茄子及其近缘野生种遗传多样性的SRAP分析

应用SRAP分子标记技术对87份来茄子及其近缘野生种进行了遗传多样性分析。结果显示,从88对SRAP引物中筛选出18对多态性高、稳定性好的引物组合,共检测出309清晰个位点,平均每对引物检测到17.2个扩增位点。.参试茄属植物种质群体位点的平均杂合度为0.6962;平均多态信息含量为0.6441。82份栽培种茄子材料的平均相似系数为0.822,表明茄子栽培种的基因库较小,遗传基础较为狭窄。聚类分析结果表明,87份材料可分成4大类,可以较好地将茄子栽培种与其近缘野生种分开,并且基本可将高级栽培种(S.melongena L.subsp.melongena)和原始栽培种(S.melongena L.subsp.ovigerum Salis)在亚种水平上区分开来。由此可见,SRAP标记在茄子遗传研究中是一种经济、有效和可靠的分子标记手段。

青牛胆SRAP标记反应体系的建立与优化

目的为青牛胆的物种鉴定和遗传图谱的构建寻找一种新的途径。方法采用序列相关扩增多态性(Sequence related amplified polymorphism,SRAP)技术对青牛胆DNA进行PCR扩增,逐级优化反应参数。结果优化得到稳定重复性好的青牛胆SRAP反应体系。结论SRAP技术在分子水平上对青牛胆进行鉴定是一种行之有效的手段,为今后进一步的青牛胆物种鉴定、遗传图谱的构建等研究奠定基础。

甘薯蔓割病抗性相关SRAP标记的获得

以高抗甘薯蔓割病品种金山57和高感蔓割病甘薯品种新种花为亲本进行杂交,获得F1分离群体,对F1群体进行蔓割病抗性鉴定,从中选出7个高抗和7个高感蔓割病株系构建抗、感池。以抗、感池基因组DNA为模板,用276对SRAP引物组合对其扩增,从中筛选出98对具有多态性的引物组合,再以抗感亲本加抗感池基因组DNA为模板筛选,从98份SRAP引物组合中筛选出33对多态性较好的引物组合。后通过用一组小群体(6个高抗株系和6个高感株系)进一步筛选,最终获得一对与甘薯抗蔓割病连锁的SRAP引物组合a12b8,经过抗感亲本及F1代的进一步验证,认为该标记与甘薯抗蔓割病基因相关。

基于SRAP标记研究石竹属植物遗传多样性

石竹属花卉植物花色艳丽,有较高观赏价值,且具有较强耐逆性,是极为宝贵的基因资源。为从分子水平探究石竹属花卉种质的遗传多样性,利用SRAP分子标记构建了44份石竹属花卉种质的指纹图谱。经遗传多样性分析,44份石竹属花卉被划分为五大类群,与物种分类结果一致;种内分类结果也与花色、株型等指标分类结果相符。物种差异是石竹属植物类群划分的主要因素,种内划分则以花色、株型等指标为主。通过SRAP分子标记可以有效地区分石竹属花卉种质,为石竹属花卉种质资源鉴定与保护、育种应用和分子机理研究提供了技术支撑和理论基础。

新型分子标记SRAP的原理及其研究进展

阐述了SRAP的原理和流程,详细论述了SRAP标记在动植物种质资源鉴定评价、遗传图谱构建、重要性状标记以及比较基因组学方面的研究进展及应用前景。认为在遗传多样性的研究中,SRAP比AFLP更能反映表型的多样性及进化历史,SRAP标记将会在生命科学领域中发挥更大的作用。

cDNA-SRAP技术在植物基因表达差异分析中的应用

相关序列扩增多态性(SRAP)是基于PCR的新型分子标记系统。文章综述了现今植物基因表达差异分析中的常用方法,并简单介绍了cDNA-SRAP技术的原理、方法、步骤、优点,及其研究现状和前景。该方法具有简单便捷、结果稳定、重复性好、试验成本低的优点,将会成为基因表达研究的有力工具。随着分子标记技术的发展和新技术的出现,不同分子标记和技术的相互结合使用将会在发现新基因、比较植物不同生长发育时期的基因表达、构建植物转录图谱和植物抗逆分子机制研究等方面发挥重要作用。

条斑紫菜6个品系的SRAP分析

为鉴别条斑紫菜不同品系的种质,使用相关序列扩增多态性（sequence-related amplified polymorphism,SRAP）标记对条斑紫菜的5个选育品系和1个野生品系进行遗传分析,结果从35对引物组合中筛选出可扩增出稳定清晰条带的组合11对,共获得131个扩增位点,其中多态性位点125个,多态性比例高达95.42%。6个品系 间的遗传距离为0.364 3～0.867 9,平均为0.593 0。用UPGMA法进行聚类分析,结果将6个品系分为2个群,所反映的亲缘关系与各品系的来源基本一致,说明SRAP 标记技术可以成为条斑紫菜品系间遗传分析的有效工具。在131个多态性位点中,选择扩增出的4个位点构建了6个品系的指纹图谱。另外,通过ME1/EM6引物组合 扩增得到耐高温品系TM-18的特异性条带,经回收测序和重新设计引物,该条带在其丝状体和叶状体DNA中均能稳定地被扩增出来,可用于该品系的种质鉴别 。

Sequence Analysis and Molecular Markers of a Copialike Retrotransposon Linked to the Color around the Stone(Cs) Locus of the Peach

Retrotransposons are present in all plant genomes and play important roles in genome size,genome structure remodeling,gene function and genome evolution.Me07Em02 marked by sequence-related amplified polymorphism (SRAP) is verified,recovered,sequenced and analyzed,which closely link to the flesh color around the stone.By comparison with the peach genome Peach v1.0,a part of the sequence of copia-like retrotransposons is obtained.With the aid of DANMAN and DNASTAR sequence analysis software,BLASTn alignment is carried out in the peach genome database and GenBank.The whole genome sequence of the copialike retrotransposon in the peach is located at 9 939 764~9 944 771 bp in Scaffold-1 of Peach v1.0,with a total length of 5 008 bp.The LTR on both sides is exactly the same,the length is 444 bp,and the largest ORF box is located at the 487~4 545 bp of the sequence,encoding 1 535 amino acids.The amino acid sequence was submitted to GenBank for Protein BLAST alignment,The results showed that this sequence also has the typical amino acid sequence characteristics of the copia-like retrotransposon.At the same time,the method of peach retrotransposon labeling is preliminarily established,and the genetic diversity of the peach is analyzed.

基于SCAR标记和DNA条形码技术的苍术基原鉴别研究

目的开发出能同时鉴别北苍术和关苍术的分子标记方法,并探究不同种质资源苍术的遗传进化关系。方法对不同地区北苍术Atractylodes chinensis(Bunge)Koidz及关苍术A.japonica Koidz.ex Kitam基因组DNA的差异片段进行测序,结合SRAP、ISSR、DAMD分子标记方法,优化PCR反应体系,筛选并转换成特异性标记,同时,采用条形码方法分析种间序列差异。结果通过SRAP、ISSR、DAMD三种分子标记方法的PCR扩增,共筛选出198对能稳定扩增且重现性好的引物,转换出7对能稳定、快速鉴别北苍术和关苍术的SCAR引物。条形码方法检测出北苍术ITS2序列长度为454 bp,关苍术ITS2序列长度为453 bp,与其他苍术属植物之间遗传距离较远。NJ树结果显示,北苍术、关苍术及其他苍术属植物均各自聚为一支,表现出良好的单系性。依据ITS2二级结构,4种苍术属植物在螺旋区的茎环数目、大小、位置均有明显差异,可以直观地进行区分。结论所开发的特异性SCAR标记为苍术属植物优良品种的筛选提供了新方法,DNA条形码能稳定、准确鉴别北苍术。

胚挽救和分子标记辅助筛选获得番茄抗根结线虫杂种

为获得番茄抗根结线虫杂种,以含有温度敏感型抗根结线虫Mi-1基因的高代优良自交系栽培番茄(Lycopersicon esculentum)5678161"为母本,与含有非温度敏感型抗根结线虫Mi-3基因的秘鲁番茄(Lycopersicon peruvianum)LA2823"为父本进行杂交,通过胚挽救技术获得10个胚挽救苗株系;应用序列相关扩增多态性(SRAP)分子标记技术对胚挽救苗进行亲子鉴定,证实杂种的真实性;利用Mi-1和Mi-3基因的特异引物对杂种植株进行分子检测,从杂种中检测出拥有Mi-1基因标记的后代10株,同时拥有Mi-1和Mi-3基因标记的后代1株.

黄瓜白粉病抗性序列相关扩增多态性的分子标记研究

以高抗和高感白粉病的黄瓜亲本及其杂交后代F2分离群体为材料,应用序列相关扩增多态性(sequence-related amplified polymorphism,SRAP)技术开展与黄瓜白粉病抗性基因连锁的SRAP分子标记研究.结果表明:从437对SRAP引物组合中筛选出62对能够在2个亲本抗、感池间扩增出稳定多态性条带的引物组合,进一步用这些引物分析F2群体,发现有1对引物组合Me1/Em9扩增出的SRAP标记(Me1/Em9—284 bp)能与黄瓜抗白粉病基因连锁,遗传距离为9.8 c M.获得的分子标记对克隆抗病基因和利用分子标记辅助选择提高育种效率具有重要意义.

甲基磺酸乙酯诱变杜梨种子突变的鉴定与分析

为了获得杜梨Pyrus betulifolia突变体,以杜梨种子为试材,分别使用不同体积分数甲基磺酸乙酯(EMS)[0(ck),0.1%,0.2%,0.3%,0.4%,0.5%,0.6%,0.7%,0.8%,0.9%]对层积后的种子进行诱变处理。然后,统计了种子发芽率,使用相关序列扩增多态性(SRAP)标记鉴定遗传变异位点,测量幼苗田间株高和节间长度。试验结果表明:杜梨种子发芽的半致死剂量为0.3%EMS处理。结合SRAP标记鉴定和表型数据分析,筛选出最适宜的EMS处理体积分数为0.4%,变异率为37.3%;同时,使用SPSS软件对表型数据分析显示,处理组的杜梨苗株高极显著低于对照组(P=0.01)。研究结果为快速获得杜梨突变体提供了理论基础和依据。

Construction of a cucumber genetic linkage map with SRAP markers and location of the genes for lateral branch traits

Using SRAP(sequence-related amplified polymorphism)markers a genetic linkage map of cucumber was constructed with a population consisting of 138 F_(2) individuals derived from a cross of the two cucumber lines,S06 and S52.In the survey of parental polymorphisms with 182 primer combinations,64 polymorphism-revealing primer pairs were screened out,which generated totally 108 polymorphic bands with an average of 1.7 bands per primer pair and at most 6 bands from one primer pair.The constructed molecular linkage map included 92 loci,distributed in seven linkage groups and spanning 1164.2 cM in length with an average genetic distance of 12.6 cM between two neighboring loci.Based on this linkage map,the quantitative trait loci(QTL)for the lateral branch number(lbn)and the lateral branch average length(lbl)in cucumber were identified by QTLMapper1.6.A major QTL lbn1 located between ME11SA4B and ME5EM5 in LG2 could explain 10.63%of the total variation with its positively effecting allele from S06.A major QTL lbl1 located between DC1OD3 and DC1EM14 in LG2 could account for 10.38%of the total variation with its positively effecting allele from S_(06).

Physiological,Biochemical and Molecular Responses of Barley Seedlings to Aluminum Stress

Barley(Hordeum vulgare L.)is one of the most Aluminum(Al)sensitive cereal species.In this study,the physiological,biochemical,and molecular response of barley seedlings to Al treatment was examined to gain insight into Al response and tolerance mechanisms.The results showed that superoxide dismutase(SOD),peroxidase(POD)and catalase(CAT)activity were inhibited to different degrees following Al exposure.The MDA content also significantly increased with increasing Al concentrations.SRAP results indicated significant differences between Al treatments and controls in terms of SRAP profile,and the genomic template stability(GTS)decreased with increasing Al concentration and duration.These integrative results help to elucidate the underlying mechanisms that the barley response to Al toxicity.

Construction of a genetic linkage map for cotton based on SRAP

A genetic linkage map of cotton was constructed with a newly developed molecular marker-SRAP (sequence-related amplified polymorphism) using a population consisting of 129 F2 individuals derived from the interspecific cross of Handan208 Pima90. A total of 136 primer pairs were used to detect polymorphisms between the two parents and 76 primer pairs with better polymorphisms were picked out to analyze the F2 population. 285 polymorphic bands were generated in total with an average of 3.75 polymorphic bands per pair of primers. The primer pair showing most polymorphic bands was the combination of me3 and em2, which produced 13 polymorphic bands. The 285 loci were used to construct linkage map with MAPMAKER/EXP3.0 and 237 loci were mapped at a LOD≥3.0 on 39 linkage groups. The total length of the map is 3030.7 cM, covering 65.4% of the whole cotton genome, and the average distance between adjacent markers is 12.79 cM. All the markers are distributed evenly among the linkage groups without clustering of loci. This is the first linkage map of cotton comprised of SRAP markers.

西伯利亚蓼EST-SSR引物开发和国内资源的遗传背景分析

目的：评价国内西伯利亚蓼资源的遗传分化程度,为种群分化、物种进化、资源保护和药材品质保障提供科学依据。方法：从国内4个省份13个采样点采集56份西伯利亚蓼,开发并筛选多态性EST-SSR标记,结合相关序列扩增多态性（SRAP）分子标记扩增结果,通过计算遗传距离和聚类分析,评价不同生态分布区域内西伯利亚蓼的遗传分化程度。结果：开发的45对EST-SSR引物中,38对引物有扩增产物,共扩增出660个条带,其中17对引物产生的多态性条带比率为100%,共扩增出多态性条带303条。96对SRAP通用引物中,67对引物有扩增产物,共扩增出1 347个条带,其中58对引物产生的多态性条带比率为100%,共扩增出多态性条带1 147条。种群遗传距离计算和聚类分析结果表明,西伯利亚蓼种群内和种群间均有遗传分化,分布区域相隔越远,遗传分化程度越高。结论：地理位置隔离、海拔高度均影响了国内西伯利亚蓼种质资源的分布和分化,人类活动可能也对其有影响。