A Comprehensive<i>In Silico</i>Analysis of the Functional and Structural Impact of SNPs in the<i>IGF1R</i>Gene

Alencar, Sérgio Amorim de; Lopes, Júlio César Dias

doi:10.1155/2010/715139

Cited by 41 publications

(29 citation statements)

References 40 publications

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“…This study differs from those in that we focused on a few specific genetic variations in IGF1R that plausibly attenuate IGF1 signaling and measured the effect in a normal adolescent population. We find that harboring a single copy of certain IGF1R variants leads to a substantial (4 cm) decrease in height on average, an observation supported by a recent computational analysis that predicts functional effects of these specific variants (22). This indicates that variation in height within healthy individuals may be explained, in some cases, by larger effects of a small subset of gene variants, rather than the combined small effects of many genes.…”

Section: Discussionsupporting

confidence: 79%

IGF receptor gene variants in normal adolescents: effect on stature

Kansra

Dolan

Martin

et al. 2012

European Journal of Endocrinology

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Objective: IGF1 is essential for human growth and mediates its effects through the type 1 IGF receptor (IGF1R). Our objective was to determine the frequency of certain previously reported IGF1R gene variants in the normal population and their effect on stature. Design: A cross-sectional study was conducted in a population of 2500 children enrolled in public school grades 5 through 12 for whom DNA and anthropometric data were available. Subjects were genotyped at five previously reported loci that affect receptor abundance or function. Methods: The frequency of the following IGF1R variants Arg108Gln, Lys115Asn, Arg59stop, Arg481Gln, and Arg605His was measured by a PCR-based assay. Circulating concentrations of IGF1 or IGF binding protein-3 (IGFBP3) were measured by ELISA in those affected and matched controls. Results: A scan of 1300 subjects detected none with Arg108Gln, Lys115Asn, or Arg59stop mutations. In contrast, nucleotide changes leading to heterozygosity at codon 605 were identified in nine of 2500 subjects and six of 1800 subjects at codon 481. These individuals were, on average, 4 cm shorter than the others. There were no differences in circulating concentrations of IGF1 or IGFBP3 between those with the gene variants and controls matched for sex, ethnicity, age, and BMI. Conclusion: Rare IGF1R variants exerting a moderate effect on stature are present in the general population, supporting the importance of IGF1R function in growth control and indicating that variation in height within healthy individuals may be explained, in some cases, by larger effects of a small subset of gene variants.

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Section: Discussionsupporting

confidence: 79%

IGF receptor gene variants in normal adolescents: effect on stature

Kansra

Dolan

Martin

et al. 2012

European Journal of Endocrinology

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“…From overall functional analysis, both SIFT and PolyPhen predicted 10 (83%) variants to be highly deleterious. Although there is significant difference in SIFT and PolyPhen‐2 algorithms [de Alencar and Lopes, ], the concordance analysis of SIFT and PolyPhen results showed 10 (83%) variants (c.485G>A, c.815C>A, c.1076C>A, c.1720T>G, c.1076G>A, c.889C>T, c.1187A>G, c.1472C>T, c.937G>A, and c.1427G>A) with damaging effects on relevant proteins. Moreover, good coherence is found for predictions taken from PANTHER and PolyPhen‐2, simulated 11 (92%) nsSNPs (except c.3G>A) to be deleterious.…”

Section: Discussionmentioning

confidence: 99%

Clinically Significant Missense Variants in Human GALNT3, GALNT8, GALNT12, and GALNT13 Genes: Intriguing In Silico Findings

Hussain

Nasir

Al‐Aama

2013

J of Cellular Biochemistry

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Aberrant glycosylation by N-acetylgalactosaminyl transferases (GALNTs) is a well-described pathological alteration that is widespread in hereditary diseases, prominently including human cancers, familial tumoral calcinosis and hyperostosis-hyperphosphatemia. In this study, we integrated different computational tools to perform the in silico analysis of clinically significant mutations (nsSNPs/single amino acid change) at both functional and structural levels, found in human GALNT3, GALNT8, GALNT12, and GALNT13 genes. From function and structure based insights, mutations encoding R162Q, T359K, C574G, G359D, R297W, D303N, Y396C, and D313N substitutions were concordantly predicted highly deleterious for relevant GALNTs proteins. From intriguing findings, T359K-GALNT3 was simulated with high contribution for disease susceptibility (tumor calcinosis) as compared to its partner variant T272K (Ichikawa et al. [2006] J. Clin. Endocrinol. Metab. 91:4472-4475). Similarly, the prediction of high damaging behavior, evolutionary conservation and structural destabilization for C574G were proposed as major contributing factors to regulate metabolic disorder underlying tumor calcinosis and hyperostosis-hyperphosphatemia syndrome. In case of R297W-GALNT12, prediction of highly deleterious effect and disruption in ionic interactions were anticipated with reduction in enzymatic activity, associated with bilateral breast cancer and primary colorectal cancers. The second GALNT12 mutation (D303N)-known splice variant-was predicted with disease severity as a result of decrease in charge density and buried behavior neighboring the catalytic B domain. In the lack of adequate in silico data about systematic characterization of clinically significant mutations in GALNTs genes, current study can be used as a significant tool to interpret the role of GALNTs reaction chemistry in disease-association risks in body.

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“…So far, approximately 900 variants located in noncoding, coding, and regulatory regions of human GalNAc-T1 gene are described in dbSNP database to date. With the advent of high throughput (whole exome and genome) sequencing practices, the number of genetic variations is growing day by day in an efficient manner [18, 24, 41, 42]. Hence, an important task of human genetics lies in delineating those amino acid variants which can impose specific structural and functional consequences on protein function [41].…”

Section: Discussionmentioning

confidence: 99%

First ComprehensiveIn SilicoAnalysis of the Functional and Structural Consequences of SNPs in HumanGalNAc-T1Gene

Mohamoud

Hussain

El-Harouni

et al. 2014

Computational and Mathematical Methods in Medicine

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GalNAc-T1, a key candidate of GalNac-transferases genes family that is involved in mucin-type O-linked glycosylation pathway, is expressed in most biological tissues and cell types. Despite the reported association of GalNAc-T1 gene mutations with human disease susceptibility, the comprehensive computational analysis of coding, noncoding and regulatory SNPs, and their functional impacts on protein level, still remains unknown. Therefore, sequence- and structure-based computational tools were employed to screen the entire listed coding SNPs of GalNAc-T1 gene in order to identify and characterize them. Our concordant in silico analysis by SIFT, PolyPhen-2, PANTHER-cSNP, and SNPeffect tools, identified the potential nsSNPs (S143P, G258V, and Y414D variants) from 18 nsSNPs of GalNAc-T1. Additionally, 2 regulatory SNPs (rs72964406 and #x26; rs34304568) were also identified in GalNAc-T1 by using FastSNP tool. Using multiple computational approaches, we have systematically classified the functional mutations in regulatory and coding regions that can modify expression and function of GalNAc-T1 enzyme. These genetic variants can further assist in better understanding the wide range of disease susceptibility associated with the mucin-based cell signalling and pathogenic binding, and may help to develop novel therapeutic elements for associated diseases.

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A ComprehensiveIn SilicoAnalysis of the Functional and Structural Impact of SNPs in theIGF1RGene

Cited by 41 publications

References 40 publications

IGF receptor gene variants in normal adolescents: effect on stature

IGF receptor gene variants in normal adolescents: effect on stature

Clinically Significant Missense Variants in Human GALNT3, GALNT8, GALNT12, and GALNT13 Genes: Intriguing In Silico Findings

First ComprehensiveIn SilicoAnalysis of the Functional and Structural Consequences of SNPs in HumanGalNAc-T1Gene

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