Gag-protease coevolution analyses define novel structural surfaces in the HIV-1 matrix and capsid involved in resistance to Protease Inhibitors

QR Code

Gag-protease coevolution analyses define novel structural surfaces in the HIV-1 matrix and capsid involved in resistance to Protease Inhibitors

Abstract Despite the major role of Gag in establishing resistance of HIV-1 to protease inhibitors (PIs), very limited data are available on the total contribution of Gag residues to resistance to PIs. To identify in detail Gag residues and structural interfaces associated with the development of HIV...

Description complète

Enregistré dans:

Détails bibliographiques
Auteurs principaux:	Francisco M Codoñer, Ruth Peña, Oscar Blanch-Lombarte, Esther Jimenez-Moyano, Maria Pino, Thomas Vollbrecht, Bonaventura Clotet, Javier Martinez-Picado, Rika Draenert, Julia G. Prado
Format:	article
Langue:	EN
Publié:	Nature Portfolio 2017
Sujets:	Medicine R Science Q
Accès en ligne:	https://doaj.org/article/cda11a62772548c99100bd0b48f86fd4
Tags:	Ajouter un tag Pas de tags, Soyez le premier à ajouter un tag!

Documents similaires

A unique spumavirus Gag N-terminal domain with functional properties of orthoretroviral matrix and capsid.
par: David C Goldstone, et autres
Publié: (2013)

Protease cleavage leads to formation of mature trimer interface in HIV-1 capsid.
par: Xin Meng, et autres
Publié: (2012)

In vitro protease cleavage and computer simulations reveal the HIV-1 capsid maturation pathway
par: Jiying Ning, et autres
Publié: (2016)

Network analyses reveal pervasive functional regulation between proteases in the human protease web.
par: Nikolaus Fortelny, et autres
Publié: (2014)

HIV-1 Gag gene mutations, treatment response and drug resistance to protease inhibitors: A systematic review and meta-analysis protocol.
par: Alex Durand Nka, et autres
Publié: (2021)

Mitochondrial Lon protease is a gatekeeper for proteins newly imported into the matrix
par: Yuichi Matsushima, et autres
Publié: (2021)

Mycobacterial Caseinolytic Protease Gene Regulator ClgR Is a Substrate of Caseinolytic Protease
par: Yoshiyuki Yamada, et autres
Publié: (2017)

Structures of the human LONP1 protease reveal regulatory steps involved in protease activation
par: Mia Shin, et autres
Publié: (2021)

Purification and characterization of an aspartic protease from the Rhizopus oryzae protease extract, Peptidase R
par: Hsiao,Nai-Wan, et autres
Publié: (2014)

Protease Inhibitor and Metabolic Alteration
par: Cavenaghi,F. M, et autres
Publié: (2012)

Protease circuits for processing biological information
par: Brandon Alexander Holt, et autres
Publié: (2020)

A role in immunity for Arabidopsis cysteine protease RD21, the ortholog of the tomato immune protease C14.
par: Takayuki Shindo, et autres
Publié: (2012)

<italic toggle="yes">Toxoplasma</italic> Cathepsin Protease B and Aspartyl Protease 1 Are Dispensable for Endolysosomal Protein Digestion
par: Christian McDonald, et autres
Publié: (2020)

The serine protease inhibitors and plant-insect interaction
par: Mendoza-Blanco,Werner, et autres
Publié: (2012)

DNA–protein crosslink proteases in genome stability
par: Annamaria Ruggiano, et autres
Publié: (2021)

Production of Protease Enzyme from Wheat Straw
par: Mohammed A. Atiya
Publié: (2008)

Production of Protease Enzyme from Wheat Straw
par: Mohammed A. Atiya
Publié: (2018)

Fungal lifestyle reflected in serine protease repertoire
par: Anna Muszewska, et autres
Publié: (2017)

Detection of membrane-bound proteases of Francisella tularensis
par: A. V. Korneva, et autres
Publié: (2016)

Plant protease inhibitors in control of phytophagous insects
par: Lawrence,Paulraj K., et autres
Publié: (2002)

Hindrance of the Proteolytic Activity of Neutrophil-Derived Serine Proteases by Serine Protease Inhibitors as a Management of Cardiovascular Diseases and Chronic Inflammation
par: Timo Burster, et autres
Publié: (2021)

<italic toggle="yes">In Vivo</italic> Emergence of a Novel Protease Inhibitor Resistance Signature in HIV-1 Matrix
par: Rawlings Datir, et autres
Publié: (2020)

Gene expression profiling of protease and non-protease genes in Trichophyton mentagrophytes isolates from dermatophytosis patients by qRT-PCR analysis
par: Shyama Datt, et autres
Publié: (2021)

Engineering subtilisin proteases that specifically degrade active RAS
par: Yingwei Chen, et autres
Publié: (2021)

Protease Produced by Endophytic Fungi: A Systematic Review
par: Victor Hugo Souto Bezerra, et autres
Publié: (2021)

Regulation of Antimycin Biosynthesis Is Controlled by the ClpXP Protease
par: Bohdan Bilyk, et autres
Publié: (2020)

Safety of protease inhibitors in HIV-infected pregnant women
par: Chougrani I, et autres
Publié: (2013)

Effect of different metals on protease activity in sunflower cotyledons
par: Pena,Liliana B., et autres
Publié: (2006)

Biochemical and biophysical characterization of the main protease, 3-chymotrypsin-like protease (3CLpro) from the novel coronavirus SARS-CoV 2
par: Juliana C. Ferreira, et autres
Publié: (2020)

The NBC Islands gag
par: Neville Togarewa
Publié: (1994)

Gagging the Samoa Observer
par: Savea Sano Malifa
Publié: (2000)

A cysteine protease inhibitor of plasmodium berghei is essential for exo-erythrocytic development.
par: Christine Lehmann, et autres
Publié: (2014)

Direct visualization of protease action on collagen triple helical structure.
par: Gabriel Rosenblum, et autres
Publié: (2010)

Bacterial protease uses distinct thermodynamic signatures for substrate recognition
par: Gustavo Arruda Bezerra, et autres
Publié: (2017)

Urinary peptidomics reveals proteases involved in idiopathic membranous nephropathy
par: Baoxu Lin, et autres
Publié: (2021)

Nematicidal bacteria associated to pinewood nematode produce extracellular proteases.
par: Gabriel Paiva, et autres
Publié: (2013)

Synergistic defensive function of raphides and protease through the needle effect.
par: Kotaro Konno, et autres
Publié: (2014)

Mechanism and inhibition of Streptococcus pneumoniae IgA1 protease
par: Zhiming Wang, et autres
Publié: (2020)

Phage-assisted continuous evolution of proteases with altered substrate specificity
par: Michael S. Packer, et autres
Publié: (2017)

An effector from the Huanglongbing-associated pathogen targets citrus proteases
par: Kelley Clark, et autres
Publié: (2018)