Database for Gene Variants and Metabolic Networks Implicated in Familial Gastroschisis

Víctor M Salinas-Torres,Hugo L Gallardo-Blanco,Rafael A Salinas-Torres,Laura E Martínez De Villarreal

doi:10.3390/data4030097

Víctor M Salinas-Torres, Hugo L Gallardo-Blanco + Show 2 more

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https://doi.org/10.3390/data4030097

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Abstract

Gastroschisis is one of the most prevalent human birth defects concerning the ventral body wall development. Recent research has given a better understanding of gastroschisis pathogenesis through the identification of multiple novel pathogenetic pathways implicated in ventral body wall closure. Deciphering the underlying genetic factors segregating among familial gastroschisis allows better detection of novel susceptibility variants than the screening of pooled unrelated cases and controls, whereas bioinformatic-aided analysis can help to address new insights into human biology and molecular mechanisms involved in gastroschisis. Technological advances in DNA sequencing (Next Generation Sequencing), computing power, and machine learning techniques provide opportunities to the scientific communities to assess significant gaps in research and clinical practice. Thus, in an effort to study the role of gene variation in gastroschisis, we employed whole exome sequencing in a Mexican family with recurrence for gastroschisis. Stringent bioinformatic analyses were implemented to identify and predict pathogenetic networks comprised of potential gastroschisis predispositions. This is the first database for gene variants and metabolic networks implicated in familial gastroschisis. The dataset provides information on gastroschisis annotated genes, gene variants, and metabolic networks and constitutes a useful source to enhance further investigations in gastroschisis.

Highlights

Gastroschisis represents one of the leading human birth defects affecting ~1:2500 live births with an alarming increase in its prevalence [1]
The primary aim for collecting this database is to contribute to research and diagnostic of gastroschisis in future studies as well as to promote relevant gene variants and metabolic networks that can be validated in studies based on cases and controls
Our dataset could be useful to enhance the data transparency or reusability for further investigations and can be utilized for studying and addressing new insights into human biology and molecular mechanisms involved in gastroschisis

Summary

Introduction

Gastroschisis represents one of the leading human birth defects affecting ~1:2500 live births with an alarming increase in its prevalence [1]. Heritable factors in gastroschisis were estimated to be 3% adjusted for probands, 4.3% in gastroschisis cases followed by a subsequent affected pregnancy, and overall recurrence risk of 5.7% [3]. Data 2019, 4, 97 inflammatory response, regulation of vascular development, keratinization, left-right symmetry, epigenetic, ubiquitination, and regulation of protein synthesis [4,5,6]. Within this framework, the aim of the present study is to collect genes, gene variants, and metabolic networks implicated in gastroschisis by employing whole exome sequencing and bioinformatic analysis in a Mexican family with recurrence for gastroschisis. The primary aim for collecting this database is to contribute to research and diagnostic of gastroschisis in future studies as well as to promote relevant gene variants and metabolic networks that can be validated in studies based on cases and controls

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