中国农业科技导报
中國農業科技導報
중국농업과기도보
REVIEW OF CHINA AGRICULTURAL SCIENCE AND TECHNOLOGY
2013年
2期
89-96
,共8页
李朋飞%霍秀爱%程永强%代亮%杨炳艳%段会军?
李朋飛%霍秀愛%程永彊%代亮%楊炳豔%段會軍?
리붕비%곽수애%정영강%대량%양병염%단회군?
西瓜%SRAP%遗传多样性
西瓜%SRAP%遺傳多樣性
서과%SRAP%유전다양성
watermelon%SRAP%genetic diversity
运用SRAP分子标记技术分析了80份西瓜种质资源的遗传多样性,28对不同的引物组合共扩增出308条谱带,其中多态性谱带68条.引物组合的多态性频率最低为9.1%,最高为45.5%,平均22.1%.基于全部材料的 SRAP 基因型数据评价品种间的遗传关系,80份西瓜种质的遗传相似系数变化范围在0.94~1.00之间,表明供试西瓜种质资源的遗传背景比较狭窄.利用NTSYS软件聚类分析,80份西瓜材料被划分为3个类群,类群间相似度较高.来源地不同的西瓜材料也被划分到一个类群,进一步说明供试材料遗传背景狭窄.西瓜育种要取得突破性进展,必须加强种质资源的引进与创新.
運用SRAP分子標記技術分析瞭80份西瓜種質資源的遺傳多樣性,28對不同的引物組閤共擴增齣308條譜帶,其中多態性譜帶68條.引物組閤的多態性頻率最低為9.1%,最高為45.5%,平均22.1%.基于全部材料的 SRAP 基因型數據評價品種間的遺傳關繫,80份西瓜種質的遺傳相似繫數變化範圍在0.94~1.00之間,錶明供試西瓜種質資源的遺傳揹景比較狹窄.利用NTSYS軟件聚類分析,80份西瓜材料被劃分為3箇類群,類群間相似度較高.來源地不同的西瓜材料也被劃分到一箇類群,進一步說明供試材料遺傳揹景狹窄.西瓜育種要取得突破性進展,必鬚加彊種質資源的引進與創新.
운용SRAP분자표기기술분석료80빈서과충질자원적유전다양성,28대불동적인물조합공확증출308조보대,기중다태성보대68조.인물조합적다태성빈솔최저위9.1%,최고위45.5%,평균22.1%.기우전부재료적 SRAP 기인형수거평개품충간적유전관계,80빈서과충질적유전상사계수변화범위재0.94~1.00지간,표명공시서과충질자원적유전배경비교협착.이용NTSYS연건취류분석,80빈서과재료피화분위3개류군,류군간상사도교고.래원지불동적서과재료야피화분도일개류군,진일보설명공시재료유전배경협착.서과육충요취득돌파성진전,필수가강충질자원적인진여창신.
Eighty watermelon materials were analyzed by SRAP ( sequence-related amplified porlymorphism ) technique. The results showed that 308 bands were amplified using 28 primer pairs, and 68 bands were polymorphic. Among the primer pairs, the minimum polymorphism frequency is 9. 1%, the maximum is 45. 5%, and the average is 22. 1%. Based on DNA bands, the similarity coefficients were calculated and their value were ranged from 0. 94~1. 00, which indicated that their genetic base was narrow. Clustering analysis revealed that 80 watermelon materials were classified into 3 groups. The values of similarity coefficient among them were high. Materials from different districts were clustered together, which also showed that their genetic background was narrow. In order to get breakthrough and progress in watermelon breeding, we must strengthen the introduction and innovation of watermelon germplasm resources.
