This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (https:// creativecommons.org/licenses/by/ 4.0/).
Nipah henipavirus is an emerging RNA virus with increased mortality threatening global security. In South and Southeast Asia, the Nipah virus has caused numerous disease outbreaks. The matrix protein in Nipah henipavirus has an important role, in connecting the viral envelope with the virus core. For virus assembly, linking the viral envelope with the virus core are very crucial. Through functional and structural explanation evaluations, bioinformatics strategies can help us better understanding of the protein. This investigation aims to allocate the structural and functional annotation of protein. Moreover, the investigation attributes physicochemical parameters, three-dimensional structure, and functional annotation of the protein (QBQ56721.1) applying an in silico perspective. The in silico analysis confirmed the protein's hydrophilic nature, with a secondary structure dominated by alpha (α) helices. Based on several quality assessment methodologies, the tertiary-structure model of the protein has been shown to be reasonably consistent. The functional explanation suggested the protein as a structural protein connected to the viral envelope with the virus core, a protein required for virus assembly. This investigation unleashes the significance of the matrix protein (QBQ56721.1) as a functional protein required for Nipah henipavirus.
Nipah henipavirus is an emerging RNA virus with increased mortality threatening global security. In South and Southeast Asia, the Nipah virus has caused numerous disease outbreaks. The matrix protein in Nipah henipavirus has an important role, in connecting the viral envelope with the virus core. For virus assembly, linking the viral envelope with the virus core are very crucial. Through functional and structural explanation evaluations, bioinformatics strategies can help us better understanding of the protein. This investigation aims to allocate the structural and functional annotation of protein. Moreover, the investigation attributes physicochemical parameters, three-dimensional structure, and functional annotation of the protein (QBQ56721.1) applying an in silico perspective. The in silico analysis confirmed the protein's hydrophilic nature, with a secondary structure dominated by alpha (α) helices. Based on several quality assessment methodologies, the tertiary-structure model of the protein has been shown to be reasonably consistent. The functional explanation suggested the protein as a structural protein connected to the viral envelope with the virus core, a protein required for virus assembly. This investigation unleashes the significance of the matrix protein (QBQ56721.1) as a functional protein required for. Nipah henipavirus
Nipah henipavirus is an emerging RNA virus with increased mortality threatening global security. In South and Southeast Asia, the Nipah virus has caused numerous disease outbreaks. The matrix protein in Nipah henipavirus has an important role, in connecting the viral envelope with the virus core. For virus assembly, linking the viral envelope with the virus core are very crucial. Through functional and structural explanation evaluations, bioinformatics strategies can help us better understanding of the protein. This investigation aims to allocate the structural and functional annotation of protein. Moreover, the investigation attributes physicochemical parameters, three-dimensional structure, and functional annotation of the protein (QBQ56721.1) applying an in silico perspective. The in silico analysis confirmed the protein's hydrophilic nature, with a secondary structure dominated by alpha (α) helices. Based on several quality assessment methodologies, the tertiary-structure model of the protein has been shown to be reasonably consistent. The functional explanation suggested the protein as a structural protein connected to the viral envelope with the virus core, a protein required for virus assembly. This investigation unleashes the significance of the matrix protein (QBQ56721.1) as a functional protein required for Nipah henipavirus.
Nipah henipavirus is an emerging RNA virus with increased mortality threatening global security. In South and Southeast Asia, the Nipah virus has caused numerous disease outbreaks. The matrix protein in Nipah henipavirus has an important role, in connecting the viral envelope with the virus core. For virus assembly, linking the viral envelope with the virus core are very crucial. Through functional and structural explanation evaluations, bioinformatics strategies can help us better understanding of the protein. This investigation aims to allocate the structural and functional annotation of protein. Moreover, the investigation attributes physicochemical parameters, three-dimensional structure, and functional annotation of the protein (QBQ56721.1) applying an in silico perspective. The in silico analysis confirmed the protein's hydrophilic nature, with a secondary structure dominated by alpha (α) helices. Based on several quality assessment methodologies, the tertiary-structure model of the protein has been shown to be reasonably consistent. The functional explanation suggested the protein as a structural protein connected to the viral envelope with the virus core, a protein required for virus assembly. This investigation unleashes the significance of the matrix protein (QBQ56721.1) as a functional protein required for Nipah henipavirus.
scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.
customersupport@researchsolutions.com
10624 S. Eastern Ave., Ste. A-614
Henderson, NV 89052, USA
This site is protected by reCAPTCHA and the Google Privacy Policy and Terms of Service apply.
Copyright © 2025 scite LLC. All rights reserved.
Made with 💙 for researchers
Part of the Research Solutions Family.