1 Genetic mapping, transcriptomic sequencing and metabolic profiling indicated a glutathione S‑transferase is responsible for the red‑spot‑petals in Gossypium arboretum 

1 Genetic mapping, transcriptomic sequencing and metabolic profiling indicated a glutathione S‑transferase is responsible for the red‑spot‑petals in Gossypium arboretum 

Sujun Zhang^#, Jie Chen^#, Tao Jiang^#, Xiao Cai, Haitao Wang, Cunjing Liu, Liyuan Tang, Xinghe Li, Xiangyun Zhang^*, Jianhong Zhang^*. Theoretical and Applied Genetics, 2022.

ABSTRACT：Colored petal spots are correlated with insect pollination efficiency in Gossypium species. However, molecular mechanisms concerning the formation of red spots on Gossypium arboreum flowers remain elusive. In the current study, the Shixiya1-R (SxyR, with red spots) × Shixiya1-W (SxyW, without red spots) segregating population was utilized to determine that the red-spot-petal phenotype was levered by a single dominant locus. This phenotype was expectedly related to the anthocyanin metabolites, wherein the cyanidin and delphinidin derivatives constituted the major partition. Subsequently, this dominant locus was narrowed to a 3.27 Mb range on chromosome 7 by genomic resequencing from the two parents and the two segregated progeny bulks that have spotted petals or not. Furthermore, differential expressed genes generated from the two bulks at either of three sequential flower developmental stages that spanning the spot formation were intersected with the annotated ones that allocated to the 3.27 Mb interval, which returned eight genes. A glutathione S-transferase-coding gene (Gar07G08900) out of the eight was the only one that exhibited simultaneously differential expression among all three developmental stages, and it was therefore considered to be the probable candidate. Finally, functional validation upon this candidate was achieved by the appearance of scattered petal spots with inhibited expression of Gar07G08900. In conclusion, the current report identified a key gene for the red spotted petal in G. arboreum under the scope of multi-omics approaches, such efforts and embedded molecular resources would benefit future applications underlying the flower color trait in cotton.