Single-cell resolution transcriptional atlases of aerial and subterranean pegs reveals auxin signaling associated with peg development in peanut (Arachis hypogaea L.)

Weicai Jin; Mengyun Xu; Lu Huang; Yueni Zhou; Yuan Xiao; Wenhao Zhong; Yanyue Liang; Zihao Zheng; Haifen Li; Qianxia Yu; Shaoxiong Li; Runfeng Wang; Rajeev K. Varshney; Qing Lu; Yanbin Hong; Xiaoping Chen; Wenyi Wang; Hao Liu

doi:10.48130/ph-0025-0019

Back

Single-cell resolution transcriptional atlases of aerial and subterranean pegs reveals auxin signaling associated with peg development in peanut (Arachis hypogaea L.)

Journal article

Open access

Single-cell resolution transcriptional atlases of aerial and subterranean pegs reveals auxin signaling associated with peg development in peanut (Arachis hypogaea L.)

Weicai Jin, Mengyun Xu, Lu Huang, Yueni Zhou, Yuan Xiao, Wenhao Zhong, Yanyue Liang, Zihao Zheng, Haifen Li, Qianxia Yu, …

Plant Hormones, Vol.1, e019

2025

DOI: https://doi.org/10.48130/ph-0025-0019

Files and links (1)

pdf

Published7.69 MBDownload View

CC BY V4.0, Open Access

Abstract

Peanut pegging is a unique characteristic in which flowers are produced aerially, penetrating the soil and developing into subterranean pods. However, the gene networks that regulate peg development in peanut remain largely unknown. To investigate the spatiotemporal regulation of gene regulatory networks during peg growth and development, a single-nucleus resolution transcriptomic atlas of both aerial and subterranean pegs comprising 50,903 individual cells was constructed, and nine major cell types were annotated using cell markers and in situ hybridization. Transcription factors (TFs), developmental differentiation trajectories, and predicted interaction networks were identified during peg development. A combination of single-nucleus RNA sequencing (snRNA-seq), and bulk RNA sequencing in aerial and subterranean pegs highlighted phytohormone signaling as a key driver of peg formation. In addition, the present findings suggest that auxin signal transduction pathways are crucial for gravity-regulated peg formation. This study advances our understanding of aerial and subterranean pegs development at cell-type resolution and provides a resource for exploring the molecular mechanisms underlying cell maintenance and differentiation during pod formation.

Details

Title: Single-cell resolution transcriptional atlases of aerial and subterranean pegs reveals auxin signaling associated with peg development in peanut (Arachis hypogaea L.)
Authors/Creators: Weicai Jin
Mengyun Xu
Lu Huang
Yueni Zhou
Yuan Xiao
Wenhao Zhong
Yanyue Liang
Zihao Zheng
Haifen Li
Qianxia Yu
Shaoxiong Li
Runfeng Wang
Rajeev K. Varshney
Qing Lu
Yanbin Hong
Xiaoping Chen
Wenyi Wang
Hao Liu
Publication Details: Plant Hormones, Vol.1, e019
Publisher: Maximum Academic Press on behalf of Chongqing University.
Identifiers: 991005813536707891
Murdoch Affiliation: Food Futures Institute
Language: English
Resource Type: Journal article

UN Sustainable Development Goals (SDGs)

This output has contributed to the advancement of the following goals:

#12 Responsible Consumption & Production

Metrics

5 File views/ downloads

18 Record Views