메뉴 건너뛰기
Journal of Cellular Biochemistry
Volumn 100, Issue 4, 2007, Pages 916-922
What is the function of centrioles?
Author keywords

Centrioles; Cilia; Cytokinesis; Mitosis
Indexed keywords

CELL PROTEIN;
EID: 33847060921     PISSN: 07302312     EISSN: 10974644     Source Type: Journal    
DOI: 10.1002/jcb.21117     Document Type: Article
Times cited : (32)
References (50)
  • 1
    • 21044442747 scopus 로고    scopus 로고
    • Centrioles resist forces applied on centrosomes during G2/M transition
    • Abal M, Keryer G, Bornens M. 2005. Centrioles resist forces applied on centrosomes during G2/M transition. Biol Cell 97:425-434.
    • (2005) Biol Cell , vol.97 , pp. 425-434
    • Abal, M.1    Keryer, G.2    Bornens, M.3
  • 2
    • 0028718708 scopus 로고
    • An electron microscopic study of centriole and centrosome morphogenesis in the early development of mouse
    • Abumuslimov SS, Nadezhdina ES, Chentsov YuS. 1994. An electron microscopic study of centriole and centrosome morphogenesis in the early development of mouse. Tsitologiia 36:1054-1061.
    • (1994) Tsitologiia , vol.36 , pp. 1054-1061
    • Abumuslimov, S.S.1    Nadezhdina, E.S.2    Chentsov, Y.S.3
  • 3
    • 0028226650 scopus 로고
    • Cellular infrared detector appears to be contained in the centrosome
    • Albrecht-Buehler G. 1994. Cellular infrared detector appears to be contained in the centrosome. Cell Motil Cytoskel 27:262-271.
    • (1994) Cell Motil Cytoskel , vol.27 , pp. 262-271
    • Albrecht-Buehler, G.1
  • 4
    • 0017743696 scopus 로고
    • Continuation of mitosis after selective laser microbeam destruction of the centriolar region
    • Berns MW, Richardson SM. 1977. Continuation of mitosis after selective laser microbeam destruction of the centriolar region. J Cell Biol 75:977-982.
    • (1977) J Cell Biol , vol.75 , pp. 977-982
    • Berns, M.W.1    Richardson, S.M.2
  • 5
    • 0032517865 scopus 로고    scopus 로고
    • Centriole disassembly in vivo and its effect on centrosome structure and function in vertebrate cells
    • Bobinnec Y, Khodjakov A, Mir LM, Rieder CL, Edde B, Bornens M. 1998. Centriole disassembly in vivo and its effect on centrosome structure and function in vertebrate cells. J Cell Biol 143:1575-1589.
    • (1998) J Cell Biol , vol.143 , pp. 1575-1589
    • Bobinnec, Y.1    Khodjakov, A.2    Mir, L.M.3    Rieder, C.L.4    Edde, B.5    Bornens, M.6
  • 6
    • 0018688391 scopus 로고
    • The centriole as a gyroscopic oscillator. Implications for cell organization and some other consequences
    • Bornens M. 1979. The centriole as a gyroscopic oscillator. Implications for cell organization and some other consequences. Biol Cell 35:115-132.
    • (1979) Biol Cell , vol.35 , pp. 115-132
    • Bornens, M.1
  • 7
    • 0032467050 scopus 로고    scopus 로고
    • Supernumerary centrosomes and cancer: Boveri's hypothesis resurrected
    • Brinkley BR, Goepfert TM. 1998. Supernumerary centrosomes and cancer: Boveri's hypothesis resurrected. Cell Motil Cytoskel 41:281-288.
    • (1998) Cell Motil Cytoskel , vol.41 , pp. 281-288
    • Brinkley, B.R.1    Goepfert, T.M.2
  • 8
    • 0042679490 scopus 로고    scopus 로고
    • Determining the position of the cell division plane
    • Canman JC, et al. 2003. Determining the position of the cell division plane. Nature 424:1074-1078.
    • (2003) Nature , vol.424 , pp. 1074-1078
    • Canman, J.C.1
  • 9
    • 0000321933 scopus 로고    scopus 로고
    • Spindle assembly and mitosis without centrosomes in parthenogenetic Sciara embryos
    • De Saint Phalle B, Sullivan W. 1998. Spindle assembly and mitosis without centrosomes in parthenogenetic Sciara embryos. J. Cell Biol 141:1383-1391.
    • (1998) J. Cell Biol , vol.141 , pp. 1383-1391
    • De Saint Phalle, B.1    Sullivan, W.2
  • 10
    • 0035899865 scopus 로고    scopus 로고
    • Localization of intraflagellar transport protein IFT52 identifies basal body transitional fibers as the docking site for IFT particles
    • Deane JA, Cole DG, Seeley ES, Diener DR, Rosenbaum JL. 2001. Localization of intraflagellar transport protein IFT52 identifies basal body transitional fibers as the docking site for IFT particles. Curr Biol 11:1586-1590.
    • (2001) Curr Biol , vol.11 , pp. 1586-1590
    • Deane, J.A.1    Cole, D.G.2    Seeley, E.S.3    Diener, D.R.4    Rosenbaum, J.L.5
  • 11
    • 0020427298 scopus 로고
    • A Drosophila melanogaster cell line lacking centriole
    • Debec A, Szollosi A, Szollosi D. 1982. A Drosophila melanogaster cell line lacking centriole. Biol Cell 44:133-138.
    • (1982) Biol Cell , vol.44 , pp. 133-138
    • Debec, A.1    Szollosi, A.2    Szollosi, D.3
  • 13
    • 33847062065 scopus 로고    scopus 로고
    • Dietz R. 1966. The dispensability of the centrioles in the spermatocyte division of Pales ferruginea (Nematocera). In: Darlington CD, Lewis KR, editors. Chromosomes today. London: Oliver and Boyd. pp 28-31.
    • Dietz R. 1966. The dispensability of the centrioles in the spermatocyte division of Pales ferruginea (Nematocera). In: Darlington CD, Lewis KR, editors. Chromosomes today. London: Oliver and Boyd. pp 28-31.
  • 14
    • 0036752341 scopus 로고    scopus 로고
    • Duplicating dangerously: Linking centrosome duplication and aneuploidy
    • Doxsey S. 2002. Duplicating dangerously: Linking centrosome duplication and aneuploidy. Mol Cell 10:439-440.
    • (2002) Mol Cell , vol.10 , pp. 439-440
    • Doxsey, S.1
  • 15
    • 0031798648 scopus 로고    scopus 로고
    • Pharmacological and genetic evidence for a role of rootlet and phycoplast microtubules in the positioning and assembly of cleavage furrows in Chlamydomonas reinhardtii
    • Ehler LL, Dutcher SK. 1998. Pharmacological and genetic evidence for a role of rootlet and phycoplast microtubules in the positioning and assembly of cleavage furrows in Chlamydomonas reinhardtii. Cell Motil Cytoskel 40:193-207.
    • (1998) Cell Motil Cytoskel , vol.40 , pp. 193-207
    • Ehler, L.L.1    Dutcher, S.K.2
  • 16
    • 29444439981 scopus 로고    scopus 로고
    • Oral-facial-digital type I protein is required for primary cilia formation and left-right axis specification
    • Ferrante MI, Zullo A, Barra A, Bimonte A, Messaddeq N, Studer M, Dolle P, Franco B. 2006. Oral-facial-digital type I protein is required for primary cilia formation and left-right axis specification. Nat Genet 38:112-117.
    • (2006) Nat Genet , vol.38 , pp. 112-117
    • Ferrante, M.I.1    Zullo, A.2    Barra, A.3    Bimonte, A.4    Messaddeq, N.5    Studer, M.6    Dolle, P.7    Franco, B.8
  • 18
    • 3242885644 scopus 로고    scopus 로고
    • The ultrastructure of the Chlamydomonas reinhardtii basal apparatus: Identification of an early marker of radial asymmetry inherent in the basal body
    • Geimer S, Melkonian M. 2004. The ultrastructure of the Chlamydomonas reinhardtii basal apparatus: Identification of an early marker of radial asymmetry inherent in the basal body. J Cell Sci 117:2663-2674.
    • (2004) J Cell Sci , vol.117 , pp. 2663-2674
    • Geimer, S.1    Melkonian, M.2
  • 19
    • 0016610769 scopus 로고
    • The basal bodies of Chlamydomonas reinhardtii. Formation from probasal bodies, isolation, and partial characterization
    • Gould RR. 1975. The basal bodies of Chlamydomonas reinhardtii. Formation from probasal bodies, isolation, and partial characterization. J Cell Biol 65:65-74.
    • (1975) J Cell Biol , vol.65 , pp. 65-74
    • Gould, R.R.1
  • 22
    • 0035936898 scopus 로고    scopus 로고
    • Requirement of a centrosomal activity for cell cycle progression through G1 into S phase
    • Hinchcliffe EF, Miller FJ, Cham M, Khodjakov A, Sluder G. 2001. Requirement of a centrosomal activity for cell cycle progression through G1 into S phase. Science 291:1547-1550.
    • (2001) Science , vol.291 , pp. 1547-1550
    • Hinchcliffe, E.F.1    Miller, F.J.2    Cham, M.3    Khodjakov, A.4    Sluder, G.5
  • 23
    • 0021987743 scopus 로고
    • Basal bodies and associated structures are not required for normal flagellar motion or phototaxis in the green alga Chlorogonium elongatum
    • Hoops HJ, Witman GB. 1985. Basal bodies and associated structures are not required for normal flagellar motion or phototaxis in the green alga Chlorogonium elongatum. J Cell Biol 100:297-309.
    • (1985) J Cell Biol , vol.100 , pp. 297-309
    • Hoops, H.J.1    Witman, G.B.2
  • 24
    • 50549186620 scopus 로고
    • Studies on cytokinesis in neuroblasts of the grasshopper, Chortophaga viridifasciata (De Geer). I. Formation and behavior of the mitotic apparatus. II. The role of the mitotic apparatus in cytokinesis
    • Kawamura K. 1960. Studies on cytokinesis in neuroblasts of the grasshopper, Chortophaga viridifasciata (De Geer). I. Formation and behavior of the mitotic apparatus. II. The role of the mitotic apparatus in cytokinesis. Exp Cell Res 21:1-18.
    • (1960) Exp Cell Res , vol.21 , pp. 1-18
    • Kawamura, K.1
  • 25
    • 20544436245 scopus 로고    scopus 로고
    • Proteomic analysis of isolated Chlamydomonas centrioles reveals orthologs of ciliary-disease genes
    • Keller LC, Romijn EP, Zamora I, Yates JR, III, Marshall WF. 2005. Proteomic analysis of isolated Chlamydomonas centrioles reveals orthologs of ciliary-disease genes. Curr Biol 15:1090-1098.
    • (2005) Curr Biol , vol.15 , pp. 1090-1098
    • Keller, L.C.1    Romijn, E.P.2    Zamora, I.3    Yates III, J.R.4    Marshall, W.F.5
  • 26
    • 0035795415 scopus 로고    scopus 로고
    • Centrosomes enhance the fidelity of cytokinesis in vertebrates and are required for cell cycle progression
    • Khodjakov A, Rieder CL. 2001. Centrosomes enhance the fidelity of cytokinesis in vertebrates and are required for cell cycle progression. J Cell Biol 153:237-242.
    • (2001) J Cell Biol , vol.153 , pp. 237-242
    • Khodjakov, A.1    Rieder, C.L.2
  • 27
    • 0033971720 scopus 로고    scopus 로고
    • Centrosome-independent mitotic spindle formation in vertebrates
    • Khodjakov A, Cole RW, Oakley BR, Rieder CL. 2000. Centrosome-independent mitotic spindle formation in vertebrates. Curr Biol 10:59-67.
    • (2000) Curr Biol , vol.10 , pp. 59-67
    • Khodjakov, A.1    Cole, R.W.2    Oakley, B.R.3    Rieder, C.L.4
  • 30
    • 0025370580 scopus 로고
    • Mode of centriole duplication and distribution
    • Kochanski RS, Borisy GG. 1990. Mode of centriole duplication and distribution. J Cell Biol 110:1599-1605.
    • (1990) J Cell Biol , vol.110 , pp. 1599-1605
    • Kochanski, R.S.1    Borisy, G.G.2
  • 32
    • 0033179906 scopus 로고    scopus 로고
    • Evidence for a direct role of nascent basal bodies during spindle pole initiation in the green alga Spermatozopsis similis
    • Lechtreck KF, Grunow A. 1999. Evidence for a direct role of nascent basal bodies during spindle pole initiation in the green alga Spermatozopsis similis. Protist 150:163-181.
    • (1999) Protist , vol.150 , pp. 163-181
    • Lechtreck, K.F.1    Grunow, A.2
  • 33
    • 0033019554 scopus 로고    scopus 로고
    • A 210 kDa protein is located in a membrane-microtubule linker at the distal end of mature and nascent basal bodies
    • Lechtreck KF, Teltenkotter A, Grunow A. 1999. A 210 kDa protein is located in a membrane-microtubule linker at the distal end of mature and nascent basal bodies. J Cell Sci 112:1633-1644.
    • (1999) J Cell Sci , vol.112 , pp. 1633-1644
    • Lechtreck, K.F.1    Teltenkotter, A.2    Grunow, A.3
  • 34
    • 0025936210 scopus 로고
    • Microsurgical removal of centrosomes blocks cell reproduction and centriole generation in BSC-1 cells
    • Maniotis A, Schliwa M. 1991. Microsurgical removal of centrosomes blocks cell reproduction and centriole generation in BSC-1 cells. Cell 67:495-504.
    • (1991) Cell , vol.67 , pp. 495-504
    • Maniotis, A.1    Schliwa, M.2
  • 35
    • 0035814898 scopus 로고    scopus 로고
    • Kinetics and regulation of de novo centriole assembly. Implications for the mechanism of centriole duplication
    • Marshall WF, Vucica Y, Rosenbaum JL. 2001. Kinetics and regulation of de novo centriole assembly. Implications for the mechanism of centriole duplication. Curr Biol 11:308-317.
    • (2001) Curr Biol , vol.11 , pp. 308-317
    • Marshall, W.F.1    Vucica, Y.2    Rosenbaum, J.L.3
  • 36
    • 0029897393 scopus 로고    scopus 로고
    • Anastral meiotic spindle morphogenesis: Role of the non-claret disjunctional kinesin-like protein
    • Matthies HJ, McDonald HB, Goldstein LS, Theurkauf WE. 1996. Anastral meiotic spindle morphogenesis: Role of the non-claret disjunctional kinesin-like protein. J Cell Biol 134:455-464.
    • (1996) J Cell Biol , vol.134 , pp. 455-464
    • Matthies, H.J.1    McDonald, H.B.2    Goldstein, L.S.3    Theurkauf, W.E.4
  • 37
    • 0033825277 scopus 로고    scopus 로고
    • Microtubule minus-end anchorage at centrosomal and non-centrosomal sites: The role of ninein
    • Mogensen MM, Malik A, Piel M, Bouckson-Castaing V, Bornens M. 2000. Microtubule minus-end anchorage at centrosomal and non-centrosomal sites: The role of ninein. J Cell Sci 113:2013-2023.
    • (2000) J Cell Sci , vol.113 , pp. 2013-2023
    • Mogensen, M.M.1    Malik, A.2    Piel, M.3    Bouckson-Castaing, V.4    Bornens, M.5
  • 38
    • 14644403727 scopus 로고    scopus 로고
    • Characterization of the nephrocystin/nephrocystin-4 complex and subcellular localization of nephrocystin-4 to primary cilia and centrosomes
    • Mollet G, Silbermann F, Delous M, Salomon R, Antignac C, Saunier S. 2005. Characterization of the nephrocystin/nephrocystin-4 complex and subcellular localization of nephrocystin-4 to primary cilia and centrosomes. Hum Mol Genet 14:645-656.
    • (2005) Hum Mol Genet , vol.14 , pp. 645-656
    • Mollet, G.1    Silbermann, F.2    Delous, M.3    Salomon, R.4    Antignac, C.5    Saunier, S.6
  • 40
    • 0037078332 scopus 로고    scopus 로고
    • Both midzone and astral microtubules are involved in the delivery of cytokinesis signals: Insights from the mobility of aurora B
    • Murata-Hori M, Wang YL. 2002. Both midzone and astral microtubules are involved in the delivery of cytokinesis signals: Insights from the mobility of aurora B. J Cell Biol 159:45-53.
    • (2002) J Cell Biol , vol.159 , pp. 45-53
    • Murata-Hori, M.1    Wang, Y.L.2
  • 41
    • 0035936920 scopus 로고    scopus 로고
    • Centrosome-dependent exit of cytokinesis in animal cells
    • Piel M, Nordberg J, Euteneuer U, Bornens M. 2001. Centrosome-dependent exit of cytokinesis in animal cells. Science 291:1550-1553.
    • (2001) Science , vol.291 , pp. 1550-1553
    • Piel, M.1    Nordberg, J.2    Euteneuer, U.3    Bornens, M.4
  • 43
    • 0016282509 scopus 로고
    • Establishment of cleavage furrows by the mitotic spindles
    • Rappaport R, Rappaport BN. 1974. Establishment of cleavage furrows by the mitotic spindles. J Exp Zool 189:189-196.
    • (1974) J Exp Zool , vol.189 , pp. 189-196
    • Rappaport, R.1    Rappaport, B.N.2
  • 44
    • 0024365396 scopus 로고
    • Reproductive capacity of sea urchin centrosomes without centrioles
    • Sluder G, Miller FJ, Rieder CL. 1989. Reproductive capacity of sea urchin centrosomes without centrioles. Cell Motil Cytoskeleton 13:264-273.
    • (1989) Cell Motil Cytoskeleton , vol.13 , pp. 264-273
    • Sluder, G.1    Miller, F.J.2    Rieder, C.L.3
  • 45
    • 0016148675 scopus 로고
    • Assembly of chick brain tubulin onto isolated basal bodies of Chlamydomonas reinhardi
    • Snell WJ, Dentler WL, Haimo LT, Binder LI, Rosenbaum JL. 1974. Assembly of chick brain tubulin onto isolated basal bodies of Chlamydomonas reinhardi. Science 185:357-360.
    • (1974) Science , vol.185 , pp. 357-360
    • Snell, W.J.1    Dentler, W.L.2    Haimo, L.T.3    Binder, L.I.4    Rosenbaum, J.L.5
  • 46
    • 0014291368 scopus 로고
    • Reconstructions of centriole formation and ciliogenesis in mammalian lungs
    • Sorokin SP. 1968. Reconstructions of centriole formation and ciliogenesis in mammalian lungs. J Cell Sci 3:207-230.
    • (1968) J Cell Sci , vol.3 , pp. 207-230
    • Sorokin, S.P.1
  • 47
    • 0035142876 scopus 로고    scopus 로고
    • Centrosomes and the Scrambled protein coordinate microtubule-independent actin reorganization
    • Stevenson VA, Kramer J, Kuhn J, Theurkauf WE. 2001. Centrosomes and the Scrambled protein coordinate microtubule-independent actin reorganization. Nat. Cell Biol 3:68-75.
    • (2001) Nat. Cell Biol , vol.3 , pp. 68-75
    • Stevenson, V.A.1    Kramer, J.2    Kuhn, J.3    Theurkauf, W.E.4
  • 48
    • 0037418835 scopus 로고    scopus 로고
    • Drosophila checkpoint kinase 2 couples centrosome function and assembly to genomic integrity
    • Takada S, Kelkar A, Theurkauf WE. 2003. Drosophila checkpoint kinase 2 couples centrosome function and assembly to genomic integrity. Cell 113:87-99.
    • (2003) Cell , vol.113 , pp. 87-99
    • Takada, S.1    Kelkar, A.2    Theurkauf, W.E.3
  • 49
    • 33847011331 scopus 로고    scopus 로고
    • Wilson EB. 1928. The cell in development and heredity. New York: Macmillan. pp. 119, 150-156, 508-509.
    • Wilson EB. 1928. The cell in development and heredity. New York: Macmillan. pp. 119, 150-156, 508-509.
  • 50
    • 27544511424 scopus 로고    scopus 로고
    • A mutation in the centriole-associated protein centrin causes genomic instability via increased chromosome loss
    • Zamora I, Marshall WF. 2005. A mutation in the centriole-associated protein centrin causes genomic instability via increased chromosome loss. BMC Biol 3:15.
    • (2005) BMC Biol , vol.3 , pp. 15
    • Zamora, I.1    Marshall, W.F.2

* 이 정보는 Elsevier사의 SCOPUS DB에서 KISTI가 분석하여 추출한 것입니다.