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Genetic Biodiversity and Posttranslational Modifications of Protease Serine Endopeptidase in Different Strains of Sordaria fimicola

Genetic variations (mutation, crossing over, and recombination) act as a source for the gradual alternation in phenotype along a geographic transect where the environment changes. Posttranslational modifications (PTMs) predicted modifications successfully in different and the same species of living...

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Autores principales: Naureen, Uzma, Khosa, Ahmed Nawaz, Mukhtar, Muhammad Azfar, Nabi, Fazul, Ahmed, Nisar, Saleem, Muhammad
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Hindawi 2023
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9940969/
https://www.ncbi.nlm.nih.gov/pubmed/36814796
http://dx.doi.org/10.1155/2023/2088988
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author Naureen, Uzma
Khosa, Ahmed Nawaz
Mukhtar, Muhammad Azfar
Nabi, Fazul
Ahmed, Nisar
Saleem, Muhammad
author_facet Naureen, Uzma
Khosa, Ahmed Nawaz
Mukhtar, Muhammad Azfar
Nabi, Fazul
Ahmed, Nisar
Saleem, Muhammad
author_sort Naureen, Uzma
collection PubMed
description Genetic variations (mutation, crossing over, and recombination) act as a source for the gradual alternation in phenotype along a geographic transect where the environment changes. Posttranslational modifications (PTMs) predicted modifications successfully in different and the same species of living organisms. Protein diversity of living organisms is predicted by PTMs. Environmental stresses change nucleotides to produce alternations in protein structures, and these alternations have been examined through bioinformatics tools. The goal of the current study is to search the diversity of genes and posttranslational modifications of protease serine endopeptidase in various strains of Sordaria fimicola. The S. fimicola's genomic DNA was utilized to magnify the protease serine endopeptidase (SP2) gene; the size of the product was 700 and 1400 base pairs. Neurospora crassa was taken as the reference strain for studying the multiple sequence alignment of the nucleotide sequence. Six polymorphic sites of six strains of S. fimicola with respect to N. crassa were under observation. Different bioinformatics tools, i.e., NetPhos 3.1, NetNES 1.1 Server, YinOYang1.2, and Mod Pred, to search phosphorylation sites, acetylation, nuclear export signals, O-glycosylation, and methylation, respectively, were used to predict PTMs. The findings of the current study were 35 phosphorylation sites on the residues of serine for protease SP2 in SFS and NFS strains of S. fimicola and N. crassa. The current study supported us to get the reality of genes involved in protease production in experimental fungi. Our study examined the genetic biodiversity in six strains of S. fimicola which were caused by stressful environments, and these variations are a strong reason for evolution. In this manuscript, we predicted posttranslational modifications of protease serine endopeptidase in S. fimicola obtained from different sites, for the first time, to see the effect of environmental stress on nucleotides, amino acids, and proteases and to study PTMs by using various bioinformatics tools. This research confirmed the genetic biodiversity and PTMs in six strains of S. fimicola, and the designed primers also provided strong evidence for the presence of protease serine endopeptidase in each strain of S. fimicola.
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spelling pubmed-99409692023-02-21 Genetic Biodiversity and Posttranslational Modifications of Protease Serine Endopeptidase in Different Strains of Sordaria fimicola Naureen, Uzma Khosa, Ahmed Nawaz Mukhtar, Muhammad Azfar Nabi, Fazul Ahmed, Nisar Saleem, Muhammad Biomed Res Int Research Article Genetic variations (mutation, crossing over, and recombination) act as a source for the gradual alternation in phenotype along a geographic transect where the environment changes. Posttranslational modifications (PTMs) predicted modifications successfully in different and the same species of living organisms. Protein diversity of living organisms is predicted by PTMs. Environmental stresses change nucleotides to produce alternations in protein structures, and these alternations have been examined through bioinformatics tools. The goal of the current study is to search the diversity of genes and posttranslational modifications of protease serine endopeptidase in various strains of Sordaria fimicola. The S. fimicola's genomic DNA was utilized to magnify the protease serine endopeptidase (SP2) gene; the size of the product was 700 and 1400 base pairs. Neurospora crassa was taken as the reference strain for studying the multiple sequence alignment of the nucleotide sequence. Six polymorphic sites of six strains of S. fimicola with respect to N. crassa were under observation. Different bioinformatics tools, i.e., NetPhos 3.1, NetNES 1.1 Server, YinOYang1.2, and Mod Pred, to search phosphorylation sites, acetylation, nuclear export signals, O-glycosylation, and methylation, respectively, were used to predict PTMs. The findings of the current study were 35 phosphorylation sites on the residues of serine for protease SP2 in SFS and NFS strains of S. fimicola and N. crassa. The current study supported us to get the reality of genes involved in protease production in experimental fungi. Our study examined the genetic biodiversity in six strains of S. fimicola which were caused by stressful environments, and these variations are a strong reason for evolution. In this manuscript, we predicted posttranslational modifications of protease serine endopeptidase in S. fimicola obtained from different sites, for the first time, to see the effect of environmental stress on nucleotides, amino acids, and proteases and to study PTMs by using various bioinformatics tools. This research confirmed the genetic biodiversity and PTMs in six strains of S. fimicola, and the designed primers also provided strong evidence for the presence of protease serine endopeptidase in each strain of S. fimicola. Hindawi 2023-02-13 /pmc/articles/PMC9940969/ /pubmed/36814796 http://dx.doi.org/10.1155/2023/2088988 Text en Copyright © 2023 Uzma Naureen et al. https://creativecommons.org/licenses/by/4.0/This is an open access article distributed under the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.
spellingShingle Research Article
Naureen, Uzma
Khosa, Ahmed Nawaz
Mukhtar, Muhammad Azfar
Nabi, Fazul
Ahmed, Nisar
Saleem, Muhammad
Genetic Biodiversity and Posttranslational Modifications of Protease Serine Endopeptidase in Different Strains of Sordaria fimicola
title Genetic Biodiversity and Posttranslational Modifications of Protease Serine Endopeptidase in Different Strains of Sordaria fimicola
title_full Genetic Biodiversity and Posttranslational Modifications of Protease Serine Endopeptidase in Different Strains of Sordaria fimicola
title_fullStr Genetic Biodiversity and Posttranslational Modifications of Protease Serine Endopeptidase in Different Strains of Sordaria fimicola
title_full_unstemmed Genetic Biodiversity and Posttranslational Modifications of Protease Serine Endopeptidase in Different Strains of Sordaria fimicola
title_short Genetic Biodiversity and Posttranslational Modifications of Protease Serine Endopeptidase in Different Strains of Sordaria fimicola
title_sort genetic biodiversity and posttranslational modifications of protease serine endopeptidase in different strains of sordaria fimicola
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9940969/
https://www.ncbi.nlm.nih.gov/pubmed/36814796
http://dx.doi.org/10.1155/2023/2088988
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