Genomic analysis, evolution, and expression profiling of the BPC genes family revealed their conserved role in regulating abiotic stress in Tomato

Authors

  • Muhammad Asad Ullah University of the Punjab
  • Muhammad Nuaman Nazir Kalyar Department of Plant Breeding and Genetics, Pir Mehr Ali Shah Arid Agriculture University, Rawalpindi, Pakistan
  • Muhammad Hassaan Mehboob Kalyar Department of Plant Breeding and Genetics, Pir Mehr Ali Shah Arid Agriculture University, Rawalpindi, Pakistan
  • Javeria Tabassam Department of Plant Breeding and Genetics, Faculity of agricultural sciences, University of the Punjab, Lahore, Pakistan https://orcid.org/0000-0002-1825-0097
  • Abdul Wahid Department of Plant Breeding, College of Agri. Life, Texas A&M University, College Station, United States

Keywords:

Genome-wide, BASIC PENTACYSTEINE, Tomato, Heat, Drought

Abstract

Global crop yield and sustainable agriculture are seriously threatened by the combined effects of heat and drought stress, with tomato plants being especially vulnerable to these environmental conditions. Plant development and responses to abiotic stressors are known to be significantly regulated by the BASIC PENTACYSTEINE (BPC) gene. Its precise role and the biological mechanisms underlying it in tomato are still unclear. This study aimed to evaluate the SlBPC gene's function in providing tomato plants with abiotic stress tolerance. Five potential SlBPC gene family members were found that were consistently positioned onto five chromosomes. The SlBPC genes were divided into three subgroups employing phylogenetic studies by incorporating BPC members from Arabidopsis, rice, wheat, soybean, and tomato. A comprehensive analysis of SlBPCs revealed that individuals belonging to the same subgroup shared similar patterns, gene structures, and cis-regulatory regions. Several members have components linked to hormones, stress reactions, and developmental processes. Using data from the NCBI database, the expression patterns of SlBPC genes in seedlings and leaves under heat and drought stress conditions were analyzed. Under heat stress, expression levels peaked after 12 hours, and during the first day of the drought, SlBPC genes reached their maximum.  RNA-seq analysis showed significant differential expression in the vein and intervein during drought (T1). In the vein, SlBPC1 and SlBPC4 were upregulated, while SlBPC2 and SlBPC5 were downregulated, and in the intervein. The implication is that SlBPCs play a role in facilitating plant adaptation to abiotic stress conditions by responding to abiotic stressors. The findings, taken together, provide a framework for functional research of SlBPCs in tomato, particularly for controlling heat and drought stress.

Published

23-10-2024

How to Cite

Ullah, M. A., Kalyar, M. N. N., Kalyar, M. H. M., Tabassam, J., & Wahid, A. (2024). Genomic analysis, evolution, and expression profiling of the BPC genes family revealed their conserved role in regulating abiotic stress in Tomato. 7th International Anatolian Agriculture, Food, Environment and Biology Congress, Kastamonu/Türkiye, 175–175. from http://targid.org/index.php/TURSTEP/article/view/395