Multi-Omics Analyses Reveal Systemic Insights into Maize Vivipary

Multi-Omics Analyses Reveal Systemic Insights into Maize Vivipary

Maize vivipary, precocious seed germination on the ear, affects yield and seed quality. The application of multi-omics approaches, such as transcriptomics or metabolomics, to classic vivipary mutants can potentially reveal the underlying mechanism. Seven maize vivipary mutants were selected for tran...

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Autores principales: Yiru Wang, Junli Zhang, Minghao Sun, Cheng He, Ke Yu, Bing Zhao, Rui Li, Jian Li, Zongying Yang, Xiao Wang, Haiyang Duan, Junjie Fu, Sanzhen Liu, Xuebin Zhang, Jun Zheng
Formato: article
Lenguaje:EN
Publicado: MDPI AG 2021
Materias:
maize
vivipary
seed dormancy
germination
abscisic acid
Botany
QK1-989
Acceso en línea:https://doaj.org/article/d3aab6c0ef44414fb270911aac513513
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Sumario:Maize vivipary, precocious seed germination on the ear, affects yield and seed quality. The application of multi-omics approaches, such as transcriptomics or metabolomics, to classic vivipary mutants can potentially reveal the underlying mechanism. Seven maize vivipary mutants were selected for transcriptomic and metabolomic analyses. A suite of transporters and transcription factors were found to be upregulated in all mutants, indicating that their functions are required during seed germination. Moreover, vivipary mutants exhibited a uniform expression pattern of genes related to abscisic acid (ABA) biosynthesis, gibberellin (GA) biosynthesis, and ABA core signaling. <i>NCED</i>4 (<i>Zm00001d007876</i>), which is involved in ABA biosynthesis, was markedly downregulated and <i>GA3ox</i> (<i>Zm00001d039634</i>) was upregulated in all vivipary mutants, indicating antagonism between these two phytohormones. The ABA core signaling components (PYL-ABI1-SnRK2-ABI3) were affected in most of the mutants, but the expression of these genes was not significantly different between the <i>vp8</i> mutant and wild-type seeds. Metabolomics analysis integrated with co-expression network analysis identified unique metabolites, their corresponding pathways, and the gene networks affected by each individual mutation. Collectively, our multi-omics analyses characterized the transcriptional and metabolic landscape during vivipary, providing a valuable resource for improving seed quality.

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