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For: Sasaki K, Shiba K, Nakamura A, Kawano N, Satouh Y, Yamaguchi H, Morikawa M, Shibata D, Yanase R, Jokura K, Nomura M, Miyado M, Takada S, Ueno H, Nonaka S, Baba T, Ikawa M, Kikkawa M, Miyado K, Inaba K. Calaxin is required for cilia-driven determination of vertebrate laterality. Commun Biol 2019;2:226. [PMID: 31240264 DOI: 10.1038/s42003-019-0462-y] [Cited by in Crossref: 8] [Cited by in F6Publishing: 9] [Article Influence: 2.7] [Reference Citation Analysis]
Number Citing Articles
1 Kron NS, Fieber LA. Co-expression analysis identifies neuro-inflammation as a driver of sensory neuron aging in Aplysia californica. PLoS One 2021;16:e0252647. [PMID: 34116561 DOI: 10.1371/journal.pone.0252647] [Reference Citation Analysis]
2 Lee L, Ostrowski LE. Motile cilia genetics and cell biology: big results from little mice. Cell Mol Life Sci 2021;78:769-97. [PMID: 32915243 DOI: 10.1007/s00018-020-03633-5] [Cited by in Crossref: 10] [Cited by in F6Publishing: 7] [Article Influence: 5.0] [Reference Citation Analysis]
3 Dantas TJ. Centrosomes and cilia: always at the center of the action. Commun Biol 2020;3:785. [PMID: 33318559 DOI: 10.1038/s42003-020-01519-7] [Cited by in Crossref: 2] [Cited by in F6Publishing: 2] [Article Influence: 1.0] [Reference Citation Analysis]
4 Braschi B, Omran H, Witman GB, Pazour GJ, Pfister KK, Bruford EA, King SM. Consensus nomenclature for dyneins and associated assembly factors. J Cell Biol 2022;221:e202109014. [PMID: 35006274 DOI: 10.1083/jcb.202109014] [Cited by in Crossref: 3] [Cited by in F6Publishing: 1] [Article Influence: 3.0] [Reference Citation Analysis]
5 Vyklicka L, Lishko PV. Dissecting the signaling pathways involved in the function of sperm flagellum. Curr Opin Cell Biol 2020;63:154-61. [PMID: 32097833 DOI: 10.1016/j.ceb.2020.01.015] [Cited by in Crossref: 13] [Cited by in F6Publishing: 13] [Article Influence: 6.5] [Reference Citation Analysis]
6 Morohoshi A, Miyata H, Shimada K, Nozawa K, Matsumura T, Yanase R, Shiba K, Inaba K, Ikawa M. Nexin-Dynein regulatory complex component DRC7 but not FBXL13 is required for sperm flagellum formation and male fertility in mice. PLoS Genet 2020;16:e1008585. [PMID: 31961863 DOI: 10.1371/journal.pgen.1008585] [Cited by in Crossref: 10] [Cited by in F6Publishing: 10] [Article Influence: 5.0] [Reference Citation Analysis]
7 Gui M, Farley H, Anujan P, Anderson JR, Maxwell DW, Whitchurch JB, Botsch JJ, Qiu T, Meleppattu S, Singh SK, Zhang Q, Thompson J, Lucas JS, Bingle CD, Norris DP, Roy S, Brown A. De novo identification of mammalian ciliary motility proteins using cryo-EM. Cell 2021;184:5791-5806.e19. [PMID: 34715025 DOI: 10.1016/j.cell.2021.10.007] [Reference Citation Analysis]
8 Miyata H, Shimada K, Morohoshi A, Oura S, Matsumura T, Xu Z, Oyama Y, Ikawa M. Testis-enriched kinesin KIF9 is important for progressive motility in mouse spermatozoa. FASEB J 2020;34:5389-400. [PMID: 32072696 DOI: 10.1096/fj.201902755R] [Cited by in Crossref: 11] [Cited by in F6Publishing: 9] [Article Influence: 5.5] [Reference Citation Analysis]
9 Murata T. Overview of Taiwan-Japan joint symposium (2SDP) on structural biology using X-ray crystallography and cryo-EM at the 2019 BSJ meeting. Biophys Rev 2020;12:275-6. [PMID: 32219717 DOI: 10.1007/s12551-020-00666-9] [Cited by in Crossref: 1] [Cited by in F6Publishing: 1] [Article Influence: 0.5] [Reference Citation Analysis]
10 Narita K, Takeda S. Ultrastructural evidence for an unusual mode of ciliogenesis in mouse multiciliated epithelia. Microscopy (Oxf) 2021;70:308-15. [PMID: 33258953 DOI: 10.1093/jmicro/dfaa074] [Reference Citation Analysis]
11 Skoric-Milosavljevic D, Tadros R, Bosada FM, Tessadori F, van Weerd JH, Woudstra OI, Tjong FVY, Lahrouchi N, Bajolle F, Cordell HJ, Agopian AJ, Blue GM, Barge-Schaapveld DQ, Gewillig MH, Preuss C, Lodder EM, Barnett P, Ilgun A, Beekman L, van Duijvenboden K, Bokenkamp R, Müller-Nurasyid M, Vliegen HW, Konings TC, van Melle JP, van Dijk A, van Kimmenade RR, Roos-Hesselink JW, Sieswerda G, Meijboom F, Abdul-Khaliq H, Berger F, Dittrich S, Hitz MP, Moosmann J, Riede FT, Schubert S, Galan P, Lathrop GM, Munter HM, Al-Chalabi A, Shaw CE, Shaw PJ, Morrison KE, Veldink JH, van den Berg LH, Evans SM, Nobrega MA, Aneas I, Radivojkov-Blagojevic M, Meitinger T, Oechslin E, Mondal T, Bergin ML, Smythe JF, Altamirano-Diaz L, Lougheed J, Bouma BJ, Chaix MA, Kline J, Bassett AS, Andelfinger G, van der Palen RL, Bouvagnet P, Clur SB, Breckpot J, Kerstjens-Frederikse WS, Winlaw DS, Bauer U, Mital S, Goldmuntz E, Keavney BD, Bonnet D, Mulder BJ, Tanck M, Bakkers J, Christoffels VM, Boogerd CJ, Postma AV, Bezzina CR. Common Genetic Variants Contribute to Risk of Transposition of the Great Arteries. Circ Res 2021. [PMID: 34886679 DOI: 10.1161/CIRCRESAHA.120.317107] [Cited by in Crossref: 2] [Cited by in F6Publishing: 1] [Article Influence: 2.0] [Reference Citation Analysis]
12 Yang X, Shi W, Huang X, Hu L, Wang J, Zhang F, Wang Y, Huang K. Low-level EFCAB1 promoted progress by upregulated DNMT3B and could be as a potential biomarker in lung adenocarcinoma. J Clin Lab Anal 2021;:e24166. [PMID: 34904288 DOI: 10.1002/jcla.24166] [Reference Citation Analysis]