Map based cloning of CT2 and the pilot functional exploration in abiotic stress

Heterotrimeric G-proteins are multifunctional modulators that participate in a wide range of growth and developmental processes in eukaryotic species, from yeast to plants and animals. Component detection and the study of G protein signaling in most plants, including maize, are in the initial stages. In this study, we characterized a maize mutant, ct2 , that showed a compact architecture and reproductive organ-related phenotypic variation. The target gene CT2 was cloned using bulked segregant analysis and map-based cloning. Gene structure prediction and phylogenetic analysis indicated that CT2 is a canonical Gα protein belonging to the monocotyledonous group. Promoter analysis of CT2 and RNA sequencing revealed cis -acting regulatory elements and differentially expressed genes involved in JA signaling and stress tolerance. The transcription of CT2 was repressed by NaCl and PEG treatments, and ct2 mutation in the ct2 line compromised stress tolerance in maize. On the basis of our results, we proposed a schema diagram of CT2 -regulated biological process and their feedback on CT2 transcription. This research provides clues for further studies of CT2 function in hormone signaling and stress tolerance, which is beneficial for maize breeding through the screening and application of beneficial alleles.