A citation-based method for searching scientific literature

Chen-Yang Liao, Cao-Qi Lei, Hong-Bing Shu. Cell Mol Immunol 2021
Times Cited: 6







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



Times Cited
  Times     Co-cited
Similarity


Cyclic GMP-AMP synthase is a cytosolic DNA sensor that activates the type I interferon pathway.
Lijun Sun, Jiaxi Wu, Fenghe Du, Xiang Chen, Zhijian J Chen. Science 2013
66

ZCCHC3 is a co-sensor of cGAS for dsDNA recognition in innate immune response.
Huan Lian, Jin Wei, Ru Zang, Wen Ye, Qing Yang, Xia-Nan Zhang, Yun-Da Chen, Yu-Zhi Fu, Ming-Ming Hu, Cao-Qi Lei,[...]. Nat Commun 2018
48
66


DNA damage primes the type I interferon system via the cytosolic DNA sensor STING to promote anti-microbial innate immunity.
Anetta Härtlova, Saskia F Erttmann, Faizal Am Raffi, Anja M Schmalz, Ulrike Resch, Sharath Anugula, Stefan Lienenklaus, Lisa M Nilsson, Andrea Kröger, Jonas A Nilsson,[...]. Immunity 2015
365
50

BAF restricts cGAS on nuclear DNA to prevent innate immune activation.
Baptiste Guey, Marilena Wischnewski, Alexiane Decout, Kristina Makasheva, Murat Kaynak, Mahmut S Sakar, Beat Fierz, Andrea Ablasser. Science 2020
35
50

The adaptor protein MITA links virus-sensing receptors to IRF3 transcription factor activation.
Bo Zhong, Yan Yang, Shu Li, Yan-Yi Wang, Ying Li, Feici Diao, Caoqi Lei, Xiao He, Lu Zhang, Po Tien,[...]. Immunity 2008
852
50

Sumoylation Promotes the Stability of the DNA Sensor cGAS and the Adaptor STING to Regulate the Kinetics of Response to DNA Virus.
Ming-Ming Hu, Qing Yang, Xue-Qin Xie, Chen-Yang Liao, Heng Lin, Tian-Tian Liu, Lei Yin, Hong-Bing Shu. Immunity 2016
166
50


Structural basis of nucleosome-dependent cGAS inhibition.
Joshua A Boyer, Cathy J Spangler, Joshua D Strauss, Andrew P Cesmat, Pengda Liu, Robert K McGinty, Qi Zhang. Science 2020
53
50

cGAS in action: Expanding roles in immunity and inflammation.
Andrea Ablasser, Zhijian J Chen. Science 2019
221
50

Structural basis for the inhibition of cGAS by nucleosomes.
Tomoya Kujirai, Christian Zierhut, Yoshimasa Takizawa, Ryan Kim, Lumi Negishi, Nobuki Uruma, Seiya Hirai, Hironori Funabiki, Hitoshi Kurumizaka. Science 2020
55
50

Cytoplasmic Mechanisms of Recognition and Defense of Microbial Nucleic Acids.
Ming-Ming Hu, Hong-Bing Shu. Annu Rev Cell Dev Biol 2018
41
50

Nuclear cGAS suppresses DNA repair and promotes tumorigenesis.
Haipeng Liu, Haiping Zhang, Xiangyang Wu, Dapeng Ma, Juehui Wu, Lin Wang, Yan Jiang, Yiyan Fei, Chenggang Zhu, Rong Tan,[...]. Nature 2018
199
50

Structural mechanism of cytosolic DNA sensing by cGAS.
Filiz Civril, Tobias Deimling, Carina C de Oliveira Mann, Andrea Ablasser, Manuela Moldt, Gregor Witte, Veit Hornung, Karl-Peter Hopfner. Nature 2013
356
50

Phosphoinositide Interactions Position cGAS at the Plasma Membrane to Ensure Efficient Distinction between Self- and Viral DNA.
Katherine C Barnett, Julia M Coronas-Serna, Wen Zhou, Michael J Ernandes, Anh Cao, Philip J Kranzusch, Jonathan C Kagan. Cell 2019
77
50

cGAS is essential for cellular senescence.
Hui Yang, Hanze Wang, Junyao Ren, Qi Chen, Zhijian J Chen. Proc Natl Acad Sci U S A 2017
360
50

G3BP1 promotes DNA binding and activation of cGAS.
Zhao-Shan Liu, Hong Cai, Wen Xue, Miao Wang, Tian Xia, Wan-Jin Li, Jia-Qing Xing, Ming Zhao, Yi-Jiao Huang, Shuai Chen,[...]. Nat Immunol 2019
82
50

Tight nuclear tethering of cGAS is essential for preventing autoreactivity.
Hannah E Volkman, Stephanie Cambier, Elizabeth E Gray, Daniel B Stetson. Elife 2019
78
50

cGAS senses long and HMGB/TFAM-bound U-turn DNA by forming protein-DNA ladders.
Liudmila Andreeva, Björn Hiller, Dirk Kostrewa, Charlotte Lässig, Carina C de Oliveira Mann, David Jan Drexler, Andreas Maiser, Moritz Gaidt, Heinrich Leonhardt, Veit Hornung,[...]. Nature 2017
170
50

Structural basis for nucleosome-mediated inhibition of cGAS activity.
Duanfang Cao, Xiaonan Han, Xiaoyi Fan, Rui-Ming Xu, Xinzheng Zhang. Cell Res 2020
21
50


PQBP1 Is a Proximal Sensor of the cGAS-Dependent Innate Response to HIV-1.
Sunnie M Yoh, Monika Schneider, Janna Seifried, Stephen Soonthornvacharin, Rana E Akleh, Kevin C Olivieri, Paul D De Jesus, Chunhai Ruan, Elisa de Castro, Pedro A Ruiz,[...]. Cell 2015
110
50

Structural mechanism of cGAS inhibition by the nucleosome.
Ganesh R Pathare, Alexiane Decout, Selene Glück, Simone Cavadini, Kristina Makasheva, Ruud Hovius, Georg Kempf, Joscha Weiss, Zuzanna Kozicka, Baptiste Guey,[...]. Nature 2020
57
50

Phosphorylation of innate immune adaptor proteins MAVS, STING, and TRIF induces IRF3 activation.
Siqi Liu, Xin Cai, Jiaxi Wu, Qian Cong, Xiang Chen, Tuo Li, Fenghe Du, Junyao Ren, You-Tong Wu, Nick V Grishin,[...]. Science 2015
683
50

Mitochondrial DNA stress primes the antiviral innate immune response.
A Phillip West, William Khoury-Hanold, Matthew Staron, Michal C Tal, Cristiana M Pineda, Sabine M Lang, Megan Bestwick, Brett A Duguay, Nuno Raimundo, Donna A MacDuff,[...]. Nature 2015
709
50

SENP7 Potentiates cGAS Activation by Relieving SUMO-Mediated Inhibition of Cytosolic DNA Sensing.
Ye Cui, Huansha Yu, Xin Zheng, Rui Peng, Qiang Wang, Yi Zhou, Rui Wang, Jiehua Wang, Bo Qu, Nan Shen,[...]. PLoS Pathog 2017
47
33


Evolutionary Origins of cGAS-STING Signaling.
Shally R Margolis, Stephen C Wilson, Russell E Vance. Trends Immunol 2017
100
33

NONO Detects the Nuclear HIV Capsid to Promote cGAS-Mediated Innate Immune Activation.
Xavier Lahaye, Matteo Gentili, Aymeric Silvin, Cécile Conrad, Léa Picard, Mabel Jouve, Elina Zueva, Mathieu Maurin, Francesca Nadalin, Gavin J Knott,[...]. Cell 2018
76
33

Cyclic GMP-AMP is an endogenous second messenger in innate immune signaling by cytosolic DNA.
Jiaxi Wu, Lijun Sun, Xiang Chen, Fenghe Du, Heping Shi, Chuo Chen, Zhijian J Chen. Science 2013
33

Innate immune sensing of cytosolic chromatin fragments through cGAS promotes senescence.
Selene Glück, Baptiste Guey, Muhammet Fatih Gulen, Katharina Wolter, Tae-Won Kang, Niklas Arndt Schmacke, Anne Bridgeman, Jan Rehwinkel, Lars Zender, Andrea Ablasser. Nat Cell Biol 2017
375
33

Akt Kinase-Mediated Checkpoint of cGAS DNA Sensing Pathway.
Gil Ju Seo, Aerin Yang, Brandon Tan, Sungyoon Kim, Qiming Liang, Younho Choi, Weiming Yuan, Pinghui Feng, Hee-Sung Park, Jae U Jung. Cell Rep 2015
93
33

The molecular basis of tight nuclear tethering and inactivation of cGAS.
Baoyu Zhao, Pengbiao Xu, Chesley M Rowlett, Tao Jing, Omkar Shinde, Yuanjiu Lei, A Phillip West, Wenshe Ray Liu, Pingwei Li. Nature 2020
50
33

Dengue virus NS2B protein targets cGAS for degradation and prevents mitochondrial DNA sensing during infection.
Sebastian Aguirre, Priya Luthra, Maria T Sanchez-Aparicio, Ana M Maestre, Jenish Patel, Francise Lamothe, Anthony C Fredericks, Shashank Tripathi, Tongtong Zhu, Jessica Pintado-Silva,[...]. Nat Microbiol 2017
165
33

Cutting Edge: cGAS Is Required for Lethal Autoimmune Disease in the Trex1-Deficient Mouse Model of Aicardi-Goutières Syndrome.
Elizabeth E Gray, Piper M Treuting, Joshua J Woodward, Daniel B Stetson. J Immunol 2015
181
33

TRIM14 Inhibits cGAS Degradation Mediated by Selective Autophagy Receptor p62 to Promote Innate Immune Responses.
Meixin Chen, Qingcai Meng, Yunfei Qin, Puping Liang, Peng Tan, Lian He, Yubin Zhou, Yongjun Chen, Junjiu Huang, Rong-Fu Wang,[...]. Mol Cell 2016
148
33

Phosphorylation of cGAS by CDK1 impairs self-DNA sensing in mitosis.
Li Zhong, Ming-Ming Hu, Li-Jun Bian, Ying Liu, Qiang Chen, Hong-Bing Shu. Cell Discov 2020
17
33

Chromatin-bound cGAS is an inhibitor of DNA repair and hence accelerates genome destabilization and cell death.
Hui Jiang, Xiaoyu Xue, Swarupa Panda, Ajinkya Kawale, Richard M Hooy, Fengshan Liang, Jungsan Sohn, Patrick Sung, Nelson O Gekara. EMBO J 2019
75
33

cGAS is essential for the antitumor effect of immune checkpoint blockade.
Hua Wang, Shuiqing Hu, Xiang Chen, Heping Shi, Chuo Chen, Lijun Sun, Zhijian J Chen. Proc Natl Acad Sci U S A 2017
213
33

Structural basis for sequestration and autoinhibition of cGAS by chromatin.
Sebastian Michalski, Carina C de Oliveira Mann, Che A Stafford, Gregor Witte, Joseph Bartho, Katja Lammens, Veit Hornung, Karl-Peter Hopfner. Nature 2020
55
33

Expression of Cyclic GMP-AMP Synthase in Patients With Systemic Lupus Erythematosus.
Jie An, Laura Durcan, Reynold M Karr, Tracy A Briggs, Gillian I Rice, Thomas H Teal, Joshua J Woodward, Keith B Elkon. Arthritis Rheumatol 2017
71
33

Human cGAS catalytic domain has an additional DNA-binding interface that enhances enzymatic activity and liquid-phase condensation.
Wei Xie, Lodoe Lama, Carolina Adura, Daisuke Tomita, J Fraser Glickman, Thomas Tuschl, Dinshaw J Patel. Proc Natl Acad Sci U S A 2019
39
33


The E3 ubiquitin ligase AMFR and INSIG1 bridge the activation of TBK1 kinase by modifying the adaptor STING.
Qiang Wang, Xing Liu, Ye Cui, Yijun Tang, Wei Chen, Senlin Li, Huansha Yu, Youdong Pan, Chen Wang. Immunity 2014
183
33

Activation of cyclic GMP-AMP synthase by self-DNA causes autoimmune diseases.
Daxing Gao, Tuo Li, Xiao-Dong Li, Xiang Chen, Quan-Zhen Li, Mary Wight-Carter, Zhijian J Chen. Proc Natl Acad Sci U S A 2015
306
33

Glutamylation of the DNA sensor cGAS regulates its binding and synthase activity in antiviral immunity.
Pengyan Xia, Buqing Ye, Shuo Wang, Xiaoxiao Zhu, Ying Du, Zhen Xiong, Yong Tian, Zusen Fan. Nat Immunol 2016
112
33

cGAS surveillance of micronuclei links genome instability to innate immunity.
Karen J Mackenzie, Paula Carroll, Carol-Anne Martin, Olga Murina, Adeline Fluteau, Daniel J Simpson, Nelly Olova, Hannah Sutcliffe, Jacqueline K Rainger, Andrea Leitch,[...]. Nature 2017
569
33

KAT5 acetylates cGAS to promote innate immune response to DNA virus.
Ze-Min Song, Heng Lin, Xue-Mei Yi, Wei Guo, Ming-Ming Hu, Hong-Bing Shu. Proc Natl Acad Sci U S A 2020
17
33

Pathogen recognition and innate immunity.
Shizuo Akira, Satoshi Uematsu, Osamu Takeuchi. Cell 2006
33

The Cytoplasmic DNA Sensor cGAS Promotes Mitotic Cell Death.
Christian Zierhut, Norihiro Yamaguchi, Maria Paredes, Ji-Dung Luo, Thomas Carroll, Hironori Funabiki. Cell 2019
123
33


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.