Hao Chen, Xiangyu Chen, Rirong Xu, Wenjing Liu, Nian Liu, Li Huang, Huaiyong Luo, Dongxin Huai, Xinlong Lan, Yumei Zhang, Runfang Hu, Jianhong Chen, Zhaoxiu Tang, Guoqiang Lin & Huifang Jiang

Theoretical and Applied Genetics November 2021; vol. 134: 3721–3730

Key Message

AhRt1 controlling red testa color in peanut was fine-mapped to an interval of 580 kb on chromosome A03, and one gene encoding bHLH transcriptional factor was identified as the putative candidate gene.

Abstract

Peanut with red testa has higher nutritional and economic value than the traditional pink testa varieties. Identification of genes controlling red testa color will accelerate the breeding program and facilitate uncovering the genetic mechanism. In this study, in order to identify gene underlying the red testa color in peanut, a F₂ population derived from a cross between a pink testa peanut variety “Fuhua 8” and a red testa variety “Quanhonghua 1” was constructed. The genetic analysis for the F₂ population revealed that the red testa color was controlled by one single dominant locus. This locus, named as AhRt1 (Arachis hypogaea Red Testa 1), was preliminary identified in chromosome A03 by BSA-sequencing analysis. Using a segregation mapping population, AhRt1 was fine-mapped to a 580-kb genomic region by substitution mapping strategy. Gene candidate analysis suggested that one predicted gene encoding bHLH transcriptional factor may be the possible candidate gene for AhRt1. A diagnostic marker closely linked to candidate gene has been developed for validating the fine-mapping result in different populations and peanut germplasm. Our findings will benefit the breeding program for developing new varieties with red testa color and laid foundation for map-based cloning gene responsible for red testa in peanut.

See: https://link.springer.com/article/10.1007/s00122-021-03924-w