家蚕AFLP分子连锁图谱的构建及绿茧基因定位

利用改进的AFLP技术,对家蚕品系C100和大造的回交一代BC,群体进行连锁图谱的构建。经28对引物组合的选择性扩增,共获得了3956条带,平均每对引物产生141．3条带,获得多态性带只有1018条,多态性带的比率为25．7％。其中693(68．1％)个多态性位点符合1：1孟德尔分离比例。利用Mapmaker／Exp3．0软件进行连锁分析,构建了一张含有408个标记位点、33个连锁群、总图距为3676．7cM的连锁图谱,并将绿茧基因定位在该图谱的22连锁群上,表明该连锁群与家蚕经典遗传学的第15染色体相对应。     

家蚕AFLP连锁框架图谱的构建

利用改进的AFLP分子标记方法,对家蚕Bombyx mori回交一代BC1群体进行连锁图谱的构建。经17组AFLP引物的选择性扩增,共得到430个多态位点,卡方检验后有253个为有效位点。利用Mapmaker/Exp (Version 3.0b)软件作连锁分析,其中163个标记分属28个连锁群,连锁群标记数变化范围是2～28个,平均每个连锁群标记数为5.8个,该图覆盖的基因组长度为2.998.9cM(图距单位),连锁群长度变化范围为4.5～652.8 cM,连锁群的平均长度为107.1 cM,平均图距为4.5～36.7 cM。     

家蚕高密度AFLP连锁图谱的构建

为了进行家蚕Bombyx mori数量性状的QTL定位研究,以白色茧系品种C₁₀₀ (♀)和近交系大造(P50)(♂)杂交得到F₁,用F₁(♂)与双隐性标记的C₁₀₀ (♀)回交,得到回交一代(BC₁),用改进的AFLP分子标记方法,经96组选择性扩增引物扩增,获得分离比为1∶1(P≤0.05)的1 744个AFLP位点。用Map Manager QTXb19（Version 0.29）连锁图谱构建软件,构建了具有814个标记,36个连锁群的家蚕高密度AFLP分子标记连锁图谱。该连锁图谱覆盖的家蚕基因组长度为13 005 cM,连锁群长度变化范围为109.0～1 573.7 cM,连锁群的平均长度为361.25 cM,其标记间平均图距15.98 cM,最小图距2.3 cM,最大图距47.7 cM,标记间大于30 cM的gap共有39个。该连锁图平均每个连锁群23个标记,最多一个连锁群有92个标记,最少8个标记。该连锁图谱确定了与经典实验遗传图谱第15连锁群和W染色体连锁群相对应的两个连锁群。     

功能型分子标记（ISAP）的开发及评价功能型分子标记（ISAP）的开发及评价

分子标记在图谱构建,QTL分析,基因定位以及标记辅助育种中起着越来越重要的作用。研究者都期望一个分子标记位点代表一个特定的基因,甚至与某种性状联系起来,这样,通过对某个分子标记的筛选即能对性状进行筛选,此即功能型分子标记。而目前广泛使用的基于PCR基础的分子标记如RAPD、SSR、AFLP等或是扩增非编码区域,或是随机在基因组中扩增,得到的位点一般与目标性状基因距离较远,这使得分子标记在应用上与其目标有一定的偏差。研究建立了一种基于基因中内含子序列的功能型分子标记,试图使标记位点与基因序列联系起来以达到其功能型的目的。它利用内含子剪接位置的保守一致序列作为其引物的核心序列,其上下游引物均为18bp,上下游引物间通过组合配对的方式作为扩增的引物对,对真核生物的基因序列进行扩增。为了验证ISAP的功能性,研究设计了17条引物（9条上游引物,8条下游引物,共计72个引物组合）对棉花F2群体进行扩增并构建遗传连锁图谱,其中67个显示了多态性,共得到212个位点。我们用此212个位点连同164个SRAP位点构建了一张包含276个位点的遗传连锁图谱,ISAP标记在整个连锁群中分布比较均匀,部分区域呈现标记高饱和现象,可能为编码序列富集区。另外对20个片段进行测序的结果表明,85%的序列显示了与已公布EST序列的同源性,说明扩增是跨越了外显子进行的,得到的序列与表达序列紧密连锁。结果显示,ISAP标记是简单,可靠,具有较高多态性,并且扩增基因区域的一种功能型分子标记。同时,还使用ISAP标记对其他植物进行了扩增,取得了良好的效果。     

绥农14及其系谱亲本的遗传多样性及重组分析

以绥农14及其系谱中的亲本品种为实验材料, 对14个农艺性状及分布在20个大豆连锁群上139对SSR引物进行分析, 揭示品种间遗传多样性和遗传重组关系, 为大豆新品种选育提供理论依据。聚类分析结果与品种间的亲缘关系相似, 每个SSR位点Shannon-Weaver指数的分布范围为0~1.677; 品种间的相似系数平均值为0.6380, 变化范围为0.5380~0.7990。筛选出区分这些品种的最少SSR位点数为3个; 如Satt543、Sat_130、Satt218。研究发现, 连锁群中间区段重组率与两个末端区段重组率无显著性差异, 说明连锁群上各区段的遗传重组是随机分布的。在139对引物中有39对引物在绥农14及其8个亲本间没有多态性, 表明这些位点可能对品种改良具有重要作用; 位于B2连锁群的Satt168是从祖先亲本紫花4号保留给绥农14的唯一的多态性位点, 可见, 经过5个世代的杂交重组和遗传改良, 绥农14的遗传组成与紫花4号相比已经发生了很大的变化。     

三色堇与角堇种间遗传连锁图谱构建

该研究以二倍体三色堇和角堇为亲本杂交产生的66株F2代分离群体为作图群体,采用SRAP标记技术进行基因分型,利用JoinMap4.0软件构建了首张三色堇与角堇的种间遗传连锁图谱。结果表明:(1)从256对SRAP引物组合中筛选获得50对多态性好、标记位点清晰且稳定的引物组合。(2)通过对三色堇F2代群体的PCR扩增,共获得118个SRAP多态性标记位点,其中偏分离标记率为24.6%,符合遗传作图需要。(3)成功构建了三色堇和角堇的种间分子遗传连锁图谱,该图谱有15个连锁群,67个SRAP标记,连锁群长度范围1.6~52.2 cM,覆盖基因组总长度327.9 cM,标记间平均图距为4.9 cM。研究结果为三色堇和角堇高密度遗传图谱构建和重要性状的基因定位及分子标记辅助选择育种奠定了基础。     

家蚕胚胎细胞系的DNA指纹图谱分析

在建立可靠的家蚕细胞系基因组DNA制备和PCR扩增技术体系的基础上,筛选具有稳定多态性位点的RAPD和ISSR引物,建立家蚕细胞系基因组DNA的ISSR和RAPD分子标记技术体系,检测家蚕细胞系的DNA分子标记多态性,构建细胞系的DNA指纹图谱。筛选出了26个ISSR引物和43个RAPD引物,通过PCR扩增在家蚕胚胎细胞系和传代昆虫细胞系等9个样品中分别获得了797条和1205条多态性条带,多态性达到89．9%和76．6%,不同细胞系的DNA多态性有较大差异,三个家蚕胚胎细胞系具有各自特有的DNA标记。测定了9个样品间的Nei's相似系数和遗传距离,构建了系统发育树,结果表明本实验室建立的3个家蚕胚胎细胞系和家蚕“夏芳×秋白”聚为一簇,亲缘关系较近,而来自不同物种的五个传代昆虫细胞系聚为一簇,它们之间的遗传距离比3个家蚕胚胎细胞系之间的遗传距离更小。     

功能型分子标记(ISAP)的开发及评价

分子标记在图谱构建, QTL分析, 基因定位以及标记辅助育种中起着越来越重要的作用。研究者都期望一个分子标记位点代表一个特定的基因, 甚至与某种性状联系起来, 这样, 通过对某个分子标记的筛选即能对性状进行筛选, 此即功能型分子标记。而目前广泛使用的基于PCR基础的分子标记如RAPD、SSR、AFLP等或是扩增非编码区域, 或是随机在基因组中扩增, 得到的位点一般与目标性状基因距离较远,这使得分子标记在应用上与其目标有一定的偏差。研究建立了一种基于基因中内含子序列的功能型分子标记, 试图使标记位点与基因序列联系起来以达到其功能型的目的。它利用内含子剪接位置的保守一致序列作为其引物的核心序列,其上下游引物均为18 bp, 上下游引物间通过组合配对的方式作为扩增的引物对, 对真核生物的基因序列进行扩增。为了验证ISAP的功能性, 研究设计了17条引物(9条上游引物, 8条下游引物, 共计72个引物组合)对棉花F2群体进行扩增并构建遗传连锁图谱, 其中67个显示了多态性, 共得到212个位点。我们用此212个位点连同164个SRAP位点构建了一张包含276个位点的遗传连锁图谱, ISAP标记在整个连锁群中分布比较均匀,部分区域呈现标记高饱和现象, 可能为编码序列富集区。另外对20个片段进行测序的结果表明, 85％的序列显示了与已公布EST序列的同源性, 说明扩增是跨越了外显子进行的, 得到的序列与表达序列紧密连锁。结果显示, ISAP标记是简单, 可靠, 具有较高多态性, 并且扩增基因区域的一种功能型分子标记。同时, 还使用ISAP标记对其他植物进行了扩增, 取得了良好的效果。     

白桦AFLP遗传连锁图谱的构建

以80个中国白桦(Betula platyphylla Suk)×欧洲白桦(Betula pendula Roth)的F1个体为作图群体, 利用扩增片段长度多态性(Amplified fragment length polymorphism, AFLP)标记, 按照拟测交作图策略, 分别构建了中国白桦和欧洲白桦的分子标记遗传连锁图谱。从64对AFLP引物组合中筛选出34对多态性丰富的引物组合, 这些入选的引物组合在分离群体中共检测到451个多态性位点。χ2检验结果表明, 有362个位点符合1∶1分离(拟测交分离位点), 41个位点符合3∶1分离, 20个位点符合1∶3分离, 28个位点属偏分离位点。在符合拟测交分离的位点中, 201个位点来自中国白桦, 161个位点来自欧洲白桦。利用2点连锁分析, 来自中国白桦的201个标记构成了14个连锁群(4个以上标记), 10个三连体和14个连锁对, 45个为非连锁位点, 连锁标记覆盖的总图距为1 296.1 cM, 平均图距15.5 cM。而来自欧洲白桦的161个标记构成了17个不同的连锁群(4个以上标记), 8个三连体和4个连锁对, 15个为非连锁位点, 连锁标记覆盖的总图距为1 035.8 cM, 平均图距12 cM。     

利用向日葵重组自交系构建遗传图谱

以向日葵自选系K55为母本、K58为父本杂交组合,通过单粒传得到的187个F_5：6代重组自交系群体为作图材料,联合应用SSR和AFLP标记构建遗传连锁图谱。经过78对SSR引物和48对AFLP引物组合选择性扩增,分别得到341和1119条带,共1460条,分别获得多态性条带184条和393条,共577条多态性条带,占所有条带的39.52%。SSR和AFLP标记各有84个和108个多态性标记偏离孟德尔分离比例(P=0.05),共192个偏分离标记。采用JoinMap4.0软件进行连锁分析,构建了1张总长度为2759.4 cM、包含17个连锁群、连锁495个多态性标记的遗传图谱,其中偏分离标记170个,标记间的平均图距为5.57 cM。每个连锁群上分布有5~72个标记,长68.88~250.17 cM。本图谱为向日葵永久性图谱,为向日葵重要性状QTL定位和基因克隆奠定基础。     

RAPD-based genetic linkage maps of yellow passion fruit (Passiflora edulis Sims. f. flavicarpa Deg.).

A single cross between two clones of passion fruit (Passiflora edulis Sims. f. flavicarpa Deg., 2n = 18) was selected for genetic mapping. The mapping population was composed of 90 F1 plants derived from a cross between 'IAPAR 123' (female parent) and 'IAPAR 06' (male parent). A total of 380 RAPD primers were analyzed according to two-way pseudo-testcross mapping design. The linkage analysis was performed using Mapmaker version 3.0 with LOD 4.0 and a maximum recombination fraction (theta) of 0.30. Map distances were estimated using the Kosambi mapping function. Linkage maps were constructed with 269 loci (2.38 markers/primer), of which 255 segregated 1:1, corresponding to a heterozygous state in one parent and null in the other. The linkage map for 'IAPAR123' consisted of 135 markers. A total of nine linkage groups were assembled covering 727.7 cM, with an average distance of 11.20 cM between framework loci. The sizes of the linkage groups ranged from 56 to 144.6 cM. The linkage map for 'IAPAR 06' consisted of 96 markers, covering 783.5 cM. The average distance between framework loci was 12.2 cM. The length of the nine linkage groups ranged from 20.6 to 144.2 cM. On average, both maps provided 61% genome coverage. Twenty-four loci (8.9%) remained unlinked. Among their many applications, these maps are a starting point for the identification of quantitative trait loci for resistance to the main bacterial disease affecting passion fruit orchards in Brazil, caused by Xanthomonas campestris pv. passiflorae, because parental genotypes exhibit diverse responses to bacterial inoculation.     

Development of genetic maps of the citrus varieties ‘Murcott’ tangor and ‘Pêra’ sweet orange by using fluorescent AFLP markers

The progeny of 87 BC(1) hybrids of 'Murcott' tangor and 'Pera' sweet orange, genotyped with fluorescent amplified fragment length polymorphism (fAFLP) markers, was used for the construction of genetic maps for both citrus varieties. Mapping strategies, considering the progeny as a result of backcrossing and cross-pollination, were exploited in Mapmaker 2.0 (LOD score >or= 3.0 and or= 3.0 and theta 相似文献   

Linkage Mapping of DNA Markers Generated with Specific and Non-Specific Gene Primers in Soybean

Polymerase chain reaction (PCR) has been used extensively in the construction of linkage maps for many cultivated crops including soybean, [Glycine max (L.) Merr]. In this study, four sets of oligonucleotide primer pairs of known genes (pearl millet Adh 1, nodule specific proline-rich protein, Drosophila homeobox, heat shock protein), several different combinations from kits A, D, E, and J of arbitrary primers and five primer pairs of soybean simple sequence repeats of varying length (Satt 9, Satt 20, Satt 42, Satt 64, and Satt 30) were utilized in PCR to identify molecular markers which were then used to construct a genetic linkage map. DNA for the PCR reactions was isolated from 65 recombinant inbred soybean lines resulting from crossing PI 290,136 and BARC-2 (Rj ₄ ), followed by self-pollination for seven generations without selection. Mapmaker 3.0, a computer package, was used for construction of the linkage map. A total of 43 polymorphic markers were identified; 30 markers were linked and distributed among 5 linkage groups while 13 markers were unlinked. Arbitrary primers revealed more polymorphisms than specific primers. A combination of arbitrary primers A5 and A18 revealed the maximum number of polymorphic bands. Five observed linkage groups can be expanded in future soybean research by using additional markers.     

Preliminary genetic linkage maps of Chinese herb Dendrobium nobile and D. moniliforme

Dendrobium is an endangered genus in the orchid family with medicinal and horticultural value. Two preliminary genetic linkage maps were constructed using 90 F₁ progeny individuals derived from an interspecific cross between D. nobile and D. moniliforme (both, 2n?=?38), using random amplified polymorphic DNA (RAPD) and intersimple sequence repeat (ISSR). A total of 286 RAPD loci and 68 ISSR loci were identified and used for genetic linkage analysis. Maps were constructed by double pseudo-testcross mapping strategy using the software Mapmaker/EXP ver. 3.0, and Kosambi map distances were constructed using a LOD score ≥ 4 and a recombination threshold of 0.4. The resulting frame map of D. nobile was 1474 cM in total length with 116 loci distributed in 15 linkage groups; and the D. moniliforme linkage map had 117 loci placed in 16 linkage groups spanning 1326.5 cM. Both maps showed 76.91% and 73.59% genome coverage for D. nobile and D. moniliforme, respectively. These primary maps provide an important basis for genetic studies and further medicinal and horticultural traits mapping and marker-assisted selection in Dendrobium breeding programmes.     

Development of STS markers linked to Hessian fly resistance gene H6 in wheat

Hessian fly is one of the world's most destructive insect pests of wheat Triticum aestivum L. We have used the combination of near-isogenic lines (NIL) and random amplified polymorphic DNA (RAPD) analysis to screen up to 2,000 primers to identify DNA markers that are linked to gene H6 that confers resistance to biotype B of the insect. This screen produced six primers that show polymorphic fragments associated with resistance by H6. We have screened 440 F₂ individuals from a cross of the susceptible cultivar Newton and a NIL that contains H6 to verify the linkage between these markers and the resistance gene. A high-resolution genetic map was constructed based on recombination frequency. Two of the markers were tightly linked to the gene with no recombination observed, three were within 2.0 cM, and one was 11 cM from the gene. Three of the six markers were successfully converted to sequence tagged site (STS) markers. Both RAPD and STS primers were used to screen for the presence or absence of the resistance gene in wheat varieties. The identification of markers and construction of the genetic high resolution map provide the first steps toward localization of this resistance gene.     

Homozygosity mapping places the acrodermatitis enteropathica gene on chromosomal region 8q24.3

Acrodermatitis enteropathica (AE) is a rare autosomal recessive pediatric disease characterized by dermatitis, diarrhea, alopecia, and growth failure. The disease results from insufficient uptake of zinc by the intestine and can be fatal unless the diet is supplemented with zinc. To map the gene responsible for AE, a genomewide screen was performed on 17 individuals, including 4 affected individuals, in a consanguineous Jordanian family. Three markers-D8S373, D10S212, and D6S1021-had a pattern consistent with tight linkage to a recessive disease: one allele in the affected sibs and multiple alleles in unaffected sibs and parents. Two-point parametric linkage analysis using FASTLINK identified one region, D8S373, with a maximum LOD score >1.5 (1.94 at D8S373: recombination fraction.001). Twelve additional markers flanking D8S373 were used to genotype the extended family, to fine-map the AE gene. All five affected individuals-including one who was not genotyped in the genomewide screen-were found to be homozygous for a common haplotype, spanning approximately 3.5 cM, defined by markers D8S1713 and D8S2334 on chromosomal region 8q24.3. To support these mapping data, seven consanguineous Egyptian families with eight patients with AE were genotyped using these markers, and six patients from five families were found to be homozygous in this region. Multipoint analysis with all consanguineous families, by Mapmaker/Homoz, resulted in a maximum LOD score of 3.89 between D8S1713 and D8S373. Sliding three-point analysis resulted in a maximum LOD score of 5.16 between markers D8S1727 and D8S1744.     

An AFLP-based linkage map of Japanese red pine (Pinus densiflora) using haploid DNA samples of megagametophytes from a single maternal tree

We have constructed an AFLP-based linkage map of Japanese red pine (Pinus densiflora Siebold et Zucc.) using haploid DNA samples of 96 megagametophytes from a single maternal tree, selection clone Kyungbuk 4. Twenty-eight primer pairs generated a total of 5,780 AFLP fragments. Five hundreds and thirteen fragments were verified as genetic markers with two alleles by their Mendelian segregation. At the linkage criteria LOD 4.0 and maximum recombination fraction 0.25(theta), a total of 152 markers constituted 25 framework maps for 19 major linkage groups. The maps spanned a total length of 2,341 cM with an average framework marker spacing of 18.4 cM. The estimated genome size was 2,662 cM. With an assumption of equal marker density, 82.2% of the estimated genome would be within 10 cM of one of the 230 linked markers, and 68.1% would be within 10 cM of one of the 152 framework markers. We evaluated map completeness in terms of LOD value, marker density, genome length, and map coverage. The resulting map will provide crucial information for future genomic studies of the Japanese red pine, in particular for QTL mapping of economically important breeding target traits.     

A first genetic linkage map of mulberry (Morus spp.) using RAPD, ISSR, and SSR markers and pseudotestcross mapping strategy

To lay the foundation for molecular breeding efforts, the first genetic linkage map of mulberry (2n=2x=28) was constructed with 50 F1 full-sib progeny using randomly amplified polymorphic DNA (RAPD), inter-simple sequence repeat (ISSR), and simple sequence repeat (SSR) markers and two-way pseudotestcross mapping strategy. We selected 100 RAPD, 42 ISSR, and 9 SSR primers that amplified 517 markers, of which 188 (36.36%) showed a test-cross configuration, corresponding to the heterozygous condition in one parent and null in the other. Two separate female and male maps were constructed using 94 each of female- and male-specific testcross markers, containing 12 female linkage groups and 14 male linkage groups. At a minimum logarithm of the odds (LOD) score threshold of 6.0 and at a maximum map distance of 20 cM, the female map covered a 1,196.6-cM distance, with an average distance of 15.75 cM and maximum map distance of 37.9 cM between two loci; the male-specific map covered a 1,351.7-cM distance, with an average distance of 18.78 cM and a maximum map distance between two loci is of 34.7 cM. The markers distributed randomly in all linkage groups without any clustering. All 12 linkage groups in the female-specific map consisted of 4–10 loci ranging in length from 0 to 140.4 cM, and in the male-specific map, the 13 largest linkage groups (except linkage group 12, which contained three loci) consisted of 4–12 loci, ranging in length from 53.9 to 145.9 cM and accounting for 97.22% of the total map distance. When mapping, progeny pass through their juvenile phase and assume their adult characters, mapping morphological markers and identification of quantitative trait loci for adaptive traits will be the primary target. In that sense, our map provides reference information for future molecular breeding work on Morus and its relatives.     

A microsatellite linkage map of rainbow trout (Oncorhynchus mykiss) characterized by large sex-specific differences in recombination rates

We constructed a genetic linkage map for a tetraploid derivative species, the rainbow trout (Oncorhynchus mykiss), using 191 microsatellite, 3 RAPD, 7 ESMP, and 7 allozyme markers in three backcross families. The linkage map consists of 29 linkage groups with potential arm displacements in the female map due to male-specific pseudolinkage arrangements. Synteny of duplicated microsatellite markers was used to identify and confirm some previously reported pseudolinkage arrangements based upon allozyme markers. Fifteen centromeric regions (20 chromosome arms) were identified with a half-tetrad analysis using gynogenetic diploids. Female map length is approximately 10 M, but this is a large underestimate as many genotyped segments remain unassigned at a LOD threshold of 3.0. Extreme differences in female:male map distances were observed (ratio F:M, 3.25:1). Females had much lower recombination rates (0.14:1) in telomeric regions than males, while recombination rates were much higher in females within regions proximal to the centromere (F:M, 10:1). Quadrivalent formations that appear almost exclusively in males are postulated to account for the observed differences.