Literature DB >> 29610210

OsALMT7 Maintains Panicle Size and Grain Yield in Rice by Mediating Malate Transport.

Yueqin Heng1, Chuanyin Wu1, Yu Long2, Sheng Luo1, Jin Ma1, Jun Chen1, Jiafan Liu1, Huan Zhang3, Yulong Ren1, Min Wang1, Junjie Tan1, Shanshan Zhu1, Jiulin Wang1, Cailin Lei1, Xin Zhang1, Xiuping Guo1, Haiyang Wang1, Zhijun Cheng4, Jianmin Wan4,3.   

Abstract

Panicle size is a critical determinant of grain yield in rice (Oryza sativa) and other grain crops. During rice growth and development, spikelet abortion often occurs at either the top or the basal part of the panicle under unfavorable conditions, causing a reduction in fertile spikelet number and thus grain yield. In this study, we report the isolation and functional characterization of a panicle abortion mutant named panicle apical abortion1-1 (paab1-1). paab1-1 exhibits degeneration of spikelets on the apical portion of panicles during late stage of panicle development. Cellular and physiological analyses revealed that the apical spikelets in the paab1-1 mutant undergo programmed cell death, accompanied by nuclear DNA fragmentation and accumulation of higher levels of H2O2 and malondialdehyde. Molecular cloning revealed that paab1-1 harbors a mutation in OsALMT7, which encodes a putative aluminum-activated malate transporter (OsALMT7) localized to the plasma membrane, and is preferentially expressed in the vascular tissues of developing panicles. Consistent with a function for OsALMT7 as a malate transporter, the panicle of the paab1-1 mutant contained less malate than the wild type, particularly at the apical portions, and injection of malate into the paab1-1 panicle could alleviate the spikelet degeneration phenotype. Together, these results suggest that OsALMT7-mediated transport of malate into the apical portion of panicle is required for normal panicle development, thus highlighting a key role of malate in maintaining the sink size and grain yield in rice and probably other grain crops.
© 2018 American Society of Plant Biologists. All rights reserved.

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Year:  2018        PMID: 29610210      PMCID: PMC5969278          DOI: 10.1105/tpc.17.00998

Source DB:  PubMed          Journal:  Plant Cell        ISSN: 1040-4651            Impact factor:   11.277


  63 in total

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9.  Fine Mapping of a Novel Major Quantitative Trait Locus, qPAA7, That Controls Panicle Apical Abortion in Rice.

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