In silico modeling of the interaction between TEX19 and LIRE1, and analysis of TEX19 gene missense SNPs

BACKGROUND: Testis expressed 19 (TEX19) is a specific human stem cell gene identified as cancer‐testis antigen (CTA), which emerged as a potential therapeutic drug target. TEX19.1, a mouse paralog of human TEX19, can interact with LINE‐1 retrotransposable element ORF1 protein (LIRE1) and subsequentl...

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Autores principales: Alzahrani, Faisal A., Hawsawi, Yousef MohammedRabaa, Altayeb, Hisham N., Alsiwiehri, Naif O., Alzahrani, Othman R., Alatwi, Hanan E., Al‐Amer, Osama M., Alomar, Suliman, Mansour, Lamjed
Formato: Online Artículo Texto
Lenguaje:English
Publicado: John Wiley and Sons Inc. 2021
Materias:
Original Articles
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8372073/
https://www.ncbi.nlm.nih.gov/pubmed/34036740
http://dx.doi.org/10.1002/mgg3.1707
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author Alzahrani, Faisal A.
Hawsawi, Yousef MohammedRabaa
Altayeb, Hisham N.
Alsiwiehri, Naif O.
Alzahrani, Othman R.
Alatwi, Hanan E.
Al‐Amer, Osama M.
Alomar, Suliman
Mansour, Lamjed
author_facet Alzahrani, Faisal A.
Hawsawi, Yousef MohammedRabaa
Altayeb, Hisham N.
Alsiwiehri, Naif O.
Alzahrani, Othman R.
Alatwi, Hanan E.
Al‐Amer, Osama M.
Alomar, Suliman
Mansour, Lamjed
author_sort Alzahrani, Faisal A.
collection PubMed
description BACKGROUND: Testis expressed 19 (TEX19) is a specific human stem cell gene identified as cancer‐testis antigen (CTA), which emerged as a potential therapeutic drug target. TEX19.1, a mouse paralog of human TEX19, can interact with LINE‐1 retrotransposable element ORF1 protein (LIRE1) and subsequently restrict mobilization of LINE‐1 elements in the genome. AIM: This study aimed to predict the interaction of TEX19 with LIRE1 and analyze TEX19 missense polymorphisms. TEX19 model was generated using I‐TASSER and the interaction between TEX19 and LIRE1 was studied using the HADDOCK software. METHODS: The stability of the docking formed complex was studied through the molecular dynamic simulation using GROMACS. Missense SNPs (n=102) of TEX19 were screened for their potential effects on protein structure and function using different software. RESULTS: Outcomes of this study revealed amino acids that potentially stabilize the predicted interaction interface between TEX19 and LIRE1. Of these SNPs, 37 were predicted to play a probably damaging role for the protein, three of them (F35S, P61R, and E55L) located at the binding site of LIRE1 and could disturb this binding affinity. CONCLUSION: This information can be verified by further in vitro and in vivo experimentations and could be exploited for potential therapeutic targets.
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spelling pubmed-83720732021-08-23 In silico modeling of the interaction between TEX19 and LIRE1, and analysis of TEX19 gene missense SNPs Alzahrani, Faisal A. Hawsawi, Yousef MohammedRabaa Altayeb, Hisham N. Alsiwiehri, Naif O. Alzahrani, Othman R. Alatwi, Hanan E. Al‐Amer, Osama M. Alomar, Suliman Mansour, Lamjed Mol Genet Genomic Med Original Articles BACKGROUND: Testis expressed 19 (TEX19) is a specific human stem cell gene identified as cancer‐testis antigen (CTA), which emerged as a potential therapeutic drug target. TEX19.1, a mouse paralog of human TEX19, can interact with LINE‐1 retrotransposable element ORF1 protein (LIRE1) and subsequently restrict mobilization of LINE‐1 elements in the genome. AIM: This study aimed to predict the interaction of TEX19 with LIRE1 and analyze TEX19 missense polymorphisms. TEX19 model was generated using I‐TASSER and the interaction between TEX19 and LIRE1 was studied using the HADDOCK software. METHODS: The stability of the docking formed complex was studied through the molecular dynamic simulation using GROMACS. Missense SNPs (n=102) of TEX19 were screened for their potential effects on protein structure and function using different software. RESULTS: Outcomes of this study revealed amino acids that potentially stabilize the predicted interaction interface between TEX19 and LIRE1. Of these SNPs, 37 were predicted to play a probably damaging role for the protein, three of them (F35S, P61R, and E55L) located at the binding site of LIRE1 and could disturb this binding affinity. CONCLUSION: This information can be verified by further in vitro and in vivo experimentations and could be exploited for potential therapeutic targets. John Wiley and Sons Inc. 2021-05-26 /pmc/articles/PMC8372073/ /pubmed/34036740 http://dx.doi.org/10.1002/mgg3.1707 Text en © 2021 The Authors. Molecular Genetics & Genomic Medicine published by Wiley Periodicals LLC. https://creativecommons.org/licenses/by/4.0/This is an open access article under the terms of the http://creativecommons.org/licenses/by/4.0/ (https://creativecommons.org/licenses/by/4.0/) License, which permits use, distribution and reproduction in any medium, provided the original work is properly cited.
spellingShingle Original Articles
Alzahrani, Faisal A.
Hawsawi, Yousef MohammedRabaa
Altayeb, Hisham N.
Alsiwiehri, Naif O.
Alzahrani, Othman R.
Alatwi, Hanan E.
Al‐Amer, Osama M.
Alomar, Suliman
Mansour, Lamjed
In silico modeling of the interaction between TEX19 and LIRE1, and analysis of TEX19 gene missense SNPs
title In silico modeling of the interaction between TEX19 and LIRE1, and analysis of TEX19 gene missense SNPs
title_full In silico modeling of the interaction between TEX19 and LIRE1, and analysis of TEX19 gene missense SNPs
title_fullStr In silico modeling of the interaction between TEX19 and LIRE1, and analysis of TEX19 gene missense SNPs
title_full_unstemmed In silico modeling of the interaction between TEX19 and LIRE1, and analysis of TEX19 gene missense SNPs
title_short In silico modeling of the interaction between TEX19 and LIRE1, and analysis of TEX19 gene missense SNPs
title_sort in silico modeling of the interaction between tex19 and lire1, and analysis of tex19 gene missense snps
topic Original Articles
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8372073/
https://www.ncbi.nlm.nih.gov/pubmed/34036740
http://dx.doi.org/10.1002/mgg3.1707
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