分子标记及其在海洋动物遗传研究中的应用

分子遗传标记在农业动植物育种和生产上得到了广泛的应用,且取得了可喜的成果,但在水生生物上的应用还处于初始阶段。本文简要介绍了限制性片段长度多态性（RFLP）、随机扩增多态性DNA（RAPD）、扩增片段长度多态性（AFLP）、小卫星DNA和微卫星DNA（或称简单序列重复,SSR）等分子标记的概念、基本原理及其特点,重点介绍了第三代分子标记单核苷酸多态性（SNP）技术。综述了这些分子标记在海洋动物遗传结构分析、亲缘关系鉴定、遗传图谱的构建和标记辅助育种等方面的应用。     

DNA分子标记技术在濒危物种保护中的应用

近20年来,随着分子生物学技术的迅猛发展,涌现出一批高效、可靠的DNA分子标记技术.本文论述了限制性片段长度多态性、微卫星DNA、随机扩增多态性DNA、扩增片段长度多态性等DNA分子标记技术的基本原理及技术特点;同时,介绍了DNA分子标记在濒危物种种群遗传学研究、致危因素分析及保护策略的制定等保护生物学方面的应用.     

DNA标记技术在螨类系统学研究中的应用

长期以来,螨类主要依靠其形态特征进行系统学研究。DNA标记是指能反映生物个体或物种间基因组中某种差异特征的DNA片段。近年来,DNA标记技术在螨类系统学研究中得到越来越广泛的应用。本文综述了随机扩增多态性RAPD、限制性内切酶片段长度多态性RFLP、微卫星SSR、核酸序列扩增、扩增片段长度多态性AFLP和直接扩增片段长度多态性DALP等6种DNA标记技术在螨类系统学研究中的应用现状及前景。     

鸡的遗传多样性的研究方法及研究进展

遗传多样性是生物学研究中的一个重要领域,研究鸡的遗传多样性,不仅能加强生物多样性的保护。同时对起源进化、分类鉴定及遗传育种等都有重要的意义。本文对目前DNA水平鸡的遗传多样性的研究方法和研究进展进行了详细的阐述。重点介绍了DNA分子标记的特征;概括了在鸡遗传多样性分子标记的方法,包括微卫星分子标记(SSR)、扩增片段长度多态性(AFLP)、随机扩增多态性标记(RAPD)、限制性片段长度多态性标记(RFLP)和单核苷酸多态性标记(SNP)。本文综述了最近有关鸡DNA水平的遗传多样性的研究方法在系统学、遗传结构、生物地理等研究中的应用情况;提出在研究鸡遗传多样性时,可根据研究的目的,选择合适的方法。     

螨类系统学研究中的分子标记

近年来,分子标记技术在螨类系统学研究中起到越来越重要的作用。文章就几种螨类系统学中用到的分子标记的原理和应用作一回顾,其中包括随机扩增多态性RAPD、限制性内切酶片段长度多态性RFLP、直接扩增片段长度多态性DALP、扩增片段长度多态性AFLP、微卫星DNASSR、核酸序列分析。讨论这几种分子标记在其应用中的优势及其局限性,并对分子标记在螨类系统学研究中的应用作出展望。     

分子标记技术的发展及应用

介绍了几种应用前景较广的分子标记,如基于DNA杂交技术的分子标记:限制性片段长度多态性(RFLP)和DNA可变串联重复数标记(VNRT);基于PCR技术的分子标记:随机扩增多态性 DNA(RAPD)、酶切扩增多态性(CAPS)、扩增片段长度多态性(AFLP)、微卫星DNA(SSR)和DNA单链构象多态性(SSCP);以及新兴的第3代分子标记,即基于DNA芯片技术的分子标记:单核苷酸多态性(SNP)等。分别阐述了它们的原理、方法步骤与优缺点、应用注意事项和适用范围,同时概述了它们在生物学研究中的应用和进展。     

遗传标记及其在作物品种鉴定中的应用

本文评述了用于作物品种鉴定的形态标记（morphological markers）、细胞标记（cytological markers）、生化标记（biochemical markers）、分子标记（molecular markers）的优缺点。重点评述了分子标记在作物品种鉴定中的应用。文中除对蛋白质电泳指纹图谱——同工酶和贮藏蛋白（包括醇溶性蛋白、清蛋白、谷蛋白、球蛋白等）电泳产生的指纹图谱的应用外,较详细地介绍了近年来DNA指纹图谱技术;包括限制片段长度多态性（restriction fragment length polymorphism,简称RFLP）、随机扩增多态性DNA (random amplified po lymorphic DNA,简称RAPD)、小卫星DNA（minisatellite DNA）、微卫星DNA（microsatellite DNA）,简单重复序列间扩增（intersimple sequence repeats,简称ISSR）,扩增片段长度多态性（amplified fragment length polymorphism,简称AFLP）以及CAPS (cleaved amplified polymorphic sequences)和SNPS (single nucleotide polymorphisms)对作物品种鉴定和新品种登记,品种纯度和真实性的检验以及品种间亲缘关系的探讨和在分类研究中的贡献等。     

草莓DNA分子标记及其应用

综述了限制性长度多态性(RFLP)、随机扩增多态性DNA(RAPD)、扩增片段长度多态性(AFLP)、简单重复序列(SSR)等不同类型分子标记在草莓指纹图谱构建、品种鉴别、遗传多样性、进化、遗传作图以及相关性状的标记等方面的应用,分析了草莓分子标记研究中的关键问题,提出了今后研究方向。     

七鳃鳗遗传多样性与演化研究进展

七鳃鳗(Petromyzonidae)是目前已知最古老的脊椎动物中惟一的幸存者.对其资源保护和演化发育生物学的研究正日益受到重视.本文从染色体、蛋白质和DNA水平总结近年来七鳃鳗遗传多样性与演化方面的研究进展.重点介绍了限制性酶切片段长度多态性、DNA随机扩增多态性、DNA扩增片段长度多态性、微卫星DNA标记等技术及线粒体DNA和功能基因研究应用于七鳃鳗种群遗传多样性、遗传分化、遗传结构、种质鉴定与渔业资源管理及系统进化等方面的新进展.     

苔藓植物分子系统学研究概况

结合同工酶分析技术及随机扩增多态性DNA（RAPD）、限制性片段长度多态性（RFLP）和DNA序列测序3种分子生物学技术,对苔藓植物的分子系统学研究概况进行了介绍,并指出了在苔藓植物分子系统学研究中存在的一些问题。     

生化标记和分子标记在蕈菌研究中的应用现状

本文介绍了目前在蕈菌研究中的酯酶同工酶标记,RAPD标记,RFLP标记,AFLP标记,简单重复序列标记和电泳核型等分子标记和生化标记在蕈菌遗传育种、菌株鉴定、遗传多样性研究、亲缘关系和基因定位等方面的研究、应用现状,包括原理、应用领域及最新研究进展。     

The comparison of RFLP,RAPD, AFLP and SSR (microsatellite) markers for germplasm analysis

The utility of RFLP (restriction fragment length polymorphism), RAPD (random-amplified polymorphic DNA), AFLP (amplified fragment length polymorphism) and SSR (simple sequence repeat, microsatellite) markers in soybean germplasm analysis was determined by evaluating information content (expected heterozygosity), number of loci simultaneously analyzed per experiment (multiplex ratio) and effectiveness in assessing relationships between accessions. SSR markers have the highest expected heterozygosity (0.60), while AFLP markers have the highest effective multiplex ratio (19). A single parameter, defined as the marker index, which is the product of expected heterozygosity and multiplex ratio, may be used to evaluate overall utility of a marker system. A comparison of genetic similarity matrices revealed that, if the comparison involved both cultivated (Glycine max) and wild soybean (Glycine soja) accessions, estimates based on RFLPs, AFLPs and SSRs are highly correlated, indicating congruence between these assays. However, correlations of RAPD marker data with those obtained using other marker systems were lower. This is because RAPDs produce higher estimates of interspecific similarities. If the comparisons involvedG. max only, then overall correlations between marker systems are significantly lower. WithinG. max, RAPD and AFLP similarity estimates are more closely correlated than those involving other marker systems.Abbreviations RFLP restriction fragment length plymorphism - RAPD random-amplified polymorphic DNA - AFLP amplified fragment length polymorphism - SSR simple sequence repeat - PCR polymerase chain reaction - TBE Tris-borate-EDTA buffer - MI marker index - SENA sum of effective numbers of alleles     

Peracetic acid stress-induced genetic rearrangements in Escherichia coli H10407 detected by RAPD and RFLP analyses

The discriminatory powers of random amplified polymorphic DNA (RAPD) analysis and restriction fragment length polymorphism (RFLP) were assessed for the detection and comparison of DNA modifications caused by an oxidative stress. DNA extracted from peracetic acid (PAA)-treated Escherichia coli H10407 was randomly amplified with the 10-mer primer OPZ14, which generated one stress-induced fragment. RFLP and RAPD profiles were hybridized by Southern blotting with the digoxigenin-labelled RAPD product. Untreated and PAA-treated cells had difference band profiles. The results indicate that RAPD analysis could be used as a discriminatory tool for investigating genetic rearrangements in E. coli caused by oxidative stress and that RFLP analysis could be used to confirm the rearrangements.     

Characterization and genetic mapping of a short, highly repeated, interspersed DNA sequence from rice (Oryza sativa L.).

Summary A short, highly repeated, interspersed DNA sequence from rice was characterized using a combination of techniques and genetically mapped to rice chromosomes by restriction fragment length polymorphism (RFLP) analysis. A consensus sequence (GGC)_n, where n varies from 13–16, for the repeated sequence family was deduced from sequence analysis. Southern blot analysis, restriction mapping of repeat element-containing genomic clones, and DNA sequence analysis indicated that the repeated sequence is interspersed in the rice genome, and is heterogeneous and divergent. About 200000 copies are present in the rice genome. Single copy sequences flanking the repeat element were used as RFLP markers to map individual repeat elements. Eleven such repeat elements were mapped to seven different chromosomes. The strategy for characterization of highly dispersed repeated DNA and its uses in genetic mapping, DNA fingerprinting, and evolutionary studies are discussed.     

Analysis of genetic stability of plants regenerated from suspension cultures and protoplasts of meadow fescue (Festuca pratensis Huds.)

A cytological and molecular analysis was performed to assess the genetic uniformity and true-to-type character of plants regenerated from 20 week-old embryogenic suspension cultures of meadow fescue (Festuca pratensis Huds.), and compared to protoplastderived plants obtained from the same cell suspension. Cytological variation was not observed in a representative sample of plants regenerated directly from the embryogenic suspensions and from protoplasts isolated therefrom. Similarly, no restriction fragment length polymorphisms (RFLPs) were detected in the mitochondrial, plastid and nuclear genomes in the plants analyzed. Randomly amplified polymorphic DNA markers (RAPDs) have been used to characterise molecularly a set of mature meadow fescue plants regenerated from these in vitro cultures. RAPD markers using 18 different short oligonucleotide primers of arbitrary nucleotide sequence in combination with polymerase chain reaction (PCR) allowed the detection of pre-existing polymorphisms in the donor genotypes, but failed to reveal newly generated variation in the protoplast-derived plants compared to their equivalent suspensionculture regenerated materials.The genetic stability of meadow fescue plants regenerated from suspension cultures and protoplasts isolated therefrom and its implications on gene transfer technology for this species are discussed.Abbreviations PCR polymerase chain reaction - RAPD random amplified polymorphic DNA - RFLP restriction fragment length polymorphism.     

Intrinsic polymorphism of variable number tandem repeat loci in the human genome.

In the human genome, short tandem repetitive (STR) DNA sequences often show restriction fragment length polymorphisms (RFLPs) due to variation in the number of copies of the repeat unit. For a subset of these sequences known as minisatellites or variable number tandem repeat loci (VNTR), it has been proposed that a homologous "core" sequence of 10-12 nucleotides is involved in the mechanism(s) generating the polymorphism. In our present study we have prepared oligonucleotide probes complementary to one or two repeat units of several VNTR loci. Under stringent hybridization and wash conditions these probes hybridize locus specifically thus allowing the evaluation of the intrinsic polymorphism of individual loci. Our results indicate that not all of the loci having STR DNA sequences are polymorphic despite the fact that they share the "core" sequence. This suggests that more than the DNA sequence of the locus is involved in the mechanism(s) generating the polymorphism.