分析控制烟草叶片表面化学性质的两个性状的烟草基因组区域。

Analysis of a Nicotiana tabacum L. genomic region controlling two leaf surface chemistry traits.

机构信息

Department of Crop Science, North Carolina State University, Raleigh, North Carolina 27695, USA.

出版信息

J Agric Food Chem. 2010 Jan 13;58(1):294-300. doi: 10.1021/jf903256h.

PMID:20014852

Abstract

cis-Abienol and sucrose esters are Nicotiana tabacum leaf surface components that likely influence plant resistance to pests. Their breakdown products also contribute to flavor and aroma characteristics of certain tobacco types. Mapping of genes involved in the biosynthesis of these compounds could permit development of molecular-based tools for generating tobacco types with novel cured leaf chemistry profiles. A doubled haploid mapping population segregating for major genes (Abl and BMVSE) affecting the ability to accumulate cis-abienol and sucrose esters was generated and genotyped with a large set of microsatellite markers. The two genes were found to reside on chromosome A of the N. tabacum genome with a distance of 8.2 cM (centimorgans) between them. Seventeen microsatellite markers were also placed on this linkage group, several of which exhibited complete cosegregation with Abl and BMVSE. Results should aid breeding efforts focused on modification of this aspect of tobacco cured leaf chemistry.

摘要

顺式-贝壳杉烯醇和蔗糖酯是烟草叶片表面的成分，可能影响植物对害虫的抵抗力。它们的分解产物也有助于某些烟草类型的风味和香气特征。参与这些化合物生物合成的基因图谱的绘制，可以开发出基于分子的工具，用于生成具有新型调制后烟叶化学成分特征的烟草类型。一个用于分离影响顺式贝壳杉烯醇和蔗糖酯积累能力的主效基因（Abl 和 BMVSE）的双单倍体作图群体被分离出来，并利用大量微卫星标记进行了基因型分析。这两个基因被发现在烟草基因组的 A 染色体上，它们之间的距离为 8.2cM（厘摩）。17 个微卫星标记也被定位在这个连锁群上，其中几个标记与 Abl 和 BMVSE 完全连锁。这些结果将有助于专注于改良烟草调制后烟叶化学成分的育种工作。

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分析控制烟草叶片表面化学性质的两个性状的烟草基因组区域。

Analysis of a Nicotiana tabacum L. genomic region controlling two leaf surface chemistry traits.

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