Frontiers in Plant Science (Jan 2022)

Improved 93-11 Genome and Time-Course Transcriptome Expand Resources for Rice Genomics

  • Sen Wang,
  • Shenghan Gao,
  • Jingyi Nie,
  • Xinyu Tan,
  • Junhua Xie,
  • Xiaochun Bi,
  • Yan Sun,
  • Sainan Luo,
  • Qianhui Zhu,
  • Jianing Geng,
  • Wanfei Liu,
  • Qiang Lin,
  • Peng Cui,
  • Songnian Hu,
  • Shuangyang Wu

DOI
https://doi.org/10.3389/fpls.2021.769700
Journal volume & issue
Vol. 12

Abstract

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In 2002, the first crop genome was published using the rice cultivar 93-11, which is the progenitor of the first super-hybrid rice. The genome sequence has served as a reference genome for the indica cultivars, but the assembly has not been updated. In this study, we update the 93-11 genome assembly to a gap-less sequence using ultra-depth single molecule real-time (SMRT) reads, Hi-C sequencing, reference-guided, and gap-closing approach. The differences in the genome collinearity and gene content between the 93-11 and the Nipponbare reference genomes confirmed to map the indica cultivar sequencing data to the 93-11 genome, instead of the reference. Furthermore, time-course transcriptome data showed that the expression pattern was consistently correlated with the stages of seed development. Alternative splicing of starch synthesis-related genes and genomic variations of waxy make it a novel resource for targeted breeding. Collectively, the updated high quality 93-11 genome assembly can improve the understanding of the genome structures and functions of Oryza groups in molecular breeding programs.

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