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Targeting SARS-CoV-2 Proteases for COVID-19 Antiviral Development
Zongyang Lv
,
Kristin E. Cano
, Lijia Jia
, Marcin Drag
, Tony T. Huang
,
Shaun K. Olsen
Department of Biochemistry & Structural Biology
Glenn Biggs Institute for Alzheimer’s & Neurodegenerative Diseases
Greehey Children's Cancer Research Institute
Research output
:
Contribution to journal
›
Review article
›
peer-review
82
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Scopus citations
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Medicine and Dentistry
Proteinase
100%
Severe Acute Respiratory Syndrome Coronavirus 2
88%
Antivirus Agent
33%
Papain
33%
Virus Replication
22%
Development
22%
COVID-19
22%
Assay
22%
Peptide
11%
Combination Therapy
11%
Disease Exacerbation
11%
Viral Protein
11%
Innate Immunity
11%
Infection
11%
Vaccine
11%
Evolution
11%
Drug
11%
Chemotherapeutic Agent
11%
Host
11%
Maturation
11%
Remdesivir
11%
Cells
11%
Therapeutic Procedure
11%
Patient
11%
Coronavirinae
11%
Pharmacology, Toxicology and Pharmaceutical Science
Proteinase
100%
Antivirus Agent
33%
Papain
33%
Viral Protein
22%
Disease Exacerbation
11%
Peptide
11%
Infection
11%
Drug
11%
Vaccine
11%
Coronavirinae
11%
Severe Acute Respiratory Syndrome
11%
Remdesivir
11%
Virus
11%
Host
11%
Death
11%
Biochemistry, Genetics and Molecular Biology
Protease
100%
Papain
33%
Electric Potential
22%
Virus Replication
22%
Development
22%
Peptide
11%
Coronavirinae
11%
Small Molecule
11%
Host
11%
Innate Immunity
11%
Virus
11%
Evolution
11%
Maturation
11%
Chemistry
Inhibitor
33%
Assay
22%
Potential
22%
Biochemical
11%
Protein
11%
% Inhibition
11%
Peptide
11%
Drug Target
11%
Antiviral Drug
11%
Procedure
11%
Molecule
11%
Rate
11%
Respiratory
11%
Optimization
11%
Immunology and Microbiology
Viral Replication
22%
Electric Potential
22%
Development
22%
Innate Immune System
11%
Vaccine Efficacy
11%
Host
11%
Cells
11%
Evolution
11%
Maturation
11%
Severe Acute Respiratory Syndrome
11%
Coronavirinae
11%