CN106893728A - Recombinant nucleic acid fragment RecCR033208 and its detection method - Google Patents

Recombinant nucleic acid fragment RecCR033208 and its detection method Download PDF

Info

Publication number
CN106893728A
CN106893728A CN201510959089.9A CN201510959089A CN106893728A CN 106893728 A CN106893728 A CN 106893728A CN 201510959089 A CN201510959089 A CN 201510959089A CN 106893728 A CN106893728 A CN 106893728A
Authority
CN
China
Prior art keywords
sequence
primer
seq
nucleotides
specific recognition
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Granted
Application number
CN201510959089.9A
Other languages
Chinese (zh)
Other versions
CN106893728B (en
Inventor
周发松
宋丁丁
陆青
喻辉辉
何宗顺
雷昉
姚玥
李菁
韦懿
张学堂
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Sub-Group Co ltd Of China Seed
Original Assignee
Sub-Group Co ltd Of China Seed
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Sub-Group Co ltd Of China Seed filed Critical Sub-Group Co ltd Of China Seed
Priority to CN201510959089.9A priority Critical patent/CN106893728B/en
Publication of CN106893728A publication Critical patent/CN106893728A/en
Application granted granted Critical
Publication of CN106893728B publication Critical patent/CN106893728B/en
Active legal-status Critical Current
Anticipated expiration legal-status Critical

Links

Classifications

    • CCHEMISTRY; METALLURGY
    • C07ORGANIC CHEMISTRY
    • C07KPEPTIDES
    • C07K14/00Peptides having more than 20 amino acids; Gastrins; Somatostatins; Melanotropins; Derivatives thereof
    • C07K14/415Peptides having more than 20 amino acids; Gastrins; Somatostatins; Melanotropins; Derivatives thereof from plants
    • AHUMAN NECESSITIES
    • A01AGRICULTURE; FORESTRY; ANIMAL HUSBANDRY; HUNTING; TRAPPING; FISHING
    • A01HNEW PLANTS OR NON-TRANSGENIC PROCESSES FOR OBTAINING THEM; PLANT REPRODUCTION BY TISSUE CULTURE TECHNIQUES
    • A01H1/00Processes for modifying genotypes ; Plants characterised by associated natural traits
    • A01H1/02Methods or apparatus for hybridisation; Artificial pollination ; Fertility
    • AHUMAN NECESSITIES
    • A01AGRICULTURE; FORESTRY; ANIMAL HUSBANDRY; HUNTING; TRAPPING; FISHING
    • A01HNEW PLANTS OR NON-TRANSGENIC PROCESSES FOR OBTAINING THEM; PLANT REPRODUCTION BY TISSUE CULTURE TECHNIQUES
    • A01H1/00Processes for modifying genotypes ; Plants characterised by associated natural traits
    • A01H1/04Processes of selection involving genotypic or phenotypic markers; Methods of using phenotypic markers for selection
    • CCHEMISTRY; METALLURGY
    • C12BIOCHEMISTRY; BEER; SPIRITS; WINE; VINEGAR; MICROBIOLOGY; ENZYMOLOGY; MUTATION OR GENETIC ENGINEERING
    • C12QMEASURING OR TESTING PROCESSES INVOLVING ENZYMES, NUCLEIC ACIDS OR MICROORGANISMS; COMPOSITIONS OR TEST PAPERS THEREFOR; PROCESSES OF PREPARING SUCH COMPOSITIONS; CONDITION-RESPONSIVE CONTROL IN MICROBIOLOGICAL OR ENZYMOLOGICAL PROCESSES
    • C12Q1/00Measuring or testing processes involving enzymes, nucleic acids or microorganisms; Compositions therefor; Processes of preparing such compositions
    • C12Q1/68Measuring or testing processes involving enzymes, nucleic acids or microorganisms; Compositions therefor; Processes of preparing such compositions involving nucleic acids
    • C12Q1/6876Nucleic acid products used in the analysis of nucleic acids, e.g. primers or probes
    • C12Q1/6888Nucleic acid products used in the analysis of nucleic acids, e.g. primers or probes for detection or identification of organisms
    • C12Q1/6895Nucleic acid products used in the analysis of nucleic acids, e.g. primers or probes for detection or identification of organisms for plants, fungi or algae
    • CCHEMISTRY; METALLURGY
    • C12BIOCHEMISTRY; BEER; SPIRITS; WINE; VINEGAR; MICROBIOLOGY; ENZYMOLOGY; MUTATION OR GENETIC ENGINEERING
    • C12QMEASURING OR TESTING PROCESSES INVOLVING ENZYMES, NUCLEIC ACIDS OR MICROORGANISMS; COMPOSITIONS OR TEST PAPERS THEREFOR; PROCESSES OF PREPARING SUCH COMPOSITIONS; CONDITION-RESPONSIVE CONTROL IN MICROBIOLOGICAL OR ENZYMOLOGICAL PROCESSES
    • C12Q2600/00Oligonucleotides characterized by their use
    • C12Q2600/156Polymorphic or mutational markers

Landscapes

  • Life Sciences & Earth Sciences (AREA)
  • Chemical & Material Sciences (AREA)
  • Health & Medical Sciences (AREA)
  • Organic Chemistry (AREA)
  • Genetics & Genomics (AREA)
  • Botany (AREA)
  • General Health & Medical Sciences (AREA)
  • Proteomics, Peptides & Aminoacids (AREA)
  • Engineering & Computer Science (AREA)
  • Analytical Chemistry (AREA)
  • Environmental Sciences (AREA)
  • Biophysics (AREA)
  • Developmental Biology & Embryology (AREA)
  • Molecular Biology (AREA)
  • Biotechnology (AREA)
  • Wood Science & Technology (AREA)
  • Zoology (AREA)
  • Biochemistry (AREA)
  • Microbiology (AREA)
  • General Engineering & Computer Science (AREA)
  • Bioinformatics & Cheminformatics (AREA)
  • Immunology (AREA)
  • Physics & Mathematics (AREA)
  • Mycology (AREA)
  • Gastroenterology & Hepatology (AREA)
  • Medicinal Chemistry (AREA)
  • Measuring Or Testing Involving Enzymes Or Micro-Organisms (AREA)

Abstract

This application provides recombinant nucleic acid fragment and its detection method.Present invention also provides the selection of the rice plant containing recombinant nucleic acid fragment, foreground selection and Foreground selection are carried out to restructuring plant using molecular labeling, obtain the rice plant containing recombinant nucleic acid fragment.

Description

Recombinant nucleic acid fragment RecCR033208 and its detection method
Technical field
The application is related to full-length genome selection and use technology.Specifically, the application relates to the use of Full-length genome selection and use technology seed selection contains the rice plant of recombinant nucleic acid fragment, and thus And the recombinant nucleic acid fragment and its detection method for obtaining.
Background technology
For a long time, the system of selection of traditional breeding method depends on the evaluation of variable rate technology type, Accepted or rejected according to breeding man personal experience, its maximum shortcoming is that time-consuming, less efficient. The efficiency of selection is improved, optimal method should directly genotype be selected. With the development of molecular biotechnology, molecular labeling is to realize directly selecting offer to genotype May.In recent years, have started to improve individual target using molecular marker-assisted selection method Proterties, can significantly shorten the breeding time limit.
Series of three-series hybrid rice has the advantages such as stable and high yields, be in cytoplasmic male sterility (i.e. CMS, Cytoplasmic Male Sterility) on the basis of develop supporting restorer, maintainer and Sterile line.CMS restorers mainly have Yebai (WA) CMS restorers and red lotus type (HL) CMS restorers, and japonica rice bag bench-type (BT) CMS restorers (ten thousand build people etc., 2008). It is exactly Rf-1 genes and its phase that one of critical sites of fertility restorer are controlled in above-mentioned 3 type Neighboring interval, it includes Yebai CMS Restore genes Rf4 (Tang etc., 2014), bag bench-type CMS Restore genes Rf-1 (Rf1a) and Rf1b (Wang etc., 2006;Komori etc., 2004), Red lotus type CMS Restorer gene Rf5s (Rf1a) (Hu etc., 2012).
The content of the invention
On the one hand, this application provides recombinant nucleic acid fragment, it is selected from:I) SEQ ID are included NO:The sequence or its fragment of sequence 1078-1865 shown in 1 nucleotides or its variant or its complementation Sequence;Ii SEQ ID NO) are included:The sequence of sequence shown in 1 or its fragment or its variant or its Complementary series;Iii SEQ ID NO) are included:The sequence of sequence 262-901 shown in 2 nucleotides Or its fragment or its variant or its complementary series;Iv SEQ ID NO) are included:Sequence shown in 2 Sequence or its fragment or its variant or its complementary series;And the combination of above fragment.
In one embodiment, the recombinant nucleic acid fragment is genome recombination nucleic acid fragment.
Additionally, this application provides the primer for detecting the recombinant nucleic acid fragment, it is selected from:(I) it is special Opposite sex identification SEQ ID NO:The forward primer of the sequence of sequence 1-1078 shown in 1 nucleotides With specific recognition SEQ ID NO:The sequence of sequence 1865-2067 shown in 1 nucleotides it is anti- To primer;(II) first group of primer pair and second group of combination of primer pair below, it includes (a) the One group of primer pair:Specific recognition SEQ ID NO:1-1078 nucleotides of sequence shown in 1 Sequence forward primer and specific recognition SEQ ID NO:Sequence 1079-1864 shown in 1 The reverse primer of the sequence of position nucleotides;(b) second group of primer pair:Specific recognition SEQ ID NO:The forward primer and specificity of 1079-1864 sequence of nucleotides of sequence shown in 1 Identification SEQ ID NO:The reverse of 1865-2067 sequence of nucleotides of sequence shown in 1 is drawn Thing;(III) specific recognition includes SEQ ID NO:Sequence shown in 1 1077-1078 or The forward primer and specific recognition of 1078-1079 sequence of nucleotides include SEQ ID NO: The reverse of 1864-1865 or 1865-1866 sequence of nucleotides of sequence shown in 1 is drawn Thing;(IV) specific recognition includes SEQ ID NO:Sequence shown in 1 1077-1078 or 1078-1079 the forward primer and specific recognition SEQ ID NO of the sequence of nucleotides:1 institute Show 1865-2067 reverse primer of the sequence of nucleotides of sequence;(V) specific recognition SEQ ID NO:The forward primer and specific recognition of 1-1078 sequence of nucleotides of sequence shown in 1 Comprising SEQ ID NO:Sequence shown in 1 1864-1865 or 1865-1866 nucleotides Sequence reverse primer;And/or optionally, (VI) specific recognition SEQ ID NO:2 institutes Show sequence 1-262 the forward primer and specific recognition SEQ ID NO of the sequence of nucleotides:2 The reverse primer of the sequence of shown sequence 901-1437 nucleotides;(VII) below the 3rd group draw Thing pair and the 4th group of combination of primer pair, it includes (c) the 3rd group of primer pair:Specific recognition SEQ ID NO:The forward primer and specificity of 1-262 sequence of nucleotides of sequence shown in 2 Identification SEQ ID NO:263-900 reverse primer of the sequence of nucleotides of sequence shown in 2; (d) the 4th group of primer pair:Specific recognition SEQ ID NO:Sequence 263-900 shown in 2 The forward primer and specific recognition SEQ ID NO of the sequence of position nucleotides:Sequence shown in 2 The 901-1437 reverse primer of the sequence of nucleotides;(VIII) specific recognition includes SEQ ID NO:The forward primer and specific recognition of 262-263 sequence of nucleotides of sequence shown in 2 Comprising SEQ ID NO:Sequence shown in 2 900-901 or the 901-902 sequence of nucleotides The reverse primer of row;(IX) specific recognition includes SEQ ID NO:Sequence shown in 2 262-263 the forward primer and specific recognition SEQ ID NO of the sequence of nucleotides:Shown in 2 901-1437 reverse primer of the sequence of nucleotides of sequence;(X) specific recognition SEQ ID NO:The forward primer and specific recognition bag of 1-262 sequence of nucleotides of sequence shown in 2 The NO of ID containing SEQ:Sequence shown in 2 900-901 or the 901-902 sequence of nucleotides Reverse primer.
In one embodiment, for expanding SEQ ID NO:The primer pair of sequence shown in 1 is, For example, 5 '-GAAGGCCAAGAAGGTCTGGGAGC-3 ', and 5 '-GAGGATGAC GAGCCATTCGGTGA-3’.For detecting SEQ ID NO:The sequencing of sequence shown in 1 is drawn Thing is, for example, 5 '-GAAGGCCAAGAAGGTCTGGGAGC-3 ', 5 '-GATA CGATGAATGCAGGGAA-3 ', 5 '-GAGACGTAGCCCTTGGTGAT-3 ', 5 '-CGAAGGAATCAAGGGCATAT-3 ', 5 '-TCGGGTGCCTACATAGAA TG-3 ' and 5 '-TTCTGGCGGAATCTGTAAT-3 '.
In another embodiment, for expanding SEQ ID NO:The primer pair of sequence shown in 2 For, for example, 5 '-ACCTTAACCGTCAATTACAGGA-3 ', and 5 '-GGATTACA CCGTTTCGCCACTT-3’.For detecting SEQ ID NO:The sequencing of sequence shown in 2 is drawn Thing is, for example, 5 '-TTTGAATCGAAGCGGACCAT-3 ', 5 '-CAGGCGTCGTT AGAGGTTTT-3 ', 5 '-ATCGAATGGGATGCTACAT-3 ' and 5 '-CGCACAT ATCTATTGCCTGA-3’。
On the other hand, the side of the rice plant of recombinant nucleic acid fragment is contained this application provides seed selection Method, it is included using the paddy rice recipient plant parent without genes of interest pack section as recurrent parent, It is hybridized with the paddy rice donor plant containing genes of interest pack section, then will be resulting Cenospecies be returned with recurrent parent, then the step of resulting backcrossing kind is carried out into selfing, Foreground selection and Foreground selection wherein are carried out to restructuring plant using molecular labeling.For example, described Recombinant nucleic acid fragment is as previously described.
In the above-mentioned methods, for the foreground selection molecular labeling be selected from RfC10ID161, One or more in RfC10ID14 and RfC10ID35;And/or educated using paddy rice full-length genome Planting chip carries out the Foreground selection.
In one embodiment, the seed selection that the application is provided contains Rf-1 genome recombination nucleic acid pieces The method of the rice plant of section, it is comprised the following steps:1) recurrent parent is entered with donor plant Row hybridization, then resulting cenospecies and recurrent parent are returned, first backcross generation is obtained, Using favorable selection mark RfC10ID161 and negative itemsets mark RfC10ID14, RfC10ID35 carries out the unilateral homologous recombination fragment screening of Rf-1 genomic fragments, and profit to it With paddy rice full-length genome breeding chip, such as RICE6K carries out Foreground selection to it;2) select Background replys preferably restructuring individual plant (this generation background recovery value is more than 75%) with recurrent parent again It is secondary to be returned, second backcross generation is obtained, it is entered using favorable selection mark RfC10ID161 Row detection, selects the restructuring individual plant containing Rf-1 genomic fragments, then using paddy rice full genome Group breeding chip, such as RICE6K carries out Foreground selection to it;3) selection background is replied Restructuring individual plant (this generation background recovery value is more than 87.5%) is returned again with recurrent parent, Third backcross generation is obtained, RfC10ID161 and negative indicia are marked using favorable selection RfC10ID14, RfC10ID35 carry out the opposite side homologous recombination of Rf-1 genomic fragments to it Fragment is screened, and using paddy rice full-length genome breeding chip, such as RICE60K is carried out to it Foreground selection;And 4) selection introgressed segment is small, and the restructuring individual plant (background time that background is replied Complex value more than the restructuring individual plant selfing that 93.75%), will be chosen once, obtains selfed seed, utilizes Favorable selection mark RfC10ID161 is detected to it, and utilizes paddy rice full-length genome breeding Chip, such as RICE60K, Foreground selection is carried out to it, final to obtain the weight of genome containing Rf-1 The rice plant of group nucleic acid fragment homozygosis and background reply (background recovery value is more than 99%).
In another embodiment, adopted when carrying out foreground selection to restructuring plant using molecular labeling Amplimer, including:The primer pair of RfC10ID161 is marked for amplifier molecule, its Middle forward primer is 5 '-TCATGTGATGAACATTAGCTGAGT-3 ', and reverse primer is 5’-CTTAGTCAATAGCGAGGACTCA-3’;For amplifier molecule mark The primer pair of RfC10ID14, wherein forward primer are 5 '-CGGCTCATCCATGTTGA CTGACT-3 ', reverse primer is 5 '-ATGTTTGGGACGTGCGTGCAGAA-3 '; And for the primer pair of amplifier molecule mark RfC10ID35, wherein forward primer is 5 '-CACCAGCTAGAGCTAGGTTATTC-3 ', reverse primer is 5 '-CCTGTTT AGATTCGTGGTCCTGT-3’。
Another aspect, this application provides the method for detection recombinant nucleic acid fragment, it includes basis Foregoing recombinant nucleic acid fragment design specific primer, is carried out by template of testing gene group PCR reacts, and the step of analyze pcr amplification product.Specifically, for example, the primer such as It is preceding described.Selectively, pcr amplification product is analyzed using Sanger PCR sequencing PCRs.
Specifically, in the method for the detection recombinant nucleic acid fragment that the application is provided, for expanding And detection SEQ ID NO:The primer combination of sequence shown in 1 is as follows:Amplimer, including forward direction Primer:5 '-GAAGGCCAAGAAGGTCTGGGAGC-3 ', reverse primer: 5’-GAGGATGACGAGCCATTCGGTGA-3’;Sequencing primer, including forward primer: 5 '-GAAGGCCAAGAAGGTCTGGGAGC-3 ', forward primer:5’-GATACG ATGAATGCAGGGAA-3 ', reverse primer:5’-GAGACGTAGCCCTTGGTG AT-3 ', forward primer:5 '-CGAAGGAATCAAGGGCATAT-3 ', forward primer: 5 '-TCGGGTGCCTACATAGAATG-3 ' and reverse primer:5’-TTCTGGCGGAA TCTGTAAT-3’.Methods described with testing sample genomic DNA as template, using above-mentioned Amplimer enters performing PCR amplification, and the amplified production for obtaining is entered using above-mentioned sequencing primer then Row sequencing, if sequencing result and SEQ ID NO:1 sequence is consistent or complementary, then in testing sample Contain SEQ ID NO:Homologous recombination fragment shown in 1.
In addition, the application provide detection recombinant nucleic acid fragment method in, for expand and Detection SEQ ID NO:The primer combination of sequence shown in 2 is as follows:Amplimer, including forward direction is drawn Thing:5 '-ACCTTAACCGTCAATTACAGGA-3 ', reverse primer:5’-GGATTACA CCGTTTCGCCACTT-3’;Sequencing primer, including reverse primer:5’-TTTGAATCG AAGCGGACCAT-3 ', reverse primer:5’-CAGGCGTCGTTAGAGGTTT T-3 ', forward primer:5 '-ATCGAATGGGATGCTACAT-3 ' and reverse primer: 5’-CGCACATATCTATTGCCTGA-3’.Methods described is with testing sample genome DNA is template, and entering performing PCR using above-mentioned amplimer expands, then using above-mentioned sequencing The amplified production that primer pair is obtained is sequenced, if sequencing result and SEQ ID NO:2 sequences one Cause or complementary, then contain SEQ ID NO in testing sample:Homologous recombination fragment shown in 2.
Contain SEQ ID NO during testing sample is determined by detection:1 and/or SEQ ID NO:2 The recombinant nucleic acid fragment of shown sequence, you can determine in testing sample comprising containing resistant gene Recombinant nucleic acid fragment.
Additionally, present invention also provides the kit of detection recombinant nucleic acid fragment, it is included as preceding The primer stated.
Further, present invention also provides screening the rice plant containing recombinant nucleic acid fragment or The method of seed, whether it includes containing as previously described in the genome for detect rice plant to be measured Recombinant nucleic acid fragment the step of.In one embodiment, examined using foregoing primer Survey in the genome of rice plant to be measured and whether contain foregoing recombinant nucleic acid fragment.Another In one embodiment, the method using foregoing detection recombinant nucleic acid fragment is to be measured to detect Whether contain foregoing recombinant nucleic acid fragment in the genome of rice plant.In another implementation In scheme, detected using foregoing kit in the genome of rice plant to be measured whether Contain foregoing recombinant nucleic acid fragment.
It yet still another aspect, containing the application this application provides what is obtained by methods described screening The rice plant or its seed of disclosed recombinant nucleic acid fragment.
The seed selection based on full-length genome selection and use technology that the application is provided contains Rf-1 genomes The method of the rice plant of recombinant nucleic acid fragment, the advantage with quick, accurate stabilization.Only It is by the transformation of five generations, you can target gene group fragment only is imported into acceptor material and simultaneously real The reply of existing background.The acceptor material of the application improvement is ' China accounts for ', is China Paddy Rice Inst Cultivate indica type conventional rice, with the strong coordinate force of tillering ability it is high the features such as.Using the above method, Can be improved to materials such as sterile line peasants who dig gold 2A in the case where ' China accounts for ' primary characteristic is retained The recovery capability of material, expands combo scope.Meanwhile, the genome recombination nucleic acid that the application is provided Fragment is closely related with fertility restorer ability, and the training of other kinds can be applied to as genetic resources Educate.
Brief description of the drawings
Fig. 1 is CR033208 paddy rice RICE60K full-length genome breedings in the embodiment of the present application 1 Chip detection result;Wherein, the indicated square frame of abscissa numeral represents 12 dyeing of paddy rice successively Body, ordinate numeral is the physical location [with megabasse (Mb) as unit] on rice genome, Grey lines represent receptor parent ' China accounts for ' genotype, and black lines represent donor parents ' gold Extensive No. 3 ' genotype, it is consistent i.e. without polymorphism section that white line represents two parent genotypes. Lines display block is the Rf-1 genomes of importing at No. 10 chromosome black round dot in figure Recombinant nucleic acid fragment RecCR033208.
Fig. 2A and Fig. 2 B are RecCR033208 upstreams homologous recombination in the embodiment of the present application 2 Sequencing fragment comparison result;Asterisk shown in figure represents identical base in comparison result, CR033208 is the new lines for obtaining, and HZ is receptor parent ' China accounts for ', and JH3 is donor parents ' gold is extensive No. 3 '.
Fig. 3 is RecCR033208 downstreams homologous recombination sequencing fragment ratio in the embodiment of the present application 2 To result;Asterisk shown in figure represents identical base in comparison result, and CR033208 is what is obtained New lines, HZ is receptor parent ' China accounts for ', and JH3 is donor parents ' gold is extensive No. 3 '.
Fig. 4 is the structure of RecCR033208 both sides homologous recombination fragment in the embodiment of the present application 2 Figure;Wherein, (A) is upstream homologous recombination fragment structure figure;(B) it is downstream homologous recombination fragment Structure chart, top base is SNP or the InDel mark of donor ' gold is extensive No. 3 ', lower section alkali Base is marked for the SNP or InDel of acceptor ' China accounts for '.Grey section is from ' China accounts for ' Genomic segment, black section is from ' gold is extensive No. 3 ' genomic segment, white section It is homologous recombination section, abscissa is fragment length, with base pairs (bp) as unit.
Fig. 5 combines pollen I to be measured in the embodiment of the present application 32- KI solution dyeing microscopic examination results: (A) it is measured combination peasants who dig gold's 2A/CR033208 pollen I2- KI solution is dyeed;(B) it is measured combination Peasants who dig gold 2A/ China accounts for pollen I2- KI solution is dyeed.In figure, black is represented by I2- KI solution is complete Dyeing, is fertile pollen;Grey is represented by I2- KI solution is not exclusively dyeed, category dye scum of a community's type, It is pollen sterile;Transparent expression is not by I2- KI solution is dyeed, and category circle scum of a community's type, is pollen sterile.
Specific embodiment
Defined below and method is provided preferably to define the application and put into practice middle finger in the application Lead those of ordinary skill in the art.Unless otherwise mentioned, term is according to association area ordinary skill people The common usage of member understands.
As used herein, " nucleotide sequence " includes being related to the deoxyribose of single-stranded or double-stranded form Nucleotides or ribonucleotide polymer, and unless otherwise limitation, nucleotide sequence with 5 ' extremely 3 ' directions are write from left to right, including the known analog (example with natural nucleotide fundamental property Such as, peptide nucleic acid), the analog with naturally occurring nucleotides similar mode and single-stranded core Acid hybridization.
In some embodiments, the nucleotide sequence of the application can be changed, to enter Row conserved amino acid replacement.In certain embodiments, can be according to unifacial leaf codon preference Property is not changed the replacement of amino acid sequence to the nucleotide sequence of the application, for example, can use The codon of monocotyledon preference replaces codon of the coding with amino acid sequence, without changing Become the amino acid sequence coded by the nucleotide sequence.
Specifically, the application is related to SEQ ID NO:1 or SEQ ID NO:2 is further excellent Nucleotide sequence obtained by change.The more details of the method are described in Murray etc. (1989) Nucleic Acids Res.17:477-498.Optimization nucleotide sequence can be used to improve Rf-1 genes Expression of the group recombinant nucleic acid fragment in paddy rice.
In some embodiments, the application further relates to SEQ ID NO:1 or SEQ ID NO:2 The variant of shown sequence.In general, the variant of specific nucleotide sequence will be with the specific nucleosides Acid sequence have at least about 70%, 75%, 80%, 85%, 86%, 87%, 88%, 89%, 90%th, 91%, 92%, 93%, 94%, 95%, 96%, 97%, 98%, 99%, 99.5% Or 99.9% or higher sequence identity, or more complementary series.Such variant sequence thereof Addition including one or more nucleic acids, missing are replaced, corresponding such that it is able to cause Addition, removal or the replacement of amino acid residue.By alignment programs known in the art Determine sequence identity including hybridization technique.The nucleotide sequence variants and the application of embodiment The difference of sequence may be as few as 1-15 nucleotides, as little as 1-10 (such as 6-10), As little as 5, as little as 4,3,2 or even 1 nucleotides.
The application is further related to comprising SEQ ID NO:1 or SEQ ID NO:It is specific in sequence shown in 2 The sequence in site or its fragment or its variant or its complementary series, for example, comprising SEQ ID NO:1 The sequence or its fragment of 1078-1865 nucleotides of shown sequence or its variant or its complementary sequence Row, or comprising SEQ ID NO:The sequence of 262-901 nucleotides of sequence shown in 2 or its Fragment or its variant or its complementary series.According to the fragment comprising above-mentioned specific site, Neng Goute Corresponding SEQ ID NO are identified different in naturely:1 or SEQ ID NO:Sequence shown in 2.Further Ground, SEQ ID NO are contained by identifying:1 or SEQ ID NO:The recombinant nuclear of sequence shown in 2 Acid fragment, you can determine to include the recombinant nucleic acid fragment containing resistant gene in testing sample.
As used herein, " paddy rice " is any rice plant and including can be all with rice breeding Plant variety.As used herein, " plant " or " plant ", including whole plant, plant cell, Plant cell tissue cultures that plant organ, plant protoplast, plant can therefrom regenerate, Complete plant cell in plant callus, vegetation bed and plant or plant part, the plant Part for example embryo, pollen, ovule, seed, leaf, flower, branch, fruit, cane, root, the tip of a root, Flower pesticide etc..
Go for the rice varieties of any required seed selection in the present processes.That is, Can (i.e. Comprehensive Traits be preferable, it is contemplated that have hair by any improved seeds for lacking certain beneficial traits Open up the kind of future) it is used as recurrent parent.With another with beneficial traits lacking in this receptor Kind is used as donor parents, and the beneficial traits for being provided are preferably dominant Dominant gene. In the embodiment of the application, using paddy rice ' China accounts for ' as recurrent parent, using by Confirm the paddy rice ' gold is extensive No. 3 ' with special fertility restorer ability as donor.
In the selection of restructuring plant provided herein, using molecular labeling to restructuring Plant carries out foreground selection.The reliability of foreground selection is depended primarily between mark and target gene Chain tightness degree is general simultaneously with adjacent two in both sides to improve the accuracy rate of selection Mark is tracked selection to target gene.
In the embodiment of the application, the foreground selection mark of use includes that favorable selection is marked Marked with negative itemsets.In a particular embodiment, the positive prospect choosing of optimized Select to use It is the mark RfC10ID161 with target gene group fragment close linkage, negative itemsets mark to select mark Note is the mark RfC10ID14 for being located at target fragment upstream, and positioned at target fragment downstream Mark RfC10ID35.
In the embodiment of the application, homologous recombination is carried out using above-mentioned foreground selection mark During detection, the criterion of side or unilateral homologous recombination is RfC10ID161 detections and ' gold Extensive No. 3 ' identical banding pattern, and RfC10ID14 or RfC10ID35 detections are identical with ' China accounts for ' Banding pattern;The criterion of both sides or bilateral homologous recombination is RfC10ID161 detections and ' gold extensive 3 Number ' identical banding pattern, and RfC10ID14 and RfC10ID35 detects banding pattern identical with ' China accounts for '.
In this application, it is possible to use any available chip carries out provided herein Breeding method in Foreground selection.In preferred embodiments, the applicant can be used Paddy rice full-length genome breeding chip disclosed in Chinese patent application CN102747138A RICE6K, or the paddy rice full genome disclosed in PCT international applications WO/2014/121419 Group breeding chip RICE60K.Full content in this two parts of application documents is integrally incorporated to be made herein It is reference.
Following examples are merely to illustrate and the purpose of unrestricted the application scope.If not referring in particular to Bright, embodiment is according to conventional laboratory conditions, such as Sambrook equimoleculars Cloning: A Laboratory Manual (Sambrook J&Russell DW,Molecular cloning:a laboratory manual, 2001) condition, or according to manufacturer's specification advised.
Rice plant material information used in this application can be found in rice in China kind and its Pedigree database (http://www.ricedata.cn/variety/index.htm).
The rice genome physical location being previously mentioned in the application is with reference to paddy rice Nipponbare genome MSU/TIGR annotates the 6.1st edition (http://rice.plantbiology.msu.edu/).
Embodiment 1Seed selection imports the restructuring plant of Rf-1 genomic fragments
The material used in the present embodiment is paddy rice ' China accounts for ' and paddy rice ' gold is extensive No. 3 '.
Paddy rice ' gold is extensive No. 3 ' has special fertility restorer ability, and it is probably the 10th to speculate The Rf-1 genomic fragments of chromosome serve key effect to the recovery capability of the material.
In the Breeding Process of restructuring plant, prospect choosing is carried out to restructuring plant using molecular labeling Select, the foreground selection molecular labeling to being used is screened.
Using Miseq sequencing technologies are to ' China accounts for ' and ' gold extensive No. 3 ' two parent carried out entirely Gene order-checking.Library is carried out using TruSeq Nano DNA LT Kit (illumina) kit Set up, tried using Library Quantification Kit-Universal (KAPA Biosystems) Agent box is quantified, and is sequenced using MiSeq V2Reagent Kit (illumina) kit Reaction.Detected using the desk-top sequenators of Miseq (illumina).Specific steps and method Referring to each kit and sequenator operation instructions.Choose No. 10 chromosome 18,340,000 To 19,390,000DNA sequences compare, and find the larger position of base difference, it Afterwards totally 42 pairs are marked using the softwares of Premier 5.0 in above-mentioned Position Design InDel.By PCR Method, screen the polymorphism of above-mentioned primer pair in ' gold is extensive No. 3 ' and ' China accounts for ', most Pick out eventually has polymorphism, amplification efficiency foreground selection molecular labeling high in two parts of materials, Be respectively favorable selection mark RfC10ID161 and negative itemsets mark RfC10ID14, RfC10ID35.The specific primer information for expanding above-mentioned molecular labeling for PCR is shown in Table 1.
The foreground selection molecular labeling primer information of table 1
Genomic fragment where forementioned gene cluster in paddy rice ' gold is extensive No. 3 ' is imported into paddy rice In ' China accounts for ', detailed process is as follows:
With ' China accounts for ' for recurrent parent, ' golden extensive No. 3 ' is hybridized for donor parents, by institute The cenospecies for obtaining is returned with recurrent parent ' China accounts for ', obtains BC1F1Seed, nursery Afterwards using favorable selection mark RfC10ID161 and negative itemsets mark RfC10ID14, RfC10ID35 carries out restructuring Single-plant selection, filters out 52 in target gene group DNA fragmentation The detection of the individual plant of side homologous recombination, i.e. RfC10ID161 and ' gold is extensive No. 3 ' identical banding pattern, It is and RfC10ID14 or RfC10ID35 detects banding pattern identical with ' China accounts for ' and complete using paddy rice Genomic breeding chip RICE6K (CN102747138A) it is carried out Foreground selection (Yu etc., Plant Biotechnology Journal.2014,12:28-37)。
The comparable chip result in the 52 unilateral homologous recombination individual plants for filtering out, selection background is returned Multiple best restructuring individual plant (this generation background recovery value is more than 75%), makes it with recurrent parent ' China Account for ' it is returned again, obtain BC2F1Seed, is marked after nursery using favorable selection RfC10ID161 detects to it, selects the restructuring list containing target gene group DNA fragmentation Strain, i.e. RfC10ID161 detections and ' gold is extensive No. 3 ' identical banding pattern, using paddy rice full genome Group breeding chip RICE6K carries out Foreground selection to it.
Selection background replys preferable individual plant (this generation background recovery value is more than 87.5%), make its with Recurrent parent ' China accounts for ' is returned again, obtains BC3F1Seed, using just after nursery To selected marker RfC10ID161 and negative indicia RfC10ID14, RfC10ID35 to harvesting Seed carry out the screening of target gene group DNA fragmentation opposite side homologous recombination fragment, obtain 6 The individual individual plant in the restructuring of target fragment both sides, i.e. RfC10ID161 is detected and ' gold is extensive No. 3 ' Identical banding pattern, and RfC10ID14 and RfC10ID35 detects banding pattern identical with ' China accounts for '.
Using paddy rice full-length genome breeding chip RICE60K (WO/2014/121419) to above-mentioned 6 Individual bilateral exchanges individual plant and carries out background and target fragment selection (Chen etc., Molecular Plant. 2014,7:541-553), importing target fragment is screened smaller, and the target list that background is replied One (this generation background recovery value is more than 93.75%) of strain.
The individual plant selfing that will be chosen once, obtains BC3F2, marked using favorable selection after nursery RfC10ID161 detects to it, selects the individual plant containing target gene group DNA fragmentation, That is RfC10ID161 detections and ' gold is extensive No. 3 ' identical banding pattern, are educated using paddy rice full-length genome Plant chip RICE60K carries out Foreground selection to it.
It is final to obtain target fragment homozygosis, and background replys the strain of (background recovery value is more than 99%) It is one, is named as CR033208.Chip detection result is shown in Fig. 1.
Embodiment 2The determination of homologous recombination fragment after importing Rf-1 genomic fragments
For the fertility restorer ability genomic fragment size for determining to import, ' China accounts for ' is imported The homozygosis individual plant of fragment has carried out the sequencing of target gene group fragment both sides homologous recombination fragment.Will Rf-1 genome recombination nucleic acid fragments contained by CR033208 are named as RecCR033208.
Primarily determined that by paddy rice full-length genome breeding chip RICE60K testing results, RecCR033208 is located at two SNP markers F1018826255GT and R1019050984GT Between.
Meanwhile, using Miseq sequencing technologies to CR033208 genome sequencings, method is shown in reality Apply shown in example 1, to the full base of ' China accounts for ', ' gold is extensive No. 3 ' and tri- samples of CR033208 Because a group sequencing result is compared.
It is according to foregoing SNP chip and Miseq sequencing results, RecCR033208 upstreams is same 18832043bp to the 18834870bp that source recombinant fragment is positioned at the 10th chromosome is interval, under It is interval that trip homologous recombination fragment is positioned at 19044989bp to 19047257bp.
On this basis, the 6.1st edition is annotated with reference to paddy rice Nipponbare genome MSU/TIGR, Download respective segments DNA sequence dna.Expanded using the Software for Design of Primer Premier 5.0 and surveyed Sequence primer, design requirement is primer 22nt long or so, G/C content 40-60% and no mispairing.
It is control with receptor parent ' China accounts for ' and donor parents ' gold is extensive No. 3 ', it is right RecCR033208 upstream and downstream homologous recombination fragments separately design amplimer, are protected using height True enzyme KOD FX Neo (TOYOBO) are expanded, and are found most using two-step method or three-step approach Good amplification condition, it is ensured that amplified production is shown as single bright in agarose gel electrophoresis detection Band.The upstream homologous recombination fragment amplification primer reaction condition for wherein determining is:94℃ 2min;98 DEG C of 10sec, 61 DEG C of 30sec, 68 DEG C of 180sec, 37 circulations;20℃1min. Downstream homologous recombination fragment amplification primer reaction condition is:94℃2min;98 DEG C of 10sec, 61 DEG C 30sec, 68 DEG C of 180sec, 37 circulations;20℃1min.Thus, finally respectively filter out Pair for amplification primer is used for the amplification of upstream and downstream homologous recombination fragment.
In addition, with amplified production as template, being sequenced using Sanger PCR sequencing PCRs, according to reality Border is sequenced effect, finally respectively filters out 6 and 4 sequencing primers are respectively used to upstream and downstream The sequencing of homologous recombination fragment.Specific amplimer and sequencing primer sequence are shown in Table 2, sequencing Result is shown in Fig. 2A, Fig. 2 B and Fig. 3.
RecCR033208 upstreams homologous recombination sequencing fragment length is 2067bp (SEQ ID NO:1).1-1078bp is the genomic segment of acceptor ' China accounts for ', with donor ' gold is extensive No. 3 ' Compare, there are 3 SNP.This 786bp section of 1079-1864bp is homologous recombination section. 1865-2067bp is donor ' gold is extensive No. 3 ' genomic fragment, is compared with ' China accounts for ', is existed 3 SNP, 1 Indel.
RecCR033208 downstreams homologous recombination sequencing fragment length is 1437bp (SEQ ID NO:2).1-262bp is the genomic segment of donor ' gold is extensive No. 3 ', is compared with ' China accounts for ', In the presence of 1 SNP, 2 Indel.This 638bp section of 263-900bp is homologous recombination area Section.901-1437bp is the genomic segment of acceptor ' China accounts for ', with donor ' gold is extensive No. 3 ' Compare, there are 5 SNP, 1 Indel.
Fig. 4 is the structure chart of RecCR033208 both sides homologous recombination fragment.Wherein, (A) It is upstream homologous recombination fragment structure figure;(B) it is downstream homologous recombination fragment structure figure.Top alkali Base is SNP or the InDel mark of donor ' gold is extensive No. 3 ', and lower section base is acceptor ' China accounts for ' SNP or InDel mark.Grey section is from ' China accounts for ' genomic segment, black Section is that, from ' gold is extensive No. 3 ' genomic segment, white section is homologous recombination section. Abscissa is fragment length, with base pairs (bp) as unit.
The Rf-1 genome recombinations nucleic acid fragment of table 2 is expanded and sequencing primer information
Embodiment 3' China accounts for ' imports fertility restorer identification after Rf-1 genomic fragments
In Three-line rice crossing system, the cytoplasm of sterile line can cause first familiar generation pollen not Educating, when there is corresponding Restore gene in restorer, first familiar generation fertility restorer, just can be made It is often solid.CR033208 needs and corresponding sterile line ' peasants who dig gold 2A ' with original system ' China accounts for ' It is measured, observes first familiar generation fertility to test the difference of both fertility restorer abilities.
1st, prepared by hybrid seed
Winter in 2014 carries out the plantation of material in Hainan, and wherein male parent is improvement strain CR033208 and original system ' China accounts for ', are measured maternal for ' peasants who dig gold 2A '.During male parent is eared, Female parent chooses full-bloom stage plant, the grain husk flower opened is cut off, by ripe unopened grain husk The glume on top 1/3 is cut off after flower water spray by grain, column cap is not injured, paper bag is put.On next day Paddy rice full blossom period at noon, the spike of rice of clip male parent full blossom reaches maternal rice from bagging top end opening The top of fringe, fully trembles powder, then that bagging is suitable for reading equivalent, indicates male parent numbering and date. Seed is harvested after 20 days, two is completed and is measured combination peasants who dig gold 2A/CR033208 and peasants who dig gold 2A/ China accounts for F1The preparation in generation, each combination harvests 100 or so seeds.
2、F1Generation plantation
Summer in 2015 plants F in Wuhan1Generation, above-mentioned two F124 are planted respectively for cenospecies Aisle 40cm is stayed in strain, individual plant rice transplanting, spacing in the rows 20cm, line-spacing 20cm, centre, conventional to plant Training management.
3rd, pollen fertility is investigated
Heading-stage, each combination F1In generation, takes 5 plants, every plant of 1 fringe.In fringe upper, middle and lower Portion respectively takes ripe grain husk and spends 1~2, and every grain husk flower strips 2~3 pieces of flower pesticide, with tweezers by flower pesticide Smashed to pieces on slide, use 1%I2After the dyeing of-KI solution, observation flower under 100 power microscopes is placed in Powder form and dye levels.
I2- KI dyeing microscopic examination results are shown in accompanying drawing 5, and (A) combines peasants who dig gold 2A/CR033208 to be measured Pollen I2- KI solution is dyeed;(B) pollen I is accounted for be measured combination peasants who dig gold 2A/ China2- KI solution is dyeed. In figure, black is by I2- KI solution is dyeed completely, is fertile pollen;Grey is by I2- KI is molten Liquid is not exclusively dyeed, and category dye scum of a community's type, is pollen sterile;It is transparent for not by I2- KI solution is dyeed, Category circle scum of a community's type, is pollen sterile.Represent that pollen is educated with fertile pollen number/total pollen number × 100% Property, 5 plants of average values are taken, investigation the results are shown in Table 3.
Result shows that being measured combination peasants who dig gold's 2A/CR033208 Average pollen numbers is significantly more than and is measured group Alloy agriculture 2A/ China accounts for, and the former pollen fertility shows F apparently higher than the latter1Obtained for fertility To recovery.
4th, Natural seed setting rate is investigated
Each combination F1After for Grain Filling 20 days, 5 plants are respectively taken, every plant of 1 fringe investigates rice Naturally the solid situation of fringe, Natural seed setting rate is represented with Cone crop/total grain panicle number × 100%, is taken 5 plants of average values, investigation the results are shown in Table 3.Result shows and is measured combination peasants who dig gold 2A/CR033208 Natural seed setting rate is relatively measured combination peasants who dig gold 2A/ China and accounts for and greatly improves, F1It is restored for fertility.
The F of table 31Result is investigated for pollen fertility and Natural seed setting rate
Although above having made in detail to the application with a general description of the specific embodiments Most description, but on the basis of the application, it can be made some modifications or improvements, this is to this It is obvious for art personnel.Therefore, on the basis without departing from the application spirit Upper these modifications or improvements, belong to this application claims scope.

Claims (10)

1. recombinant nucleic acid fragment, it is selected from:
I) SEQ ID NO are included:The sequence or its piece of sequence 1078-1865 shown in 1 nucleotides Section or its variant or its complementary series;
Ii SEQ ID NO) are included:The sequence of sequence shown in 1 or its fragment or its variant or its is mutual Complementary series;
Iii SEQ ID NO) are included:The sequence or its piece of sequence 262-901 shown in 2 nucleotides Section or its variant or its complementary series;
Iv SEQ ID NO) are included:The sequence of sequence shown in 2 or its fragment or its variant or its is mutual Complementary series;And
The combination of above fragment.
2. test right requires the primer of fragment described in 1, wherein the primer is selected from:
(I) specific recognition SEQ ID NO:The sequence of sequence 1-1078 shown in 1 nucleotides Forward primer and specific recognition SEQ ID NO:Sequence 1865-2067 shown in 1 nucleotides The reverse primer of sequence;
(II) first group of primer pair and second group of combination of primer pair below, it is included
(a) first group of primer pair:Specific recognition SEQ ID NO:Sequence shown in 1 1-1078 the forward primer and specific recognition SEQ ID NO of the sequence of nucleotides:Shown in 1 1079-1864 reverse primer of the sequence of nucleotides of sequence;With
(b) second group of primer pair:Specific recognition SEQ ID NO:Sequence shown in 1 1079-1864 the forward primer and specific recognition SEQ ID NO of the sequence of nucleotides:1 institute Show 1865-2067 reverse primer of the sequence of nucleotides of sequence;
(III) specific recognition includes SEQ ID NO:Sequence shown in 1 1077-1078 or The forward primer and specific recognition of 1078-1079 sequence of nucleotides include SEQ ID NO: The reverse of 1864-1865 or 1865-1866 sequence of nucleotides of sequence shown in 1 is drawn Thing;
(IV) specific recognition includes SEQ ID NO:Sequence shown in 1 1077-1078 or 1078-1079 the forward primer and specific recognition SEQ ID NO of the sequence of nucleotides:1 institute Show 1865-2067 reverse primer of the sequence of nucleotides of sequence;
(V) specific recognition SEQ ID NO:1-1078 sequence of nucleotides of sequence shown in 1 The forward primer and specific recognition of row include SEQ ID NO:Sequence 1864-1865 shown in 1 Position or the 1865-1866 reverse primer of the sequence of nucleotides;And/or optionally,
(VI) specific recognition SEQ ID NO:The sequence of sequence 1-262 shown in 2 nucleotides Forward primer and specific recognition SEQ ID NO:Sequence 901-1437 shown in 2 nucleotides The reverse primer of sequence;
(VII) the 3rd group of primer pair and the 4th group of combination of primer pair below, it is included
(c) the 3rd group of primer pair:Specific recognition SEQ ID NO:Sequence shown in 2 1-262 the forward primer and specific recognition SEQ ID NO of the sequence of nucleotides:Sequence shown in 2 Arrange the 263-900 reverse primer of the sequence of nucleotides;With
(d) the 4th group of primer pair:Specific recognition SEQ ID NO:Sequence shown in 2 263-900 the forward primer and specific recognition SEQ ID NO of the sequence of nucleotides:Shown in 2 901-1437 reverse primer of the sequence of nucleotides of sequence;
(VIII) specific recognition includes SEQ ID NO:262-263 nucleosides of sequence shown in 2 The forward primer and specific recognition of the sequence of acid include SEQ ID NO:Sequence shown in 2 900-901 or the 901-902 reverse primer of the sequence of nucleotides;
(IX) specific recognition includes SEQ ID NO:262-263 nucleotides of sequence shown in 2 Sequence forward primer and specific recognition SEQ ID NO:Sequence 901-1437 shown in 2 The reverse primer of the sequence of position nucleotides;
(X) specific recognition SEQ ID NO:1-262 sequence of nucleotides of sequence shown in 2 Forward primer and specific recognition include SEQ ID NO:Sequence shown in 2 900-901 or The 901-902 reverse primer of the sequence of nucleotides.
3. test right requires the primer of fragment described in 1, wherein the primer is selected from:
(I) amplification SEQ ID NO:The primer pair of sequence shown in 1
5 '-GAAGGCCAAGAAGGTCTGGGAGC-3 ',
5’-GAGGATGACGAGCCATTCGGTGA-3’;And
(II) sequencing SEQ ID NO:The primer of sequence shown in 1
5 '-GAAGGCCAAGAAGGTCTGGGAGC-3 ',
5 '-GATACGATGAATGCAGGGAA-3 ',
5 '-GAGACGTAGCCCTTGGTGAT-3 ',
5 '-CGAAGGAATCAAGGGCATAT-3 ',
5 '-TCGGGTGCCTACATAGAATG-3 ',
5’-TTCTGGCGGAATCTGTAAT-3’;And/or optionally,
(III) amplification SEQ ID NO:The primer pair of sequence shown in 2
5 '-ACCTTAACCGTCAATTACAGGA-3 ',
5’-GGATTACACCGTTTCGCCACTT-3’;And
(IV) sequencing SEQ ID NO:The primer of sequence shown in 2
5 '-TTTGAATCGAAGCGGACCAT-3 ',
5 '-CAGGCGTCGTTAGAGGTTTT-3 ',
5 '-ATCGAATGGGATGCTACAT-3 ',
5’-CGCACATATCTATTGCCTGA-3’。
4. the method that seed selection contains the rice plant of the recombinant nucleic acid fragment described in claim 1, It includes, using the paddy rice recipient plant parent without genes of interest pack section as recurrent parent, inciting somebody to action It is hybridized with the paddy rice donor plant containing genes of interest pack section, then will be resulting Cenospecies is returned with recurrent parent, then the step of resulting backcrossing kind is carried out into selfing, Foreground selection and Foreground selection wherein are carried out to restructuring plant using molecular labeling.
5. method as claimed in claim 4, wherein for the molecular labeling of the foreground selection One or more in selected from RfC10ID161, RfC10ID14 and RfC10ID35;And/or
Optionally, the Foreground selection is carried out using paddy rice full-length genome breeding chip.
6. the method as described in claim 4 or 5, wherein the recombinant nucleic acid fragment contains Rf-1 genes, and the described method comprises the following steps:
1) recurrent parent and donor plant are hybridized, by resulting cenospecies and samsara parent Originally it is returned, is obtained first backcross generation, RfC10ID161 and negative sense is marked using favorable selection The one side that selected marker RfC10ID14, RfC10ID35 carries out Rf-1 genomic fragments to it is same Source recombinant fragment screening, and Foreground selection is carried out to it using paddy rice full-length genome breeding chip;
2) selection background is replied preferably restructuring individual plant and is returned again with recurrent parent, is obtained Second backcross generation, detects that selection contains to it using favorable selection mark RfC10ID161 The restructuring individual plant of Rf-1 genomic fragments, is then entered using paddy rice full-length genome breeding chip to it Row Foreground selection;
3) the restructuring individual plant that selection background is replied is returned again with recurrent parent, is obtained Third backcross generation, using favorable selection mark RfC10ID161 and negative indicia RfC10ID14, RfC10ID35 carries out the opposite side homologous recombination fragment screening of Rf-1 genomic fragments to it, and Foreground selection is carried out to it using paddy rice full-length genome breeding chip;And
4) selection introgressed segment is small, and the restructuring individual plant that background is replied, the restructuring list that will be chosen Strain selfing once, obtains selfed seed, and it is carried out using favorable selection mark RfC10ID161 Detection, and Foreground selection is carried out to it using paddy rice full-length genome breeding chip, finally contained The rice plant that homozygosis Rf-1 genome recombinations nucleic acid fragment and background are replied.
7. the method as any one of claim 4 to 6, wherein using molecular labeling pair The amplimer that restructuring plant used during foreground selection is as follows:
Amplifier molecule marks the primer pair of RfC10ID161, and it includes:
Forward primer:5 '-TCATGTGATGAACATTAGCTGAGT-3 ',
Reverse primer:5’-CTTAGTCAATAGCGAGGACTCA-3’;
Amplifier molecule marks the primer pair of RfC10ID14, and it includes:
Forward primer:5 '-CGGCTCATCCATGTTGACTGACT-3 ',
Reverse primer:5’-ATGTTTGGGACGTGCGTGCAGAA-3’;And
Amplifier molecule marks the primer pair of RfC10ID35, and it includes:
Forward primer:5 '-CACCAGCTAGAGCTAGGTTATTC-3 ',
Reverse primer:5’-CCTGTTTAGATTCGTGGTCCTGT-3’.
8. the method that test right requires the recombinant nucleic acid fragment described in 1, it includes using right It is required that the primer described in 2 or 3, enters performing PCR reaction, and analyze by template of testing gene group The step of pcr amplification product.
9. test right requires the kit of the recombinant nucleic acid fragment described in 1, and it includes that right will Seek the primer described in 2 or 3.
10. rice plant or seed containing the recombinant nucleic acid fragment described in claim 1 are screened Method, whether it is included in the genome for detect rice plant to be measured or seed containing have the right will The step of seeking the recombinant nucleic acid fragment described in 1;
Preferably, using the primer described in Claims 2 or 3, or claim 8 is used Described method, or detected using the kit described in claim 9.
CN201510959089.9A 2015-12-18 2015-12-18 Recombinant nucleic acid fragment RecCR033208 and detection method thereof Active CN106893728B (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN201510959089.9A CN106893728B (en) 2015-12-18 2015-12-18 Recombinant nucleic acid fragment RecCR033208 and detection method thereof

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN201510959089.9A CN106893728B (en) 2015-12-18 2015-12-18 Recombinant nucleic acid fragment RecCR033208 and detection method thereof

Publications (2)

Publication Number Publication Date
CN106893728A true CN106893728A (en) 2017-06-27
CN106893728B CN106893728B (en) 2020-12-18

Family

ID=59190414

Family Applications (1)

Application Number Title Priority Date Filing Date
CN201510959089.9A Active CN106893728B (en) 2015-12-18 2015-12-18 Recombinant nucleic acid fragment RecCR033208 and detection method thereof

Country Status (1)

Country Link
CN (1) CN106893728B (en)

Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN1765915A (en) * 2005-09-26 2006-05-03 中国农业大学 High yield rice cultivation method and specific molecular mark
CN101899522A (en) * 2010-08-03 2010-12-01 武汉大学 Method for screening novel restoring gene for HL cytoplasm male sterile rice
WO2015054375A2 (en) * 2013-10-08 2015-04-16 International Rice Research Institute Drought-resistant cereal grasses and related materials and methods

Patent Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN1765915A (en) * 2005-09-26 2006-05-03 中国农业大学 High yield rice cultivation method and specific molecular mark
CN101899522A (en) * 2010-08-03 2010-12-01 武汉大学 Method for screening novel restoring gene for HL cytoplasm male sterile rice
WO2015054375A2 (en) * 2013-10-08 2015-04-16 International Rice Research Institute Drought-resistant cereal grasses and related materials and methods

Non-Patent Citations (4)

* Cited by examiner, † Cited by third party
Title
MADHAVI REDDY ET AL.,: ""Oryza sativa Indica Group cultivar RP Bio-226 chromosome 10 sequence,Accession No:CP012618.1"", 《GENBANK》 *
TOSHIYUKI KOMORI ET AL.,: ""map-based cloning of a fertility restorer gene,rf-1,in rice (oryza sativa L.)"", 《THE PLANT JOURNAL》 *
崔党群: "《农业科技》", 31 October 2013, 河南科学技术出版社 *
王乃元: ""野生稻(Oryza rufipogon)新质源雄性不育恢复系的研究"", 《作物学报》 *

Also Published As

Publication number Publication date
CN106893728B (en) 2020-12-18

Similar Documents

Publication Publication Date Title
Das et al. Bamboo taxonomy and diversity in the era of molecular markers
CN107787181A (en) Hybrid seed production and associated materials and method are improved by outcrossing rate higher in cytoplasmic male sterility rice
CN105734057B (en) With the SSR marker and its application of muskmelon downy mildew resistance main effect QTL linkage
CN106480062A (en) Recombinant nucleic acid fragment RecCR012080 and its detection method
CN106893769A (en) Recombinant nucleic acid fragment RecCR012602 and its detection method
CN106893729A (en) Recombinant nucleic acid fragment RecCR033207 and its detection method
CN105567790B (en) The selection of the plant of DNA fragmentation containing target gene group
CN109486996B (en) Recombinant nucleotide segment Rec78801 and Rec78802 and its detection primer and application
CN106893727A (en) Recombinant nucleic acid fragment RecCR012600 and its detection method
CN106893728A (en) Recombinant nucleic acid fragment RecCR033208 and its detection method
CN107287280A (en) Recombinant nucleic acid fragment RecCR010165 and detection method thereof
CN106480057A (en) Recombinant nucleic acid fragment RecCR012083 and its detection method
CN107988218A (en) Rice genome recombinant nucleic acid fragment RecCR012069 and its detection method
CN106609276A (en) Recombined nucleic acid fragment RecCR020260 and detection method thereof
CN106609273A (en) Recombinant nucleic acid fragment RecCR020127 and detection method thereof
CN108018284A (en) Rice genome recombinant nucleic acid fragment RecCR012070 and its detection method
CN106480047A (en) Recombinant nucleic acid fragment RecCR020325 and its detection method
CN106480054A (en) Recombinant nucleic acid fragment RecCR020322 and its detection method
CN106480061A (en) Recombinant nucleic acid fragment RecCR023411 and its detection method
CN107304446A (en) Recombinant nucleic acid fragment RecCR010374 and its detection primer and application
CN106480060A (en) Recombinant nucleic acid fragment RecCR01BC06 and its detection method
CN107304451A (en) Recombinant nucleic acid fragment RecCR010375 and its detection primer and application
CN106609272A (en) Recombinant nucleic acid fragment RecCR020120 and detection method thereof
CN107304447A (en) Recombinant nucleic acid fragment RecCR010007 and its detection primer and application
CN107304449A (en) Recombinant nucleic acid fragment RecCR010311 and its detection primer and application

Legal Events

Date Code Title Description
PB01 Publication
PB01 Publication
SE01 Entry into force of request for substantive examination
SE01 Entry into force of request for substantive examination
GR01 Patent grant
GR01 Patent grant