Journal of Stress Physiology &
Biochemistry, Vol. 18 No. 1 2022, pp. 109-118 ISSN
1997-0838
Original
Text Copyright (cc) 2021 by Dutta and Sharma
Genome Wide Identification and
In-Silico Transcriptional and Expression Analysis Specific Protease
Against Biotic Stress in Plant Species
Sanjukta Dutta and Arti Sharma*
1
Department of Computational Sciences, School of Basic and Applied
Sciences, Central University of Punjab, Bathinda, India
*E-Mail: arti.sharma@cup.edu.in
Received
September 21, 2021
The
post-translational modification involves protein degradation which
helps to degrade the overexpressed proteins in plants. This includes
the process of ubiquitination and deubiquitination where the targets
attached with the substrates are cleaved and can play a major role in
plant-pathogen interactions. By 26S/proteasome pathway, the pathogens
are targeted for the defense of the plant and thus the proteases
involved in the process are taken for the study. The study involves the
digital expression of the genes which helps to infer the gene
expression among various important plant tissues which helps to
manifest the responses against the pathogenic stresses.
Ubiquitin-specific protease are seen to expressed maximum among the
plants species taken for study and thus it can be generalized that
these protease genes can help to combat against the biotic stresses in
certain tissue specific regions as their own immune response.
Key
words: Protease, Biotic stress, Deubiquitin enzymes,
Ubiquitin/26S proteasome
