梭梭同工酶遗传多态性初步研究

采用不连续聚丙烯酰胺凝胶电泳技术对采自新蛹阜康绿洲荒漠过渡带的40个梭梭个体的同工酶遗传多态性进行了初步研究。从24个酶系统中筛选,得到了14个酶系统可用于该植物的遗传变异分析。共检测出30个位点、54个等位基因,其中18个位点表现出多态性。在物种水平上,多态位点比率为60％,而平均每个位点的等位基因数为1．8。本研究的方法和结果将为后续相关研究提供一定的参考。     

草鱼全同胞鱼苗不同个体甲基化位点的差异

本研究通过甲基化敏感扩增多态性(Methylation sensitive amplification polymorphism)对一对草鱼亲本的20个子代甲基化位点进行了研究。从20对引物组合中扩增出311个位点,其中甲基化位点236个,占总扩增位点的75.9%,表明草鱼水花期基因组甲基化水平已经很高,说明它们大部分组织分化基本完成;其中甲基化多态位点65个,占甲基化位点的27.5%,说明这些子代草鱼甲基化位点已经有相当的差异。对其他两对亲本的后代用六个引物组合扩增的结果表明,同一亲本的子代在甲基化模式上有差异可能是普遍现象。本研究结果说明,即使来自同一对草鱼亲本的不同子代个体在基因表达上也有较大的差异,因此很多性状在草鱼后代的分离和一些基因表达的改变有一定的关系。     

苜蓿SSR遗传距离与杂种优势的相关性分析

利用SSR标记技术对40份苜蓿材料（6个雄性不育株系和34个苜蓿品种）的遗传距离进行分析,并利用其中的6个不育株系与14个苜蓿品种测交,进一步对遗传距离(GD)、产量配合力与杂种优势效应进行相关性分析。结果表明,25对SSR引物共扩增出189条谱带,其中多态性条带136条,平均多态性位点百分率为69.23%;40份苜蓿材料的遗传距离为0.1818～0.9091,平均0.4544;各亲本一般配合力及GD均与杂种优势效应存在显著正相关,其中亲本一般配合力与杂种优势的相关性要高于GD.因此,仅以SSR遗传距离还不足以准确的组配强优势组合,需结合各性状配合力的分析,以充分发挥杂种优势效应。     

使用林鹳微卫星引物对东方白鹳基因组DNA进行交叉扩增

利用林鹳11个微卫星位点的引物对东方白鹳进行交叉扩增。经过PCR体系的优化,在11个位点中有6个得到清晰的扩增条带,其余5位点得不到确切的扩增产物。对上述6个位点的扩增产物进行克隆测序分析,发现其中4个位点上的扩增产物含有微卫星重复序列,而另外两个位点中无重复单元。通过基因分型对上述4个微卫星位点进行多态性分析后发现其中的WSμ13,WSμ17位点分别为高度多态和中度多态位点,而另外两个位点则无多态性。同时还对影响交叉扩增结果成功率及微卫星位点多态性的因素进行了分析和总结。     

鲤科鱼蓝黑鲮微卫星位点的种间扩增(英文)

本研究使用105对微卫星引物对7种鲤科鱼类进行跨越种间PCR扩增,共得到14个多态性微卫星位点.其中9个扩增效果较好的位点用于分析来自帕吉勒提河(Bhagirathi, n=20)和戈达瓦里河(Godavari, n=25)的蓝黑鲮(Labeo calbasu)样品的遗传多样性.结果显示,前者在每个位点的平均等位基因数为7.33,而后者为8 1,期望杂合度介于0.795(Bhagirathi)和0.801(Godavari)之间;4个位点MFW11* (Godavari)、R1*(Godavari)、R3* (Bhagirathi) 和 Lr38*(Bhagirathi和Godavari)都表现出明显的杂合子缺失和哈迪温伯格平衡偏离;而任意两位点间都未观测到连锁不平衡现象;位点R3*极可能存在无效等位基因.上述结果表明这些多态性微卫星位点作为共显性标记在蓝黑鲮群体遗传学研究中有着较好的应用前景.     

近缘种扩增法对黑叶猴微卫星位点的筛选及特征分析(英文)

微卫星位点近缘种筛选法使得在探讨各种灵长类种群遗传结构和生殖策略上更加便捷。我们利用138条人类微卫星引物在黑叶猴中进行筛选,得到了23个具有多态性位点。在28个检测个体中,每个位点的等位基因数为3到9个,期望杂合度为0.62,观测杂合度为0.50,其中有7个位点偏离Hardy-Weinberg平衡,9个位点存在无效等位基因现象。但是各位点之间均未检测到连锁不平衡现象。这些位点将在黑叶猴种群遗传结构的研究中发挥重要作用。     

微卫星标记对WHBE兔封闭群、日本大耳白兔和新西兰兔的遗传分析

目的分析比较大耳白黑眼兔（WHBE兔）封闭群与日本大耳白兔（Jw兔）、新西兰兔（NZW兔）基因组存在的微卫星结构,研究WHBE兔封闭群的微卫星多态性。方法利用21个微卫星位点,通过微卫星分子标记技术对WHBE兔封闭群、Jw兔和NZW兔进行遗传多样性检测和对比。结果根据初步结果,在21对微卫星引物中筛选出扩增产物稳定并且具有多态性的11对引物。WHBE兔封闭群在每个位点上的等位基因数为3～8个不等,11个位点的平均有效等位基因数为2．0402个,平均杂合度为0．4810;Jw兔在每个位点上的等位基因数为2～8个不等,11个位点的平均有效等位基因数为3．6077个,平均杂合度为0．5039;NZW兔在每个位点上的等位基因数为3～9个不等,11个位点的平均有效等位基因数为2．6537个,平均杂合度为0．5334。WHBE兔封闭群在11个微卫星位点上的平均多态信息含量（PIC）为0．6005,多位点累积个体识别率达到100％,多位点累积非父排除概率（CPE）在双亲信息都是未知情况下的为0．9613,而在得知任一亲本信息的情况下,CPE值高达0．9973。在11个微卫星座位中,9个位点上出现了WHBE兔封闭群特有等位基因,其中在Sat2、Sat5、Sat7、Sat12、Sat13、Sat16、S0144和INRACCDDV0003八个位点上WHBE兔封闭群的特有等位基因为一个,在sat8位点上为两个。结论WHBE兔8个位点的平均杂合度、平均有效等位基因数均比JW兔及NZW兔低,说明WHBE兔群体的基因纯合度高于其他两个品系,具有更优的遗传稳定性。9个WHBE兔特有的等位基因可作为区分WHBE兔封闭群和其它两个品系实验兔的分子标记。     

小麦淀粉粒束缚淀粉合成酶基因多态性的分子鉴定

运用6％的SDS-PAGE对14个小麦品种成熟籽粒Wx蛋白的多态性进行了鉴定,结果表明,14个小麦品种根据其Wx蛋白的缺失情况可分为6种组合类型。另外,根据Wx-A1、Wx-D1和Wx-D1这3个位点基因序列和变异情况分别设计了PCR引物,扩增结果表明：Wx-A1位点突变材料扩增产物为327bp,正常材料中扩增不到该特异带;在Wx-B1位点扩增出187bp目标带,突变材料没有该扩增产物;在Wx-D1位点扩增出约700bp目标带,突变材料没有该特异带。与前人的研究结果相比,Wx-B1引物在3个位点的扩增产物长度更短,差异更大,在2％琼脂糖胶上即可清楚分开,缩短了鉴定时间,提高了效率,为大规模筛选优质面条小麦品种提供了可能。     

应用SRAP标记分析福瑞鲤及其原始亲本的遗传结构

摘要：应用SRAP分子标记对建鲤（Cyprinus carpio var. jian）、黄河鲤（C.c.haematopterus）和福瑞鲤（FFRC Strain Common Carp,C.carpio）进行遗传结构分析。结果显示,筛选出的10个多态性较好的引物组合共扩增出110个位点,其中多态性位点92个,平均多...     

云南甘蔗常用亲本资源遗传多样性的SSR分析

以63份云南育种机构常用的亲本资源为研究对象,10份原始亲本种为外群体,使用30对多态性较高,在甘蔗遗传连锁图谱上分布较为广泛的Genomic-SSR引物对云南常用亲本资源开展遗传多样性评价。结果表明：云南常用亲本在30个SSR位点上表现出丰富的多态性,共获得363个扩增条带,其中多态性条带数为352个,平均多态性条带比例和多态信息量分别为96.97%和0.9441;从常用亲本的来源地区来看,大陆亲本的多样性要高于国外亲本和台湾亲本;在Jaccard相似性系数方面,云南常用亲本材料之间的相似性系数范围在0.2804-0.7329之间,平均为0.4309,表现出较大的遗传差异,其中来自大陆地区的亲本遗传差异最大,其次为来自国外地区的亲本;UPGMA聚类分析将所有亲本材料分为一大一小两个类群, 而大类群又可分为2个亚类群,中国大陆地区一些即是主栽品种又是亲本的材料表现出较近的亲缘关系,而引自国外的大部分亲本和一些老的国内自育亲本也表现出较近的亲缘关系。以上结果将为上述亲本资源的高效利用奠定了良好的基础,并为全国育种机构在亲本选择和组合配置提供重要参考。     

中山杉302和墨西哥落羽杉及其回交一代的同工酶分析

落羽杉属有落羽杉〔Ｔａｘｏｄｉｕｍｄｉｓｔｉｃｈｕｍ (Ｌ .)Ｒｉｃｈ .〕、墨西哥落羽杉 (Ｔ .ｍｕｃｒｏｎａｔｕｍＴｅｎｏｒｅ)和池杉 (Ｔ .ａｓｃｅｎｄｅｎｓＢｒｏｎｇｎ .) 3个种 ,该属是世界重要的园林及用材树种 ,墨西哥落羽杉是其中较耐盐碱的树种 ,它的引种选育历来受到广泛重视。中山杉 30 2 (Ｔ .‘Ｚｈｏｎｇｓｈａｎｓｈａ 30 2’)是江苏省·中国科学院植物研究所于 2 0世纪 80年代从落羽杉×墨西哥落羽杉杂交后代中选育出来的优良品种 ,具有生长快和耐盐碱等特性[1 ] 。本实验从中山杉 30 2×墨西哥落羽杉回交一代中选…     

Analysis of the Esterase Isozymes in Three Lines and F1 in Oryza sativa and Prediction of Heterosis

Esterase isozyme patterns in the embryos of dry seeds of 114 combinations of steriles, maintainers, restorers and their F1 hybrids were analyzed with acrylamide gel eleetrophoresis. Usually six major bands were found and named 1A, 3A, 4A, 5A, 6A and 7A. The isoesterase zymograms in three lines--sterile, maintainer and restorer were diffcrent. There were seven types of zymograms in F1 hybrids. The eomplementary bands were shown in F1 hybrids when sterile with 6A band and restorer with 3A or 5A band were used as parents. F1 hybrids with 3A and 6A complementary each other were more vigorous in vegetative growth and only those 5A and 6A complemontary each other displayed economic superiority. It was shown that the pattern of esterase zymograms of F1 hybrids was influenced by both cytoplasm and nucleus of their parents. It was concluded that esterase isozyme patterns could be used as one of the biochemical markers for the predicting hybrid vigor in heterosis breeding.     

小麦杂交种与亲本发育早期种子的基因表达差异及其与杂种优势关系的初步研究

为深入探讨小麦杂种优势形成的分子机理,选取3个冬小麦品种(系)为一组亲本,3个为另一组亲本,配制了正反交18个杂交组合,以授粉后6d的杂交和自交种子为材料,应用mRNA差异显示技术(DDRT—PCR)研究了小麦杂交当代种子与其亲本自交种子基因的表达差异,并与杂种优势进行相关分析。为降低DDRT—PCR技术假阳性的不利影响,对每个引物组合均作了两次PCR扩增,在处理数据时,仅统计能重复出现的条带。结果发现：杂交种和亲本之间的基因表达模式有8类共15种：(1)单亲沉默型(2种),(2)单亲一致型(2种),(3)正交或反交沉默型(2种),(4)正交或反交特异型(2种),(5)正交或反交单亲一致型(4种),(6)杂交种特异型(1种),(7)双亲共沉默型(1种),(8)表达一致型(1种)。分析发现,小麦杂交种和亲本间存在显著的表达差异。在差异表达类型中,杂交种特异型和双亲共沉默型比例最低。对上述15种表达模式与杂种优势进行相关分析,结果表明,表达一致型与各产量性状杂种优势之间的相关均不显著,说明杂种优势是由某些有表达差异的基因造成。9个产量性状均能检测到一种以上与其显著或极显著相关的基因表达模式,有些性状受正负相关效应的共同影响;沉默型(包括单亲沉默型、正交或反交沉默型和双亲共沉默型)和正交或反交单亲一致型在杂种优势形成中发挥重要作用。这些研究表明,在种子发育早期,基因的差异表达与杂种优势形成之间可能存在较为复杂的关系。     

Relationship between seed yield heterosis and molecular marker heterozygosity in soybean

 In soybean [Glycine max (L.) Merr.] heterosis has been reported for seed yield. Molecular markers may be useful to select diverse parents for the expression of heterosis and yield improvement. The objective of this study was to determine if molecular markers could be used to predict yield heterosis in soybean. From each Maturity Group (MG) II and III, 21 genotypes were selected on the basis of high yield (HY), different geographic origin (GO), and isozyme loci (ISO) and for diversity in restriction fragment length polymorphisms (RFLP), and crosses were made within MGs and selection criteria groups to obtain 6 F₁ hybrids per group. The 21 parents and the 24 F₁ hybrids of each MG were evaluated for yield in replicated tests at two locations in 2 years, and midparent heterosis (MPH) and high-parent heterosis (HPH) estimates were calculated. On the basis of hybrid performance during the first year, 12 parents (3 per selection criteria group) were chosen in each MG to conduct a second RFLP analysis using 129 probes. Genetic distances (GD_M) for pairs of the 12 genotypes were calculated with this RFLP information and correlated with MPH and HPH estimates. Significant MPH averages for seed yield were observed in the combined analysis of variance in each of the four selection criteria groups of MG II, and in the HY, ISO, and GO of MG III. Significant HPH averages were observed only in the ISO and GO groups of MG II. The greatest frequency of F₁ hybrids with significant MPH was observed in the ISO and GO groups of both MGs. For HPH, the greatest frequency was observed in the ISO group of both MGs. In both MGs, the ISO group had the largest absolute MPH value; the RFLP group had generally the smallest. The observations indicated that the expression of heterosis in seed yield might be associated with diversity in the isozyme loci present in the parents. For the genotypes included in the second RFLP analysis, correlations of GD_Ms with MPH and HPH values on an entry-mean basis were low and not significant, indicating that heterosis in yield may not be associated with genetic diversity at the molecular level as determined by RFLPs. The results suggest that in soybean, parent selection on the basis of RFLPs and isozyme loci to exploit heterosis in seed yield may not be feasible. There was no association between genetic distance estimated by the RFLP analysis and seed yield heterosis, and in spite of the observed relationship between isozyme loci and heterosis for yield, the practicality of using the isozyme markers to select parents may be limited because of the reduced number of assayable isozyme loci in soybean. Received: 8 March 1996 / Accepted: 21 February 1997     

Genetic diversity and its relationship to hybrid performance and heterosis in rice as revealed by PCR-based markers

Ten elite inbred lines (four japonica, six indica), chosen from those widely used in the hybrid rice breeding program at Human Hybrid Rice Research Center in China, were crossed to produce all possible hybrids excluding reciprocals. The 45 F₁ hybrids along with the ten parents were evaluated for eight traits of agronomic importance, including yield potential, in a replicated field trial. The ten parents were analyzed with 100 arbitrary decamer oligonucleotide primers and 22 microsatellite (simple sequence repeats, SSRs) primer sets via polymerase chain reaction (PCR). Out of the 100 random primers used, 74 were informative and amplified 202 non-redundant bands (variants) with a mean of 2.73 bands per polymorphic primer. All 22 microsatellite primer sets representing 23 loci in the rice genome showed polymorphisms among the ten parents and revealed 90 alleles with an average of 3.91 per SSR locus. Cluster analysis based on Nei's genetic distance calculated from the 291 (202 RAPDs, 89 SSRs) non-redundant variants separated the ten parental lines into two major groups that corresponds to indica and japonica subspecies, which is consistent with the pedigree information. Strong heterosis was observed in hybrids for most of the traits examined. For the 43 diallel crosses (excluding 2 crosses not heading), yield potential, its components (including panicles per plant, spikelets per panicle and 1000-grain weight) and their heterosis in F₁ hybrids showed a significant positive correlation with genetic distance. When separate analyses were performed for the three subsets, yield potential and its heterosis showed significant positive correlations with genetic distance for the 15 indica x indica crosses and the 6 japonica x japonica crosses; however, yield potential and its heterosis were not correlated with genetic distance for the 22 indica x japonica crosses. Results indicated that genetic distance measures based on RAPDs and SSRs may be useful for predicting yield potential and heterosis of intra-subspecific hybrids, but not inter-subspecies hybrids.     

Associations between quantitative traits and enzyme loci in the F2 population of a maize hybrid

Summary Univariate and multivariate analyses were used to identify associations between eight enzyme marker loci and 11 quantitative traits of maize (Zea mays L.). The material analyzed included inbred lines Wf9 and Pa405, single-cross hybrid Wf9 X Pa405, and the F2 generation of the selfed single-cross hybrid. Each enzyme locus assayed was associated with at least one quantitative trait, and all quantitative traits were associated with genotypes at particular enzyme loci. Significant associations also were found between the level of heterozygosity per individual and nine of 11 quantitative traits. The total contribution to heterosis, for seed yield per plant, of genes linked with the eight enzyme loci, was 27% of the F2 mean and 18% of the difference in mean between the F1 hybrid and the inbred parents. Genes linked with Glu1 accounted for nearly one third of the total dominance effect detected by the eight enzyme loci. The chromosome segments marked by loci with significant effects on seed yield were markedly overdominant. The large heterotic effects of chromosome segments marked by particular loci suggest that enzyme loci could be used to help transfer genes responsible for heterosis to inbred lines. We conclude that analyses of additional inbred lines, F1 hybrids, and F2 populations in more environments will halp identify specific associations between enzyme loci, or chromosome segments which they mark, and important agronomic traits.Cooperative investigations of the USDA, ARS and Dept. of Plant Sciences, South Dakota State Univ. (SDSU), Brookings, Journal Series No. 2039; and the Institute of Animal Resource Ecology, Univ. of British Columbia, Vancouver, B.C. V6T 1W5, Canada     

Extensive heterosis in growth of yeast hybrids is explained by a combination of genetic models

Heterosis, also known as hybrid vigor, is the superior performance of a heterozygous hybrid relative to its homozygous parents. Despite the scientific curiosity of this phenotypic phenomenon and its significance for food production in agriculture, its genetic basis is insufficiently understood. Studying heterosis in yeast can potentially yield insights into its genetic basis, can allow one to test the different hypotheses that have been proposed to explain the phenomenon and allows better understanding of how to take advantage of this phenomenon to enhance food production. We therefore crossed 16 parental yeast strains to form 120 yeast hybrids, and measured their growth rates under five environmental conditions. A considerable amount of dominant genetic variation was found in growth performance, and heterosis was measured in 35% of the hybrid–condition combinations. Despite previous reports of correlations between heterosis and measures of sequence divergence between parents, we detected no such relationship. We used several analyses to examine which genetic model might explain heterosis. We found that dominance complementation of recessive alleles, overdominant interactions within loci and epistatic interactions among loci each contribute to heterosis. We concluded that in yeast heterosis is a complex phenotype created by the combined contribution of different genetic interactions.     

Linkage Analysis of the Multilocus Glucosephosphate Isomerase Isozyme System in Sunfish (Centrarchidae, Teleostii)

The purpose of the present investigation is to determine whether the two duplicated glucosephosphate isomerase (EC 5.3.1.9) loci Gpi-A and Gpi-B reside on the same chromosome in teleostean fishes. Interspecific sunfish hybrids were employed for the cross because of the different species-specific electrophoretic mobilities of the allelic isozymes at each GPI locus and because of their genomic compatibility. F1 sunfish hybrids, formed from a male warmouth (Lepomis gulosus) X female green sunfish (L. cyanellus) cross, were mated to form the F2 generation. The number of each of the nine different isozyme phenotypes, revealed by starch gel electrophoresis, was determined using 256 F2 individuals. The high frequency of recombinant phenotypes in the F2 generation indicated that the two GPI loci are not linked. An excess of F2 individuals heterozygous at both loci was observed and is interpreted as being caused by heterosis. The absence of linkage for the homologous loci encoding GPI subunits and for other multilocus isozyme systems is consistent with the postulate that the genomes of present-day vertebrates arose through one or more polyploidization events early in vertebrate evolution.     

Isozyme Studies in Predicting the Potential Yield of Heterosis in Maize

Electrophoretic isozyme zymogram patterns of peroxidase (POD), cytochrome oxidase (COD), esterase (Est), α-amylase (α-Amy), catalase (Cat), Glutamate dehydrogenase (GDH), Malate dehydrogenase (MDH), superoxide dismutase (SOD), acid phosphatase (Acp), etc. obtained from 108 maize inbred lines and their 199 hybrids were analyzed. The soluble protein patterns from these materials were tested as well. The authors had probed into the relationship between the index of zymogram difference and potential yield of heterosis in maize. The results indicated that hybrids from parents which showed high zymogram difference index could produce high heterosis and those from parents which had low zymogram difference index could also produce high heterosis as well. But hybrids from the sister lines which had lower zymogram difference index could only produce lower heterosis. There was no significant statistical difference between isozyme zymogram difference index and potential yield of heteroSis on a genetic background with complex combinaton.     

Biochemical basis of hybrid vigour. The genetics of grain weight of Oryza sativa

Summary Four cathodal bands (C₁, C₂, C₃ and C₄) of esterase (E₁, C₁. 3.1) were correlated with the grain weight of rice (Oryza sativa L.). Zymogram patterns indicated intensity differences among these bands infinegrain and coarse-grain varieties. Bands C₁. and C₂ were dark in fine grain varieties whereas C₃ and C₄ were dark in coarse grain varieties. These bands were specific to endosperm. Observations on fine-grain (Kalanamak), coarse grain (SR(26)B) varieties and their reciprocal hybrids indicated the presence of 4 esterase loci G₁, G₂, G₃ and G₄, corresponding to bands C₁, C₂, C₃ and C₄, respectively. A possible model for heterosis in grain weight of rice was proposed which supports the dominance theory of heterosis. In hybrid vigour the 4 esterase loci appear to be associated with grain weight and they complemented each other in an additive manner.