不同生态区粳稻资源表型遗传多样性综合评价

为探究粳稻种质资源遗传多样性,提高粳稻育种组合选配的针对性和育种效率,通过变异系数、遗传多样性指数、聚类分析、相关分析、主成分分析、二维排序分析和逐步回归分析方法对不同生态区80份粳稻种质资源的8个表型性状的多样性水平进行了分析。结果表明：8个表型性状的变异系数为11.06%~36.97%,其中,千粒重的变异系数最小,每穗总粒数的变异系数最大;8个表型性状的遗传多样性指数为1.54~2.06,其中,单株有效穗数的遗传多样性指数最高,结实率的遗传多样性指数最低;在欧式距离9.0处,可将80份参试材料分为4类,各类表型性状差异明显;根据主成分分析和综合评价结果,80份粳稻种质资源中贵州的毕大香6号综合性状排名第1位,同时筛选到每穗实粒数、千粒重、株高、穗长和单株有效穗数性状可作为粳稻种质资源综合评价的关键指标;利用主成分二维排序分析筛选到矮秆、大穗、分蘖能力强及结实率高的4类优异种质资源,结合二维排序结果,大方晚糯是在二维排序重叠种质,可作为育种中间材料。同时基于主成分构建了粳稻种质资源的综合评价方程。     

Genetic diversity and historic introgression in German Angler and Red Dual Purpose cattle and possibilities to reverse introgression

Recovering native uniqueness has major importance for breeds with historic introgression. The aim of the study was to estimate population genetic parameters for two local red cattle breeds from Northern Germany and to study possibilities to reverse introgression. Genealogical information consisted of 90,783 individuals for German Angler and 187,255 individuals for Red Dual-Purpose cattle breed, with additional information on sex, born, breed, status, and conventional breeding values. It is concluded that the native genetic contribution could be included as an additional trait in the total merit index in order to recover a part of the native genetic background. Native contributions should be estimated in the long term from marker data in order to account for Mendelian sampling. The maintenance of a sufficient genetic diversity of native alleles can be achieved by an advanced OCS with appropriate constraints.     

云南地方稻种籼粳亚种的生态群分类及其地理生态分布

用程-王分类体系对云南收集保存的地方稻种资源进行系统分类和遗传变异研究表明：(1)云南是中国稻种最大的遗传多样化中心和优异种质的富集地区及其天然宝库,受中国与南亚两个稻种独立起源中心的强烈影响,因而形成了云南尤其是滇西南稻种资源类型的多样性举世瞩目。(2)云南地方稻种分为籼粳2个亚种及其6大生态群,其中热带     

Analysis of Genetic Diversity in Barley Cultivars Reveals Incongruence Between S-SAP,SNP and Pedigree Data

Accurate assessment of genetic similarity is important for plant breeding, germplasm enhancement and conservation of plant genetic resources. A comparative analysis of genome diversity among a group of six-rowed spring barley (Hordeum vulgare L.) cultivars was carried out using sequence-specific amplified polymorphism (S-SAP) and single nucleotide polymorphism (SNP), with the results compared to the kinship coefficients derived from the pedigree data. Mean pair-wise GS values were estimated to be 0.0957 ± 0.144 (Kinship), 0.491 ± 0.189 (SNPs), and 0.602 ± 0.098 (S-SAPs). S-SAP and SNP-based genetic similarity (GS) values were normally distributed but kinship values had a non-normal and skewed distribution. Pair-wise correlation of GS values were lowest for the S-SAP and the SNP matrices (r =; 0.040, p<0.230) and highest for the SNP and pedigree matrices (r =; 0.240, p < 0.001). Analysis of molecular variance (AMOVA) attributed about 90.4% of observed variation to the cultivars within each of the malting and feed groups. Variance component between malting and feed groups was 6.6% for both SNP and S-SAP data suggesting lack of a significant genetic differentiation along this agronomic division. The remaining 3% of variation was attributed to genetic diversity within cultivars. Although both DNA-based marker systems were able to differentiate all barley cultivars, significant difference were observed in the pattern of genetic relationships obtained by the two marker systems and the pedigree data.     

Genetic diversity of <Emphasis Type="Italic">Nelumbo</Emphasis> accessions revealed by RAPD

Total 65 lotus accessions in genus Nelumbo mainly collected from China, were subjected to random amplified polymorphic DNA (RAPD) markers to estimate the genetic diversity and to test the genetic basis of the relationships between morphotypes and molecular markers. Seventeen primers generated a total of 195 highly reproducible and discernible loci, among which 173 were polymorphic. Percent polymorphism varied from 66.7 to 100 with an average of 88.72, and five primers out of them, OPC05, OPG10, OPN20, OPP09 and OPS17, showed 100% polymorphism. A relatively high genetic diversity was detected among all the samples with the similarity coefficient values ranging from 0.45 to 0.85, and Nei’s gene diversity (h) 0.30, and Shannon index (I) 0.46. The UPGMA dendrogram clustered 65 accessions in four clusters and the clustering pattern showed two groups, N. nucifera ssp. nucifera and those accessions related to the American lotus, and some special cultivars, landraces, hybrids and the American lotus. Principal Coordinate Analysis (PCA) further indicated that the genetic diversity of Nelumbo accessions was not evenly distributed, instead, was presented by a clustered distribution pattern. Similar to the results revealed by the dendrogram, two main groups representing the two subspecies of N. nucifera, as well as some special landraces, cultivars of Chinese lotus, the Japanese lotus and hybrids out of the two groups were obtained. Neither the UPGMA dendrogram nor the PCA analysis exhibited strict relationship with geographic distribution and morphotypes among the accessions.     

金银花的过氧化物酶和淀粉酶同工酶遗传多样性研究

[目的]探讨不同产区金银花的亲缘关系。[方法]采用聚丙烯酰胺凝胶垂直平板电泳技术,利用过氧化物(POD)同工酶和淀粉酶(AS)同工酶对10个地区11个金银花样品的遗传多样性进行分析。[结果]金银花过氧化物酶同工酶谱带形成2个电泳区域,共有3个酶位点,Rf值分别为0.324、0.671和0.863。其淀粉酶同工酶谱也形成2个电泳区域,共有4个酶位点,Rf值分别为0.125、0.306、0.67和0.792。不同产区金银花的过氧化物酶和淀粉酶具有较丰富的多态性,说明金银花不同居群在遗传本质上是有区别的。聚类分析表明10个产区的11个金银花样品可聚为3个类群。[结论]不同产区金银花的亲缘关系与其遗传本质和地理位置有关。     

外源DNA导入花粉管通道技术的发展和应用

本文综述了花粉管通道法的创立与发展,以及应用此方法所取得的一系列研究成果,对遗传转化中所涉及的机理和分子验证进行了探讨,并且分析了影响花粉管通道法导入外源基因的因素,进一步比较了该方法较其它常用的转化法的优势与局限性。     

核果类果树遗传连锁图谱的研究进展

遗传连锁图谱构建是基因组研究中的重要环节,是基因定位与克隆乃至基因组结构与功能研究的基础。近20a来,分子生物学特别是分子标记技术的飞速发展为高饱和核果类遗传连锁图谱的构建和利用奠定了基础。目前国内外已经公布十几张核果类的遗传连锁图谱,但这些图谱均有不同的缺陷。因此,我们就核果类遗传连锁图谱的构建进展、性状的QTL定位及比较图谱应用进行了综述,并探讨了核果类遗传连锁图谱研究的前景和存在的问题。     

Microbial diversity in soil: ecological theories, the contribution of molecular techniques and the impact of transgenic plants and transgenic microorganisms

This review mainly discusses three related topics: the application of ecological theories to soil, the measurement of microbial diversity by molecular techniques and the impact of transgenic plants and microorganisms on genetic diversity of soil. These topics were debated at the Meeting on Soil Emergency held in Erice (Trapani, Italy) in 2001 for the celebration of the 50th anniversary of the Italian Society of Soil Science. Ecological theories have been developed by studying aboveground ecosystems but have neglected the belowground systems, despite the importance of the latter to the global nutrient cycling and to the presence of life on the Earth. Microbial diversity within the soil is crucial to many functions but it has been difficult in the past to determine the major components. Traditional methods of analysis are useful but with the use of molecular methods it is now possible to detect both culturable and unculturable microbial species. Despite these advances, the link between microbial diversity and soil functions is still a major challenge. Generally studies on genetically modified bacteria have not addressed directly the issue of microbial diversity, being mainly focused on their persistence in the environment, colonization ability in the rhizosphere, and survival. Concerns have been raised that transgenic plants might affect microbial communities in addition to environmental factors related to agricultural practice, season, field site and year. Transgenic plant DNA originating from senescent or degraded plant material or pollen has been shown to persist in soil. Horizontal transfer of transgenic plant DNA to bacteria has been shown by the restoration of deleted antibiotic resistance genes under laboratory in filter transformations, in sterile soil or in planta. However, the transformation frequencies under field conditions are supposed to be very low. It is important to underline that the public debate about antibiotic resistant genes in transgenic plants should not divert the attention from the real causes of bacterial resistance to antibiotics, such as the continued abuse and overuse of antibiotics prescribed by physicians and in animal husbandry.     

Relationship between reservoir size and genetic differentiation of the stream caddisfly Stenopsyche marmorata

Reservoirs have the potential to block the gene flow of stream macroinvertebrates along a channel, which takes place via larval drift and adult flight, resulting in genetic differentiation above and below the reservoirs. Gene flow across the reservoirs may be strongly obstructed if the area of standing water is larger. Using random amplified polymorphic DNA markers, we investigated the genetic structure of Stenopsyche marmorata (Stenopsychidae: Trichoptera) populations found above and below the reservoirs, and the reference stream of six reservoirs with small to large water surface area ranging from 0.12 km² to 6.00 km². As a result, the two largest reservoirs with a standing water area larger than 3.27 km² showed significant differences in pairwise θ between fragmented and reference streams, whereas the other four reservoirs with a standing water area smaller than 1.64 km² showed insignificant differences. The genetic differentiations in the two largest reservoirs did not result in the reduction of genetic diversities in the fragments. Based on the significant correlation between relative population size and mean expected heterozygosity, we concluded that local genetic diversities were constrained in smaller populations due to the effect of genetic drift.