茶叶科学
茶葉科學
다협과학
2014年
6期
617-624
,共8页
刘振%赵洋%杨培迪%成杨%宁静%杨阳
劉振%趙洋%楊培迪%成楊%寧靜%楊暘
류진%조양%양배적%성양%저정%양양
茶树%亲本鉴定%SSR标记%SRAP标记%ISSR标记
茶樹%親本鑒定%SSR標記%SRAP標記%ISSR標記
다수%친본감정%SSR표기%SRAP표기%ISSR표기
tea variety%parents identification%SSR%SRAP%ISSR
为鉴定湘波绿2号的父本,同时为茶树亲本鉴定和亲缘关系分析等研究提供分子标记参考,本研究采用 SSR、SRAP、ISSR 3种分子标记体系,在对湘波绿2号与其母本和5个可能父本进行亲缘关系分析基础上,比较了这3种分子标记体系的多态性条带比率(PPB)、多态性信息含量(PIC)、多样性指数(DI)、引物解析强度(Rp)、分子标记指数(MI)等指标。29对 SSR引物共检测到等位位点83个,平均每对引物2.86个,引物PPB、PIC、DI、Rp、MI平均值分别为77.01%、0.55、0.29、1.31、0.95。17对SRAP引物共检测到等位位点139个,平均每对引物8.18个,引物 PPB、PIC、DI、Rp、MI 平均值分别为71.70%、0.84、0.15、3.65、3.59。10个 ISSR 引物共检测到等位位点90个,平均每个引物9.00个,引物 PPB、PIC、DI、Rp、MI 平均值分别为69.76%、0.85、0.15、4.21、4.71。3种标记体系的 MI、Rp、PIC 趋势一致,ISSR 最高,依次为SRAP和SSR,而PPB和DI正好相反。以上结果表明,ISSR和SRAP标记具有较高的标记效率,而 SSR 标记具有丰富的多态性。不同分子标记体系获得的品种间相似系数有所不同,但湘波绿2号与湘波绿和福鼎大白茶聚为一类,说明湘波绿2号与其关系较近,湘波绿可能为湘波绿2号的父本。
為鑒定湘波綠2號的父本,同時為茶樹親本鑒定和親緣關繫分析等研究提供分子標記參攷,本研究採用 SSR、SRAP、ISSR 3種分子標記體繫,在對湘波綠2號與其母本和5箇可能父本進行親緣關繫分析基礎上,比較瞭這3種分子標記體繫的多態性條帶比率(PPB)、多態性信息含量(PIC)、多樣性指數(DI)、引物解析彊度(Rp)、分子標記指數(MI)等指標。29對 SSR引物共檢測到等位位點83箇,平均每對引物2.86箇,引物PPB、PIC、DI、Rp、MI平均值分彆為77.01%、0.55、0.29、1.31、0.95。17對SRAP引物共檢測到等位位點139箇,平均每對引物8.18箇,引物 PPB、PIC、DI、Rp、MI 平均值分彆為71.70%、0.84、0.15、3.65、3.59。10箇 ISSR 引物共檢測到等位位點90箇,平均每箇引物9.00箇,引物 PPB、PIC、DI、Rp、MI 平均值分彆為69.76%、0.85、0.15、4.21、4.71。3種標記體繫的 MI、Rp、PIC 趨勢一緻,ISSR 最高,依次為SRAP和SSR,而PPB和DI正好相反。以上結果錶明,ISSR和SRAP標記具有較高的標記效率,而 SSR 標記具有豐富的多態性。不同分子標記體繫穫得的品種間相似繫數有所不同,但湘波綠2號與湘波綠和福鼎大白茶聚為一類,說明湘波綠2號與其關繫較近,湘波綠可能為湘波綠2號的父本。
위감정상파록2호적부본,동시위다수친본감정화친연관계분석등연구제공분자표기삼고,본연구채용 SSR、SRAP、ISSR 3충분자표기체계,재대상파록2호여기모본화5개가능부본진행친연관계분석기출상,비교료저3충분자표기체계적다태성조대비솔(PPB)、다태성신식함량(PIC)、다양성지수(DI)、인물해석강도(Rp)、분자표기지수(MI)등지표。29대 SSR인물공검측도등위위점83개,평균매대인물2.86개,인물PPB、PIC、DI、Rp、MI평균치분별위77.01%、0.55、0.29、1.31、0.95。17대SRAP인물공검측도등위위점139개,평균매대인물8.18개,인물 PPB、PIC、DI、Rp、MI 평균치분별위71.70%、0.84、0.15、3.65、3.59。10개 ISSR 인물공검측도등위위점90개,평균매개인물9.00개,인물 PPB、PIC、DI、Rp、MI 평균치분별위69.76%、0.85、0.15、4.21、4.71。3충표기체계적 MI、Rp、PIC 추세일치,ISSR 최고,의차위SRAP화SSR,이PPB화DI정호상반。이상결과표명,ISSR화SRAP표기구유교고적표기효솔,이 SSR 표기구유봉부적다태성。불동분자표기체계획득적품충간상사계수유소불동,단상파록2호여상파록화복정대백다취위일류,설명상파록2호여기관계교근,상파록가능위상파록2호적부본。
To identify male parent of Xiangbolv 2 and to provide a reference for the choice of DNA marker in the study of relationship analysis, SSR, SRAP and ISSR were used to identify the male parent of Xiangbolv 2 among 5 possible tea varieties. Percentage of polymorphic bands (PPB), polymorphic information content (PIC), diversity index (DI), resolving power (Rp), marker index (MI) and other indicators were used to compare the marker efficiencies of SSR, SRAP and ISSR. Totally 83 (2.86 per primer) alleles were identified by 29 pairs of SSR primers. The average PPB, PIC, DI, Rp, MI were 77.01%, 0.55, 0.29, 1.31, 0.95 respectively. Meanwhile, 139 (8.18 per primer) alleles were amplified by 17 pairs of SRAP, with the average PPB, PIC, DI, Rp, MI of 71.70%, 0.84, 0.15, 3.65, 3.59 respectively. 90 (9.00 per primer) alleles were detected by 10 ISSR primer, with the average PPB, PIC, DI, Rp, MI of 69.76%, 0.85, 0.15, 4.21, 4.71 respectively. MI, Rp and PIC showed the same trend among SSR, SRAP and ISSR, with the highest value of ISSR, followed by SRAP and SSR, the PPB and DI showed the opposite trend. <br> These results indicated that ISSR and SRAP markers had high marker efficiency, and SSR markers had extensive polymorphism. Similarity coefficients among 7 accessions were different by different 3 DNA markers, but Xiangbolv 2, Xiangbolv and Fuding Dabaicha were gathered together irrespective of DNA markers, indicating that Xiangbolv might be the male parent of Xiangbolv 2.
