The Application of Genomics and Bioinformatics to Recognize Soybean Pathogen Interaction in a Changing Climate

Muhammad Rizwan Bashir; Ahsan Mohyo ud Din; Muhammad Sajid; Ejaz ul Hassan; Qamar Anser Tufail Khan; Muhammad Rizwan Khurshid; Hafiz Saad Bin Mustafa; Ahmad Nawaz Gill; Hafeez ur Rehman; Umer Iqbal

doi:10.55627/pbulletin.002.02.0391

Authors

Muhammad Rizwan Bashir Oilseeds Research Institute, Ayub Agricultural Research Institute, Faisalabad
Ahsan Mohyo ud Din Oilseeds Research Institute, AARI, FSD
Muhammad Sajid Department of Plant Pathology Bahauddin Zakariya University Multan
Ejaz ul Hassan Oilseeds Research Institute, AARI, FSD
Qamar Anser Tufail Khan Oilseeds Research Institute, AARI, FSD
Muhammad Rizwan Khurshid Agronomic Research Institute AARI Faisalabad
Hafiz Saad Bin Mustafa Oilseeds Research Institute, AARI, FSD
Ahmad Nawaz Gill Oilseeds Research Institute, AARI, FSD
Hafeez ur Rehman Department of Plant Pathology, University of Agriculture Faisalabad Sub Campus Burewala
Umer Iqbal Seed health Lab, Plant Genetic Resource Institute NARC

DOI:

https://doi.org/10.55627/pbulletin.002.02.0391

Keywords:

Genomics, bioinformatics, Plant pathogen interaction, climate change

Abstract

The changing climate and continuously increasing global population has posed immense pressure on plant scientists to ensure per capita availability of food under scarcity of natural resources. The present circumstances also enforce to understand how rising CO2 level caused greenhouse effect in the environment which causes rise in the temperature and consequently influence the development of plant disease epidemic, to predict the genomic-based models under changing environmental conditions and to ensure continued food production. The application of genomics and bioinformatics tools are the innovative approaches to understand plant pathogen
interaction and prediction that offers unique opportunities to enhance plant yield, stability in quality and production, boost the resilience of soybean to integrate resistance genes in present cultivars to sustain yield under epidemic disease conditions in abruptly changing climate. However, genomics data can be used for genomic based selections and advanced bioinformatics tools can be used to make predictions for genotype by pathogen interaction whereas it had ever been remained a great challenge to homogenize the diverse genomic data to which advanced skills and expertise are required in handling bioinformatics tools. Bioinformatics and genomics have the potential to sustain yield for food security by selection of tolerant or resistant genetic combination for disease sensitive environments as well as to facilitate for maintaining food security and mitigate the effect of inversely changing climatic conditions.