Identification and in Silico Characterization of GT Factors Involved in Phytohormone and Abiotic Stresses Responses in Brachypodium distachyon

Abstract: GT factors play critical roles in plant growth and development and in response to various environmental stimuli. Considering the new functions of GT factors on the regulation of plant stress tolerance and seeing as few studies on Brachypodium distachyon were available, we identified GT genes in B. distachyon, and the gene characterizations and phylogenies were systematically analyzed. Thirty-one members of BdGT genes were distributed on all five chromosomes with different densities. All the BdGTs could be divi… Show more

“…Early research revealed that the GT factor family regulates morphogenetic processes and acts as a class of light regulators, which explains their roles in controlling light-responsive genes [ 45 ]. However, more recent studies have provided compelling evidence that the trihelix family also plays a significant role in plant growth and development and the responsiveness to environmental cues [ 27 , 46 ]. In this study, we identified 40 trihelix genes in the C. sinensis genome, distributed across chromosomes with varying densities.…”

Comprehensive Genomic Analysis of Trihelix Family in Tea Plant (Camellia sinensis) and Their Putative Roles in Osmotic Stress

“…Early research revealed that the GT factor family regulates morphogenetic processes and acts as a class of light regulators, which explains their roles in controlling light-responsive genes [ 45 ]. However, more recent studies have provided compelling evidence that the trihelix family also plays a significant role in plant growth and development and the responsiveness to environmental cues [ 27 , 46 ]. In this study, we identified 40 trihelix genes in the C. sinensis genome, distributed across chromosomes with varying densities.…”

Comprehensive Genomic Analysis of Trihelix Family in Tea Plant (Camellia sinensis) and Their Putative Roles in Osmotic Stress