小麦旗叶和生殖发育过程中细胞分裂素基因家族成员的协调调控。

Co-ordinate regulation of cytokinin gene family members during flag leaf and reproductive development in wheat.

机构信息

School of Biological Sciences, University of Canterbury, Private Bag 4800, Christchurch, New Zealand.

出版信息

BMC Plant Biol. 2012 Jun 6;12:78. doi: 10.1186/1471-2229-12-78.

DOI:10.1186/1471-2229-12-78

PMID:22672647

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3410795/

Abstract

BACKGROUND

As the global population continues to expand, increasing yield in bread wheat is of critical importance as 20% of the world's food supply is sourced from this cereal. Several recent studies of the molecular basis of grain yield indicate that the cytokinins are a key factor in determining grain yield. In this study, cytokinin gene family members in bread wheat were isolated from four multigene families which regulate cytokinin synthesis and metabolism, the isopentenyl transferases (IPT), cytokinin oxidases (CKX), zeatin O-glucosyltransferases (ZOG), and β-glucosidases (GLU). As bread wheat is hexaploid, each gene family is also likely to be represented on the A, B and D genomes. By using a novel strategy of qRT-PCR with locus-specific primers shared among the three homoeologues of each family member, detailed expression profiles are provided of family members of these multigene families expressed during leaf, spike and seed development.

RESULTS

The expression patterns of individual members of the IPT, CKX, ZOG, and GLU multigene families in wheat are shown to be tissue- and developmentally-specific. For instance, TaIPT2 and TaCKX1 were the most highly expressed family members during early seed development, with relative expression levels of up to 90- and 900-fold higher, respectively, than those in the lowest expressed samples. The expression of two cis-ZOG genes was sharply increased in older leaves, while an extremely high mRNA level of TaGLU1-1 was detected in young leaves.

CONCLUSIONS

Key genes with tissue- and developmentally-specific expression have been identified which would be prime targets for genetic manipulation towards yield improvement in bread wheat breeding programmes, utilising TILLING and MAS strategies.

摘要

背景

随着全球人口的持续增长，提高面包小麦的产量至关重要，因为全球 20%的食物供应都来自这种谷物。最近几项关于谷物产量分子基础的研究表明，细胞分裂素是决定谷物产量的关键因素。在这项研究中，从调节细胞分裂素合成和代谢的四个多基因家族中分离出了面包小麦中的细胞分裂素基因家族成员，这四个家族是异戊烯基转移酶（IPT）、细胞分裂素氧化酶（CKX）、玉米素 O-葡萄糖基转移酶（ZOG）和β-葡萄糖苷酶（GLU）。由于面包小麦是六倍体，每个基因家族也可能存在于 A、B 和 D 基因组中。本研究采用了一种新的 qRT-PCR 策略，使用每个家族成员在三个同源基因座之间共享的基因座特异性引物，详细提供了这些多基因家族成员在叶片、穗和种子发育过程中的表达谱。

结果

IPT、CKX、ZOG 和 GLU 多基因家族的个别成员在小麦中的表达模式表现出组织和发育特异性。例如，TaIPT2 和 TaCKX1 是早期种子发育过程中表达水平最高的家族成员，相对表达水平分别比最低表达样本高 90 倍和 900 倍。两个顺式-ZOG 基因的表达在老叶中急剧增加，而 TaGLU1-1 的 mRNA 水平则极高，在幼叶中检测到。

结论

鉴定出具有组织和发育特异性表达的关键基因，这些基因将成为面包小麦遗传改良中提高产量的首选基因，利用 TILLING 和 MAS 策略。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/1d6f/3410795/c553c057a1a4/1471-2229-12-78-1.jpg

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小麦旗叶和生殖发育过程中细胞分裂素基因家族成员的协调调控。

Co-ordinate regulation of cytokinin gene family members during flag leaf and reproductive development in wheat.

机构信息

出版信息

BACKGROUND

RESULTS

CONCLUSIONS

背景

结果

结论

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