CN109825599A - A method for identifying the genetic background of individual hybrids of mussels platypus and mussels mediterranean - Google Patents

Abstract

The present invention provides a method for identifying the genetic background of a hybrid individual of mussels with thick shells and mussels, and the nucleic acid fragment provided for distinguishing mussels with thallus and mussels has the sequence of SEQ in the mussels with thick shells ID NO: 1, the sequence in Mediterranean mussel is SEQ ID NO: 2. The present invention selects and obtains the genomic molecular markers capable of distinguishing the thick-shelled mussels and the Mediterranean mussels, combined with the mitochondrial markers capable of distinguishing the hybrid progeny of the thick-shelled mussels and the Mediterranean mussels, on the basis of determining the hybrid progeny, through the mitochondrial markers The amplified HRM curves show different melting peak temperatures, and the mitochondrial differences of the two mussels can be distinguished by the position of the peaks of the curve; the progeny will keep the same melting peak as their parent, and then the maternal source of the progeny can be judged.

Description

A method of identification Trachyostracous mussel and Mediterranean mussel hybrid individual genetic background

Technical field

The invention belongs to shellfish Biotechnology in Genetic Breeding fields, and in particular to a kind of identification Trachyostracous mussel and Mediterranean mussel are miscellaneous The method for handing over individual inheritance background.

Background technique

Trachyostracous mussel (Mytilus coruscus) is under the jurisdiction of Mollusca Mollusca, Bivalvia Bivalvia, makes a gift of Shellfish mesh Mytilodia, Mytilidae Mytilidae, nutritive value is high, wide market.Trachyostracous mussel forms product, head Greatly, dressing percentage is high, full of nutrition, delicious flavour, deep by domestic and international consumers.Zhoushan sea area is originating in for Trachyostracous mussel Ground is local important economic shellfish；Zhoushan sea area only has Trachyostracous mussel before the 1970s, without Mediterranean mussel Distribution.Mediterranean mussel (Mytilus galloprovincialis) was introduced from Shandong, Liaoning and other places from 1973 to carry out manually After cultivation succeeds, Mediterranean mussel culture is quickly grown in Zhoushan.It is reported that there are Mediterranean mussels and thickness for Zhoushan sea area The hybrid Population of shell mussel, referred to as " hybrid ".Show that there is introgressions between Mediterranean mussel and rear shell mussel The phenomenon that.For the angle of conservation biology, interspecific hybridization and introgression between invasive species and indigenous species would generally be led Population structure is caused to change.

With the expansion of Trachyostracous mussel consumption market, the demand to Trachyostracous mussel seed also rises year by year, due to mussel seedling Kind is difficult to be identified from the appearance, it is necessary to develop the method for carrying out the identification of mussel seed based on molecular level.

Summary of the invention

The object of the present invention is to provide it is a kind of identify Trachyostracous mussel and Mediterranean mussel hybrid individual genetic background method, So as to effectively identify to Trachyostracous mussel and Mediterranean mussel and hybrid individual.

Present invention firstly provides a kind of for distinguishing the nucleic acid fragment of Trachyostracous mussel and Mediterranean mussel, wherein the core Acid fragment expands in Trachyostracous mussel and obtains 199bp segment, and in Mediterranean, mussel amplification obtains 133bp segment, the nucleic acid piece Sequence of the section in Trachyostracous mussel is SEQ ID NO:1, and the sequence in the mussel of Mediterranean is SEQ ID NO:2,

A method of it for identifying Trachyostracous mussel and Mediterranean mussel, is realized by detecting above-mentioned nucleic acid fragment 's；

The detection method, one of which are that above-mentioned nucleic acid fragment is expanded using PCR amplification primer,

One of primer pair, sequence information are as follows:

Upstream primer: CTAGAACCAGTATACAAACCTGTGAA (SEQ ID NO:3),

Downstream primer: CTAGAGTCTTAATGCTTTGTATGATGA (SEQ ID NO:4)；

Above-mentioned nucleic acid fragment detect again hybrid individual whether be pure lines in application.

Another aspect of the present invention provides a kind of detection and determines Trachyostracous mussel and Mediterranean mussel hybrid individual female parent source Method；It comprises the following steps that

1) first using molecular labeling that can be above-mentioned come whether determine individual to be detected be hybrid generation；

2) to the individual for being determined as hybrid generation, its maternal source is determined by detection mitochondrial molecule mark；

The mitochondrial molecule mark；Wherein the nucleic acid sequence in Trachyostracous mussel is SEQ ID NO:5；In Mediterranean The sequence of mussel is SEQ ID NO:6；

The wherein survey mitochondrial molecule mark, is detected by high-resolution solubility curve method；

In high-resolution solubility curve method primer sequence YB-16S-4, using used in high-resolution solubility curve method Primer YB-16S-4 sequence information it is as follows:

Upstream primer: GCTTTGGCTTGCTTAAGTAGTTT (SEQ ID NO:7)；

Downstream primer: ACTAAGCACAACTTAAGAGAA (SEQ ID NO:8).

The present invention, which screens, obtains the genome molecules label that can distinguish Trachyostracous mussel and Mediterranean mussel, in conjunction with can distinguish The mitochondrial markers of Trachyostracous mussel and Mediterranean mussel hybrid generation, which, passes through mitochondria on the basis of determining hybrid generation Different dissolution peak temperatures is presented in the HRM curve that label amplification obtains, and by the position of peak of curve, distinguishes two kinds of mussels Mitochondria difference；And the dissolution peak value that filial generation can be consistent with its female parent, and then judge the maternal source of filial generation.

Detailed description of the invention

Fig. 1: two kinds of mussel gene magnification sequence alignment figures are wherein the identical base sequence of two kinds of mussels in box；

Fig. 2: CG hybrid generation and parent's qualification figure, wherein M:marker；A1, A2: Trachyostracous mussel is maternal；B1, B2: ground Middle sea mussel male parent；1-10:CG hybrid generation；

Fig. 3: GC hybrid generation and parent's qualification figure, wherein M:marker；B3, B4: Mediterranean mussel is maternal；A3, A4: thick Shell mussel male parent；1-10:GC hybrid generation；

Fig. 4: CG hybrid generation and parent detect figure, and wherein red represents Trachyostracous mussel female parent；Green represents Mediterranean and makes a gift of Shellfish male parent；Blue represents CG hybrid generation；

Fig. 5: GC hybrid generation and parent detect figure, and it is maternal that Green represents Mediterranean mussel；Red represents thick shell and makes a gift of Shellfish male parent；Purple represents G C hybrid generation.

Specific embodiment

Applicant screens the line grain for obtaining the maternal source for being able to detect Trachyostracous mussel and Mediterranean mussel filial generation Can body molecular labeling mark in conjunction with the karyogene that distinguish Trachyostracous mussel and Mediterranean mussel, to facilitate the present invention.

Wherein the construction method of hybrid generation is as follows in the present invention:

Using Trachyostracous mussel female as female parent, for Mediterranean mussel male as male parent, the stimulation by running water that heats up obtains smart ovum, Hybridized, obtains the filial generation of CG Orthogonal Composite.

Using Mediterranean mussel female as female parent, for Trachyostracous mussel male as male parent, the stimulation by running water that heats up obtains smart ovum, Hybridized, obtains GC reciprocal cross and combine filial generation.

Take Selecting Parents of Hybrid Combination Based muscle, 100% alcohol fixation.60 days after Mytilus Edulis Larva hatching, 100% alcohol of sampling is solid It is fixed.Parent and each 10 individual DNA of reciprocal cross filial generation are extracted using phenol chloroform method.The DNA of extraction is diluted to 100ng/ Microlitre, and detect its integrality with 1.5% agarose gel electrophoresis, be stored in -20 DEG C it is spare.

Embodiment 1: the screening and identification of karyogene molecular labeling

It is found by the applicant that there are the genomic fragment segments of difference in size in Trachyostracous mussel and Mediterranean mussel, wherein Segment nucleotides sequence is classified as in Trachyostracous mussel

TCTAGAACCAGTATACAAACCTGTGAATAAGATTCCAACACCATATATATCC AAGAAAAGTTATCCG GCACCATATAAACCGAAAGGCTATTATCCTACGAAA CGTTATCAGCCAACATATGGATCAAAGACAAACTATCCG CCAATATATAAGC CcAATTGCAAAGAAGCTATCATCATACAAAGCATTAAGACTCTAGAAG(SEQ ID NO:1)

Sequence in the mussel of Mediterranean are as follows:

TCTAGAACCAGTATACAAACCTGTGAAGACAAGTTATCATCCTACgGAATA GTTATCCGCCAACATA TGGATCAAAGACAAACTATCTGCCACTTGCAAAGA AGCTGTCATCATACAAAGCATTAAGACTCTAGA(SEQ ID NO:2)

Comparison result shows that corresponding nucleotide fragments length in Trachyostracous mussel is 199bp segment, in Mediterranean mussel It is 133bp segment in amplification, the two differs 66bp (Fig. 1)；Therefore available to differentiate Trachyostracous mussel and Mediterranean mussel.

Designed for detecting the PCR amplification primer of above-mentioned segment, one of primer pair Myti-2, sequence information is such as Under:

Upstream primer: CTAGAACCAGTATACAAACCTGTGAA (SEQ ID NO:3)

Downstream primer: CTAGAGTCTTAATGCTTTGTATGATGA (SEQ ID NO:4)；

PCR reaction system is 25 μ L, comprising: 100ng DNA, 2 × Es TaqMasterMix (Dye) (health is century, in State).

52 DEG C of annealing 1min, 72 DEG C of extension 1min；Last 72 DEG C of extensions 10min.PCR product is solidifying using 2.5% agarose Gel electrophoresis detection.Two Selecting Parents of Hybrid Combination Based and the agarose amplification of filial generation are as shown in Fig. 2 and Fig. 3.CG hybridization group is maternal For two Trachyostracous mussels, male parent is two Mediterranean mussels, and respectively distinctive single tape, hybrid generation are presented respectively has two simultaneously The characteristic bands of a parent, show as biobelt.GC hybridization group female parent is two Mediterranean mussels, and male parent is two Trachyostracous mussels, Respectively distinctive single tape is presented respectively, hybrid generation has the characteristic bands there are two parent simultaneously, shows as biobelt.The result shows that The label of screening can effectively judge the kind of mussel seedling, and identify the Parent source of hybrid generation.

Embodiment 2: screening mitochondrial markers

The F mtDNA sequence for screening the Trachyostracous mussel and Mediterranean mussel that obtain, by using AlignX (a Component of Vector NTI Suite 7.1) software progress sequence alignment, search single nucleotide polymorphism (single Nucleotide polymorphism, SNP) region, screening obtains that there are the 84bp segments in 6 sites snp, in thick shell Mussel F mtDNA sequence are as follows:

GCTTTGGCTTGCTTAAGTAGTTTAGGAAAAACGTAAGATTTTCATTCTTAAT TCAGAAATTATTTCT CTTAAGTTGTGCTTAGT(SEQ ID NO:5)

In Mediterranean mussel F mtDNA sequence are as follows:

GCTTTGGCTTGCTTAAGTAGTTTAGGGAAAACATAAGATTTTCATTCTTAAG TCAGAAAGCAGTTCT CTTAAGTTGTGCTTAGT(SEQ ID NO:6)

Wherein 6 sites snp are located at amplicon 27 (A-G), 33 (G-A), 52 (T-G), 60 (T-G), 61 (T-C), 63 positions (T-G).

The primer sequence YB-16S-4 for detecting above-mentioned segment is devised according to design of primers principle, primer sequence is as follows:

Upstream primer: GCTTTGGCTTGCTTAAGTAGTTT (SEQ ID NO:7)；

Downstream primer: ACTAAGCACAACTTAAGAGAA (SEQ ID NO:8).

The maternal source of seed is identified using high-resolution solubility curve method using above-mentioned primer.It uses480 saturated fluorescence dyestuff HRM kits include: 10 μ L 1 × 480HRM Master Mix withDye (Roche Diagnostics), positive anti-primer each 10 μm of ol, 100ng DNA Template, 1.6 μ L Mgcl2, moisturizing to 20 μ L.The melting curve analysis of PCR reaction and product exists simultaneously480 It is carried out on real-time quantitative analysis instrument (Roche Diagnostics).Response procedures are as follows: 95 DEG C of initial denaturation 10min, 95 DEG C of denaturation 30s, Tm annealing 30s, 72 DEG C of 30s, 45 circulations.Amplified production rises to 95 DEG C of 5s by 72 DEG C with 4.4 DEG C/s, with 2.2 DEG C/s drop To 65 DEG C of 1min, 95 degrees Celsius are risen to 0.11 DEG C/s.40 DEG C are cooled to 0.11 DEG C/s.Roche is used after reactionIncluded 1.5 software of Tm Calling and Gene Scanning Software of 480 softwares carries out Tm value Analysis and Genotyping.In CG cross combination, the solubility curve peak value of two Trachyostracous mussel female parents is in 75.5 DEG C, two ground The solubility curve peak value of extra large mussel male parent is located at 78.1 DEG C.The solubility curve figure of 10 hybrid generations and maternal Trachyostracous mussel one It causes, is respectively positioned on 75.5 DEG C.Similarly, the solubility curve figure of 10 filial generations of CG reciprocal cross combination is consistent with maternal Mediterranean mussel, equal position In 78.1 DEG C.Amplification curve is shown in Fig. 4 and Fig. 5.Show the dissolution peak curve of two groups of hybrid generations from the testing result of Fig. 4 and Fig. 5 Figure is consistent with female parent, shows the matrilinear inheritance rule for meeting F mitochondria according to the primer amplification result, can be used as identification filial generation The label in maternal source.

Embodiment 3: to the qualification result of 4 nursery source mussel seedlings

The Trachyostracous mussel seed of hatching 60-120 days is acquired from 4, Zhejiang Province mussel nursery (being named as A, B, C, D) Totally 103 individuals, are identified using the above method.After being individually homogenized using spat, phenol chloroform method extracts the DNA of individual. The DNA of extraction is diluted to 100ng/ microlitres, and detects its integrality with 1.5% agarose gel electrophoresis, is stored in -20 DEG C It is spare.

Determine whether detection individual is hybrid generation first, karyogene sequence is expanded using primer Myti-2, carries out agar Sugar detection, it is determined whether there is hybridization, testing result shows 29 detection spats of nursery B, 30 inspections with nursery C Surveying spat is single band, and feature is consistent with Trachyostracous mussel band, is determined as purebred Trachyostracous mussel seedling.

26 detection spats of nursery A have 23 the single band of Trachyostracous mussel characteristic occur, and 3 individuals go out simultaneously Two characteristic bands of existing Trachyostracous mussel and Mediterranean mussel, are determined as hybrid individual.

18 detection spats of nursery D, have 1 the single band of Mediterranean mussel characteristic occur, 17 individuals are simultaneously There are two characteristic bands of Trachyostracous mussel and Mediterranean mussel, is determined as hybrid individual.

For the parent source for further determining that hybrid individual, and to being determined as that purebred mussel seed confirms again, I has carried out solubility curve analysis to all 103 individuals, using F mitochondria primer YB-16S-4.The result shows that: nursery B 29 detection spats, be respectively positioned on 75.5 DEG C with 30 detection spat solubility curve peaks of nursery C, be Trachyostracous mussel feature Peak.Female parent is determined as Trachyostracous mussel.

, there is Trachyostracous mussel characteristic peak value in 26 detection spats of nursery A, show that this 26 individual female parents are Trachyostracous mussel.Syncaryon genetic test is as a result, can determine that, wherein 23 individuals are purebred Trachyostracous mussel seedling, 3 hybrid individuals are Trachyostracous mussel female parent and Mediterranean mussel paternal hybrid obtain.

18 detection spats of nursery D, show Mediterranean mussel characteristic peak value, show that this 18 individuals are female It originally is Mediterranean mussel.Syncaryon genetic test is as a result, can determine that, wherein 1 individual is purebred Mediterranean mussel seedling, 17 Hybrid individual is that Mediterranean mussel female parent and Trachyostracous mussel paternal hybrid obtain.

To sum up, this all 103 spat obtains effective identification, identifies that success rate is 100%.Wherein nursery B and C It is Trachyostracous mussel seedling；A factory 88.5% is Trachyostracous mussel seedling, and 11.5% is Trachyostracous mussel ♀ × Mediterranean mussel ♂ cross hybrid seedling； C factory 5.6% is Mediterranean mussel seedling, and 94.4% is Mediterranean mussel ♀ × Trachyostracous mussel ♂ cross hybrid seedling.

Qualification result shows that in nursery A and D production process, the female parent used in the parent of A factory is that thick shell is made a gift of Shellfish, but a small amount of close shellfish of Mediterranean mussel male is mixed in male parent, lead to the hybrid seedlings for occurring a small amount of；D factory is then to use Female parent be Mediterranean mussel, but be mixed with the close shellfish of a large amount of Trachyostracous mussel male in male parent, lead to the major part of production Seed is cross hybrid seedling and the purebred seedling of Mediterranean mussel, not purebred Trachyostracous mussel seed.Qualification result embodies thick shell and makes a gift of The importance that parent selects in shellfish seedling raising process, and the mistake of female and the close shellfish selection of male, the Trachyostracous mussel seed produced There is also differences for the difference of ratio.

Claims (8)

1. a nucleic acid fragment for distinguishing thick-shelled mussel and Mediterranean mussel, is characterized in that, the sequence of described nucleic acid fragment in thick-shelled mussel is SEQ ID NO: 1, and the sequence in Mediterranean mussel is SEQ ID NO:2. 2 . A method for identifying mussels with thick shell and Mediterranean mussels, characterized in that, the method is realized by detecting the nucleic acid fragment according to claim 1 . 3. The method of claim 2, wherein the method is to amplify the nucleic acid fragment of claim 1 using PCR amplification primers. 4. The method of claim 3, wherein the sequence of the upstream primer of the primer is SEQ ID NO:3, and the sequence of the downstream primer is SEQ ID NO:4. 5. The application of the nucleic acid fragment of claim 1 in detecting whether a hybrid individual is a pure line. 6. a method for detecting the source of the female parent of the hybridization of mussels serrata and Mediterranean mussel; it is characterized in that, described method comprises the steps: 1) first use the nucleic acid fragment described in claim 1 to determine whether the individual to be detected is a hybrid offspring; 2) For individuals determined to be hybrid offspring, determine their maternal origin by detecting mitochondrial molecular markers; Said mitochondrial molecular marker; wherein the nucleic acid sequence in mussels thick-shelled is SEQ ID NO:5; the sequence in mussels is SEQ ID NO:6. 7. The method of claim 6, wherein the detection of mitochondrial molecular markers is performed using a high-resolution melting curve method. 8. The method of claim 7, wherein the primer pair used in the method has the sequence of the upstream primer of SEQ ID NO:7 and the sequence of the downstream primer of SEQ ID NO:8.