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从野生多毛番茄导入的一个主要数量性状基因座赋予栽培番茄(番茄)耐冷性。

A major QTL introgressed from wild Lycopersicon hirsutum confers chilling tolerance to cultivated tomato (Lycopersicon esculentum).

作者信息

John Goodstal F, Kohler Glenn R, Randall Leslie B, Bloom Arnold J, St Clair Dina A

机构信息

Department of Plant Sciences, University of California-Davis, Davis, CA 95616-8780, USA.

出版信息

Theor Appl Genet. 2005 Sep;111(5):898-905. doi: 10.1007/s00122-005-0015-2. Epub 2005 Oct 18.

DOI:10.1007/s00122-005-0015-2
PMID:16075210
Abstract

Many plants of tropical or subtropical origin, such as tomato, suffer damage under chilling temperatures (under 10 degrees C but above 0 degrees C). An earlier study identified several quantitative trait loci (QTLs) for shoot turgor maintenance (stm) under root chilling in an interspecific backcross population derived from crossing chilling-susceptible cultivated tomato (Lycopersicon esculentum) and chilling-tolerant wild L. hirsutum. The QTL with the greatest phenotypic effect on stm was located in a 28 cM region on chromosome 9 (designated stm 9), and enhanced chilling-tolerance was conferred by the presence of the Lycopersicon hirsutum allele at this QTL. Here, near-isogenic lines (NILs) were used to verify the effect of stm 9, and recombinant sub-NILs were used to fine map its position. Replicated experiments were performed with NILs and sub-NILs in a refrigerated hydroponic tank in the greenhouse. Sub-NIL data was analyzed using least square means separations, marker-genotype mean t-tests, and composite interval mapping. A dominant QTL controlling shoot turgor maintenance under root chilling was confirmed on chromosome 9 using both NILs and sub-NILs. Furthermore, sub-NILs permitted localization of stm 9 to a 2.7 cM interval within the original 28 cM QTL region. If the presence of the L. hirsutum allele at stm 9 also confers chilling-tolerance in L. esculentum plants grown under field conditions, it has the potential to expand the geographic areas in which cultivated tomato can be grown for commercial production.

摘要

许多热带或亚热带起源的植物,如番茄,在低温(10摄氏度以下但高于0摄氏度)下会受到损害。一项早期研究在由易受冷害的栽培番茄(Lycopersicon esculentum)和耐冷野生番茄L. hirsutum杂交产生的种间回交群体中,鉴定出了几个在根部低温下维持茎膨压(stm)的数量性状位点(QTL)。对stm具有最大表型效应的QTL位于9号染色体上一个28厘摩的区域(命名为stm 9),该QTL处Lycopersicon hirsutum等位基因的存在赋予了增强的耐冷性。在此,利用近等基因系(NIL)来验证stm 9的效应,并利用重组亚近等基因系来精细定位其位置。在温室的冷藏水培槽中对NIL和亚近等基因系进行了重复实验。使用最小二乘均值分离、标记基因型均值t检验和复合区间作图对亚近等基因系数据进行分析。利用NIL和亚近等基因系在9号染色体上均证实了一个控制根部低温下茎膨压维持的显性QTL。此外,亚近等基因系将stm 9定位到了原始28厘摩QTL区域内一个2.7厘摩的区间。如果stm 9处L. hirsutum等位基因的存在也能赋予在田间条件下生长的L. esculentum植株耐冷性,那么它就有可能扩大栽培番茄可用于商业生产的种植地理区域。

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本文引用的文献

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Evaluation of AFLPs for germplasm fingerprinting and assessment of genetic diversity in cultivars of tomato (Lycopersicon esculentum L.).
野生番茄 Solanum habrochaites 对烟粉虱的抗药性是多基因的,并受 Candidatus Liberibacter solanacearum 的存在影响。
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