A citation-based method for searching scientific literature

Matthew D J Dicks, Caroline Goujon, Darja Pollpeter, Gilberto Betancor, Luis Apolonia, Julien R C Bergeron, Michael H Malim. J Virol 2015
Times Cited: 25







List of co-cited articles
342 articles co-cited >1



Times Cited
  Times     Co-cited
Similarity


Human MX2 is an interferon-induced post-entry inhibitor of HIV-1 infection.
Caroline Goujon, Olivier Moncorgé, Hélène Bauby, Tomas Doyle, Christopher C Ward, Torsten Schaller, Stéphane Hué, Wendy S Barclay, Reiner Schulz, Michael H Malim. Nature 2013
370
88

The interferon-inducible MxB protein inhibits HIV-1 infection.
Zhenlong Liu, Qinghua Pan, Shilei Ding, Jin Qian, Fengwen Xu, Jinming Zhou, Shan Cen, Fei Guo, Chen Liang. Cell Host Microbe 2013
225
84

MX2 is an interferon-induced inhibitor of HIV-1 infection.
Melissa Kane, Shalini S Yadav, Julia Bitzegeio, Sebla B Kutluay, Trinity Zang, Sam J Wilson, John W Schoggins, Charles M Rice, Masahiro Yamashita, Theodora Hatziioannou,[...]. Nature 2013
317
84

MxB binds to the HIV-1 core and prevents the uncoating process of HIV-1.
Thomas Fricke, Tommy E White, Bianca Schulte, Daniel A de Souza Aranha Vieira, Adarsh Dharan, Edward M Campbell, Alberto Brandariz-Nuñez, Felipe Diaz-Griffero. Retrovirology 2014
113
68

Structural insight into HIV-1 restriction by MxB.
Jennifer L Fribourgh, Henry C Nguyen, Kenneth A Matreyek, Frances Joan D Alvarez, Brady J Summers, Tamaria G Dewdney, Christopher Aiken, Peijun Zhang, Alan Engelman, Yong Xiong. Cell Host Microbe 2014
74
64

Host and viral determinants of Mx2 antiretroviral activity.
Idoia Busnadiego, Melissa Kane, Suzannah J Rihn, Hannah F Preugschas, Joseph Hughes, Daniel Blanco-Melo, Victoria P Strouvelle, Trinity M Zang, Brian J Willett, Chris Boutell,[...]. J Virol 2014
103
60

Transfer of the amino-terminal nuclear envelope targeting domain of human MX2 converts MX1 into an HIV-1 resistance factor.
Caroline Goujon, Olivier Moncorgé, Hélène Bauby, Tomas Doyle, Wendy S Barclay, Michael H Malim. J Virol 2014
61
56

A triple-arginine motif in the amino-terminal domain and oligomerization are required for HIV-1 inhibition by human MX2.
Caroline Goujon, Rebecca A Greenbury, Stelios Papaioannou, Tomas Doyle, Michael H Malim. J Virol 2015
40
56

Host and viral determinants for MxB restriction of HIV-1 infection.
Kenneth A Matreyek, Weifeng Wang, Erik Serrao, Parmit Kumar Singh, Henry L Levin, Alan Engelman. Retrovirology 2014
61
52

Restriction of HIV-1 Requires the N-Terminal Region of MxB as a Capsid-Binding Motif but Not as a Nuclear Localization Signal.
Bianca Schulte, Cindy Buffone, Silvana Opp, Francesca Di Nunzio, Daniel Augusto De Souza Aranha Vieira, Alberto Brandariz-Nuñez, Felipe Diaz-Griffero. J Virol 2015
45
52

Contribution of MxB oligomerization to HIV-1 capsid binding and restriction.
Cindy Buffone, Bianca Schulte, Silvana Opp, Felipe Diaz-Griffero. J Virol 2015
35
52

Mx GTPases: dynamin-like antiviral machines of innate immunity.
Otto Haller, Peter Staeheli, Martin Schwemmle, Georg Kochs. Trends Microbiol 2015
237
44

Structure of myxovirus resistance protein a reveals intra- and intermolecular domain interactions required for the antiviral function.
Song Gao, Alexander von der Malsburg, Alexej Dick, Katja Faelber, Gunnar F Schröder, Otto Haller, Georg Kochs, Oliver Daumke. Immunity 2011
141
40

Structural basis of oligomerization in the stalk region of dynamin-like MxA.
Song Gao, Alexander von der Malsburg, Susann Paeschke, Joachim Behlke, Otto Haller, Georg Kochs, Oliver Daumke. Nature 2010
172
40


Inhibition of nuclear import and cell-cycle progression by mutated forms of the dynamin-like GTPase MxB.
Megan C King, Graça Raposo, Mark A Lemmon. Proc Natl Acad Sci U S A 2004
87
40

Evolution-guided identification of antiviral specificity determinants in the broadly acting interferon-induced innate immunity factor MxA.
Patrick S Mitchell, Corinna Patzina, Michael Emerman, Otto Haller, Harmit S Malik, Georg Kochs. Cell Host Microbe 2012
95
36


CryoEM structure of MxB reveals a novel oligomerization interface critical for HIV restriction.
Frances J D Alvarez, Shaoda He, Juan R Perilla, Sooin Jang, Klaus Schulten, Alan N Engelman, Sjors H W Scheres, Peijun Zhang. Sci Adv 2017
35
36

MxB is an interferon-induced restriction factor of human herpesviruses.
Michel Crameri, Michael Bauer, Nicole Caduff, Raphael Walker, Fiona Steiner, Francesca D Franzoso, Cornelia Gujer, Karin Boucke, Talissa Kucera, Andrea Zbinden,[...]. Nat Commun 2018
56
36

A functional GTP-binding motif is necessary for antiviral activity of Mx proteins.
F Pitossi, A Blank, A Schröder, A Schwarz, P Hüssi, M Schwemmle, J Pavlovic, P Staeheli. J Virol 1993
150
32

The cytoplasmic body component TRIM5alpha restricts HIV-1 infection in Old World monkeys.
Matthew Stremlau, Christopher M Owens, Michel J Perron, Michael Kiessling, Patrick Autissier, Joseph Sodroski. Nature 2004
32

HIV-1 capsid-cyclophilin interactions determine nuclear import pathway, integration targeting and replication efficiency.
Torsten Schaller, Karen E Ocwieja, Jane Rasaiyaah, Amanda J Price, Troy L Brady, Shoshannah L Roth, Stéphane Hué, Adam J Fletcher, KyeongEun Lee, Vineet N KewalRamani,[...]. PLoS Pathog 2011
316
32


Tetherin inhibits retrovirus release and is antagonized by HIV-1 Vpu.
Stuart J D Neil, Trinity Zang, Paul D Bieniasz. Nature 2008
28

Flexible use of nuclear import pathways by HIV-1.
KyeongEun Lee, Zandrea Ambrose, Thomas D Martin, Ilker Oztop, Alok Mulky, John G Julias, Nick Vandegraaff, Joerg G Baumann, Rui Wang, Wendy Yuen,[...]. Cell Host Microbe 2010
302
28

A diverse range of gene products are effectors of the type I interferon antiviral response.
John W Schoggins, Sam J Wilson, Maryline Panis, Mary Y Murphy, Christopher T Jones, Paul Bieniasz, Charles M Rice. Nature 2011
28

Nuclear pore heterogeneity influences HIV-1 infection and the antiviral activity of MX2.
Melissa Kane, Stephanie V Rebensburg, Matthew A Takata, Trinity M Zang, Masahiro Yamashita, Mamuka Kvaratskhelia, Paul D Bieniasz. Elife 2018
50
28

Human MxB Protein Is a Pan-herpesvirus Restriction Factor.
Mirjam Schilling, Lorenzo Bulli, Sebastian Weigang, Laura Graf, Sebastian Naumann, Corinna Patzina, Valentina Wagner, Liane Bauersfeld, Caroline Goujon, Hartmut Hengel,[...]. J Virol 2018
35
28

Pandemic influenza A viruses escape from restriction by human MxA through adaptive mutations in the nucleoprotein.
Benjamin Mänz, Dominik Dornfeld, Veronika Götz, Roland Zell, Petra Zimmermann, Otto Haller, Georg Kochs, Martin Schwemmle. PLoS Pathog 2013
107
24


Isolation of a human gene that inhibits HIV-1 infection and is suppressed by the viral Vif protein.
Ann M Sheehy, Nathan C Gaddis, Jonathan D Choi, Michael H Malim. Nature 2002
24


Accumulation of MxB/Mx2-resistant HIV-1 Capsid Variants During Expansion of the HIV-1 Epidemic in Human Populations.
Wei Wei, Haoran Guo, Min Ma, Richard Markham, Xiao-Fang Yu. EBioMedicine 2016
23
26

HIV-1 and interferons: who's interfering with whom?
Tomas Doyle, Caroline Goujon, Michael H Malim. Nat Rev Microbiol 2015
180
24

Global analysis of host-pathogen interactions that regulate early-stage HIV-1 replication.
Renate König, Yingyao Zhou, Daniel Elleder, Tracy L Diamond, Ghislain M C Bonamy, Jeffrey T Irelan, Chih-Yuan Chiang, Buu P Tu, Paul D De Jesus, Caroline E Lilley,[...]. Cell 2008
719
24

HIV-1 evades innate immune recognition through specific cofactor recruitment.
Jane Rasaiyaah, Choon Ping Tan, Adam J Fletcher, Amanda J Price, Caroline Blondeau, Laura Hilditch, David A Jacques, David L Selwood, Leo C James, Mahdad Noursadeghi,[...]. Nature 2013
295
24

The highly polymorphic cyclophilin A-binding loop in HIV-1 capsid modulates viral resistance to MxB.
Zhenlong Liu, Qinghua Pan, Zhibin Liang, Wentao Qiao, Shan Cen, Chen Liang. Retrovirology 2015
50
24


Transient dimerization of human MxA promotes GTP hydrolysis, resulting in a mechanical power stroke.
Martin L Rennie, Siri A McKelvie, Esther M M Bulloch, Richard L Kingston. Structure 2014
30
20

cDNA structures and regulation of two interferon-induced human Mx proteins.
M Aebi, J Fäh, N Hurt, C E Samuel, D Thomis, L Bazzigher, J Pavlovic, O Haller, P Staeheli. Mol Cell Biol 1989
282
20

The IFITM proteins mediate cellular resistance to influenza A H1N1 virus, West Nile virus, and dengue virus.
Abraham L Brass, I-Chueh Huang, Yair Benita, Sinu P John, Manoj N Krishnan, Eric M Feeley, Bethany J Ryan, Jessica L Weyer, Louise van der Weyden, Erol Fikrig,[...]. Cell 2009
849
20

Vpx relieves inhibition of HIV-1 infection of macrophages mediated by the SAMHD1 protein.
Kasia Hrecka, Caili Hao, Magda Gierszewska, Selene K Swanson, Malgorzata Kesik-Brodacka, Smita Srivastava, Laurence Florens, Michael P Washburn, Jacek Skowronski. Nature 2011
836
20

Characterization of the amino-terminal domain of Mx2/MxB-dependent interaction with the HIV-1 capsid.
Jia Kong, Bo Xu, Wei Wei, Xin Wang, Wei Xie, Xiao-Fang Yu. Protein Cell 2014
19
26

MxB Is Not Responsible for the Blocking of HIV-1 Infection Observed in Alpha Interferon-Treated Cells.
Silvana Opp, Daniel A S A Vieira, Bianca Schulte, Sumit K Chanda, Felipe Diaz-Griffero. J Virol 2015
16
31

HIV Restriction Factors and Mechanisms of Evasion.
Michael H Malim, Paul D Bieniasz. Cold Spring Harb Perspect Med 2012
311
20

HIV-1 capsid: the multifaceted key player in HIV-1 infection.
Edward M Campbell, Thomas J Hope. Nat Rev Microbiol 2015
215
20


TRIM5 is an innate immune sensor for the retrovirus capsid lattice.
Thomas Pertel, Stéphane Hausmann, Damien Morger, Sara Züger, Jessica Guerra, Josefina Lascano, Christian Reinhard, Federico A Santoni, Pradeep D Uchil, Laurence Chatel,[...]. Nature 2011
452
20

Identification of host proteins required for HIV infection through a functional genomic screen.
Abraham L Brass, Derek M Dykxhoorn, Yair Benita, Nan Yan, Alan Engelman, Ramnik J Xavier, Judy Lieberman, Stephen J Elledge. Science 2008
20


Co-cited is the co-citation frequency, indicating how many articles cite the article together with the query article. Similarity is the co-citation as percentage of the times cited of the query article or the article in the search results, whichever is the lowest. These numbers are calculated for the last 100 citations when articles are cited more than 100 times.