Author: Pouladi, Nasser; Abdolahi, Sepehr
Title: Investigating the ACE2 polymorphisms in COVIDâ€19 susceptibility: An in silico analysis Cord-id: 7t4vbf3y Document date: 2021_4_5
ID: 7t4vbf3y
Snippet: BACKGROUND: Novel coronavirus (SARSâ€CoVâ€2) became an epidemic disease and lead to a pneumonia outbreak first in December 2019 in Wuhan, China. The symptoms related to coronavirus diseaseâ€19 (COVIDâ€19) were different ranging from mild to severe lung injury and multiâ€organ failure symptoms, eventually leading to death, especially in older patients with other coâ€morbidities. The receptor of this virus in the human cell is angiotensinâ€converting enzyme 2 (ACE2). METHODS: In this paper,
Document: BACKGROUND: Novel coronavirus (SARSâ€CoVâ€2) became an epidemic disease and lead to a pneumonia outbreak first in December 2019 in Wuhan, China. The symptoms related to coronavirus diseaseâ€19 (COVIDâ€19) were different ranging from mild to severe lung injury and multiâ€organ failure symptoms, eventually leading to death, especially in older patients with other coâ€morbidities. The receptor of this virus in the human cell is angiotensinâ€converting enzyme 2 (ACE2). METHODS: In this paper, we aimed to perform an in silico analysis of the frequently studied variants of the ACE2 gene and determine the effects of the variants in mRNA secondary structure and binding affinity of cellular factors. Fourteen singleâ€nucleotide polymorphisms were selected based on previous studies and investigated. RESULTS: All of the variants were analyzed in the RNAsnp database and three revealed a significant pâ€value. The spliceAid2 database prediction showed that 7 out of 14 SNPs caused an alteration in a way that only the wild or mutated form was able to bind to proteins. The latter database also reported that three SNPs produces a dual form in which different specific proteins can bind to the sequence in a specific form (either wild or mutated form). CONCLUSION: Altogether, these estimations revealed the potential of variants in manipulation of the final stable form of ACE2 that can lead to different COVIDâ€19 susceptibility.
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