@article{Oner_Ilhan_Kasapoglu_Muslu_Aygoren_Ucar_Yaprak_Isıyel_Aydinyurt_Aydin_2022, title={Genome Wide Analysis and Characterization of NPR-like Gene Family of Phaseolus vulgaris L.}, volume={2}, url={https://natprobiotech.com/index.php/natprobiotech/article/view/27}, abstractNote={<p><em>Nonexpressor of pathogenesis-related genes 1</em> (<em>NPR1</em>) could be found in the regulation of pathways of salicylic acid (SA) signal transduction and systemic acquired resistance (SAR) in plants. It has been found that the members of <em>NPR-like </em>gene family are interconnecting with biotic and abiotic stresses in several plants, but it has not yet been performed in common bean. In this study, <em>in silico</em> analyzes of <em>Phaseolus vulgaris </em>L. <em>NPR-like</em> gene family members were performed at the genome level. As a result of these <em>in silico</em> analyzes, four <em>NPR1</em> genes were identified and it was found that these genes have been located on four different <em>P. vulgaris</em> chromosomes. The length of <em>PvNPR-like</em> proteins ranges from 475-590 amino acid residues. The theoretical isoelectric point (pI) range were found between 5.75-6.36 and all show acidic properties. As a result of phylogenetic analyzes performed between <em>NPR-like</em> genes of <em>P. vulgaris</em>, <em>Glycine max</em> (L.) Merr and <em>Arabidopsis thaliana</em> (L.) Heynh. plants, <em>NPR-like</em> genes were found to be divided into three different groups (A, B and C). It has been determined that <em>PvNPR-like</em> genes contain <em>cis-acting</em> elements that function in many biological processes, including stress and hormone responses. Differences in gene expression levels under salt and drought stress indicated that <em>PvNPR-like</em> genes respond differently under stress conditions. The outcomes of this study will supply the needed basics for understanding the function and evolutionary history of <em>PvNPR-like</em> genes.</p>}, number={1}, journal={Natural Products and Biotechnology}, author={Oner, Burak Muhammed and Ilhan, Emre and Kasapoglu, Ayse Gul and Muslu, Selman and Aygoren, Ahmed Sidar and Ucar, Sumeyra and Yaprak, Esra and Isıyel, Murat and Aydinyurt, Recep and Aydin, Murat}, year={2022}, month={Jun.}, pages={23–41} }