Identification of CAMTA Gene Family in and Expression Analysis under Drought Stress.

Calmodulin-binding transcription factor (CAMTA) is an important component of plant hormone signal transduction, development, and drought resistance. Based on previous transcriptome data, drought resistance genes of the CAMTA transcription factor family were predicted in this study. The physicochemical characteristics of amino acids, subcellular localization, transmembrane structure, GO enrichment, and expression patterns were also examined.

Genome-Wide Identification and Expression Analysis of HSF Transcription Factors in Alfalfa () under Abiotic Stress.

Alfalfa () is one of the most important legume forage species in the world. It is often affected by several abiotic stressors that result in reduced yields and poor growth. Therefore, it is crucial to study the resistance of to abiotic stresses.

Physiological and transcriptional responses to heat stress and functional analyses of s in tree peony ().

Tree peony () is a traditional Chinese flower that is not resistant to high temperatures, and the frequent sunburn during summer limits its normal growth. The lack of understanding of the molecular mechanisms in tree peony has greatly restricted the improvement of novel heat-tolerant varieties. Therefore, we treated tree peony cultivar "Yuhong" ( "Yuhong") at normal (25°C) and high temperatures (40°C) and sequenced the transcriptomes, to investigate the molecular responsive mechanisms to heat stress.

Identification and Expression Analysis of NAC Gene Family in Weeping Trait of .

is a widely used ornamental plant in summer gardens because of its desirable plant shape. The weeping traits of plants are related to secondary cell wall thickness and hormone signaling. NAC (NAM-ATAF1/2-CUC2), as one of the plant-specific transcription factors, is a switch for the secondary cell wall and also involved in leaf senescence, phytohormone signaling, and other growth processes.

Transcriptome Approach Reveals the Response Mechanism of (Lythraceae, Myrtales) to Drought Stress.

Drought is a major environmental condition that inhibits the development and cultivation of . The molecular processes of drought resistance in remain unknown, which has limited its application. In our study, transcriptome analyzes were compared across three treatment groups (CK, T1, and T2), to investigate the molecular mechanism of drought resistance.