A citation-based method for searching scientific literature

L J Mitnaul, M N Matrosovich, M R Castrucci, A B Tuzikov, N V Bovin, D Kobasa, Y Kawaoka. J Virol 2000
Times Cited: 281







List of co-cited articles
1177 articles co-cited >1



Times Cited
  Times     Co-cited
Similarity


Functional balance between haemagglutinin and neuraminidase in influenza virus infections.
Ralf Wagner, Mikhail Matrosovich, Hans-Dieter Klenk. Rev Med Virol 2002
428
29

Functional balance of the hemagglutinin and neuraminidase activities accompanies the emergence of the 2009 H1N1 influenza pandemic.
Rui Xu, Xueyong Zhu, Ryan McBride, Corwin M Nycholat, Wenli Yu, James C Paulson, Ian A Wilson. J Virol 2012
125
22

Postreassortment changes in influenza A virus hemagglutinin restoring HA-NA functional match.
N V Kaverin, A S Gambaryan, N V Bovin, I A Rudneva, A A Shilov, O M Khodova, N L Varich, B V Sinitsin, N V Makarova, E A Kropotkina. Virology 1998
86
20

New world bats harbor diverse influenza A viruses.
Suxiang Tong, Xueyong Zhu, Yan Li, Mang Shi, Jing Zhang, Melissa Bourgeois, Hua Yang, Xianfeng Chen, Sergio Recuenco, Jorge Gomez,[...]. PLoS Pathog 2013
749
18


Airborne transmission of influenza A/H5N1 virus between ferrets.
Sander Herfst, Eefje J A Schrauwen, Martin Linster, Salin Chutinimitkul, Emmie de Wit, Vincent J Munster, Erin M Sorrell, Theo M Bestebroer, David F Burke, Derek J Smith,[...]. Science 2012
15

Avian flu: influenza virus receptors in the human airway.
Kyoko Shinya, Masahito Ebina, Shinya Yamada, Masao Ono, Noriyuki Kasai, Yoshihiro Kawaoka. Nature 2006
923
15

Neuraminidase is important for the initiation of influenza virus infection in human airway epithelium.
Mikhail N Matrosovich, Tatyana Y Matrosovich, Thomas Gray, Noel A Roberts, Hans-Dieter Klenk. J Virol 2004
387
15

Evolution of the receptor binding properties of the influenza A(H3N2) hemagglutinin.
Yi Pu Lin, Xiaoli Xiong, Stephen A Wharton, Stephen R Martin, Peter J Coombs, Sebastien G Vachieri, Evangelos Christodoulou, Philip A Walker, Junfeng Liu, John J Skehel,[...]. Proc Natl Acad Sci U S A 2012
181
15

Receptor specificity in human, avian, and equine H2 and H3 influenza virus isolates.
R J Connor, Y Kawaoka, R G Webster, J C Paulson. Virology 1994
578
14


Experimental adaptation of an influenza H5 HA confers respiratory droplet transmission to a reassortant H5 HA/H1N1 virus in ferrets.
Masaki Imai, Tokiko Watanabe, Masato Hatta, Subash C Das, Makoto Ozawa, Kyoko Shinya, Gongxun Zhong, Anthony Hanson, Hiroaki Katsura, Shinji Watanabe,[...]. Nature 2012
965
14

Early alterations of the receptor-binding properties of H1, H2, and H3 avian influenza virus hemagglutinins after their introduction into mammals.
M Matrosovich, A Tuzikov, N Bovin, A Gambaryan, A Klimov, M R Castrucci, I Donatelli, Y Kawaoka. J Virol 2000
614
14

A DNA transfection system for generation of influenza A virus from eight plasmids.
E Hoffmann, G Neumann, Y Kawaoka, G Hobom, R G Webster. Proc Natl Acad Sci U S A 2000
14

Influenza A penetrates host mucus by cleaving sialic acids with neuraminidase.
Miriam Cohen, Xing-Quan Zhang, Hooman P Senaati, Hui-Wen Chen, Nissi M Varki, Robert T Schooley, Pascal Gagneux. Virol J 2013
155
14

A distinct lineage of influenza A virus from bats.
Suxiang Tong, Yan Li, Pierre Rivailler, Christina Conrardy, Danilo A Alvarez Castillo, Li-Mei Chen, Sergio Recuenco, James A Ellison, Charles T Davis, Ian A York,[...]. Proc Natl Acad Sci U S A 2012
652
13

Origins and evolutionary genomics of the 2009 swine-origin H1N1 influenza A epidemic.
Gavin J D Smith, Dhanasekaran Vijaykrishna, Justin Bahl, Samantha J Lycett, Michael Worobey, Oliver G Pybus, Siu Kit Ma, Chung Lam Cheung, Jayna Raghwani, Samir Bhatt,[...]. Nature 2009
13

Human infection with a novel avian-origin influenza A (H7N9) virus.
Rongbao Gao, Bin Cao, Yunwen Hu, Zijian Feng, Dayan Wang, Wanfu Hu, Jian Chen, Zhijun Jie, Haibo Qiu, Ke Xu,[...]. N Engl J Med 2013
13

Antigenic and genetic characteristics of swine-origin 2009 A(H1N1) influenza viruses circulating in humans.
Rebecca J Garten, C Todd Davis, Colin A Russell, Bo Shu, Stephen Lindstrom, Amanda Balish, Wendy M Sessions, Xiyan Xu, Eugene Skepner, Varough Deyde,[...]. Science 2009
12

Hemagglutinin-neuraminidase balance confers respiratory-droplet transmissibility of the pandemic H1N1 influenza virus in ferrets.
Hui-Ling Yen, Chi-Hui Liang, Chung-Yi Wu, Heather L Forrest, Angela Ferguson, Ka-Tim Choy, Jeremy Jones, Diana Dik-Yan Wong, Peter Pak-Hang Cheung, Che-Hsiung Hsu,[...]. Proc Natl Acad Sci U S A 2011
157
11


Influenza virus pleiomorphy characterized by cryoelectron tomography.
Audray Harris, Giovanni Cardone, Dennis C Winkler, J Bernard Heymann, Matthew Brecher, Judith M White, Alasdair C Steven. Proc Natl Acad Sci U S A 2006
317
11


Receptor binding by a ferret-transmissible H5 avian influenza virus.
Xiaoli Xiong, Peter J Coombs, Stephen R Martin, Junfeng Liu, Haixia Xiao, John W McCauley, Kathrin Locher, Philip A Walker, Patrick J Collins, Yoshihiro Kawaoka,[...]. Nature 2013
150
10

Evolution and ecology of influenza A viruses.
R G Webster, W J Bean, O T Gorman, T M Chambers, Y Kawaoka. Microbiol Rev 1992
10

Substitutions near the receptor binding site determine major antigenic change during influenza virus evolution.
Björn F Koel, David F Burke, Theo M Bestebroer, Stefan van der Vliet, Gerben C M Zondag, Gaby Vervaet, Eugene Skepner, Nicola S Lewis, Monique I J Spronken, Colin A Russell,[...]. Science 2013
336
10


Single amino acid substitutions in influenza haemagglutinin change receptor binding specificity.
G N Rogers, J C Paulson, R S Daniels, J J Skehel, I A Wilson, D C Wiley. Nature 1983
561
10

Hemagglutinin receptor binding avidity drives influenza A virus antigenic drift.
Scott E Hensley, Suman R Das, Adam L Bailey, Loren M Schmidt, Heather D Hickman, Akila Jayaraman, Karthik Viswanathan, Rahul Raman, Ram Sasisekharan, Jack R Bennink,[...]. Science 2009
334
10




Intergenic HA-NA interactions in influenza A virus: postreassortment substitutions of charged amino acid in the hemagglutinin of different subtypes.
N V Kaverin, M N Matrosovich, A S Gambaryan, I A Rudneva, A A Shilov, N L Varich, N V Makarova, E A Kropotkina, B V Sinitsin. Virus Res 2000
60
15

Bat-derived influenza-like viruses H17N10 and H18N11.
Ying Wu, Yan Wu, Boris Tefsen, Yi Shi, George F Gao. Trends Microbiol 2014
197
9

The structure of H5N1 avian influenza neuraminidase suggests new opportunities for drug design.
Rupert J Russell, Lesley F Haire, David J Stevens, Patrick J Collins, Yi Pu Lin, G Michael Blackburn, Alan J Hay, Steven J Gamblin, John J Skehel. Nature 2006
544
9

Receptor binding and pH stability - how influenza A virus hemagglutinin affects host-specific virus infection.
Caroline M Mair, Kai Ludwig, Andreas Herrmann, Christian Sieben. Biochim Biophys Acta 2014
108
9

The genomic and epidemiological dynamics of human influenza A virus.
Andrew Rambaut, Oliver G Pybus, Martha I Nelson, Cecile Viboud, Jeffery K Taubenberger, Edward C Holmes. Nature 2008
634
9

Influenza virus neuraminidases with reduced enzymatic activity that avidly bind sialic Acid receptors.
Xueyong Zhu, Ryan McBride, Corwin M Nycholat, Wenli Yu, James C Paulson, Ian A Wilson. J Virol 2012
90
8


Haemagglutinin mutations responsible for the binding of H5N1 influenza A viruses to human-type receptors.
Shinya Yamada, Yasuo Suzuki, Takashi Suzuki, Mai Q Le, Chairul A Nidom, Yuko Sakai-Tagawa, Yukiko Muramoto, Mutsumi Ito, Maki Kiso, Taisuke Horimoto,[...]. Nature 2006
448
8

Recent H3N2 Viruses Have Evolved Specificity for Extended, Branched Human-type Receptors, Conferring Potential for Increased Avidity.
Wenjie Peng, Robert P de Vries, Oliver C Grant, Andrew J Thompson, Ryan McBride, Buyankhishig Tsogtbaatar, Peter S Lee, Nahid Razi, Ian A Wilson, Robert J Woods,[...]. Cell Host Microbe 2017
102
8

The structure and receptor binding properties of the 1918 influenza hemagglutinin.
S J Gamblin, L F Haire, R J Russell, D J Stevens, B Xiao, Y Ha, N Vasisht, D A Steinhauer, R S Daniels, A Elliot,[...]. Science 2004
488
8

Structure of the influenza virus haemagglutinin complexed with its receptor, sialic acid.
W Weis, J H Brown, S Cusack, J C Paulson, J J Skehel, D C Wiley. Nature 1988
871
8


Receptor binding by an H7N9 influenza virus from humans.
Xiaoli Xiong, Stephen R Martin, Lesley F Haire, Stephen A Wharton, Rodney S Daniels, Michael S Bennett, John W McCauley, Patrick J Collins, Philip A Walker, John J Skehel,[...]. Nature 2013
224
8

Kinetic analysis of the influenza A virus HA/NA balance reveals contribution of NA to virus-receptor binding and NA-dependent rolling on receptor-containing surfaces.
Hongbo Guo, Huib Rabouw, Anne Slomp, Meiling Dai, Floor van der Vegt, Jan W M van Lent, Ryan McBride, James C Paulson, Raoul J de Groot, Frank J M van Kuppeveld,[...]. PLoS Pathog 2018
63
12

Molecular basis for the generation in pigs of influenza A viruses with pandemic potential.
T Ito, J N Couceiro, S Kelm, L G Baum, S Krauss, M R Castrucci, I Donatelli, H Kida, J C Paulson, R G Webster,[...]. J Virol 1998
693
7

Virulence-associated substitution D222G in the hemagglutinin of 2009 pandemic influenza A(H1N1) virus affects receptor binding.
Salin Chutinimitkul, Sander Herfst, John Steel, Anice C Lowen, Jianqiang Ye, Debby van Riel, Eefje J A Schrauwen, Theo M Bestebroer, Björn Koel, David F Burke,[...]. J Virol 2010
156
7

Functional significance of the hemadsorption activity of influenza virus neuraminidase and its alteration in pandemic viruses.
Jennifer Uhlendorff, Tatyana Matrosovich, Hans-Dieter Klenk, Mikhail Matrosovich. Arch Virol 2009
71
9

Avian influenza A viruses differ from human viruses by recognition of sialyloligosaccharides and gangliosides and by a higher conservation of the HA receptor-binding site.
M N Matrosovich, A S Gambaryan, S Teneberg, V E Piskarev, S S Yamnikova, D K Lvov, J S Robertson, K A Karlsson. Virology 1997
294
7


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.