10.6084/M9.FIGSHARE.21266735.V1
Dan Liu
Dan
Liu
0000-0001-9255-4462
Yanjiao Cui
Yanjiao
Cui
Zilong Zhao
Zilong
Zhao
Jing Zhang
Jing
Zhang
Suying Li
Suying
Li
Zhengli Liu
Zhengli
Liu
Table S3.xlsx from Transcriptome analysis and mining of genes related to shade tolerance in foxtail millet (<i>Setaria italica</i> (L.) P. Beauv.)
A stereo interplanting system with foxtail millet beneath chestnut trees is an effective planting method to raise the utilization of land in chestnut orchards, increase yields and improve quality of chestnut nuts. Consequently, exploration of genes involved in shade tolerance response in foxtail millet and breeding shade-tolerant varieties have become urgent issues. In this study, RNA-seq of leaf samples from two shade-tolerant varieties and three shade-intolerant varieties of foxtail millet at the booting stage was performed. Comparisons between the varieties revealed that 70 genes were commonly differentially expressed. Moreover, the ratio of net photosynthetic rate under shaded environment to that under light environment could be used as an indicator of shade tolerance. Subsequently, weighted gene co-expression network analysis was employed to construct a co-expression network and modules were correlated with this ratio. A total of 375 genes were identified as potentially relevant to shade tolerance, among which nine genes were also present in the 70 differentially expressed genes, which implied that they were good candidates for genes involved in shade tolerance. Our results provide valuable resources for elucidation of the molecular mechanisms underlying shade tolerance and will contribute to breeding of shade-tolerant foxtail millet that are adapted to the shaded environment under chestnut trees.
The Royal Society
2022
2022-10-04
2024-02-15
Dataset
15315 Bytes
10.6084/m9.figshare.21266735
10.1098/rsos.220953
CC BY 4.0