Litcius/Paper detail

Unraveling the role of tomato Bcl-2-associated athanogene (BAG) proteins during abiotic stress response and fruit ripening

Mohammad Irfan, Pankaj Kumar, Irshad Ahmad, Asis Datta

2021Scientific Reports42 citationsDOIOpen Access PDF

Abstract

B-cell lymphoma2 (Bcl-2)-associated athanogene (BAG) family proteins are evolutionary conserved across all eukaryotes. These proteins interact with HSP70/HSC70 and function as co-chaperones during stress response and developmental pathways. Compared to the animal counterpart, the BAG proteins in plants are much less studied and primarily Arabidopsis BAG proteins have been identified and characterized for their role in programmed cell death, homeostasis, growth and development, abiotic and biotic stress response. Here, we have identified BAG protein family (SlBAGs) in tomato, an economically important and a model fruit crop using genome-wide scanning. We have performed phylogenetic analysis, genes architecture assessment, chromosomal location and in silico promoter analysis. Our data suggest that SlBAGs show differential tissue specific expression pattern during plant development particularly fruit development and ripening. Furthermore, we reported that expression of SlBAGs is modulated during abiotic stresses and is regulated by stress hormones ABA and ethylene. In planta subcellular localization reveals their diverse subcellular localization, and many members are localized in nucleus and cytoplasm. Like previous reports, our protein-protein interaction network and yeast two-hybrid analysis uncover that SlBAGs interact with HSP70. The current study provides insights into role of SlBAGs in plant development particualry fruit ripening and abiotic stress response.

Topics & Concepts

Abiotic stressBiologyRipeningIn silicoArabidopsisCell biologySubcellular localizationAbiotic componentGeneHsp70Bimolecular fluorescence complementationGeneticsBiotic stressCytoplasmHeat shock proteinBotanyMutantPaleontologyPlant Stress Responses and TolerancePlant biochemistry and biosynthesisPlant Gene Expression Analysis