A haplotype‐resolved genome for Rhododendron × pulchrum and the expression analysis of heat shock genes.

Autor: Shen, Jian‐Shuang, Lan, Lan, Kan, Sheng‐Long, Cheng, He‐Feng, Peng, Dan, Wan, Zi‐Yun, Hu, Yue, Huang, Xiao‐Ling, Li, Xue‐Qin, Ye, Yuan‐Jun, Tembrock, Luke R., Wu, Zhi‐Qiang, Jin, Song‐Heng
Předmět:
Zdroj: Journal of Systematics & Evolution; May2024, Vol. 62 Issue 3, p489-504, 16p
Abstrakt: Rhododendron is the largest genus in Ericaceae and is well known for its diversity and beauty of flowers present in different species, making it a much‐revered lineage of ornamental plants. Many species of Rhododendron are intolerant of high temperatures, which are becoming more common and intense in urban areas under global climate change. Therefore, the discovery and description of genes from heat‐tolerant Rhododendron lineages are essential in the development of new climate‐resilient cultivars. One such species known to be heat tolerant is Rhododendron × pulchrum Sweet. To better understand the genomics of heat tolerance in this species, we assembled a haplotype‐resolved and chromosome‐scale genome for R. × pulchrum, which had a genome size of 509 Mb; a scaffold N50 of 37 251 370 bp; and contained 35 610 genes. In addition, based on the same reannotation pipeline, we conducted pan‐genomic analyses for all seven available chromosome‐scale Rhododendron genomes and found 14 415 gene groups shared across all species and 18 018 gene groups distributed in the other species, including 1879 gene groups found in only a single species. Finally, we analyzed the transcriptomic data from heat‐treated and non‐heat‐treated R. × pulchrum plants to quantify the genes that are most important during heat stress in an effort to inform the development of climate‐resilient cultivars. This study provides insight into the genome diversity in Rhododendron and targets several genes related to agronomic traits that may help in further analysis. [ABSTRACT FROM AUTHOR]
Databáze: Complementary Index