植物学报
植物學報
식물학보
ACTA BOTANICA SINICA
2004年
6期
675-681
,共7页
盛岩%郑蔚虹%裴克全%马克平
盛巖%鄭蔚虹%裴剋全%馬剋平
성암%정위홍%배극전%마극평
梭梭%RAPD%ISSR%遗传结构%基因流
梭梭%RAPD%ISSR%遺傳結構%基因流
사사%RAPD%ISSR%유전결구%기인류
Haloxylon ammodendron,RAPD%ISSR%genetic structure%gene flow
梭梭(Haloxylon ammodendron(CA Mey.)Bunge)是一种沙漠旱生优势树种,具有重要的生态和经济价值,然而,我们对梭梭种群的遗传多样性和遗传结构所知甚少.本文采用RAPD和ISSR标记对来自古尔班通古特沙漠东南缘的4个天然梭梭种群的遗传多样性和遗传结构进行了检测.5个RAPD引物和8个ISSR引物分别扩增出61和195条带,多态性位点比率分别为83.6%和89.7%,Shannon信息指数分别为0.333和0.367,RAPD和ISSR分析均表明梭梭种群的遗传多样性水平较高.利用分子方差分析(AMOVA)研究梭梭种群的遗传结构,结果表明,大部分遗传变异存在于种群内,通过RAPD分析发现138.2%的遗传变异发生在种群内;通过ISSR分析发现89.4%的遗传变异发生在种群内;而种群间的遗传分化很小.通过RAPD标记没有检测到种群间的遗传分化,ISSR分析表明10.6%的遗传变异发生在种群内.我们推测梭梭种群较高的遗传多样性水平可能源于对异质、高胁迫环境的长期适应,但还需要进一步的研究加以证实.种群间遗传分异低的主要原因是种群间存在强大的基因流.
梭梭(Haloxylon ammodendron(CA Mey.)Bunge)是一種沙漠旱生優勢樹種,具有重要的生態和經濟價值,然而,我們對梭梭種群的遺傳多樣性和遺傳結構所知甚少.本文採用RAPD和ISSR標記對來自古爾班通古特沙漠東南緣的4箇天然梭梭種群的遺傳多樣性和遺傳結構進行瞭檢測.5箇RAPD引物和8箇ISSR引物分彆擴增齣61和195條帶,多態性位點比率分彆為83.6%和89.7%,Shannon信息指數分彆為0.333和0.367,RAPD和ISSR分析均錶明梭梭種群的遺傳多樣性水平較高.利用分子方差分析(AMOVA)研究梭梭種群的遺傳結構,結果錶明,大部分遺傳變異存在于種群內,通過RAPD分析髮現138.2%的遺傳變異髮生在種群內;通過ISSR分析髮現89.4%的遺傳變異髮生在種群內;而種群間的遺傳分化很小.通過RAPD標記沒有檢測到種群間的遺傳分化,ISSR分析錶明10.6%的遺傳變異髮生在種群內.我們推測梭梭種群較高的遺傳多樣性水平可能源于對異質、高脅迫環境的長期適應,但還需要進一步的研究加以證實.種群間遺傳分異低的主要原因是種群間存在彊大的基因流.
사사(Haloxylon ammodendron(CA Mey.)Bunge)시일충사막한생우세수충,구유중요적생태화경제개치,연이,아문대사사충군적유전다양성화유전결구소지심소.본문채용RAPD화ISSR표기대래자고이반통고특사막동남연적4개천연사사충군적유전다양성화유전결구진행료검측.5개RAPD인물화8개ISSR인물분별확증출61화195조대,다태성위점비솔분별위83.6%화89.7%,Shannon신식지수분별위0.333화0.367,RAPD화ISSR분석균표명사사충군적유전다양성수평교고.이용분자방차분석(AMOVA)연구사사충군적유전결구,결과표명,대부분유전변이존재우충군내,통과RAPD분석발현138.2%적유전변이발생재충군내;통과ISSR분석발현89.4%적유전변이발생재충군내;이충군간적유전분화흔소.통과RAPD표기몰유검측도충군간적유전분화,ISSR분석표명10.6%적유전변이발생재충군내.아문추측사사충군교고적유전다양성수평가능원우대이질、고협박배경적장기괄응,단환수요진일보적연구가이증실.충군간유전분이저적주요원인시충군간존재강대적기인류.
Haloxylon ammodendron (GA Mey.) Bunge, the dominant tree species in many xerophytic deserts of Asia, plays an important role in the maintenance of the structure and function of these ecosystems. Despite its ecological and economic importance, nearly nothing is known about its genetic attributes. In this study, RAPD and ISSR markers were used to investigate the genetic diversity and structure of four natural populations of H. ammodendron. Five RAPD primers amplified 61 bands with 51 (83.6%) polymorphic and eight ISSR primers amplified 195 bands with 175 (89.7%) polymorphic. The genetic diversity, estimated by Shannon's index, was 0.333 (by RAPDs) and 0.367 (by ISSRs). Both RAPD and ISSR analyses revealed a high level of genetic diversity in natural populations of H. ammodendron. Furthermore,analysis of molecular variance (AMOVA) was used to apportion the variation within and between populations.The proportion of variation attributable to within-population differences was very high (138.2% by RAPDs;89.4% by ISSRs). No genetic differentiation was detected among populations using RAPDs (P= 0.999), while only a small amount of variation (10.6%) was detected among populations using ISSRs. We suggest that the present genetic structure is due to high levels of gene flow.