以耐湿涝瓠瓜材料JZS和不耐湿涝材料T2002及其杂交F2群体为材料,选择湿涝条件下不定根数目作为耐湿涝鉴定指标,分析瓠瓜耐湿涝特性遗传规律,并采用集团混合分离分析法筛选相关分子标记。结果表明,瓠瓜亲本JZS的耐湿涝特性由1对显性单基因控制,F1的不定根数目比耐湿涝亲本JZS增多,表现出超亲优势。在600个RAPD和100对瓠瓜SSR引物中,共有18个引物(14个RAPD和4对SSR)在双亲中显示多态性。最终筛选到瓠瓜SSR引物S87/88,在双亲及基因池间稳定扩增出片段大小为230 bp的差异条带。通过F2153个单株验证,确定表型调查耐湿涝结果与分子标记S87/88鉴定结果相关性极显著(相关系数0.78),利用Mapmaker 3.0软件对分子标记与表型结果进行连锁分析,S87/88与瓠瓜耐湿涝相关的不定根数目基因的连锁距离为8.8 cM,为进一步利用分子辅助育种加速耐湿涝瓠瓜新品种的选育提供有效标记。
The tolerant parent JZS,susceptible parent T2002 and their F2 generation were used to analysis of the inheritance of water logging tolerance and identification of the linked molecular marker by BSA method (Bulked Segregate Analysis) with the identification index of adventitious root number under water logging in bottle gourd. The results showed that the inheritance of water logging tolerance of JZS was controlled by one pare single dominant gene,and the heterosis was showed in F1 with more adventitious root number than the tolerant parent JZS. Among 600 RAPD and 100 bottle gourd SSR primerstotal number of 18 markers (14 RAPD and 4 SSR) showed the poly- morphism between two parents,and among which one SSR primer of S87/88 was screened a polymorphic lolus (230 bp) between two parents and between tolerant and susceptible bulks.S87/88 showed the significant correlation with the water logging tolerance of the F2 population identified by adventitious root number,and the genetic distance be- tween them was 8.8cM determined by Mapmaker 3.0 software,which provided the useful molecular marker to as- sistant select the new variety with water logging tolerance in bottle gourd.
[1] 杨建明,沈秋泉,汪军妹,等. 大麦苗期耐湿性的鉴定 筛选[J]. 浙江农业学报,2003,15(5): 280-284.
[2] 陈嵘峰. 黄瓜品种资源的耐涝性鉴定及耐涝相关性状 QTL 的初步定位[D]. 扬州: 扬州大学,2009.
[3] Davis A R,Perkins-Veazie P,Sakata Y,et al. Cucurbit grafting[J]. Critical Reviews in Plant Sciences,2008,27 (1): 50-74.
[4] 钱 凯. 大麦耐湿性指标的筛选及 SSR 标记定位研究 [D]. 扬州: 扬州大学,2005.
[5] 张江丽,蔡士宾,张光祥,等. 马卡小麦耐湿性的 RAPD 标记及定位研究[J]. 南京农业大学学报,2003,26 (2): 7-10.
[6] Yeboah M A,Chen X,Cheng R F,et al. Correlations and heritability of waterlogging tolerance traits in cucumber (Cucumis sativus L. ) [J]. Plant Sciences Research,2008,1(1): 1-7.
[7] Yeboah M A,Chen X,Cheng R F,et al. Genetic compo-nent analysis of waterlogging tolerance in cucumber[J].Indian Journal of Horticulture,2008,65(3): 5-10.
[8] Poysa V W. The genetic control of low temperature ice-en-casement and flooding tolerance by chromosome 5A,5B,and 5D in wheat[J]. Cereal Research Communications,1984,12(3-4): 135-141.
[9] 曹 旸,蔡士宾,吴兆苏,等. 小麦耐湿性的遗传特性 研究[J]. 江苏农业学报,1995,11(2): 11-15.
[10] Boru G,van Ginkel M,Kronstad W E,et al. Expression and inheritance of tolerance to waterlogging stress in wheat[J]. Euphytica: Netherlands Journal of Plant Breeding,2001,117: 91-98.
[11] 丛 野,程 勇,邹崇顺,等. 甘蓝型油菜发芽种子耐 湿性的主基因 + 多基因遗传分析[J]. 作物学报,2009,35(8): 1462-1467.
[12] 韩龙植,张三元,乔永利,等. 冷水胁迫下水稻幼苗期 根系性状的 QTL 分析[J]. 作物学报,2005,31(11): 1415-1421.
[13] Xu K,Xu X,Fukao T,et al. Sub1A is an ethylene-re-sponse-factor-like gene that confers submergence toler-ance to rice[J]. Nature,2006,442: 705-708.
