A citation-based method for searching scientific literature

Sayuri Masuda, Yukako Oda, Hiroyuki Sasaki, Junichi Ikenouchi, Tomohito Higashi, Masaya Akashi, Eiichiro Nishi, Mikio Furuse. J Cell Sci 2011
Times Cited: 157







List of co-cited articles
1230 articles co-cited >1



Times Cited
  Times     Co-cited
Similarity


Tricellulin constitutes a novel barrier at tricellular contacts of epithelial cells.
Junichi Ikenouchi, Mikio Furuse, Kyoko Furuse, Hiroyuki Sasaki, Sachiko Tsukita, Shoichiro Tsukita. J Cell Biol 2005
531
66

Analysis of the 'angulin' proteins LSR, ILDR1 and ILDR2--tricellulin recruitment, epithelial barrier function and implication in deafness pathogenesis.
Tomohito Higashi, Shinsaku Tokuda, Shin-ichiro Kitajiri, Sayuri Masuda, Hiroki Nakamura, Yukako Oda, Mikio Furuse. J Cell Sci 2013
127
51

Tricellulin forms a barrier to macromolecules in tricellular tight junctions without affecting ion permeability.
Susanne M Krug, Salah Amasheh, Jan F Richter, Susanne Milatz, Dorothee Günzel, Julie K Westphal, Otmar Huber, Jörg D Schulzke, Michael Fromm. Mol Biol Cell 2009
228
31


LSR/angulin-1 is a tricellular tight junction protein involved in blood-brain barrier formation.
Fabien Sohet, Christina Lin, Roeben N Munji, Seo Yeon Lee, Nadine Ruderisch, Allison Soung, Thomas D Arnold, Nikita Derugin, Zinaida S Vexler, Frances T Yen,[...]. J Cell Biol 2015
73
35

Molecular organization of tricellular tight junctions.
Mikio Furuse, Yasushi Izumi, Yukako Oda, Tomohito Higashi, Noriko Iwamoto. Tissue Barriers 2014
84
30

Loss of occludin affects tricellular localization of tricellulin.
Junichi Ikenouchi, Hiroyuki Sasaki, Sachiko Tsukita, Mikio Furuse, Shoichiro Tsukita. Mol Biol Cell 2008
131
25

Tricellulin is a tight-junction protein necessary for hearing.
Saima Riazuddin, Zubair M Ahmed, Alan S Fanning, Ayala Lagziel, Shin-ichiro Kitajiri, Khushnooda Ramzan, Shaheen N Khan, Parna Chattaraj, Penelope L Friedman, James M Anderson,[...]. Am J Hum Genet 2006
193
21

Lipolysis-stimulated lipoprotein receptor (LSR) is the host receptor for the binary toxin Clostridium difficile transferase (CDT).
Panagiotis Papatheodorou, Jan E Carette, George W Bell, Carsten Schwan, Gregor Guttenberg, Thijn R Brummelkamp, Klaus Aktories. Proc Natl Acad Sci U S A 2011
126
21


Tricellulin deficiency affects tight junction architecture and cochlear hair cells.
Gowri Nayak, Sue I Lee, Rizwan Yousaf, Stephanie E Edelmann, Claire Trincot, Christina M Van Itallie, Ghanshyam P Sinha, Maria Rafeeq, Sherri M Jones, Inna A Belyantseva,[...]. J Clin Invest 2013
69
28

Tight junction-associated MARVEL proteins marveld3, tricellulin, and occludin have distinct but overlapping functions.
David R Raleigh, Amanda M Marchiando, Yong Zhang, Le Shen, Hiroyuki Sasaki, Yingmin Wang, Manyuan Long, Jerrold R Turner. Mol Biol Cell 2010
212
20

The roles of tricellular tight junction protein lipolysis-stimulated lipoprotein receptor in malignancy of human endometrial cancer cells.
Hiroshi Shimada, Seiro Satohisa, Takayuki Kohno, Syunta Takahashi, Tsubasa Hatakeyama, Takumi Konno, Mitsuhiro Tsujiwaki, Tsuyoshi Saito, Takashi Kojima. Oncotarget 2016
28
67

Multifunctional strands in tight junctions.
S Tsukita, M Furuse, M Itoh. Nat Rev Mol Cell Biol 2001
17

Occludin: a novel integral membrane protein localizing at tight junctions.
M Furuse, T Hirase, M Itoh, A Nagafuchi, S Yonemura, S Tsukita, S Tsukita. J Cell Biol 1993
16


In tight junctions, claudins regulate the interactions between occludin, tricellulin and marvelD3, which, inversely, modulate claudin oligomerization.
Jimmi Cording, Johanna Berg, Nadja Käding, Christian Bellmann, Christian Tscheik, Julie K Westphal, Susanne Milatz, Dorothee Günzel, Hartwig Wolburg, Jörg Piontek,[...]. J Cell Sci 2013
108
16

Complex phenotype of mice lacking occludin, a component of tight junction strands.
M Saitou, M Furuse, H Sasaki, J D Schulzke, M Fromm, H Takano, T Noda, S Tsukita. Mol Biol Cell 2000
817
16

The role of lipolysis stimulated lipoprotein receptor in breast cancer and directing breast cancer cell behavior.
Denise K Reaves, Katerina D Fagan-Solis, Karen Dunphy, Shannon D Oliver, David W Scott, Jodie M Fleming. PLoS One 2014
31
51

Tight junctions: from simple barriers to multifunctional molecular gates.
Ceniz Zihni, Clare Mills, Karl Matter, Maria S Balda. Nat Rev Mol Cell Biol 2016
495
16

Claudins and the modulation of tight junction permeability.
Dorothee Günzel, Alan S L Yu. Physiol Rev 2013
693
15

Junctional complexes in various epithelia.
M G FARQUHAR, G E PALADE. J Cell Biol 1963
15

Distribution of the lipolysis stimulated receptor in adult and embryonic murine tissues and lethality of LSR-/- embryos at 12.5 to 14.5 days of gestation.
Samir Mesli, Sandrine Javorschi, Annie M Bérard, Marc Landry, Helen Priddle, David Kivlichan, Andrew J H Smith, Frances T Yen, Bernard E Bihain, Michel Darmon. Eur J Biochem 2004
51
29

JNK1/2-dependent phosphorylation of angulin-1/LSR is required for the exclusive localization of angulin-1/LSR and tricellulin at tricellular contacts in EpH4 epithelial sheet.
Daiki Nakatsu, Fumi Kano, Yuki Taguchi, Taichi Sugawara, Takashi Nishizono, Kiyotaka Nishikawa, Yukako Oda, Mikio Furuse, Masayuki Murata. Genes Cells 2014
22
68

Size-selective loosening of the blood-brain barrier in claudin-5-deficient mice.
Takehiro Nitta, Masaki Hata, Shimpei Gotoh, Yoshiteru Seo, Hiroyuki Sasaki, Nobuo Hashimoto, Mikio Furuse, Shoichiro Tsukita. J Cell Biol 2003
14

Increased cell motility and invasion upon knockdown of lipolysis stimulated lipoprotein receptor (LSR) in SW780 bladder cancer cells.
Malene Herbsleb, Karin Birkenkamp-Demtroder, Thomas Thykjaer, Carsten Wiuf, Anne-Mette K Hein, Torben F Orntoft, Lars Dyrskjøt. BMC Med Genomics 2008
27
51

Binding and internalization of Clostridium perfringens iota-toxin in lipid rafts.
Masahiro Nagahama, Akiwo Yamaguchi, Tohko Hagiyama, Noriko Ohkubo, Keiko Kobayashi, Jun Sakurai. Infect Immun 2004
52
26

Architecture of tight junctions and principles of molecular composition.
Christina M Van Itallie, James M Anderson. Semin Cell Dev Biol 2014
286
14

Tricellulin regulates junctional tension of epithelial cells at tricellular contacts through Cdc42.
Yukako Oda, Tetsuhisa Otani, Junichi Ikenouchi, Mikio Furuse. J Cell Sci 2014
51
27

Identification of MarvelD3 as a tight junction-associated transmembrane protein of the occludin family.
Emily Steed, Nelio T L Rodrigues, Maria S Balda, Karl Matter. BMC Cell Biol 2009
124
13

Claudin-based tight junctions are crucial for the mammalian epidermal barrier: a lesson from claudin-1-deficient mice.
Mikio Furuse, Masaki Hata, Kyoko Furuse, Yoko Yoshida, Akinori Haratake, Yoshinobu Sugitani, Tetsuo Noda, Akiharu Kubo, Shoichiro Tsukita. J Cell Biol 2002
13



Deletion of Tricellulin Causes Progressive Hearing Loss Associated with Degeneration of Cochlear Hair Cells.
Toru Kamitani, Hirofumi Sakaguchi, Atsushi Tamura, Takenori Miyashita, Yuji Yamazaki, Reitaro Tokumasu, Ryuhei Inamoto, Ai Matsubara, Nozomu Mori, Yasuo Hisa,[...]. Sci Rep 2015
36
36


Loss of tricellular tight junction protein LSR promotes cell invasion and migration via upregulation of TEAD1/AREG in human endometrial cancer.
Hiroshi Shimada, Shyuetsu Abe, Takayuki Kohno, Seiro Satohisa, Takumi Konno, Syunta Takahashi, Tsubasa Hatakeyama, Chihiro Arimoto, Takuya Kakuki, Yakuto Kaneko,[...]. Sci Rep 2017
29
44

Angubindin-1, a novel paracellular absorption enhancer acting at the tricellular tight junction.
Susanne M Krug, Tomohiro Hayaishi, Daisuke Iguchi, Akihiro Watari, Azusa Takahashi, Michael Fromm, Masahiro Nagahama, Hiroyuki Takeda, Yoshiaki Okada, Tatsuya Sawasaki,[...]. J Control Release 2017
33
39


ZO-1 and ZO-2 independently determine where claudins are polymerized in tight-junction strand formation.
Kazuaki Umeda, Junichi Ikenouchi, Sayaka Katahira-Tayama, Kyoko Furuse, Hiroyuki Sasaki, Mayumi Nakayama, Takeshi Matsui, Sachiko Tsukita, Mikio Furuse, Shoichiro Tsukita. Cell 2006
536
12

Loss of LSR affects epithelial barrier integrity and tumor xenograft growth of CaCo-2 cells.
Bernd A Czulkies, Justin Mastroianni, Lisa Lutz, Sarah Lang, Carsten Schwan, Gudula Schmidt, Silke Lassmann, Robert Zeiser, Klaus Aktories, Panagiotis Papatheodorou. Oncotarget 2017
20
60

Loss-of-function mutations of ILDR1 cause autosomal-recessive hearing impairment DFNB42.
Guntram Borck, Atteeq Ur Rehman, Kwanghyuk Lee, Hans-Martin Pogoda, Naseebullah Kakar, Simon von Ameln, Nicolas Grillet, Michael S Hildebrand, Zubair M Ahmed, Gudrun Nürnberg,[...]. Am J Hum Genet 2011
76
14


Identification of a lipolysis-stimulated receptor that is distinct from the LDL receptor and the LDL receptor-related protein.
F T Yen, C J Mann, L M Guermani, N F Hannouche, N Hubert, C A Hornick, V N Bordeau, G Agnani, B E Bihain. Biochemistry 1994
79
13

Predicted expansion of the claudin multigene family.
Katsuhiko Mineta, Yasuko Yamamoto, Yuji Yamazaki, Hiroo Tanaka, Yukiyo Tada, Kuniaki Saito, Atsushi Tamura, Michihiro Igarashi, Toshinori Endo, Kosei Takeuchi,[...]. FEBS Lett 2011
344
11

Claudins in occluding junctions of humans and flies.
Mikio Furuse, Shoichiro Tsukita. Trends Cell Biol 2006
405
11

Molecular cloning of a lipolysis-stimulated remnant receptor expressed in the liver.
F T Yen, M Masson, N Clossais-Besnard, P André, J M Grosset, L Bougueleret, J B Dumas, O Guerassimenko, B E Bihain. J Biol Chem 1999
52
21

Angubindin-1 opens the blood-brain barrier in vivo for delivery of antisense oligonucleotide to the central nervous system.
Satoshi Zeniya, Hiroya Kuwahara, Kaiichi Daizo, Akihiro Watari, Masuo Kondoh, Kie Yoshida-Tanaka, Hidetoshi Kaburagi, Ken Asada, Tetsuya Nagata, Masahiro Nagahama,[...]. J Control Release 2018
32
34


Occludin is required for cytokine-induced regulation of tight junction barriers.
Christina M Van Itallie, Alan S Fanning, Jennifer Holmes, James M Anderson. J Cell Sci 2010
134
10

Claudin multigene family encoding four-transmembrane domain protein components of tight junction strands.
K Morita, M Furuse, K Fujimoto, S Tsukita. Proc Natl Acad Sci U S A 1999
893
10


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.