The antiviral lectin cyanovirin-N: Probing multivalency and glycan recognition through experimental and computational approaches

Brian W. Woodrum; Jason D. Maxwell; Ashini Bolia; Sefika Ozkan; Giovanna Ghirlanda

doi:10.1042/BST20130154

The antiviral lectin cyanovirin-N: Probing multivalency and glycan recognition through experimental and computational approaches

Brian W. Woodrum, Jason D. Maxwell, Ashini Bolia, Sefika Ozkan, Giovanna Ghirlanda

Research output: Contribution to journal › Article › peer-review

12 Scopus citations

Abstract

CVN (cyanovirin-N), a small lectin isolated from cyanobacteria, exemplifies a novel class of anti-HIV agents that act by binding to the highly glycosylated envelope protein gp120 (glycoprotein 120), resulting in inhibition of the crucial viral entry step. In the present review, we summarize recent work in our laboratory and others towards determining the crucial role of multivalency in the antiviral activity, and we discuss features that contribute to the high specificity and affinity for the glycan ligand observed in CVN. An integrated approach that encompasses structural determination, mutagenesis analysis and computational work holds particular promise to clarify aspects of the interactions between CVN and glycans.

Original language	English (US)
Pages (from-to)	1170-1176
Number of pages	7
Journal	Biochemical Society transactions
Volume	41
Issue number	5
DOIs	https://doi.org/10.1042/BST20130154
State	Published - Oct 2013

Keywords

Antiviral lectin
Cyanovirin
Glycoprotein 120 (gp120)
Multivalency
Perturbation response scanning
Protein-glycan interaction

ASJC Scopus subject areas

Biochemistry

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10.1042/BST20130154

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title = "The antiviral lectin cyanovirin-N: Probing multivalency and glycan recognition through experimental and computational approaches",

abstract = "CVN (cyanovirin-N), a small lectin isolated from cyanobacteria, exemplifies a novel class of anti-HIV agents that act by binding to the highly glycosylated envelope protein gp120 (glycoprotein 120), resulting in inhibition of the crucial viral entry step. In the present review, we summarize recent work in our laboratory and others towards determining the crucial role of multivalency in the antiviral activity, and we discuss features that contribute to the high specificity and affinity for the glycan ligand observed in CVN. An integrated approach that encompasses structural determination, mutagenesis analysis and computational work holds particular promise to clarify aspects of the interactions between CVN and glycans.",

keywords = "Antiviral lectin, Cyanovirin, Glycoprotein 120 (gp120), Multivalency, Perturbation response scanning, Protein-glycan interaction",

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T2 - Probing multivalency and glycan recognition through experimental and computational approaches

AU - Woodrum, Brian W.

AU - Maxwell, Jason D.

AU - Bolia, Ashini

AU - Ozkan, Sefika

AU - Ghirlanda, Giovanna

PY - 2013/10

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AB - CVN (cyanovirin-N), a small lectin isolated from cyanobacteria, exemplifies a novel class of anti-HIV agents that act by binding to the highly glycosylated envelope protein gp120 (glycoprotein 120), resulting in inhibition of the crucial viral entry step. In the present review, we summarize recent work in our laboratory and others towards determining the crucial role of multivalency in the antiviral activity, and we discuss features that contribute to the high specificity and affinity for the glycan ligand observed in CVN. An integrated approach that encompasses structural determination, mutagenesis analysis and computational work holds particular promise to clarify aspects of the interactions between CVN and glycans.

KW - Antiviral lectin

KW - Cyanovirin

KW - Glycoprotein 120 (gp120)

KW - Multivalency

KW - Perturbation response scanning

KW - Protein-glycan interaction

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The antiviral lectin cyanovirin-N: Probing multivalency and glycan recognition through experimental and computational approaches

Abstract

Keywords

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