Arumugam Amala scite author profile

Metallo-β-lactamases (MBLs) producing bacteria especially the ones with New Delhi metallo-beta-lactamase-1 (NDM-1) and its variants can potentially hydrolyse all the major β-lactam antibiotics, ultimately escalating anti-microbial resistance world-wide. There is a dearth of approved inhibitors to combat NDM and other MBLs producing bacteria. Hence we focussed to find novel inhibitor(s) in-silico which can potentially suppress the activity of NDM/MBLs. A total of 2400 compounds were virtually screened to identify a promising carboxylic acid-containing compound (CID-53986787) analogous to NDM antagonist Captopril. Our lead compound can bind adjacent to the active site zinc ions (Zn1 and Zn2) in all highly resistant NDM variants. CID-53986787 possesses ~ 5–8% higher binding affinity than Captopril, exhibiting molecular interactions with crucial residues that can destabilize the hydrolytic activity of NDM. CID-53986787 was virtually evaluated to ascertain its safe pharmacological/toxicity profile. Molecular dynamics simulation studies further elucidated its stable interaction with the target protein (NDM-1).

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Identification of potential carboxylic acid-containing drug candidate to design novel competitive NDM inhibitors: An in-silico approach comprising combined virtual screening and molecular dynamics simulation

Vasudevan

Basu

Amala

et al. 2021

Preprint

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Metallo-β-lactamases (MBLs) producing bacteria especially the ones with New Delhi metallo-beta-lactamase-1 (NDM-1) and its variants can potentially hydrolyse all the major β-lactam antibiotics, ultimately escalating anti-microbial resistance world-wide. There is a dearth of approved inhibitors to combat NDM and other MBLs producing bacteria. Hence we focussed to find novel inhibitor(s) in-silico which can potentially suppress the activity of NDM/ MBLs. 2400 compounds were virtually screened to identify a promising carboxylic acid-containing compound (CID-53986787) analogous to NDM antagonist Captopril. Our lead compound can bind adjacent to the active site zinc ions (Zn1 and Zn2) in all highly resistant NDM variants. CID-53986787 possesses ~5-8% higher binding affinity than Captopril, exhibiting molecular interactions with crucial residues that can destabilize the hydrolytic activity of NDM. CID-53986787 was virtually evaluated to ascertain its safe pharmacological/ toxicity profile. Molecular dynamics simulation studies elucidated its stable interaction with the target protein (NDM-1).

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An Analysis of Central Residues Between Ligand-Bound and Ligand-Free Protein Structures Based on Network Approach

Amala

Emerson

2017

PPL

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Identification of target genes in cancer diseases using protein–protein interaction networks

Amala

Emerson

2019

Netw Model Anal Health Inform Bioinforma

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Arumugam Amala

Protein contact maps: A binary depiction of protein 3D structures

Identification of Potential Carboxylic Acid-Containing Drug Candidate to Design Novel Competitive NDM Inhibitors: An In-Silico Approach Comprising Combined Virtual Screening and Molecular Dynamics Simulation

Identification of potential carboxylic acid-containing drug candidate to design novel competitive NDM inhibitors: An in-silico approach comprising combined virtual screening and molecular dynamics simulation

An Analysis of Central Residues Between Ligand-Bound and Ligand-Free Protein Structures Based on Network Approach

Identification of target genes in cancer diseases using protein–protein interaction networks

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