小麦中春化基因1的新等位基因与启动子区域DNA曲率和柔韧性的调节相关。

Novel alleles of the VERNALIZATION1 genes in wheat are associated with modulation of DNA curvature and flexibility in the promoter region.

作者信息

Muterko Alexandr, Kalendar Ruslan, Salina Elena

机构信息

Laboratory of Plant Molecular Genetics and Cytogenetics, The Federal Research Center Institute of Cytology and Genetics, Lavrentyeva Avenue 10, Novosibirsk, 630090, Russian Federation.

Department of Common and Molecular Genetics, Plant Breeding and Genetics Institute - National Center of Seed and Cultivar Investigation, Ovidiopolskaya Road 3, Odessa, 65036, Ukraine.

出版信息

BMC Plant Biol. 2016 Jan 27;16 Suppl 1(Suppl 1):9. doi: 10.1186/s12870-015-0691-2.

DOI:10.1186/s12870-015-0691-2

PMID:26822192

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4895274/

Abstract

BACKGROUND

In wheat, the vernalization requirement is mainly controlled by the VRN genes. Different species of hexaploid and tetraploid wheat are widely used as genetic source for new mutant variants and alleles for fundamental investigations and practical breeding programs. In this study, VRN-A1 and VRN-B1 were analysed for 178 accessions representing six tetraploid wheat species (Triticum dicoccoides, T. dicoccum, T. turgidum, T. polonicum, T. carthlicum, T. durum) and five hexaploid species (T. compactum, T. sphaerococcum, T. spelta, T. macha, T. vavilovii).

RESULTS

Novel allelic variants in the promoter region of VRN-A1 and VRN-B1 were identified based on the change in curvature and flexibility of the DNA molecules. The new variants of VRN-A1 (designated as Vrn-A1a.2, Vrn-A1b.2 - Vrn-A1b.6 and Vrn-A1i) were found to be widely distributed in hexaploid and tetraploid wheat, and in fact were predominant over the known VRN-A1 alleles. The greatest diversity of the new variants of VRN-B1 (designated as VRN-B1.f, VRN-B1.s and VRN-B1.m) was found in the tetraploid and some hexaploid wheat species. For the first time, minor differences within the sequence motif known as the VRN-box of VRN1 were correlated with wheat growth habit. Thus, vrn-A1b.3 and vrn-A1b.4 were revealed in winter wheat in contrast to Vrn-A1b.2, Vrn-A1b.5, Vrn-A1b.6 and Vrn-A1i. It was found that single nucleotide mutation in the VRN-box can influence the vernalization requirement and growth habit of wheat. Our data suggest that both the A-tract and C-rich segment within the VRN-box contribute to its functionality, and provide a new view of the hypothesised role of the VRN-box in regulating transcription of the VRN1 genes. Specifically, it is proposed that combination of mutations in this region can modulate vernalization sensitivity and flowering time of wheat.

CONCLUSIONS

New allelic variants of the VRN-A1 and VRN-B1 genes were identified in hexaploid and tetraploid wheat. Mutations in A-tract and C-rich segments within the VRN-box of VRN-A1 are associated with modulation of the vernalization requirement and flowering time. New allelic variants will be useful in fundamental investigations into the regulation of VRN1 expression, and provide a valuable genetic resource for practical breeding of wheat.

摘要

背景

在小麦中，春化需求主要由VRN基因控制。不同的六倍体和四倍体小麦品种被广泛用作新突变变体和等位基因的遗传来源，用于基础研究和实际育种计划。在本研究中，对代表6个四倍体小麦品种（野生二粒小麦、栽培二粒小麦、硬粒小麦、波兰小麦、东方小麦、 durum小麦）和5个六倍体小麦品种（密穗小麦、圆粒小麦、斯卑尔脱小麦、马卡小麦、瓦维洛夫小麦）的178份材料进行了VRN - A1和VRN - B1分析。

结果

基于DNA分子曲率和柔韧性的变化，在VRN - A1和VRN - B1启动子区域鉴定出了新的等位基因变体。VRN - A1的新变体（命名为Vrn - A1a.2、Vrn - A1b.2 - Vrn - A1b.6和Vrn - A1i）在六倍体和四倍体小麦中广泛分布，实际上比已知的VRN - A1等位基因更占优势。VRN - B1的新变体（命名为VRN - B1.f、VRN - B1.s和VRN - B1.m）在四倍体和一些六倍体小麦品种中具有最大的多样性。首次发现VRN1的VRN - box序列基序内的微小差异与小麦生长习性相关。因此，与Vrn - A1b.2、Vrn - A1b.5、Vrn - A1b.6和Vrn - A1i相比，冬小麦中发现了vrn - A1b.3和vrn - A1b.4。发现VRN - box中的单核苷酸突变会影响小麦的春化需求和生长习性。我们的数据表明，VRN - box内富含A的区域和富含C的区域都对其功能有贡献，并为VRN - box在调节VRN1基因转录中的假设作用提供了新的视角。具体而言，提出该区域突变的组合可调节小麦的春化敏感性和开花时间。

结论

在六倍体和四倍体小麦中鉴定出了VRN - A1和VRN - B1基因的新等位基因变体。VRN - A1的VRN - box内富含A的区域和富含C的区域的突变与春化需求和开花时间的调节相关。新的等位基因变体将有助于对VRN1表达调控的基础研究，并为小麦实际育种提供宝贵的遗传资源。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/9fbb/4895274/7913ef812c49/12870_2015_691_Fig1_HTML.jpg

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小麦中春化基因1的新等位基因与启动子区域DNA曲率和柔韧性的调节相关。

Novel alleles of the VERNALIZATION1 genes in wheat are associated with modulation of DNA curvature and flexibility in the promoter region.

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