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Abstract

Protease is one of three enzymes encoded within HIV's pol gene, responsible for the cleavage of viral Gag-Pol polypeptide into mature viral proteins and a target of current anti-retroviral therapy. Protease diversity analysis in Latin America has been lacking in spite of extensive studies of protease-inhibitor resistance mutations. We studied the diversity of 777 Mexican protease sequences and found that all were subtype B except one (CRF02_AG). Phylogenetic analysis suggested the existence of six different clades with geospecific contributions. Thirty-three percent of sites were conserved, 25% had conservative substitutions, and 41% exhibited physicochemical changes. The most conserved regions surrounded the active site, most of the flap domain, and a region between the 60's loop and C-terminal triad. A single sequence exhibited an active site mutation (T26S). Variable sites were mapped to a crystallographic structure, providing further insight into the distribution and functional relevance of variable sites among Mexican isolates.

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References

World Health Organization: HIV/AIDS data and statistics. Available at https://www.who.int/hiv/data/en/ (2019), accessed September 26, 2019 .

Weissberg

, Mubiru

, Kambugu

, et al.: Ten years of antiretroviral therapy: Incidences, patterns and risk factors of opportunistic infections in an urban Ugandan cohort. PLoS One, 2018; 13:e0206796.

WHO: Consolidated Guidelines on the Use of Antiretroviral Drugs for Treating and Preventing HIV Infection: Recommendations for a Public Health Approach. Geneva: World Health Organization, 2016, p. 480.

Brik

, Wong

: HIV-1 protease: Mechanism and drug discovery. Org Biomol Chem, 2003; 1:5–14.

Meher

, Patel

: Structural and dynamical aspects of HIV-1 protease and its role in drug resistance. Adv Protein Chem Struct Biol, 2013; 92:299–324.

Kohl

, Emini

, Schleif

, et al.: Active human immunodeficiency virus protease is required for viral infectivity. Proc Natl Acad Sci U S A, 1988; 85:4686–4690.

Pearl

, Taylor

: A structural model for the retroviral proteases. Nature, 1987; 329:351–354.

Vasudevachari

, Zhang

, Imamichi

, Falloon

, Salzman

: Emergence of protease inhibitor resistance mutations in human immunodeficiency virus type 1 isolates from patients and rapid screening procedure for their detection. Antimicrob Agents Chemother, 1996; 40:2535–2541.

Hernandez-Sanchez

, Guerra-Palomares

, Ramirez-GarciaLuna

, Arguello

, Noyola

, Garcia-Sepulveda

: Prevalence of drug resistance mutations in protease, reverse transcriptase, and integrase genes of North Central Mexico HIV isolates. AIDS Res Hum Retroviruses, 2018; 34:498–506.

10.

Los Alamos National Laboratory: HIV sequence database, distribution of HIV-1 sequences. Available at https://www.hiv.lanl.gov/components/sequence/HIV/geo/geo.comp accessed September 26, 2019 .

11.

Los Alamos National Laboratory: HIV sequence alignments. Available at https://www.hiv.lanl.gov/content/sequence/NEWALIGN/align.html accessed September 26, 2019 .

12.

Suchard

, Lemey

, Baele

, Ayres

, Drummond

, Rambaut

: Bayesian phylogenetic and phylodynamic data integration using BEAST 1.10. Virus Evol, 2018; 4:vey016.

13.

Los Alamos National Laboratory: Entropy: Shannon entropy-two. Available at https://www.hiv.lanl.gov/components/sequence/HIV/geo/geo.comp accessed September 26, 2019 .

14.

Louis

, Ishima

, Torchia

, Weber

: HIV-1 protease: Structure, dynamics, and inhibition. Adv Pharmacol, 2007; 55:261–298.

15.

Shao

, Everitt

, Manchester

, Loeb

, Hutchison

, Swanstrom

: Sequence requirements of the HIV-1 protease flap region determined by saturation mutagenesis and kinetic analysis of flap mutants. Proc Natl Acad Sci U S A, 1997; 94:2243–2248.

16.

Mobaraki

, Hemmateenejad

, Weikl

, Sakhteman

: On the relationship between docking scores and protein conformational changes in HIV-1 protease. J Mol Graph Model, 2019; 91:186–193.

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Mexican HIV-1 Protease Sequence Diversity

Abstract

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