Abstract

Programmed cell death (PCD) is a genetically controlled process for the selective removal of damaged cells. Though understanding about plant PCD has improved over years, the mechanisms are yet to be fully deciphered. Among the several molecular players of PCD in plants, B cell lymphoma 2 (Bcl-2)-associated athanogene (BAG) family of co-chaperones are evolutionary conserved and regulate cell death, growth and development. In this study, we performed a genome-wide in silico analysis of the MusaBAG gene family in a globally important fruit crop banana. Thirteen MusaBAG genes were identified, out of which MusaBAG1, 7 and 8 genes were found to have multiple copies. MusaBAG genes were distributed on seven out of 11 chromosomes in banana. Except for one paralog of MusaBAG8 all the other 12 proteins have characteristic BAG domain. MusaBAG1, 2 and 4 have an additional ubiquitin-like domain whereas MusaBAG5-8 have a calmodulin binding motif. Most of the MusaBAG proteins were predicted to be localized in the nucleus and mitochondria or chloroplast. The in silico cis-regulatory element analysis suggested regulation associated with photoperiodic control, abiotic and biotic stress. The phylogenetic analysis revealed 2 major clusters. Digital gene expression analysis and quantitative real-time RT-PCR depicted the differential expression pattern of MusaBAG genes under abiotic and biotic stress conditions. Further studies are warranted to uncover the role of each of these proteins in growth, PCD and stress responses so as to explore them as candidate genes for engineering transgenic banana plants with improved agronomic traits.

Highlights

  • Programmed cell death (PCD) is a genetically controlled process for the selective removal of damaged and unwanted cells

  • Most of the MusaBAG genes are present on the chromosome number 3, 4, and 7

  • BAG proteins were acknowledged to be the critical regulators of PCD in plants and their importance in maintaining homeostasis was established

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Summary

Introduction

Programmed cell death (PCD) is a genetically controlled process for the selective removal of damaged and unwanted cells. PCD plays an important role in plant development and response to both abiotic and biotic stress. We studied the gene structure, organization, protein structural properties, phylogeny, and analyzed the expression profiles of the BAG gene family in banana plants under stress conditions. This conscientious analysis of BAG genes in banana plants provides a strong ground for further functional characterization of each of these genes so as to utilize them for developing elite varieties resilient to abiotic and biotic stress

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