ttattctttt atttgtatca gatgatagat gccaccgaat gcactgtcac 1260

aaggagtatc tagttattct agctgttgtg agtgggttga tattttgcac aactttagct 1320

gtggtgattt ggcttctagc ccacaagagg agcaaaaagc ggagaaggtc gcggaagcca 1380

tccaaccctg cagcttctgc actggtaccg cctttgtgga gggtgtttac caaagaagag 1440

ctaagatcaa tgacaaaaaa cttcagtgag ggaaaccgtc ttctcggaga tgcaaaaaca 1500

ggcggtacat acagtggact tctacctgat ggttcaagag ttgcaattaa aaggttgaag 1560

aagtccagct ttcagaggaa aaaggagttt cattcagaaa ttgcaagagt tgctaggctt 1620

cgtcacccaa atttagttgc cctgaaagga tgctgctatg accatggtga ccgctacatt 1680

gtttatgaat tcattgttaa tgggccctta gatagatggc ttcatcatgt accaagaggt 1740

ggtcgaagct tagattggac tatgagaatg aaaattgcca cgactcttgc ccaagggatt 1800

gcgtatgtac aattttcatt tgtgtcttta agatgcaaaa gaacgtgctc ttgttagaga 1860

ttatcagcta actcatgaaa atgtctttta caggttcctt cacgacaagg tcaaaccaca 1920

cgtggtacat cgtgatatcc gtgcgagtaa tgtgcttctc gatgaagaat ttggagcaca 1980

tctgatggga gttggcctat cgaaattggt tgcatatgaa gtgatgcatg agaggacagt 2040

gatggcagga ggaacctatg gataccttgc tcctgaattt gtctacagaa acgagctaac 2100

aacaaagagt gatgtctaca gttttggggt cctattgctt gaaattgtaa ccggacgaag 2160

gcctgcacag gcagttgatt cagttggttg gcagagcatt tttgaatggg caaccccgct 2220

cgtgcaggct caccgttacc tagatctatt ggatcctcat ataacagcca cttcaacttc 2280

tgaaatccca gaggctggca ttgttcaaaa ggttgtggac cttgtttatg cttgcacaca 2340

gcatgtcccg tccatgcgac ctagaatgtc acacgtcgtt catcaactgc aacaattggc 2400

tccctctcct ctcactacga agtaa 2425

<210> 4

<211> 2425

<212> DNA

<213>Cucumber (Cucumis sativus L.)

<400> 4

atggctccga cagaggtgaa aacgctattt ctttctcttt tcgtgttaat ttggttgtcc 60

agaatgggcg tctctgatac tgcaagtagc tcgaattcga ctgattttta tcttgtttgc 120

tgcttggtgt tatattcttg ttttggctgt cccttttgaa attgtgtctt gaagttttct 180

tttgctgtgc agatgtttaa cgagtcagga attgggtatt cggttgtttc cagaaaggaa 240

atttcaaaag gtatgaagtt aactcttaga attgctactt tgcctccaag agtttggtaa 300

attgaaggaa aaagaaaaca gtttagggtt ttttcaaatg tctttaatat ttaggggaaa 360

aaatgctccc ttcgttctta ttatttatgt agcgtttcct atttagtttt ttagcttact 420

ttcttcttcc ttgcattcaa gtatactaca ccccatatga gaagttgtct caatactcgg 480

tttgtcattg ttatgctatg gttataatgc ggcatcctca aattctatta ttttctctgt 540

ggctaggacg gtgcccacat ggttggatta ttagcccaag caagactaag tgctttggtt 600

tcatgtccag ccctaaatca tggaatgatt cagagaccca atgcaatagt tttggtggga 660

acttagcagc tctggtaaca tatcaagagt ttagctatgc acaaaatctg tgtaatggaa 720

ctcttggtgg ctgttgggtt ggtggcagag cgttcaactc tttgaatgat ttcgtttgga 780

agtggtcaga taatgtttca aaatggaacg attccatttt tcccagcgca actttgcaat 840

cgaactgcaa aaatgcctct tgcctccgga atgattcggt tgaaacatgt acattaatat 900

ttggtggacc agcaacacca ttccttaggg acgagaaatg caacagttct caccctttta 960

tatgcatgat aaacctaggt atgttatcat cttcgaagtt tttgatacat tattgatcat 1020

agttgactat gtattttgtt tccctcggcc catttccaca cacatagatt tgaaaataaa 1080

aacaaaggag acagagacag aggatcttta tagcaagagg attggaaaga atctaacatg 1140

tttgatattc catttcctta ttctttggta gtttagtcat tgagagatgt tgtgatccac 1200

gctgagatct ttattctttt atttgtatca gatgatagat gccaccgaat gcactgtcac 1260

aaggagtatc tagttattct agctgttgtg agtgggttga tattttgcac aactttagct 1320

gtggtgattt ggcttctagc ccacaagagg agcaaaaagc ggagaaggtc gcggaagcca 1380

tccaaccctg cagcttctgc actggtaccg cctttgtgga gggtgtttac caaagaagag 1440

ctaagatcaa tgacaaaaaa cttcagtgag ggaaaccgtc ttctcggaga tgcaaaaaca 1500

ggcggtacat acagtggact tctacctgat ggttcaagag ttgcaattaa aaggttgaag 1560

aagtccagct ttcagaggaa aaaggagttt cattcagaaa ttgcaagagt tgctaggctt 1620

cgtcacccaa atttagttgc cctgaaagga tgctgctatg accatggtga ccgctacatt 1680

gtttatgaat tcattgttaa tgggccctta gatagatggc ttcatcatgt accaagaggt 1740

ggtcgaagct tagattggac tatgagaatg aaaattgcca cgactcttgc ccaagggatt 1800

gcgtatgtac aattttcatt tgtgtcttta agatgcaaaa gaacgtgctc ttgttagaga 1860

ttatcagcta actcatgaaa atgtctttta caggttcctt cacgacaagg tcaaaccaca 1920

cgtggtacat cgtgatatcc gtgcgagtaa tgtgcttctc gatgaagaat ttggagcaca 1980

tctgatggga gttggcctat cgaaattggt tgcatatgaa gtgatgcatg agaggacagt 2040

gatggcagga ggaacctatg gataccttgc tcctgaattt gtctacagaa acgagctaac 2100

aacaaagagt gatgtctaca gttttggggt cctattgctt gaaattgtaa ccggacgaag 2160

gcctgcacag gcagttgatt cagttggttg gcagagcatt tttgaatggg caaccccgct 2220

cgtgcaggct caccgttacc tagatctatt ggatcctcat ataacagcca cttcaacttc 2280

tgaaatccca gaggctggca ttgttcaaaa ggttgtggac cttgtttatg cttgcacaca 2340

gcatgtcccg tccatgcgac ctagaatgtc acacgtcgtt catcaactgc aacaattggc 2400

tccctctcct ctcactacga agtaa 2425

<210> 5

<211> 1916

<212> DNA

<213>Cucumber (Cucumis sativus L.)

<400> 5

tagggggggt tgtggtcaga gaaggcagac cgcattaact tccgaacaac cactactact 60

ctcactattg acccattcca aatccttctc cttcctctca ccccacctca cctcagctac 120

tccttcattt ctctgattcc taccacttcc tgaacttcat ggaaatggag accaacacta 180

acaccttctt tatctaatcc tcaaccattt ccattttcaa gtctacccct tctcgatgtt 240

taacgagtca ggaattgggt attcggttgt ttccagaaag gaaatttcaa aaggacggtg 300

cccacatggt tggattatta gcccaagcaa gactaagtgc tttggtttca tgtccagccc 360

taaatcatgg aatgattcag agacccaatg caatagtttt ggtgggaact tagcagctct 420

ggtaacatat caagagttta gctatgcaca aaatctgtgt aatggaactc ttggtggctg 480

ttgggttggt ggcagagcgt tcaactcttt gaatgatttc gtttggaagt ggtcagataa 540

tgtttcaaaa tggaacgatt ccatttttcc cagcgcaact ttgcaatcga actgcaaaaa 600

tgcctcttgc ctccggaatg attcggttga aacatgtaca ttaatatttg gtggaccagc 660

aacaccattc cttagggacg agaaatgcaa cagttctcac ccttttatat gcatgataaa 720

cctagatgat agatgccacc gaatgcactg tcacaaggag tatctagtta ttctagctgt 780

tgtgagtggg ttgatatttt gcacaacttt agctgtggtg atttggcttc tagcccacaa 840

gaggagcaaa aagcggagaa ggtcgcggaa gccatccaac cctgcagctt ctgcactggt 900

accgcctttg tggagggtgt ttaccaaaga agagctaaga tcaatgacaa aaaacttcag 960

tgagggaaac cgtcttctcg gagatgcaaa aacaggcggt acatacagtg gacttctacc 1020

tgatggttca agagttgcaa ttaaaaggtt gaagaagtcc agctttcaga ggaaaaagga 1080

gtttcattca gaaattgcaa gagttgctag gcttcgtcac ccaaatttag ttgccctgaa 1140

aggatgctgc tatgaccatg gtgaccgcta cattgtttat gaattcattg ttaatgggcc 1200

cttagataga tggcttcatc atgtaccaag aggtggtcga agcttagatt ggactatgag 1260

aatgaaaatt gccacgactc ttgcccaagg gattgcgttc cttcacgaca aggtcaaacc 1320

acacgtggta catcgtgata tccgtgcgag taatgtgctt ctcgatgaag aatttggagc 1380

acatctgatg ggagttggcc tatcgaaatt ggttgcatat gaagtgatgc atgagaggac 1440

agtgatggca ggaggaacct atggatacct tgctcctgaa tttgtctaca gaaacgagct 1500

aacaacaaag agtgatgtct acagttttgg ggtcctattg cttgaaattg taaccggacg 1560

aaggcctgca caggcagttg attcagttgg ttggcagagc atttttgaat gggcaacccc 1620

gctcgtgcag gctcaccgtt acctagatct attggatcct catataacag ccacttcaac 1680

ttctgaaatc ccagaggctg gcattgttca aaaggttgtg gaccttgttt atgctgcaca 1740

cagcatgtcc cgtccatgcg acctagaatg tcacacgtcg ttcatcaact gcaacaattg 1800

gctccctctc ctctcactac gaagtaaagg tattcatcag acttcaagat gatttcctat 1860

tgcaagattc taacttggca agaagccagt taatgtagga taggaaccaa ggtaga 1916

<210> 6

<211> 2425

<212> DNA

<213>Cucumber (Cucumis sativus L.)

<400> 6

atggctccga cagaggtgaa aacgctattt ctttctcttt tcgtgttaat ttggttgtcc 60

agaatgggcg tctctgatac tgtaagtagc tcgaattcga ctgattttta tcttgtttgc 120

tgcttggtgt tatattcttg ttttggctgt cccttttgaa attgtgtctt gaagttttct 180

tttgctgtgc agatgtttaa cgagtcagga attgggtatt cggttgtttc cagaaaggaa 240

atttcaaaag gtatgaagtt aactcttaga attgctactt tgcctccaag agtttggtaa 300

attgaaggaa aaagaaaaca gtttagggtt ttttcaaatg tctttaatat ttaggggaaa 360

aaatgctccc ttcgttctta ttatttatgt agcgtttcct atttagtttt ttagcttact 420

ttcttcttcc ttgcattcaa gtatactaca ccccatatga gaagttgtct caatactcgg 480

tttgtcattg ttatgctatg gttataatgc ggcatcctca aattctatta ttttctctgt 540

ggctaggacg gtgcccacat ggttggatta ttagcccaag caagactaag tgctttggtt 600

tcatgtccag ccctaaatca tggaatgatt cagagaccca atgcaatagt tttggtggga 660

acttagcagc tctggtaaca tatcaagagt ttagctatgc acaaaatctg tgtaatggaa 720

ctcttggtgg ctgttgggtt ggtggcagag cgttcaactc tttgaatgat ttcgtttgga 780

agtggtcaga taatgtttca aaatggaacg attccatttt tcccagcgca actttgcaat 840

cgaactgcaa aaatgcctct tgcctccgga atgattcggt tgaaacatgt acattaatat 900

ttggtggacc agcaacacca ttccttaggg acgagaaatg caacagttct caccctttta 960

tatgcatgat aaacctaggt atgttatcat cttcgaagtt tttgatacat tattgatcat 1020

agttgactat gtattttgtt tccctcggcc catttccaca cacatagatt tgaaaataaa 1080

aacaaaggag acagagacag aggatcttta tagcaagagg attggaaaga atctaacatg 1140

tttgatattc catttcctta ttctttggta gtttagtcat tgagagatgt tgtgatccac 1200

gctgagatct ttattctttt atttgtatca gatgatagat gccaccgaat gcactgtcac 1260

aaggagtatc tagttattct agctgttgtg agtgggttga tattttgcac aactttagct 1320

gtggtgattt ggcttctagc ccacaagagg agcaaaaagc ggagaaggtc gcggaagcca 1380

tccaaccctg cagcttctgc actggtaccg cctttgtgga gggtgtttac caaagaagag 1440

ctaagatcaa tgacaaaaaa cttcagtgag ggaaaccgtc ttctcggaga tgcaaaaaca 1500

ggcggtacat acagtggact tctacctgat ggttcaagag ttgcaattaa aaggttgaag 1560

aagtccagct ttcagaggaa aaaggagttt cattcagaaa ttgcaagagt tgctaggctt 1620

cgtcacccaa atttagttgc cctgaaagga tgctgctatg accatggtga ccgctacatt 1680

gtttatgaat tcattgttaa tgggccctta gatagatggc ttcatcatgt accaagaggt 1740

ggtcgaagct tagattggac tatgagaatg aaaattgcca cgactcttgc ccaagggatt 1800

gcgtatgtac aattttcatt tgtgtcttta agatgcaaaa gaacgtgctc ttgttagaga 1860

ttatcagcta actcatgaaa atgtctttta caggttcctt cacgacaagg tcaaaccaca 1920

cgtggtacat cgtgatatcc gtgcgagtaa tgtgcttctc gatgaagaat ttggagcaca 1980

tctgatggga gttggcctat cgaaattggt tgcatatgaa gtgatgcatg agaggacagt 2040

gatggcagga ggaacctatg gataccttgc tcctgaattt gtctacagaa acgagctaac 2100

aacaaagagt gatgtctaca gttttggggt cctattgctt gaaattgtaa ccggacgaag 2160

gcctgcacag gcagttgatt cagttggttg gcagagcatt tttgaatggg caaccccgct 2220

cgtgcaggct caccgttacc tagatctatt ggatcctcat ataacagcca cttcaacttc 2280

tgaaatccca gaggctggca ttgttcaaaa ggttgtggac cttgtttatg cttgcacaca 2340

gcatgtcccg tccatgcgac ctagaatgtc acacgtcgtt catcaactgc aacaattggc 2400

tccctctcct ctcactacga agtaa 2425

<210> 7

<211> 2008

<212> DNA

<213>Cucumber (Cucumis sativus L.)

<400> 7

tatggggggt tgtggtcaga gaaggcagac cgcattaact tccgaacaac cactactact 60

ctcactattg acccattcca aatccttctc cttcctctca ccccacctca cctcagctac 120

tccttcattt ctctgattcc taccacttcc tgaacttcat ggaaatggag accaacacta 180

acaccttctt tatctaatcc tcaaccattt ccattttcaa gtctacccct tctcgggttt 240

gggtaatggc tccgacagag gtgaaaacgc tatttctttc tcttttcgtg ttaatttggt 300

tgtccagaat gggcgtctct gatactatgt ttaacgagtc aggaattggg tattcggttg 360

tttccagaaa ggaaatttca aaaggacggt gcccacatgg ttggattatt agcccaagca 420

agactaagtg ctttggtttc atgtccagcc ctaaatcatg gaatgattca gagacccaat 480

gcaatagttt tggtgggaac ttagcagctc tggtaacata tcaagagttt agctatgcac 540

aaaatctgtg taatggaact cttggtggct gttgggttgg tggcagagcg ttcaactctt 600

tgaatgattt cgtttggaag tggtcagata atgtttcaaa atggaacgat tccatttttc 660

ccagcgcaac tttgcaatcg aactgcaaaa atgcctcttg cctccggaat gattcggttg 720

aaacatgtac attaatattt ggtggaccag caacaccatt ccttagggac gagaaatgca 780

acagttctca cccttttata tgcatgataa acctagatga tagatgccac cgaatgcact 840

gtcacaagga gtatctagtt attctagctg ttgtgagtgg gttgatattt tgcacaactt 900

tagctgtggt gatttggctt ctagcccaca agaggagcaa aaagcggaga aggtcgcgga 960

agccatccaa ccctgcagct tctgcactgg taccgccttt gtggagggtg tttaccaaag 1020

aagagctaag atcaatgaca aaaaacttca gtgagggaaa ccgtcttctc ggagatgcaa 1080

aaacaggcgg tacatacagt ggacttctac ctgatggttc aagagttgca attaaaaggt 1140

tgaagaagtc cagctttcag aggaaaaagg agtttcattc agaaattgca agagttgcta 1200

ggcttcgtca cccaaattta gttgccctga aaggatgctg ctatgaccat ggtgaccgct 1260

acattgttta tgaattcatt gttaatgggc ccttagatag atggcttcat catgtaccaa 1320

gaggtggtcg aagcttagat tggactatga gaatgaaaat tgccacgact cttgcccaag 1380

ggattgcgtt ccttcacgac aaggtcaaac cacacgtggt acatcgtgat atccgtgcga 1440

gtaatgtgct tctcgatgaa gaatttggag cacatctgat gggagttggc ctatcgaaat 1500

tggttgcata tgaagtgatg catgagagga cagtgatggc aggaggaacc tatggatacc 1560

ttgctcctga atttgtctac agaaacgagc taacaacaaa gagtgatgtc tacagttttg 1620

gggtcctatt gcttgaaatt gtaaccggac gaaggcctgc acaggcagtt gattcagttg 1680

gttggcagag catttttgaa tgggcaaccc cgctcgtgca ggctcaccgt tacctagatc 1740

tattggatcc tcatataaca gccacttcaa cttctgaaat cccagaggct ggcattgttc 1800

aaaaggttgt ggaccttgtt tatgcttgca cacagcatgt cccgtccatg cgacctagaa 1860

tgtcacacgt cgttcatcaa ctgcaacaat tggctccctc tcctctcact acgaagtaaa 1920

ggtattcatc agacttcaag atgatttcct attgcaagat tctaacttgg caagaagcca 1980

gttaatgtag gataggaacc aaggtaga 2008

Claims (7)

1. A kind of 1. InDel-Ts3 molecular labelings isolated with the soft thorn gene Ts of cucumber fruits, it is characterised in that the molecular labeling With 244 nucleotide sequences shown in sequence table SEQ ID NO.1, and 234 cores shown in sequence table SEQ ID NO.2 Nucleotide sequence in nucleotide sequence, wherein SEQ ID NO.1 isolates with soft thorn gene, the nucleotides in SEQ ID NO.2 Sequence isolates with hard Ci Jiyin.
2. 2. a kind of InDel-Ts3 molecular labelings isolated with the soft thorn gene Ts of cucumber fruits according to claim 1, its It is characterised by, the molecular labeling is expanded to obtain as the anti-sense primer shown in the sense primer and EM8 shown in ME7,

   The primer ME7 sequences, it is specially：ME7：5 '-ATAACTGATTTGGTCCTCTCTA-3 ',

   The primer EM8 sequences, it is specially：EM8：5’-TAACATTTGTAGACCAAGCAT-3’.
3. A kind of 3. preparation method of the InDel-Ts3 molecular labelings isolated with the soft thorn gene Ts of cucumber fruits, it is characterised in that The molecular labeling is expanded to obtain as the anti-sense primer shown in the sense primer and EM8 shown in ME7,

   The primer ME7 sequences, it is specially：ME7：5 '-ATAACTGATTTGGTCCTCTCTA-3 ',

   The primer EM8 sequences, it is specially：EM8：5’-TAACATTTGTAGACCAAGCAT-3’.
4. 4. a kind of InDel-Ts3 molecular labelings isolated with the soft thorn gene Ts of cucumber fruits obtain according to claim 3 Method, it is characterised in that reaction system is genomic DNA 30ng, primer 0.5 μm of ol/L, 200 μm of ol/L dNTPs, 2mmol/L MgCl₂, 1 μ l 10 × PCR reactions buffer, 0.6U Taq DNA polymerases, overall reaction system is 10 μ L, primer are anti-sense primer shown in sense primer shown in ME7 and EM8.
5. 5. a kind of InDel-Ts3 molecular labelings isolated with the soft thorn gene Ts of cucumber fruits obtain according to claim 3 Method, it is characterised in that PCR amplification programs are：94 DEG C of 5min, 94 DEG C of 30s, 55 DEG C of 30s, 72 DEG C of 30s, 32 circulations, expand Volume increase thing is separated with 8% native polyacrylamide gel electrophoresis, and electrophoretic buffer is 0.5 × TBE, 160W invariable powers, electrophoresis 3h。
6. 6. as claimed in claim 1 with the application of the soft thorn gene Ts of the cucumber fruits InDel-Ts3 molecular labelings isolated, it is special Sign is, the molecular labeling is used for various cucumber and pierces/the screening of soft thorn type firmly.
7. 7. according to claim 6 with the application of the soft thorn gene Ts of the cucumber fruits InDel-Ts3 molecular labelings isolated, its It is characterised by, the molecular labeling, which is used for the early stage that during vegetable seeds or cotyledon is grown, to be identified.