Abstract
Stress tolerance in plants is a coordinated action of multiple stress response genes that also cross talk with other components of the stress signal transduction pathways. The expression and regulation of stress-induced genes are largely regulated by specific transcription factors, families of which have been reported in several plant species, such as Arabidopsis, rice and Populus. In sorghum, the majority of such factors remain unexplored. We used 2DE refined with MALDI-TOF techniques to analyze drought stress-induced proteins in sorghum. A total of 176 transcription factors from the MYB, AUX_ARF, bZIP, AP2 and WRKY families of drought-induced proteins were identified. We developed a method based on semantic similarity of gene ontology terms (GO terms) to identify the transcription factors. A threshold value (≥ 90%) was applied to retrieve total 1,493 transcription factors with high semantic similarity from selected plant species. It could be concluded that the identified transcription factors regulate their target proteins with endogenous signals and environmental cues, such as light, temperature and drought stress. The regulatory network and cis-acting elements of the identified transcription factors in distinct families are involved in responsiveness to auxin, abscisic acid, defense, stress and light. These responses may be highly important in the modulation of plant growth and development.
Highlights
Environmental stresses such as drought and salinity are major causes of crop loss worldwide [1]
Transcription factor regulatory network and gene ontology We found that the distribution of the semantic similarities between the identified transcription factors of sorghum in distinct clusters showed high (100%) functional or semantic similarity when we compared biological process (BP), molecular function (MF) and cellular component (CC)
We identified several stress-responsive elements that were involved in drought inducibility: abscisic acid (ABA)-response elements (ABREs) (ACGTGGC), anaerobic induction elements (AREs; TGGTTT) and the MYB-binding site (MBS; CAACTG); heat stress-responsive elements (HSEs; AAAAAATTTC); low temperature-responsive elements (LTRs; CCGAAA) and stress-responsive elements like TC-rich repeats (ATTTTCTTCA); etc
Summary
Environmental stresses such as drought and salinity are major causes of crop loss worldwide [1]. The transcription factors interact with cis-acting elements present in the promoter region of various stress-induced genes and activate cascades or networks of genes that act together to enhance tolerance towards multiple stresses simultaneously [9]. Most of the stress-related transcription factors are grouped into several large families, such as AP2/ERF, bZIP, NAC, MYB, MYC, Cys2His zinc finger and WRKY [10] Various transcription factors, such as DREB2, AREB1, RD22BP1 and MYC/MYB, are known to regulate ABA-responsive gene expression via interaction with their corresponding cis-acting elements, such as DRE/CRT, ABRE and MYCRS/MYBRS [1]. Understanding these mechanisms is important to improve the stress tolerance of crop plants
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