The role of transposon inverted repeats in balancing drought tolerance and yield-related traits in maize

The role of transposon inverted repeats in balancing drought tolerance and yield-related traits in maize

The genomic basis underlying the selection for environmental adaptation and yield-related traits in maize remains poorly understood. Here we carried out genome-wide profiling of the small RNA (sRNA) transcriptome (sRNAome) and transcriptome landscapes of a global maize diversity panel under dry and wet conditions and uncover dozens of environment-specific regulatory hotspots. Transgenic and molecular studies of Drought-Related Environment-specific Super eQTL Hotspot on chromosome 8 (DRESH8) and ZmMYBR38, a target of DRESH8-derived small interfering RNAs, revealed a transposable element-mediated inverted repeats (TE-IR)-derived sRNA- and gene-regulatory network that balances plant drought tolerance with yield-related traits. A genome-wide scan revealed that TE-IRs associate with drought response and yield-related traits that were positively selected and expanded during maize domestication. These results indicate that TE-IR-mediated posttranscriptional regulation is a key molecular mechanism underlying the tradeoff between crop environmental adaptation and yield-related traits, providing potential genomic targets for the breeding of crops with greater stress tolerance but uncompromised yield.

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Bibliographic Details
Main Authors: Sun, Xiaopeng, Xiang, Yanli, Dou, Nannan, Zhang, Hui, Pei, Surui, Valdes Franco, J. Arcadio, Menon, Mitra, Monier, Brandon, Ferebee, Taylor, Liu, Tao, Liu, Sanyang, Gao, Yuchi, Wang, Jubin, Terzaghi, William, Jianbing Yan, Hearne, Sarah Jane, Lin Li, Feng Li, Dai, Mingqiu
Format: Journal Article biblioteca
Language:English
Published: Springer 2023-01
Subjects:agronomy, crops, genomes, plants, drought tolerance, genomics, transcriptome, transposons, drought, maize,
Online Access:https://hdl.handle.net/10568/126591
https://doi.org/10.1038/s41587-022-01470-4
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Summary:The genomic basis underlying the selection for environmental adaptation and yield-related traits in maize remains poorly understood. Here we carried out genome-wide profiling of the small RNA (sRNA) transcriptome (sRNAome) and transcriptome landscapes of a global maize diversity panel under dry and wet conditions and uncover dozens of environment-specific regulatory hotspots. Transgenic and molecular studies of Drought-Related Environment-specific Super eQTL Hotspot on chromosome 8 (DRESH8) and ZmMYBR38, a target of DRESH8-derived small interfering RNAs, revealed a transposable element-mediated inverted repeats (TE-IR)-derived sRNA- and gene-regulatory network that balances plant drought tolerance with yield-related traits. A genome-wide scan revealed that TE-IRs associate with drought response and yield-related traits that were positively selected and expanded during maize domestication. These results indicate that TE-IR-mediated posttranscriptional regulation is a key molecular mechanism underlying the tradeoff between crop environmental adaptation and yield-related traits, providing potential genomic targets for the breeding of crops with greater stress tolerance but uncompromised yield.

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