期刊
PLANT JOURNAL
卷 81, 期 6, 页码 849-860出版社
WILEY-BLACKWELL
DOI: 10.1111/tpj.12776
关键词
MYC5; Arabidopsis thaliana; jasmonate; signaling; stamen; sterile
资金
- US Department of Energy [DE-FG02-99ER20323]
- Agricultural Research Center at Washington State University
Jasmonate hormone (JA) plays critical roles in both plant defense and reproductive development. Arabidopsis thaliana plants deficient in JA-biosynthesis or -signaling are male-sterile, with defects in stamen and pollen development. MYC2, MYC3 and MYC4 are JAZ-interacting bHLH transcription factors that play a major role in controlling JA responses in vegetative tissue, but are not likely to play a role in reproductive tissue. We found that a closely related transcription factor, MYC5 (bHLH28), was able to induce JAZ promoters that control some of the early JA-responsive genes in a Daucus carota (carrot) protoplast expression system. A G-box sequence in the JAZ2 promoter was necessary and sufficient for induction by MYC5 (as it is for MYC2, MYC3 and MYC4), and induction of JAZ genes was repressed by co-expression of a stabilized, JAZ1Jas repressor. Two allelic myc5 mutants exhibited no overt phenotype; however, transgenic lines expressing MYC5 fused to an SRDX (SUPERMAN repressive domainX) motif phenocopied mutants defective in JA signaling. In particular, MYC5-SRDX plants were male-sterile, with defects in stamen filament elongation, anther dehiscence and pollen viability. Importantly, expression of MYB21 and other transcription factors required for stamen and pollen maturation was strongly reduced in stamens of MYC5-SRDX plants relative to the wild type. Taken together, these results indicate that MYC5, probably together with other, redundant transcription factors, may be activated by JA signaling to induce the expression of MYB21 and components required for male fertility. Significance Statement Sterility in Arabidopsis lines expressing a chimeric repressor, as well as other evidence, indicates a role for the MYC5 transcription factor in controlling stamen development and pollen function. This finding improves our understanding of the regulation of fertility in plants.
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