A citation-based method for searching scientific literature

Janet Ugolino, Yon Ju Ji, Karen Conchina, Justin Chu, Raja Sekhar Nirujogi, Akhilesh Pandey, Nathan R Brady, Anne Hamacher-Brady, Jiou Wang. PLoS Genet 2016
Times Cited: 106







List of co-cited articles
2159 articles co-cited >1



Times Cited
  Times     Co-cited
Similarity


Expanded GGGGCC hexanucleotide repeat in noncoding region of C9ORF72 causes chromosome 9p-linked FTD and ALS.
Mariely DeJesus-Hernandez, Ian R Mackenzie, Bradley F Boeve, Adam L Boxer, Matt Baker, Nicola J Rutherford, Alexandra M Nicholson, NiCole A Finch, Heather Flynn, Jennifer Adamson,[...]. Neuron 2011
77

Loss of C9ORF72 impairs autophagy and synergizes with polyQ Ataxin-2 to induce motor neuron dysfunction and cell death.
Chantal Sellier, Maria-Letizia Campanari, Camille Julie Corbier, Angeline Gaucherot, Isabelle Kolb-Cheynel, Mustapha Oulad-Abdelghani, Frank Ruffenach, Adeline Page, Sorana Ciura, Edor Kabashi,[...]. EMBO J 2016
243
75

A hexanucleotide repeat expansion in C9ORF72 is the cause of chromosome 9p21-linked ALS-FTD.
Alan E Renton, Elisa Majounie, Adrian Waite, Javier Simón-Sánchez, Sara Rollinson, J Raphael Gibbs, Jennifer C Schymick, Hannu Laaksovirta, John C van Swieten, Liisa Myllykangas,[...]. Neuron 2011
73

A C9ORF72/SMCR8-containing complex regulates ULK1 and plays a dual role in autophagy.
Mei Yang, Chen Liang, Kunchithapadam Swaminathan, Stephanie Herrlinger, Fan Lai, Ramin Shiekhattar, Jian-Fu Chen. Sci Adv 2016
140
68

The ALS/FTLD associated protein C9orf72 associates with SMCR8 and WDR41 to regulate the autophagy-lysosome pathway.
Peter M Sullivan, Xiaolai Zhou, Adam M Robins, Daniel H Paushter, Dongsung Kim, Marcus B Smolka, Fenghua Hu. Acta Neuropathol Commun 2016
172
65

The C9orf72 protein interacts with Rab1a and the ULK1 complex to regulate initiation of autophagy.
Christopher P Webster, Emma F Smith, Claudia S Bauer, Annekathrin Moller, Guillaume M Hautbergue, Laura Ferraiuolo, Monika A Myszczynska, Adrian Higginbottom, Matthew J Walsh, Alexander J Whitworth,[...]. EMBO J 2016
224
63

C9orf72 is required for proper macrophage and microglial function in mice.
J G O'Rourke, L Bogdanik, A Yáñez, D Lall, A J Wolf, A K M G Muhammad, R Ho, S Carmona, J P Vit, J Zarrow,[...]. Science 2016
316
58

Haploinsufficiency leads to neurodegeneration in C9ORF72 ALS/FTD human induced motor neurons.
Yingxiao Shi, Shaoyu Lin, Kim A Staats, Yichen Li, Wen-Hsuan Chang, Shu-Ting Hung, Eric Hendricks, Gabriel R Linares, Yaoming Wang, Esther Y Son,[...]. Nat Med 2018
256
55

C9orf72 binds SMCR8, localizes to lysosomes, and regulates mTORC1 signaling.
Joseph Amick, Agnes Roczniak-Ferguson, Shawn M Ferguson. Mol Biol Cell 2016
107
53

C9ORF72, implicated in amytrophic lateral sclerosis and frontotemporal dementia, regulates endosomal trafficking.
Manal A Farg, Vinod Sundaramoorthy, Jessica M Sultana, Shu Yang, Rachel A K Atkinson, Vita Levina, Mark A Halloran, Paul A Gleeson, Ian P Blair, Kai Y Soo,[...]. Hum Mol Genet 2014
304
45

The C9orf72 GGGGCC repeat is translated into aggregating dipeptide-repeat proteins in FTLD/ALS.
Kohji Mori, Shih-Ming Weng, Thomas Arzberger, Stephanie May, Kristin Rentzsch, Elisabeth Kremmer, Bettina Schmid, Hans A Kretzschmar, Marc Cruts, Christine Van Broeckhoven,[...]. Science 2013
829
41

The product of C9orf72, a gene strongly implicated in neurodegeneration, is structurally related to DENN Rab-GEFs.
Timothy P Levine, Rachel D Daniels, Alberto T Gatta, Louise H Wong, Matthew J Hayes. Bioinformatics 2013
248
39

Loss-of-function mutations in the C9ORF72 mouse ortholog cause fatal autoimmune disease.
Aaron Burberry, Naoki Suzuki, Jin-Yuan Wang, Rob Moccia, Daniel A Mordes, Morag H Stewart, Satomi Suzuki-Uematsu, Sulagna Ghosh, Ajay Singh, Florian T Merkle,[...]. Sci Transl Med 2016
152
39


C9orf72 ablation causes immune dysregulation characterized by leukocyte expansion, autoantibody production, and glomerulonephropathy in mice.
Amanda Atanasio, Vilma Decman, Derek White, Meg Ramos, Burcin Ikiz, Hoi-Ching Lee, Chia-Jen Siao, Susannah Brydges, Elizabeth LaRosa, Yu Bai,[...]. Sci Rep 2016
159
37

Unconventional translation of C9ORF72 GGGGCC expansion generates insoluble polypeptides specific to c9FTD/ALS.
Peter E A Ash, Kevin F Bieniek, Tania F Gendron, Thomas Caulfield, Wen-Lang Lin, Mariely Dejesus-Hernandez, Marka M van Blitterswijk, Karen Jansen-West, Joseph W Paul, Rosa Rademakers,[...]. Neuron 2013
737
35

RNA toxicity from the ALS/FTD C9ORF72 expansion is mitigated by antisense intervention.
Christopher J Donnelly, Ping-Wu Zhang, Jacqueline T Pham, Aaron R Haeusler, Nipun A Mistry, Svetlana Vidensky, Elizabeth L Daley, Erin M Poth, Benjamin Hoover, Daniel M Fines,[...]. Neuron 2013
607
35

Reduced C9orf72 protein levels in frontal cortex of amyotrophic lateral sclerosis and frontotemporal degeneration brain with the C9ORF72 hexanucleotide repeat expansion.
Adrian J Waite, Dirk Bäumer, Simon East, James Neal, Huw R Morris, Olaf Ansorge, Derek J Blake. Neurobiol Aging 2014
184
34

Gain of Toxicity from ALS/FTD-Linked Repeat Expansions in C9ORF72 Is Alleviated by Antisense Oligonucleotides Targeting GGGGCC-Containing RNAs.
Jie Jiang, Qiang Zhu, Tania F Gendron, Shahram Saberi, Melissa McAlonis-Downes, Amanda Seelman, Jennifer E Stauffer, Paymaan Jafar-Nejad, Kevin Drenner, Derek Schulte,[...]. Neuron 2016
304
34

C9orf72 ablation in mice does not cause motor neuron degeneration or motor deficits.
Max Koppers, Anna M Blokhuis, Henk-Jan Westeneng, Margo L Terpstra, Caroline A C Zundel, Renata Vieira de Sá, Raymond D Schellevis, Adrian J Waite, Derek J Blake, Jan H Veldink,[...]. Ann Neurol 2015
175
32

Multiplex image-based autophagy RNAi screening identifies SMCR8 as ULK1 kinase activity and gene expression regulator.
Jennifer Jung, Arnab Nayak, Véronique Schaeffer, Tatjana Starzetz, Achim K Kirsch, Stefan Müller, Ivan Dikic, Michel Mittelbronn, Christian Behrends. Elife 2017
52
59

Ubiquitinated TDP-43 in frontotemporal lobar degeneration and amyotrophic lateral sclerosis.
Manuela Neumann, Deepak M Sampathu, Linda K Kwong, Adam C Truax, Matthew C Micsenyi, Thomas T Chou, Jennifer Bruce, Theresa Schuck, Murray Grossman, Christopher M Clark,[...]. Science 2006
29

A C9orf72 promoter repeat expansion in a Flanders-Belgian cohort with disorders of the frontotemporal lobar degeneration-amyotrophic lateral sclerosis spectrum: a gene identification study.
Ilse Gijselinck, Tim Van Langenhove, Julie van der Zee, Kristel Sleegers, Stéphanie Philtjens, Gernot Kleinberger, Jonathan Janssens, Karolien Bettens, Caroline Van Cauwenberghe, Sandra Pereson,[...]. Lancet Neurol 2012
474
29

C9orf72 repeat expansions cause neurodegeneration in Drosophila through arginine-rich proteins.
Sarah Mizielinska, Sebastian Grönke, Teresa Niccoli, Charlotte E Ridler, Emma L Clayton, Anny Devoy, Thomas Moens, Frances E Norona, Ione O C Woollacott, Julian Pietrzyk,[...]. Science 2014
424
29

C9orf72 nucleotide repeat structures initiate molecular cascades of disease.
Aaron R Haeusler, Christopher J Donnelly, Goran Periz, Eric A J Simko, Patrick G Shaw, Min-Sik Kim, Nicholas J Maragakis, Juan C Troncoso, Akhilesh Pandey, Rita Sattler,[...]. Nature 2014
580
28

RAN proteins and RNA foci from antisense transcripts in C9ORF72 ALS and frontotemporal dementia.
Tao Zu, Yuanjing Liu, Monica Bañez-Coronel, Tammy Reid, Olga Pletnikova, Jada Lewis, Timothy M Miller, Matthew B Harms, Annet E Falchook, S H Subramony,[...]. Proc Natl Acad Sci U S A 2013
508
28

Antisense transcripts of the expanded C9ORF72 hexanucleotide repeat form nuclear RNA foci and undergo repeat-associated non-ATG translation in c9FTD/ALS.
Tania F Gendron, Kevin F Bieniek, Yong-Jie Zhang, Karen Jansen-West, Peter E A Ash, Thomas Caulfield, Lillian Daughrity, Judith H Dunmore, Monica Castanedes-Casey, Jeannie Chew,[...]. Acta Neuropathol 2013
372
28

Reduced C9orf72 gene expression in c9FTD/ALS is caused by histone trimethylation, an epigenetic event detectable in blood.
Veronique V Belzil, Peter O Bauer, Mercedes Prudencio, Tania F Gendron, Caroline T Stetler, Irene K Yan, Luc Pregent, Lillian Daughrity, Matthew C Baker, Rosa Rademakers,[...]. Acta Neuropathol 2013
199
27

Loss of function of C9orf72 causes motor deficits in a zebrafish model of amyotrophic lateral sclerosis.
Sorana Ciura, Serena Lattante, Isabelle Le Ber, Morwena Latouche, Hervé Tostivint, Alexis Brice, Edor Kabashi. Ann Neurol 2013
232
27

Poly-dipeptides encoded by the C9orf72 repeats bind nucleoli, impede RNA biogenesis, and kill cells.
Ilmin Kwon, Siheng Xiang, Masato Kato, Leeju Wu, Pano Theodoropoulos, Tao Wang, Jiwoong Kim, Jonghyun Yun, Yang Xie, Steven L McKnight. Science 2014
393
26

Targeted degradation of sense and antisense C9orf72 RNA foci as therapy for ALS and frontotemporal degeneration.
Clotilde Lagier-Tourenne, Michael Baughn, Frank Rigo, Shuying Sun, Patrick Liu, Hai-Ri Li, Jie Jiang, Andrew T Watt, Seung Chun, Melanie Katz,[...]. Proc Natl Acad Sci U S A 2013
391
26

C9orf72 and RAB7L1 regulate vesicle trafficking in amyotrophic lateral sclerosis and frontotemporal dementia.
Yoshitsugu Aoki, Raquel Manzano, Yi Lee, Ruxandra Dafinca, Misako Aoki, Andrew G L Douglas, Miguel A Varela, Chaitra Sathyaprakash, Jakub Scaber, Paola Barbagallo,[...]. Brain 2017
92
28

Converging mechanisms in ALS and FTD: disrupted RNA and protein homeostasis.
Shuo-Chien Ling, Magdalini Polymenidou, Don W Cleveland. Neuron 2013
967
25

C9orf72 BAC Mouse Model with Motor Deficits and Neurodegenerative Features of ALS/FTD.
Yuanjing Liu, Amrutha Pattamatta, Tao Zu, Tammy Reid, Olgert Bardhi, David R Borchelt, Anthony T Yachnis, Laura P W Ranum. Neuron 2016
205
25

The C9orf72 repeat expansion disrupts nucleocytoplasmic transport.
Ke Zhang, Christopher J Donnelly, Aaron R Haeusler, Jonathan C Grima, James B Machamer, Peter Steinwald, Elizabeth L Daley, Sean J Miller, Kathleen M Cunningham, Svetlana Vidensky,[...]. Nature 2015
600
25

Bidirectional transcripts of the expanded C9orf72 hexanucleotide repeat are translated into aggregating dipeptide repeat proteins.
Kohji Mori, Thomas Arzberger, Friedrich A Grässer, Ilse Gijselinck, Stephanie May, Kristin Rentzsch, Shih-Ming Weng, Martin H Schludi, Julie van der Zee, Marc Cruts,[...]. Acta Neuropathol 2013
321
24

Neurodegeneration. C9ORF72 repeat expansions in mice cause TDP-43 pathology, neuronal loss, and behavioral deficits.
Jeannie Chew, Tania F Gendron, Mercedes Prudencio, Hiroki Sasaguri, Yong-Jie Zhang, Monica Castanedes-Casey, Chris W Lee, Karen Jansen-West, Aishe Kurti, Melissa E Murray,[...]. Science 2015
261
24

Antisense proline-arginine RAN dipeptides linked to C9ORF72-ALS/FTD form toxic nuclear aggregates that initiate in vitro and in vivo neuronal death.
Xinmei Wen, Wenzhi Tan, Thomas Westergard, Karthik Krishnamurthy, Shashirekha S Markandaiah, Yingxiao Shi, Shaoyu Lin, Neil A Shneider, John Monaghan, Udai B Pandey,[...]. Neuron 2014
318
24

C9ORF72 poly(GA) aggregates sequester and impair HR23 and nucleocytoplasmic transport proteins.
Yong-Jie Zhang, Tania F Gendron, Jonathan C Grima, Hiroki Sasaguri, Karen Jansen-West, Ya-Fei Xu, Rebecca B Katzman, Jennifer Gass, Melissa E Murray, Mitsuru Shinohara,[...]. Nat Neurosci 2016
190
24

C9orf72 frontotemporal lobar degeneration is characterised by frequent neuronal sense and antisense RNA foci.
Sarah Mizielinska, Tammaryn Lashley, Frances E Norona, Emma L Clayton, Charlotte E Ridler, Pietro Fratta, Adrian M Isaacs. Acta Neuropathol 2013
217
23

GGGGCC repeat expansion in C9orf72 compromises nucleocytoplasmic transport.
Brian D Freibaum, Yubing Lu, Rodrigo Lopez-Gonzalez, Nam Chul Kim, Sandra Almeida, Kyung-Ha Lee, Nisha Badders, Marc Valentine, Bruce L Miller, Philip C Wong,[...]. Nature 2015
501
23

C9orf72-mediated ALS and FTD: multiple pathways to disease.
Rubika Balendra, Adrian M Isaacs. Nat Rev Neurol 2018
247
23

Full ablation of C9orf72 in mice causes immune system-related pathology and neoplastic events but no motor neuron defects.
Emma Sudria-Lopez, Max Koppers, Marina de Wit, Christiaan van der Meer, Henk-Jan Westeneng, Caroline A C Zundel, Sameh A Youssef, Liesbeth Harkema, Alain de Bruin, Jan H Veldink,[...]. Acta Neuropathol 2016
77
28

Modeling key pathological features of frontotemporal dementia with C9ORF72 repeat expansion in iPSC-derived human neurons.
Sandra Almeida, Eduardo Gascon, Hélène Tran, Hsin Jung Chou, Tania F Gendron, Steven Degroot, Andrew R Tapper, Chantal Sellier, Nicolas Charlet-Berguerand, Anna Karydas,[...]. Acta Neuropathol 2013
239
22

C9ORF72 interaction with cofilin modulates actin dynamics in motor neurons.
Rajeeve Sivadasan, Daniel Hornburg, Carsten Drepper, Nicolas Frank, Sibylle Jablonka, Anna Hansel, Xenia Lojewski, Jared Sterneckert, Andreas Hermann, Pamela J Shaw,[...]. Nat Neurosci 2016
88
25

Novel antibodies reveal presynaptic localization of C9orf72 protein and reduced protein levels in C9orf72 mutation carriers.
Petra Frick, Chantal Sellier, Ian R A Mackenzie, Chieh-Yu Cheng, Julie Tahraoui-Bories, Cecile Martinat, R Jeroen Pasterkamp, Johannes Prudlo, Dieter Edbauer, Mustapha Oulad-Abdelghani,[...]. Acta Neuropathol Commun 2018
58
37

p62 positive, TDP-43 negative, neuronal cytoplasmic and intranuclear inclusions in the cerebellum and hippocampus define the pathology of C9orf72-linked FTLD and MND/ALS.
Safa Al-Sarraj, Andrew King, Claire Troakes, Bradley Smith, Satomi Maekawa, Istvan Bodi, Boris Rogelj, Ammar Al-Chalabi, Tibor Hortobágyi, Christopher E Shaw. Acta Neuropathol 2011
355
21

Human C9ORF72 Hexanucleotide Expansion Reproduces RNA Foci and Dipeptide Repeat Proteins but Not Neurodegeneration in BAC Transgenic Mice.
Owen M Peters, Gabriela Toro Cabrera, Helene Tran, Tania F Gendron, Jeanne E McKeon, Jake Metterville, Alexandra Weiss, Nicholas Wightman, Johnny Salameh, Juyhun Kim,[...]. Neuron 2015
176
21

Deletion of C9ORF72 results in motor neuron degeneration and stress sensitivity in C. elegans.
Martine Therrien, Guy A Rouleau, Patrick A Dion, J Alex Parker. PLoS One 2013
130
21



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.