BMC Genomics (Jun 2023)

Identification of BBX gene family and its function in the regulation of microtuber formation in yam

  • Yingying Chang,
  • Haoyuan Sun,
  • Shiyu Liu,
  • Yulong He,
  • Shanshan Zhao,
  • Jiage Wang,
  • Tianle Wang,
  • Jiangli Zhang,
  • Jin Gao,
  • Qingxiang Yang,
  • Mingjun Li,
  • Xiting Zhao

DOI
https://doi.org/10.1186/s12864-023-09406-1
Journal volume & issue
Vol. 24, no. 1
pp. 1 – 15

Abstract

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Abstract BBX proteins play important roles in all of the major light-regulated developmental processes. However, no systematic analysis of BBX gene family regarding the regulation of photoperiodic microtuber formation has been previously performed in yam. In this study, a systematic analysis on the BBX gene family was conducted in three yam species, with the results, indicating that this gene plays a role in regulating photoperiodic microtuber formation. These analyses included identification the BBX gene family in three yam species, their evolutionary relationships, conserved domains, motifs, gene structure, cis-acting elements, and expressional patterns. Based on these analyses, DoBBX2/DoCOL5 and DoBBX8/DoCOL8 showing the most opposite pattern of expression during microtuber formation were selected as candidate genes for further investigation. Gene expression analysis showed DoBBX2/DoCOL5 and DoBBX8/DoCOL8 were highest expressed in leaves and exhibited photoperiod responsive expression patterns. Besides, the overexpression of DoBBX2/DoCOL5 and DoBBX8/DoCOL8 in potato accelerated tuber formation under short-day (SD) conditions, whereas only the overexpression of DoBBX8/DoCOL8 enhanced the accelerating effect of dark conditions on tuber induction. Tuber number was increased in DoBBX8/DoCOL8 overexpressing plants under dark, as well as in DoBBX2/DoCOL5 overexpressing plants under SD. Overall, the data generated in this study may form the basis of future functional characterizations of BBX genes in yam, especially regarding their regulation of microtuber formation via the photoperiodic response pathway.

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