Genome Biology (Aug 2024)

Dissecting the genetic basis of UV-B responsive metabolites in rice

  • Feng Zhang,
  • Chenkun Yang,
  • Hao Guo,
  • Yufei Li,
  • Shuangqian Shen,
  • Qianqian Zhou,
  • Chun Li,
  • Chao Wang,
  • Ting Zhai,
  • Lianghuan Qu,
  • Cheng Zhang,
  • Xianqing Liu,
  • Jie Luo,
  • Wei Chen,
  • Shouchuang Wang,
  • Jun Yang,
  • Cui Yu,
  • Yanyan Liu

DOI
https://doi.org/10.1186/s13059-024-03372-x
Journal volume & issue
Vol. 25, no. 1
pp. 1 – 21

Abstract

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Abstract Background UV-B, an important environmental factor, has been shown to affect the yield and quality of rice (Oryza sativa) worldwide. However, the molecular mechanisms underlying the response to UV-B stress remain elusive in rice. Results We perform comprehensive metabolic profiling of leaves from 160 diverse rice accessions under UV-B and normal light conditions using a widely targeted metabolomics approach. Our results reveal substantial differences in metabolite accumulation between the two major rice subspecies indica and japonica, especially after UV-B treatment, implying the possible role and mechanism of metabolome changes in subspecies differentiation and the stress response. We next conduct a transcriptome analysis from four representative rice varieties under UV-B stress, revealing genes from amino acid and flavonoid pathways involved in the UV-B response. We further perform a metabolite-based genome-wide association study (mGWAS), which reveals 3307 distinct loci under UV-B stress. Identification and functional validation of candidate genes show that OsMYB44 regulates tryptamine accumulation to mediate UV-B tolerance, while OsUVR8 interacts with OsMYB110 to promote flavonoid accumulation and UV-B tolerance in a coordinated manner. Additionally, haplotype analysis suggests that natural variation of OsUVR8 groupA contributes to UV-B resistance in rice. Conclusions Our study reveals the complex biochemical and genetic foundations that govern the metabolite dynamics underlying the response, tolerance, and adaptive strategies of rice to UV-B stress. These findings provide new insights into the biochemical and genetic basis of the metabolome underlying the crop response, tolerance, and adaptation to UV-B stress.

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