In Silico Analysis of Coding/Noncoding SNPs of Human RETN Gene and Characterization of Their Impact on Resistin Stability and Structure

In Silico Analysis of Coding/Noncoding SNPs of Human RETN Gene and Characterization of Their Impact on Resistin Stability and Structure

Resistin (RETN) is a gene coding for proinflammatory adipokine called resistin secreted by macrophages in humans. Single nucleotide polymorphisms (SNPs) in RETN are linked to obesity and insulin resistance in various populations. Using dbSNP, 78 nonsynonymous SNPs (nsSNPs) were retrieved and tested...

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Main Authors: Lamiae Elkhattabi, Imane Morjane, Hicham Charoute, Soumaya Amghar, Hind Bouafi, Zouhair Elkarhat, Rachid Saile, Hassan Rouba, Abdelhamid Barakat
Format: Article
Language:English
Published: Hindawi Limited 2019-01-01
Series:Journal of Diabetes Research
Online Access:http://dx.doi.org/10.1155/2019/4951627
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spelling doaj-41e98608f08d48dd86d2f849c18574322020-11-25T00:39:35ZengHindawi LimitedJournal of Diabetes Research2314-67452314-67532019-01-01201910.1155/2019/49516274951627In Silico Analysis of Coding/Noncoding SNPs of Human RETN Gene and Characterization of Their Impact on Resistin Stability and StructureLamiae Elkhattabi0Imane Morjane1Hicham Charoute2Soumaya Amghar3Hind Bouafi4Zouhair Elkarhat5Rachid Saile6Hassan Rouba7Abdelhamid Barakat8Laboratoire de Génomique et Génétique Humaine, Institut Pasteur du Maroc, Casablanca, MoroccoLaboratoire de Génomique et Génétique Humaine, Institut Pasteur du Maroc, Casablanca, MoroccoLaboratoire de Génomique et Génétique Humaine, Institut Pasteur du Maroc, Casablanca, MoroccoLaboratoire de Génomique et Génétique Humaine, Institut Pasteur du Maroc, Casablanca, MoroccoLaboratoire de Génomique et Génétique Humaine, Institut Pasteur du Maroc, Casablanca, MoroccoLaboratoire de Génomique et Génétique Humaine, Institut Pasteur du Maroc, Casablanca, MoroccoLaboratoire de Biologie et Santé, Faculté des Sciences Ben M’Sik, Université Hassan II de Casablanca, MoroccoLaboratoire de Génomique et Génétique Humaine, Institut Pasteur du Maroc, Casablanca, MoroccoLaboratoire de Génomique et Génétique Humaine, Institut Pasteur du Maroc, Casablanca, MoroccoResistin (RETN) is a gene coding for proinflammatory adipokine called resistin secreted by macrophages in humans. Single nucleotide polymorphisms (SNPs) in RETN are linked to obesity and insulin resistance in various populations. Using dbSNP, 78 nonsynonymous SNPs (nsSNPs) were retrieved and tested on a PredictSNP 1.0 megaserver. Among these, 15 nsSNPs were predicted as highly deleterious and thus subjected to further analyses, such as conservation, posttranscriptional modifications, and stability. The 3D structure of human resistin was generated by homology modeling using Swiss model. Root-mean-square deviation (RMSD), hydrogen bonds (h-bonds), and interactions were estimated. Furthermore, UTRscan served to identify UTR functional SNPs. Among the 15 most deleterious nsSNPs, 13 were predicted to be highly conserved including variants in posttranslational modification sites. Stability analysis predicted 9 nsSNPs (I32S, C51Y, G58E, G58R, C78S, G79C, W98C, C103G, and C104Y) which can decrease protein stability with at least three out of the four algorithms used in this study. These nsSNPs were chosen for structural analysis. Both variants C51Y and C104Y showed the highest RMS deviations (1.137 Å and 1.308 Å, respectively) which were confirmed by the important decrease in total h-bonds. The analysis of hydrophobic and hydrophilic interactions showed important differences between the native protein and the 9 mutants, particularly I32S, G79C, and C104Y. Six SNPs in the 3′UTR (rs920569876, rs74176247, rs1447199134, rs943234785, rs76346269, and rs78048640) were predicted to be implicated in polyadenylation signal. This study revealed 9 highly deleterious SNPs located in the human RETN gene coding region and 6 SNPs within the 3′UTR that may alter the protein structure. Interestingly, these SNPs are worth to be analyzed in functional studies to further elucidate their effect on metabolic phenotype occurrence.http://dx.doi.org/10.1155/2019/4951627
collection DOAJ
language English
format Article
sources DOAJ
author Lamiae Elkhattabi
Imane Morjane
Hicham Charoute
Soumaya Amghar
Hind Bouafi
Zouhair Elkarhat
Rachid Saile
Hassan Rouba
Abdelhamid Barakat
spellingShingle Lamiae Elkhattabi
Imane Morjane
Hicham Charoute
Soumaya Amghar
Hind Bouafi
Zouhair Elkarhat
Rachid Saile
Hassan Rouba
Abdelhamid Barakat
In Silico Analysis of Coding/Noncoding SNPs of Human RETN Gene and Characterization of Their Impact on Resistin Stability and Structure
Journal of Diabetes Research
author_facet Lamiae Elkhattabi
Imane Morjane
Hicham Charoute
Soumaya Amghar
Hind Bouafi
Zouhair Elkarhat
Rachid Saile
Hassan Rouba
Abdelhamid Barakat
author_sort Lamiae Elkhattabi
title In Silico Analysis of Coding/Noncoding SNPs of Human RETN Gene and Characterization of Their Impact on Resistin Stability and Structure
title_short In Silico Analysis of Coding/Noncoding SNPs of Human RETN Gene and Characterization of Their Impact on Resistin Stability and Structure
title_full In Silico Analysis of Coding/Noncoding SNPs of Human RETN Gene and Characterization of Their Impact on Resistin Stability and Structure
title_fullStr In Silico Analysis of Coding/Noncoding SNPs of Human RETN Gene and Characterization of Their Impact on Resistin Stability and Structure
title_full_unstemmed In Silico Analysis of Coding/Noncoding SNPs of Human RETN Gene and Characterization of Their Impact on Resistin Stability and Structure
title_sort in silico analysis of coding/noncoding snps of human retn gene and characterization of their impact on resistin stability and structure
publisher Hindawi Limited
series Journal of Diabetes Research
issn 2314-6745
2314-6753
publishDate 2019-01-01
description Resistin (RETN) is a gene coding for proinflammatory adipokine called resistin secreted by macrophages in humans. Single nucleotide polymorphisms (SNPs) in RETN are linked to obesity and insulin resistance in various populations. Using dbSNP, 78 nonsynonymous SNPs (nsSNPs) were retrieved and tested on a PredictSNP 1.0 megaserver. Among these, 15 nsSNPs were predicted as highly deleterious and thus subjected to further analyses, such as conservation, posttranscriptional modifications, and stability. The 3D structure of human resistin was generated by homology modeling using Swiss model. Root-mean-square deviation (RMSD), hydrogen bonds (h-bonds), and interactions were estimated. Furthermore, UTRscan served to identify UTR functional SNPs. Among the 15 most deleterious nsSNPs, 13 were predicted to be highly conserved including variants in posttranslational modification sites. Stability analysis predicted 9 nsSNPs (I32S, C51Y, G58E, G58R, C78S, G79C, W98C, C103G, and C104Y) which can decrease protein stability with at least three out of the four algorithms used in this study. These nsSNPs were chosen for structural analysis. Both variants C51Y and C104Y showed the highest RMS deviations (1.137 Å and 1.308 Å, respectively) which were confirmed by the important decrease in total h-bonds. The analysis of hydrophobic and hydrophilic interactions showed important differences between the native protein and the 9 mutants, particularly I32S, G79C, and C104Y. Six SNPs in the 3′UTR (rs920569876, rs74176247, rs1447199134, rs943234785, rs76346269, and rs78048640) were predicted to be implicated in polyadenylation signal. This study revealed 9 highly deleterious SNPs located in the human RETN gene coding region and 6 SNPs within the 3′UTR that may alter the protein structure. Interestingly, these SNPs are worth to be analyzed in functional studies to further elucidate their effect on metabolic phenotype occurrence.
url http://dx.doi.org/10.1155/2019/4951627
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