分子植物育种
分子植物育種
분자식물육충
MOLECULAR PLANT BREEDING
2013年
1期
20-29
,共10页
田大刚%林艳%刘华清%苏军%陈在杰%颜静宛%许彦%王锋*
田大剛%林豔%劉華清%囌軍%陳在傑%顏靜宛%許彥%王鋒*
전대강%림염%류화청%소군%진재걸%안정완%허언%왕봉*
水稻品种%SSR%特异性%稳定性
水稻品種%SSR%特異性%穩定性
수도품충%SSR%특이성%은정성
Rice varieties%SSR%Specificity%Stability
利用前期构建的SSR核心引物的指纹图谱为基础,从中选出123份具有代表性的水稻品种进行品种的特异性及稳定性分析,并据此判定新增核心标记的应用价值.聚类分析结果表明,24对引物共检测到138个等位基因,其中等位位点上只存在一个品种有12个,能特定区分粳稻和籼稻类群水稻品种的等位位点的有21个;按遗传相似系数为0.96的划分标准,所有的品种都具备特异性;以等位位点的纯合性为指标,117份品种具有稳定的遗传基础;在杂交种与其父母本的遗传位点匹配试验中,16份随机配组的杂交组合中含有1~3个不匹配的遗传位点,而且这些位点和6份品种的杂合位点一起,多集中于RM289、RM7492、RM6487和RM583等4个标记中,它们是品种遗传不稳定的分子基础.表明24对核心引物能较好的鉴别123份水稻品种,123份品种中含有可重复发生的不稳定遗传位点.
利用前期構建的SSR覈心引物的指紋圖譜為基礎,從中選齣123份具有代錶性的水稻品種進行品種的特異性及穩定性分析,併據此判定新增覈心標記的應用價值.聚類分析結果錶明,24對引物共檢測到138箇等位基因,其中等位位點上隻存在一箇品種有12箇,能特定區分粳稻和秈稻類群水稻品種的等位位點的有21箇;按遺傳相似繫數為0.96的劃分標準,所有的品種都具備特異性;以等位位點的純閤性為指標,117份品種具有穩定的遺傳基礎;在雜交種與其父母本的遺傳位點匹配試驗中,16份隨機配組的雜交組閤中含有1~3箇不匹配的遺傳位點,而且這些位點和6份品種的雜閤位點一起,多集中于RM289、RM7492、RM6487和RM583等4箇標記中,它們是品種遺傳不穩定的分子基礎.錶明24對覈心引物能較好的鑒彆123份水稻品種,123份品種中含有可重複髮生的不穩定遺傳位點.
이용전기구건적SSR핵심인물적지문도보위기출,종중선출123빈구유대표성적수도품충진행품충적특이성급은정성분석,병거차판정신증핵심표기적응용개치.취류분석결과표명,24대인물공검측도138개등위기인,기중등위위점상지존재일개품충유12개,능특정구분갱도화선도류군수도품충적등위위점적유21개;안유전상사계수위0.96적화분표준,소유적품충도구비특이성;이등위위점적순합성위지표,117빈품충구유은정적유전기출;재잡교충여기부모본적유전위점필배시험중,16빈수궤배조적잡교조합중함유1~3개불필배적유전위점,이차저사위점화6빈품충적잡합위점일기,다집중우RM289、RM7492、RM6487화RM583등4개표기중,타문시품충유전불은정적분자기출.표명24대핵심인물능교호적감별123빈수도품충,123빈품충중함유가중복발생적불은정유전위점.
The 123 representatives of rice varieties were chosen to conduct the analysis of cultivar specificity and stability based on the fingerprinting profiles built previously by SSR core primers, in order to determine the value of the new adding core markers. The cluster analysis showed that 24 pairs of primers detected 138 alleles, of which there are 12 loci happening in single cultivar and 21 loci that can distinguish japonica and indica rice varieties. Based on criterion of genetic similarity coefficient as 0.96 for the classification, all tested varieties possess their specificity; based on homozygosity of alleles as reference, 117 varieties have stable genetic basis. In the experiment of match analysis on hybrid and their parents, 16 hybrids by random combining contain 1 and or 3 unmatch genetic loci that are happening with heterozygous loci of six varieties, which mostly appear in the markers of RM289, RM7492, RM6487 and RM583. We thought that these are the molecular basis of genetic instability of the varieties indicating 24 pairs of core primers should well identify 123 varieties of rice, and also 123 varieties might contain repeatable instable genetic loci.