A citation-based method for searching scientific literature

Alastair Aitken. Semin Cancer Biol 2006
Times Cited: 582







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



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  Times     Co-cited
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The structural basis for 14-3-3:phosphopeptide binding specificity.
M B Yaffe, K Rittinger, S Volinia, P R Caron, A Aitken, H Leffers, S J Gamblin, S J Smerdon, L C Cantley. Cell 1997
36

14-3-3 proteins: structure, function, and regulation.
H Fu, R R Subramanian, S C Masters. Annu Rev Pharmacol Toxicol 2000
26

Structural basis of 14-3-3 protein functions.
Tomas Obsil, Veronika Obsilova. Semin Cell Dev Biol 2011
177
21


Structural basis for protein-protein interactions in the 14-3-3 protein family.
Xiaowen Yang, Wen Hwa Lee, Frank Sobott, Evangelos Papagrigoriou, Carol V Robinson, J Günter Grossmann, Michael Sundström, Declan A Doyle, Jonathan M Elkins. Proc Natl Acad Sci U S A 2006
238
18

Crystal structure of the zeta isoform of the 14-3-3 protein.
D Liu, J Bienkowska, C Petosa, R J Collier, H Fu, R Liddington. Nature 1995
423
16


Modulators of 14-3-3 Protein-Protein Interactions.
Loes M Stevers, Eline Sijbesma, Maurizio Botta, Carol MacKintosh, Tomas Obsil, Isabelle Landrieu, Ylenia Cau, Andrew J Wilson, Anna Karawajczyk, Jan Eickhoff,[...]. J Med Chem 2018
106
15


The role of the 14-3-3 protein family in health, disease, and drug development.
Yasaman Aghazadeh, Vassilios Papadopoulos. Drug Discov Today 2016
136
13

14-3-3-Pred: improved methods to predict 14-3-3-binding phosphopeptides.
Fábio Madeira, Michele Tinti, Gavuthami Murugesan, Emily Berrett, Margaret Stafford, Rachel Toth, Christian Cole, Carol MacKintosh, Geoffrey J Barton. Bioinformatics 2015
92
14




Characterization and small-molecule stabilization of the multisite tandem binding between 14-3-3 and the R domain of CFTR.
Loes M Stevers, Chan V Lam, Seppe F R Leysen, Femke A Meijer, Daphne S van Scheppingen, Rens M J M de Vries, Graeme W Carlile, Lech G Milroy, David Y Thomas, Luc Brunsveld,[...]. Proc Natl Acad Sci U S A 2016
85
12

Unlocking the code of 14-3-3.
Michele K Dougherty, Deborah K Morrison. J Cell Sci 2004
368
10


14-3-3 proteins--an update.
Paulette Mhawech. Cell Res 2005
222
9


The crystal structure of the non-liganded 14-3-3sigma protein: insights into determinants of isoform specific ligand binding and dimerization.
Anne Benzinger, Grzegorz M Popowicz, Joma K Joy, Sudipta Majumdar, Tad A Holak, Heiko Hermeking. Cell Res 2005
79
11

A structural basis for 14-3-3sigma functional specificity.
Erik W Wilker, Robert A Grant, Stephen C Artim, Michael B Yaffe. J Biol Chem 2005
174
9


Structural analysis of 14-3-3 phosphopeptide complexes identifies a dual role for the nuclear export signal of 14-3-3 in ligand binding.
K Rittinger, J Budman, J Xu, S Volinia, L C Cantley, S J Smerdon, S J Gamblin, M B Yaffe. Mol Cell 1999
409
9

Bioinformatic and experimental survey of 14-3-3-binding sites.
Catherine Johnson, Sandra Crowther, Margaret J Stafford, David G Campbell, Rachel Toth, Carol MacKintosh. Biochem J 2010
226
9

14-3-3zeta binds a phosphorylated Raf peptide and an unphosphorylated peptide via its conserved amphipathic groove.
C Petosa, S C Masters, L A Bankston, J Pohl, B Wang, H Fu, R C Liddington. J Biol Chem 1998
268
9

C-terminal binding: an expanded repertoire and function of 14-3-3 proteins.
Brian Coblitz, Meng Wu, Sojin Shikano, Min Li. FEBS Lett 2006
119
9

14-3-3 proteins in cell cycle regulation.
Heiko Hermeking, Anne Benzinger. Semin Cancer Biol 2006
227
9

14-3-3 proteins: a number of functions for a numbered protein.
Dave Bridges, Greg B G Moorhead. Sci STKE 2005
210
8

Structure of a 14-3-3 protein and implications for coordination of multiple signalling pathways.
B Xiao, S J Smerdon, D H Jones, G G Dodson, Y Soneji, A Aitken, S J Gamblin. Nature 1995
338
8

14-3-3 proteins: key regulators of cell division, signalling and apoptosis.
M J van Hemert, H Y Steensma, G P van Heusden. Bioessays 2001
442
8

Structural interface between LRRK2 and 14-3-3 protein.
Loes M Stevers, Rens M J M de Vries, Richard G Doveston, Lech-Gustav Milroy, Luc Brunsveld, Christian Ottmann. Biochem J 2017
31
25

Structural Basis for the Interaction of a Human Small Heat Shock Protein with the 14-3-3 Universal Signaling Regulator.
Nikolai N Sluchanko, Steven Beelen, Alexandra A Kulikova, Stephen D Weeks, Alfred A Antson, Nikolai B Gusev, Sergei V Strelkov. Structure 2017
71
11

14-3-3ε and ζ regulate neurogenesis and differentiation of neuronal progenitor cells in the developing brain.
Kazuhito Toyo-oka, Tomoka Wachi, Robert F Hunt, Scott C Baraban, Shinichiro Taya, Hayley Ramshaw, Kozo Kaibuchi, Quenten P Schwarz, Angel F Lopez, Anthony Wynshaw-Boris. J Neurosci 2014
73
10

Structural view of a fungal toxin acting on a 14-3-3 regulatory complex.
Martin Würtele, Christian Jelich-Ottmann, Alfred Wittinghofer, Claudia Oecking. EMBO J 2003
237
7

Phosphorylation-independent interaction between 14-3-3 and exoenzyme S: from structure to pathogenesis.
Christian Ottmann, Lubna Yasmin, Michael Weyand, Jeffrey L Veesenmeyer, Maureen H Diaz, Ruth H Palmer, Matthew S Francis, Alan R Hauser, Alfred Wittinghofer, Bengt Hallberg. EMBO J 2007
109
7

Molecular basis of the 14-3-3 protein-dependent activation of yeast neutral trehalase Nth1.
Miroslava Alblova, Aneta Smidova, Vojtech Docekal, Jan Vesely, Petr Herman, Veronika Obsilova, Tomas Obsil. Proc Natl Acad Sci U S A 2017
35
20

Chimeric 14-3-3 proteins for unraveling interactions with intrinsically disordered partners.
Nikolai N Sluchanko, Kristina V Tugaeva, Sandra J Greive, Alfred A Antson. Sci Rep 2017
14
50

14-3-3 proteins activate Pseudomonas exotoxins-S and -T by chaperoning a hydrophobic surface.
Tobias Karlberg, Peter Hornyak, Ana Filipa Pinto, Stefina Milanova, Mahsa Ebrahimi, Mikael Lindberg, Nikolai Püllen, Axel Nordström, Elinor Löverli, Rémi Caraballo,[...]. Nat Commun 2018
20
35

14-3-3 proteins in the nervous system.
Daniela Berg, Carsten Holzmann, Olaf Riess. Nat Rev Neurosci 2003
347
7

Visualization and biochemical analyses of the emerging mammalian 14-3-3-phosphoproteome.
Catherine Johnson, Michele Tinti, Nicola T Wood, David G Campbell, Rachel Toth, Fanny Dubois, Kathryn M Geraghty, Barry H C Wong, Laura J Brown, Jennifer Tyler,[...]. Mol Cell Proteomics 2011
54
12

Neurodevelopmental and neuropsychiatric behaviour defects arise from 14-3-3ζ deficiency.
P S Cheah, H S Ramshaw, P Q Thomas, K Toyo-Oka, X Xu, S Martin, P Coyle, M A Guthridge, F Stomski, M van den Buuse,[...]. Mol Psychiatry 2012
75
9

14-3-3ζ deficient mice in the BALB/c background display behavioural and anatomical defects associated with neurodevelopmental disorders.
Xiangjun Xu, Emily J Jaehne, Zarina Greenberg, Peter McCarthy, Eiman Saleh, Clare L Parish, Daria Camera, Julian Heng, Matilda Haas, Bernhard T Baune,[...]. Sci Rep 2015
29
24

14-3-3 Proteins Are on the Crossroads of Cancer, Aging, and Age-Related Neurodegenerative Disease.
Xiaolan Fan, Lang Cui, Yao Zeng, Wenhao Song, Uma Gaur, Mingyao Yang. Int J Mol Sci 2019
39
17

Proteomic, functional, and domain-based analysis of in vivo 14-3-3 binding proteins involved in cytoskeletal regulation and cellular organization.
Jing Jin, F Donelson Smith, Chris Stark, Clark D Wells, James P Fawcett, Sarang Kulkarni, Pavel Metalnikov, Paul O'Donnell, Paul Taylor, Lorne Taylor,[...]. Curr Biol 2004
371
6

The 14-3-3 cancer connection.
Heiko Hermeking. Nat Rev Cancer 2003
338
6

14-3-3 proteins as potential oncogenes.
Guri Tzivion, Vinita Singh Gupta, Ludmila Kaplun, Vitaly Balan. Semin Cancer Biol 2006
179
6

The dimeric versus monomeric status of 14-3-3zeta is controlled by phosphorylation of Ser58 at the dimer interface.
Joanna M Woodcock, Jane Murphy, Frank C Stomski, Michael C Berndt, Angel F Lopez. J Biol Chem 2003
137
6


Stabilization of physical RAF/14-3-3 interaction by cotylenin A as treatment strategy for RAS mutant cancers.
Manuela Molzan, Stefan Kasper, Lars Röglin, Malgorzata Skwarczynska, Takeshi Sassa, Takatsugu Inoue, Frank Breitenbuecher, Junko Ohkanda, Nobuo Kato, Martin Schuler,[...]. ACS Chem Biol 2013
69
8



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.