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在小麦和水稻中,直系同源 NAC 转录因子的功能分化。

Divergent functions of orthologous NAC transcription factors in wheat and rice.

机构信息

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

出版信息

Plant Mol Biol. 2012 Mar;78(4-5):515-24. doi: 10.1007/s11103-012-9881-6. Epub 2012 Jan 26.

DOI:10.1007/s11103-012-9881-6
PMID:22278768
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4773031/
Abstract

The wheat GPC-B1 gene located on chromosome 6B is an early regulator of senescence and affects remobilization of protein and minerals to the grain. GPC-B1 is a NAC transcription factor and has a paralogous copy on chromosome 2B in wheat, GPC-B2. The closest rice homolog to both wheat GPC genes is Os07g37920 which is located on rice chromosome 7 and is colinear with GPC-B2. Since rice is a diploid species with a sequenced genome, we initiated the study of Os07g37920 to develop a simpler model to study senescence and mineral remobilization in cereals. We developed eleven independent RNA interference transgenic rice lines (Os07g37920-RNAi) and 10 over-expressing transgenic lines (Os07g37920-OE), but none of them showed differences in senescence. Transgenic Os07g37920-RNAi rice plants had reduced proportions of viable pollen grains and were male-sterile, but were able to produce seeds by cross pollination. Analysis of the flower morphology of the transgenic rice plants showed that anthers failed to dehisce. Transgenic Os07g37920-OE lines showed no sterility or anther dehiscence problems. Os07g37920 transcript levels were higher in stamens compared to leaves and significantly reduced in the transgenic Os07g37920-RNAi plants. Wheat GPC genes showed the opposite transcription profile (higher transcript levels in leaves than in flowers) and plants carrying knock-out mutations of all GPC-1 and GPC-2 genes exhibited delayed senescence but normal anther dehiscence and fertility. These results indicate a functional divergence of the homologous wheat and rice NAC genes and suggest the need for separate studies of the function and targets of these transcription factors in wheat and rice.

摘要

位于 6B 染色体上的小麦 GPC-B1 基因是衰老的早期调控因子,影响蛋白质和矿物质向籽粒的再转移。GPC-B1 是一个 NAC 转录因子,在小麦的 2B 染色体上有一个与其同源的拷贝 GPC-B2。与小麦 GPC 基因最接近的水稻同源物是 Os07g37920,它位于水稻染色体 7 上,与 GPC-B2 共线性。由于水稻是一种具有测序基因组的二倍体物种,我们开始研究 Os07g37920,以开发一个更简单的模型来研究谷物的衰老和矿物质再转移。我们开发了 11 个独立的 RNA 干扰转基因水稻品系(Os07g37920-RNAi)和 10 个过表达转基因品系(Os07g37920-OE),但它们在衰老方面都没有差异。转基因 Os07g37920-RNAi 水稻植株花粉粒的活力比例降低,雄性不育,但通过异花授粉仍能产生种子。对转基因水稻植株的花形态分析表明,花药未能开裂。转基因 Os07g37920-OE 系没有不育或花药开裂问题。与叶片相比,Os07g37920 在雄蕊中的转录水平更高,而在转基因 Os07g37920-RNAi 植株中则显著降低。小麦 GPC 基因表现出相反的转录模式(叶片中的转录水平高于花朵),并且携带所有 GPC-1 和 GPC-2 基因敲除突变的植株表现出衰老延迟,但花药正常开裂和育性正常。这些结果表明同源的小麦和水稻 NAC 基因具有功能上的差异,并表明需要分别研究这些转录因子在小麦和水稻中的功能和靶标。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/80e5/4773031/6ffabb695d8a/nihms763089f6.jpg
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