About: BACKGROUND: The outbreak of coronavirus disease (COVID-19) was caused by severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2), through its surface spike glycoprotein (S-protein) recognition on the receptor Angiotensin-converting enzyme 2 (ACE2) in humans. However, it remains unclear how genetic variations in ACE2 may affect its function and structure, and consequently alter the recognition by SARS-CoV-2. METHODS: We have systemically characterized missense variants in the gene ACE2 using data from the Genome Aggregation Database (gnomAD; N = 141,456). To investigate the putative deleterious role of missense variants, six existing functional prediction tools were applied to evaluate their impact. We further analyzed the structural flexibility of ACE2 and its protein–protein interface with the S-protein of SARS-CoV-2 using our developed Legion Interfaces Analysis (LiAn) program. RESULTS: Here, we characterized a total of 12 ACE2 putative deleterious missense variants. Of those 12 variants, we further showed that p.His378Arg could directly weaken the binding of catalytic metal atom to decrease ACE2 activity and p.Ser19Pro could distort the most important helix to the S-protein. Another seven missense variants may affect secondary structures (i.e. p.Gly211Arg; p.Asp206Gly; p.Arg219Cys; p.Arg219His, p.Lys341Arg, p.Ile468Val, and p.Ser547Cys), whereas p.Ile468Val with AF = 0.01 is only present in Asian. CONCLUSIONS: We provide strong evidence of putative deleterious missense variants in ACE2 that are present in specific populations, which could disrupt the function and structure of ACE2. These findings provide novel insight into the genetic variation in ACE2 which may affect the SARS-CoV-2 recognition and infection, and COVID-19 susceptibility and treatment.

Facets (new session)
Description
Metadata
Settings
- owl:sameAs
- Inference Rule:

About: BACKGROUND: The outbreak of coronavirus disease (COVID-19) was caused by severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2), through its surface spike glycoprotein (S-protein) recognition on the receptor Angiotensin-converting enzyme 2 (ACE2) in humans. However, it remains unclear how genetic variations in ACE2 may affect its function and structure, and consequently alter the recognition by SARS-CoV-2. METHODS: We have systemically characterized missense variants in the gene ACE2 using data from the Genome Aggregation Database (gnomAD; N = 141,456). To investigate the putative deleterious role of missense variants, six existing functional prediction tools were applied to evaluate their impact. We further analyzed the structural flexibility of ACE2 and its protein–protein interface with the S-protein of SARS-CoV-2 using our developed Legion Interfaces Analysis (LiAn) program. RESULTS: Here, we characterized a total of 12 ACE2 putative deleterious missense variants. Of those 12 variants, we further showed that p.His378Arg could directly weaken the binding of catalytic metal atom to decrease ACE2 activity and p.Ser19Pro could distort the most important helix to the S-protein. Another seven missense variants may affect secondary structures (i.e. p.Gly211Arg; p.Asp206Gly; p.Arg219Cys; p.Arg219His, p.Lys341Arg, p.Ile468Val, and p.Ser547Cys), whereas p.Ile468Val with AF = 0.01 is only present in Asian. CONCLUSIONS: We provide strong evidence of putative deleterious missense variants in ACE2 that are present in specific populations, which could disrupt the function and structure of ACE2. These findings provide novel insight into the genetic variation in ACE2 which may affect the SARS-CoV-2 recognition and infection, and COVID-19 susceptibility and treatment. Goto Sponge NotDistinct Permalink

An Entity of Type : fabio:Abstract, within Data Space : wasabi.inria.fr associated with source document(s)

Attributes	Values
type	abstract
value	BACKGROUND: The outbreak of coronavirus disease (COVID-19) was caused by severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2), through its surface spike glycoprotein (S-protein) recognition on the receptor Angiotensin-converting enzyme 2 (ACE2) in humans. However, it remains unclear how genetic variations in ACE2 may affect its function and structure, and consequently alter the recognition by SARS-CoV-2. METHODS: We have systemically characterized missense variants in the gene ACE2 using data from the Genome Aggregation Database (gnomAD; N = 141,456). To investigate the putative deleterious role of missense variants, six existing functional prediction tools were applied to evaluate their impact. We further analyzed the structural flexibility of ACE2 and its protein–protein interface with the S-protein of SARS-CoV-2 using our developed Legion Interfaces Analysis (LiAn) program. RESULTS: Here, we characterized a total of 12 ACE2 putative deleterious missense variants. Of those 12 variants, we further showed that p.His378Arg could directly weaken the binding of catalytic metal atom to decrease ACE2 activity and p.Ser19Pro could distort the most important helix to the S-protein. Another seven missense variants may affect secondary structures (i.e. p.Gly211Arg; p.Asp206Gly; p.Arg219Cys; p.Arg219His, p.Lys341Arg, p.Ile468Val, and p.Ser547Cys), whereas p.Ile468Val with AF = 0.01 is only present in Asian. CONCLUSIONS: We provide strong evidence of putative deleterious missense variants in ACE2 that are present in specific populations, which could disrupt the function and structure of ACE2. These findings provide novel insight into the genetic variation in ACE2 which may affect the SARS-CoV-2 recognition and infection, and COVID-19 susceptibility and treatment.
subject	Zoonoses COVID-19 Glycoproteins EC 3.4.17 Membrane biology Molecular biology Single-pass transmembrane proteins Sarbecovirus Chiroptera-borne diseases Infraspecific virus taxa
part of	Investigation of the genetic variation in ACE2 on the structural recognition by the novel coronavirus (SARS-CoV-2)
is abstract of	Investigation of the genetic variation in ACE2 on the structural recognition by the novel coronavirus (SARS-CoV-2)
is hasSource of	covid:ann/target/d7bb2c8c1736902573cfcacf71676e508ab5ce96 covid:ann/target/e8568dc4218b16f4f47ed801880aa48f72b37205 covid:ann/target/79bbadd9b715df9e722a220b75f637832ca1133b covid:ann/target/95e51610cb5c99a81b0bface3525a44c405c2172 covid:ann/target/e7fcd71bef7fb6d0747e34dab5f6dde0fd69d0a0 covid:ann/target/b04116e5216b1d5ea95608526e2a32d410f084b4 covid:ann/target/d18d512ee8a9c5026dc365be8c5b12869c751628 covid:ann/target/73fe8d90cc21354aa544b2b9759a8160cdc239d4 covid:ann/target/ac0aea9c1bfe8d0cda74a62b3623fce597c20acd covid:ann/target/6f0c066af8ff58f92e2f9d363a1df389b9fdffb2 covid:ann/target/35a64360a6c44a3b01dcb7a0183cc9939bdcf79e covid:ann/target/47dd064ef5e43a4fdd72da1e9bb8ce2fad0539b5 covid:ann/target/5e516e3e59425a90931e98e3b3a66d92365d3aa4 covid:ann/target/7b8756ab1cf033d2765b42cb6485b70044df3f34 covid:ann/target/999a098e3df064405302d01d7f80493e22695072 covid:ann/target/60128d59f80771658ff5616c00977460f6ddf86e covid:ann/target/a34e0a1a01c5e32e04692e16f7d8214556e25d0d covid:ann/target/1e45a00847c1ef4ecf9e919d8e3328eda33bc2ae covid:ann/target/976794948d1108effa396bd7818f611c79d6d3bc covid:ann/target/a2c06852493f1eb941ffc5a3a31611c8d4c60fb6 covid:ann/target/b5fea81fa0073dcfd0a89f6000821723dba883f3 covid:ann/target/ee990ae85a22206e2ed5516a0670d2b1eb4eb522 covid:ann/target/5e00a123a076e4f99e16bb22908043a766703556 covid:ann/target/1ce14d9e41936f0c60c3ab478162d09a54e5b5be covid:ann/target/a109373b222be2d7e4c391325be88d49635d6cc0 covid:ann/target/ce5b8a1b479d4c0f70b9532294a33e5d0ce81a7a covid:ann/target/9ec44c53d90070ecdd40ec46145126ab589c0076 covid:ann/target/177a2ce44f08c74589f5015b0ae3c93d8c7a0b1a covid:ann/target/9725627d48398631613a6a6a35cec5e0107d9c82 covid:ann/target/1d2e6579991bd18aa867219b7bea1322c9337e88 covid:ann/target/40e639b015be516c886e9c800239eea73c7fdf78 covid:ann/target/9405acc2d54b0b9b17dfedc9a44c7eeffefcd668 covid:ann/target/029230f13faee69710c52d19105d1a5702cd8704 covid:ann/target/447ec6fb5df3a68341640200621d805194528b6f covid:ann/target/5f944abface90da2a9907ef3735342009fa38a51 covid:ann/target/455ac7757f44f293cf5d137e78e5e603f970c8d5 covid:ann/target/7409cae85fd802f699d4603352079f5e155f56e3 covid:ann/target/1521243cb52bb5083e686e5aa44a01742f01c73e covid:ann/target/5bade35f7220e4968758581fc1dfdd1ddb856c55 covid:ann/target/2240189381e90a22f3e887be9bb3956a5d6cc550 covid:ann/target/8231666ad9eeac0c6e5bc9e1d3f90a8294ba3478 covid:ann/target/797e7745253c93468259631de5d3b529e0a15f64 covid:ann/target/c56d57dc19665946dea082158b6f27cf6548fd98 covid:ann/target/f6f60792d530359264cd3aeac903494c0cdd03ab covid:ann/target/2d607aae3db2b88b2a6ae6802284739c186d63f3 covid:ann/target/638ba145d7aab9c023c6afca6a05fe01f585e3c6 covid:ann/target/9ead1bcd5b3b22c0341dfab0ff7e0b8b1d65005e covid:ann/target/a4b9b59e05e18111ac20d222950e2c3d27e9143e covid:ann/target/334061629ba89c163926b0a03773b18f177ecf73 covid:ann/target/b454523b09a24746006a0834d8ecb922932b8587 covid:ann/target/ce9d51bacdf52f34ba9a43ad778443ee66a26e44 covid:ann/target/0c3bab15c803f2f8ddf96e4f0f220178055e2504 covid:ann/target/c2635efc423014b45b188857daa1ff7ed86f699c covid:ann/target/c4afc432fa5bce82245eac7d55b462bc40055a58

Faceted Search & Find service v1.13.91 as of Mar 24 2020

Alternative Linked Data Documents: Sponger | ODE Content Formats:

RDF

ODATA

Microdata

About

OpenLink Virtuoso version 07.20.3229 as of Jul 10 2020, on Linux (x86_64-pc-linux-gnu), Single-Server Edition (94 GB total memory)
Data on this page belongs to its respective rights holders.
Virtuoso Faceted Browser Copyright © 2009-2025 OpenLink Software