Andre Marco de Oliveira Gomes

Instituição:

Universidade Federal do Rio de Janeiro

Centro:

Centro de Ciências da Saúde

Unidade:

Instituto de Bioquímica Médica

Departamento:

Programa de Biologia Estrutural

ORCID:

não disponível no Lattes


Formação:
  • University of Illinois at Urbana-Champaign

    | Pós-Doutorado | 2004 - 2006
  • Universidade Federal do Rio de Janeiro

    Química Biológica | Doutorado | 1997 - 2002
  • Universidade Federal do Rio de Janeiro

    Farmácia | Graduação | 1994 - 1997
  • Escola Técnica Federal de Química

    Química | Ensino Profissional de nível técnico | 1990 - 1993
Laboratórios:
Nuvens de Palavras:
Artigos:
Nenhum artigo cadastrado
Eventos:

(0.00% eventos com DOI)

Titulo DOI Ano
Activity of bovine lactoferrin against arboviruses. 2011
Looking at glycans on viruses: influence of N-linked glycosylation on the biological activity of an emergent virus. In: 2011, ., . 2011
Virus tracking: a view on the infection dynamics of an emerging virus. 2011
Antiviral activity of bovine lactoferrin against arboviruses dengue, yellow fever and Mayaro 2010
Lactoferrin as a biologically active macromolecule against an emerging virus 2010
Role of N-linked glycosylation on Mayaro virus infectivity. 2010, 2010
Investigation of the antiviral activity of lactoferrin. 2010
Shedding light on the entry of a New World alphavirus into host cells. , . , . 2010
Envelope lipid-packing is crucial for Mayaro virus infectivity. 2010
Dynamics of intracellular distribution of incoming Mayaro virus envelope proteins. 2010
Structural Characterization of a Candidate Fusion Peptide of the Hepatitis C Virus. 2010
Structure-function relationship of Hepatitis C Virus core protein and the understanding of viral capsid assembly.. In: 2010
Structural characterization of a candidate fusion peptide of the Hepatitis C Virus. 2010
Structural Characterization of a Membrane-Active Region of the Hepatitis C Virus E2 Envelope Glycoprotein 2009
Studies of Structural Stability and Inactivation by High Hydrostatic Pressure of H3N8 2009
Investigation of Cell Death Induced by Yellow Fever Virus 2009
Biophysical Characterization of the Interactions of Flavivirus Fusion Peptides with Micelles and Lipid Bilayer 2009
Apoptosis Induced By Dengue-2 Virus: Investigation Of Mitochondrial Pathway 2009
Differential Requirement of Cholesterol over Dengue Virus Infection Cycle 2009
Ordering of Virus Envelope is Crucial for the Biological Activity of Alphavirus 2009
Yellow Fever virus-Induced Cell Death: The Role of Mithocondrial Apoptotic Pathway 2009
Biophysical Characterization of the Interactions of FlavivirusFusion Peptides with Biomimetic Membrane Models 2009
Understanding the Mechanisms Involved in Hepatitis C Virus Assembly 2009
Tracking of Mayaro Virus Envelope Proteins During the Early Events of Infection 2009
Investigation of Structural Stability and Pressure-Induced Inactivation of Avian Influenza Virus subtype 1 2009
Cholesterol Depletion from Mayaro Virus Envelope: Implications in Virus Infectivity 2009
The role of Cholesterol and Membrane Fluidity for Dengue Entry 2008
Flavivirus Fusion Peptides Interaction with Vesicles and Micelles is Partially Modulated by Charge 2008
Characterization of the Interactions of Flavivirus Fusion Peptides with Micelles and Phoslipid Membranes 2008
Ivolvement of Cholesterol and Membrane Organization in Dengue Virus Infection 2008
Flavivirus Fusion Peptides Interactions with Vesicles and Micelles is Partially Modulated by Charge 2008
Avian Influenza Virus H3N8: A Higly Stable Virus to Physical and Chamical Perturbations 2008
The Lipidome of Cells Infected with Alphaviruses and Flaviviruses: Implications for Cholesterol Metabolism 2008
Role of Virion-associated Cholesterol in Mayaro Virus Structure and Infectivity 2008
Apoptyosis Induced by Flaviviruses: Investigation of Mitochondrial Pthway 2008
Study of Yellow Fever Virus-Induced Cell Death 2008
Apoptose Indizida pelo Vírus da Dengue 2: Investigação do Papael da Via Mitocondrial 2008
Structural Stability of Avian Influenza Virus H3N8 Under Physical Perturbations 2008
Influence of cholesterol in the organization of alphavirus envelope 2007
CHOLESTEROL IS CRITICAL FOR FLAVIVIRUS FUSION MECHANISMS 2007
AVIAN INFLUENZA VIRUS H3N8 IS HIGHLY STABLE TO PHYSICAL AND CHEMICAL PERTURBATIONS. 2007
NEW INSIGHTS ON TRANSPORT AND PARTICLE DYNAMICS OBTAINED FROM REAL-TIME 3D TRACKING OF VIRAL PARTICLES IN LIVE CELLS 2006
Reconstituted HDL particles as an alternative acceptor to remove cholesterol in vitro and in vivo 2006
Importance of the Lipid Composition of Target Membrane for Flavivirus Fusion Mechanisms. 2006
Role for Alphavirus Envelope Cholesterol in Virus Integrity and Infectivity 2006
Cholesterol Requirement on the infection cycle of Mayaro Virus: incorporation of liquid-ordered domains on virus envelope 2006
The role of cholesterol for Dengue virus fusion mechanisms 2006
Real-time 3D tracking of viral particles in live cells 2005
New Insights on Transport and Particle Dynamics Obtained from Real-Time 3D Tracking of Viral Particles Inside Live Cells 2005
NMR as a tool for studying mechanisms of viral infection: solution structures of the fusion domain of the enveloped Ebola virus and of a membrane-binding domain of the non-enveloped Flock House virus. 2005
The role of sterol-rich membrane domains in mechanism of fusion of an enveloped virus 2005
The role of sterol-rich membrane domains in mechanism of fusion of an enveloped virus 2005
Virus Stability and Protein-Nucleic Acid Interactions as Studied by high Pressire Effects on Nodavirus 2005
Virus Stability and Protein-Nucleic Acid Interactions as Studied by high Pressire Effects on Nodavirus 2005
Real-Time 3D Tracking of Viral Particles in Live cells 2005
Interactions of an enveloped virus with isolated lipid rafts 2004
Stability and Dynamics During Virus Assembly and Maturation processes of Flock House Virus 2004
Association of the Lipid Membrane Microdomains with an enveloped virus 2004
Stability and Dynamics During Virus Assembly and Maturation process of Flock House Virus 2004
?Stability and Dynamics During Virus Assembly and Maturation process of Flock House Virus 2004
Stability and Dynamics During Virus Assembly and Maturation process of Flock House Virus 2004
Correlation between nmr solution structure and membrane activity of g1-peptide from the insect flock house virus 2004
Visualization of the Early Events of the Infection of Mayaro Virus in the Living Cells 2003
Stability and Dynamics During Virus Assembly and Maturation of Flock House Virus. 2003
Stability and Dynamics During Virus Assembly and Maturation of Flock House Virus 2003
Solution structure by NMR of the membrane-binding domain ?×1-peptide from the insect Flock House Virus: Implications for the mechanism of viral infection 2003
Stability and Dynamics During Virus Assembly and Maturation processes of Flock House Virus 2003
Solution structure by NMR of the membrane-binding domain ?×1 peptide from the insect Flock House virus: implications for the mechanism of viral infection 2003
Determinaçnao da Estrutura do Peptídeo -gama do vírus FLOCK HOUSE por RMN: Implicações no Processo de Infeccção Viral de vírus não Envelopados 2002
Solution Structure of the Membrane-Binding Domain g1-Peptide from the Insect Virus FlockHouse: New Insights for Viral Infection 2002
Solution structure of the membrane-binding domain g-peptide from the insect virus Flock House: new insights for viral infection 2002
The early events of alphavirus infection monitored by fluorescence microscopy 2002
Hidrostatic Pressure Induced the Fusion-Active State in Human Influenza Virus 2002
Hydrostatic Pressure Induced the Fusion - Active State in Human Influenza Virus 2002
Comparison of ifection cycle of vertebrate and invertebrate cells by Mayaro virus 2001
Changes in Stabiliyty of NWVirus produced by Maturation 2001
Changes in Stabiliyty of NWVirus produced by Maturation 2001
Comparison of infection cycle of vertebrate and invertebrate cells by Mayaro virus 2001
Hydrostatic Pressure Induced the Fusion -Active State in Human Influenza Virus 2001
The early events of Alphavirus infection monitored by Fluorescence Microscopy 2000
Pressure-induced fusogenic conformation of VSV G protein 2000
Pressure-induced fusogenic conformation of VSV G protein 2000
The Early Events of Alphavirus infection Monitored by Fluorescence Microscopy 2000
Virus Maturation Targets hte Protein Capsid to Concerted Disassembly and Unfolding 2000
Stability and unfolding pathway of a membrane fusion protein: Vesicular Stomatitis virus G protein 1999
Virus Maturation targets the capsid to concerted disassembly and unfolding 1999
Stability and unfolding pathway of a membrane fusion protein: Vesicular Stomatitis virus G protein 1999
Early events of viral infection: a model for Alphavirus genus 1999
Ultraviolet and visible fluorescence imaging of virus-cell interactions: early and late events of viral infection 1998
Assembly-Dependent Maturation Cleavage of Nodaviruses Affects the Virus Capsid Stability 1998
Ultraviolet and visible fluorescence imaging of virus-cell interactions: early and late events of viral infection 1998
Assembly-Dependent Maturation Cleavage of Nodaviruses Affects the Virus Capsid Stability 1998
Ultraviolet and visible fluorescence imaging of virus-cell interactions: early and late events of viral infection 1998
Maturation Cleavage of Nodaviruses affects the virus capsid stability under pressure and urea treatment 1998
Disassembly and processing of bodipy-labeled VSV in live cells 1997
Virus inactivation induced by Diazirine associated to High Hydrostatic Pressure 1997
Disassembly of Bodipy-labeled Vesicular Stomatitis Virus in Macrophages and BHK cells 1997
Migration of Vesicular Stomatitis Virus Glycoprotein to the Nucleus of Infected cells 1996
Inactivation of Viruses by combination of Diazirine and High Hydrostatic Pressure 1996
Inactivation of Viruses by combination of Diazirine and High Hydrostatic Pressure 1996
Dissociation and Degradation of Vesicular Stomatitis Virus in Macrophages 1996
Bodipy-VSV as a Probe to Study Viral Infection 1996
Early Events of Vesicular Stomatitis Virus Infection Cycle Involve Migration of Viral Glycoprotein to the Nucleus of Infected Cells 1995
Early Events of Vesicular Stomatitis Virus Infection Cycle Involve Migration of Viral Glycoprotein to the Nucleus of Infected Cells 1995
Process of Infection of Vesicular Stomatitis Virus (VSV) Monitored by Fluorescence Microscopy 1994
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