-
1
-
-
0037459109
-
Centromeres and kinetochores: from epigenetics to mitotic checkpoint signaling
-
Cleveland D. W, Mao Y, Sullivan K. F, (2003) Centromeres and kinetochores: from epigenetics to mitotic checkpoint signaling. Cell 112: 407-421.
-
(2003)
Cell
, vol.112
, pp. 407-421
-
-
Cleveland, D.W.1
Mao, Y.2
Sullivan, K.F.3
-
2
-
-
73349105276
-
The kinetochore and the centromere: a working long distance relationship
-
Przewloka M. R, Glover D. M, (2009) The kinetochore and the centromere: a working long distance relationship. Annu Rev Genet 43: 439-465.
-
(2009)
Annu Rev Genet
, vol.43
, pp. 439-465
-
-
Przewloka, M.R.1
Glover, D.M.2
-
3
-
-
69849107380
-
The life and miracles of kinetochores
-
Santaguida S, Musacchio A, (2009) The life and miracles of kinetochores. EMBO J 28: 2511-2531.
-
(2009)
EMBO J
, vol.28
, pp. 2511-2531
-
-
Santaguida, S.1
Musacchio, A.2
-
4
-
-
37549071893
-
Molecular architecture of the kinetochore-microtubule interface
-
Cheeseman I. M, Desai A, (2008) Molecular architecture of the kinetochore-microtubule interface. Nat Rev Mol Cell Biol 9: 33-46.
-
(2008)
Nat Rev Mol Cell Biol
, vol.9
, pp. 33-46
-
-
Cheeseman, I.M.1
Desai, A.2
-
5
-
-
0031963396
-
Neocentromere activity of structurally acentric mini-chromosomes in Drosophila
-
Williams B. C, Murphy T. D, Goldberg M. L, Karpen G. H, (1998) Neocentromere activity of structurally acentric mini-chromosomes in Drosophila. Nat Genet 18: 30-37.
-
(1998)
Nat Genet
, vol.18
, pp. 30-37
-
-
Williams, B.C.1
Murphy, T.D.2
Goldberg, M.L.3
Karpen, G.H.4
-
6
-
-
0032942659
-
Sequence analysis of an 80 kb human neocentromere
-
Barry A. E, Howman E. V, Cancilla M. R, Saffery R, Choo K. H, (1999) Sequence analysis of an 80 kb human neocentromere. Hum Mol Genet 8: 217-227.
-
(1999)
Hum Mol Genet
, vol.8
, pp. 217-227
-
-
Barry, A.E.1
Howman, E.V.2
Cancilla, M.R.3
Saffery, R.4
Choo, K.H.5
-
7
-
-
70449379045
-
Genome sequence, comparative analysis, and population genetics of the domestic horse
-
Wade C. M, Giulotto E, Sigurdsson S, Zoli M, Gnerre S, et al. (2009) Genome sequence, comparative analysis, and population genetics of the domestic horse. Science 326: 865-867.
-
(2009)
Science
, vol.326
, pp. 865-867
-
-
Wade, C.M.1
Giulotto, E.2
Sigurdsson, S.3
Zoli, M.4
Gnerre, S.5
-
8
-
-
77649206825
-
Uncoupling of satellite DNA and centromeric function in the genus Equus
-
doi:10.1371/journal.pgen.1000845
-
Piras F. M, Nergadze S. G, Magnani E, Bertoni L, Attolini C, et al. (2010) Uncoupling of satellite DNA and centromeric function in the genus Equus. PLoS Genet 6: e1000845 doi:10.1371/journal.pgen.1000845.
-
(2010)
PLoS Genet
, vol.6
-
-
Piras, F.M.1
Nergadze, S.G.2
Magnani, E.3
Bertoni, L.4
Attolini, C.5
-
9
-
-
0025763392
-
Purification of the centromere-specific protein CENP-A and demonstration that it is a distinctive histone
-
Palmer D. K, O'Day K, Trong H. L, Charbonneau H, Margolis R. L, (1991) Purification of the centromere-specific protein CENP-A and demonstration that it is a distinctive histone. Proc Natl Acad Sci U S A 88: 3734-3738.
-
(1991)
Proc Natl Acad Sci U S A
, vol.88
, pp. 3734-3738
-
-
Palmer, D.K.1
O'Day, K.2
Trong, H.L.3
Charbonneau, H.4
Margolis, R.L.5
-
10
-
-
0028104174
-
Human CENP-A contains a histone H3 related histone fold domain that is required for targeting to the centromere
-
Sullivan K. F, Hechenberger M, Masri K, (1994) Human CENP-A contains a histone H3 related histone fold domain that is required for targeting to the centromere. J Cell Biol 127: 581-592.
-
(1994)
J Cell Biol
, vol.127
, pp. 581-592
-
-
Sullivan, K.F.1
Hechenberger, M.2
Masri, K.3
-
11
-
-
0028946805
-
A mutation in CSE4, an essential gene encoding a novel chromatin-associated protein in yeast, causes chromosome nondisjunction and cell cycle arrest at mitosis
-
Stoler S, Keith K. C, Curnick K. E, Fitzgerald-Hayes M, (1995) A mutation in CSE4, an essential gene encoding a novel chromatin-associated protein in yeast, causes chromosome nondisjunction and cell cycle arrest at mitosis. Genes Dev 9: 573-586.
-
(1995)
Genes Dev
, vol.9
, pp. 573-586
-
-
Stoler, S.1
Keith, K.C.2
Curnick, K.E.3
Fitzgerald-Hayes, M.4
-
12
-
-
56549108407
-
Epigenetic regulation of centromeric chromatin: old dogs, new tricks?
-
Allshire R. C, Karpen G. H, (2008) Epigenetic regulation of centromeric chromatin: old dogs, new tricks? Nat Rev Genet 9: 923-937.
-
(2008)
Nat Rev Genet
, vol.9
, pp. 923-937
-
-
Allshire, R.C.1
Karpen, G.H.2
-
13
-
-
77954814097
-
Down the rabbit hole of centromere assembly and dynamics
-
Dalal Y, Bui M, (2010) Down the rabbit hole of centromere assembly and dynamics. Curr Opin Cell Biol 22: 392-402.
-
(2010)
Curr Opin Cell Biol
, vol.22
, pp. 392-402
-
-
Dalal, Y.1
Bui, M.2
-
14
-
-
79951709224
-
Epigenetic centromere propagation and the nature of CENP-A nucleosomes
-
Black B. E, Cleveland D. W, (2011) Epigenetic centromere propagation and the nature of CENP-A nucleosomes. Cell 144: 471-479.
-
(2011)
Cell
, vol.144
, pp. 471-479
-
-
Black, B.E.1
Cleveland, D.W.2
-
15
-
-
70349168454
-
Cse4 is part of an octameric nucleosome in budding yeast
-
Camahort R, Shivaraju M, Mattingly M, Li B, Nakanishi S, et al. (2009) Cse4 is part of an octameric nucleosome in budding yeast. Mol Cell 35: 794-805.
-
(2009)
Mol Cell
, vol.35
, pp. 794-805
-
-
Camahort, R.1
Shivaraju, M.2
Mattingly, M.3
Li, B.4
Nakanishi, S.5
-
16
-
-
34548267126
-
Tetrameric structure of centromeric nucleosomes in interphase Drosophila cells
-
doi:10.1371/journal.pbio.0050218
-
Dalal Y, Wang H, Lindsay S, Henikoff S, (2007) Tetrameric structure of centromeric nucleosomes in interphase Drosophila cells. PLoS Biol 5: e218 doi:10.1371/journal.pbio.0050218.
-
(2007)
PLoS Biol
, vol.5
-
-
Dalal, Y.1
Wang, H.2
Lindsay, S.3
Henikoff, S.4
-
17
-
-
34250173486
-
Nonhistone Scm3 and histones CenH3-H4 assemble the core of centromere-specific nucleosomes
-
Mizuguchi G, Xiao H, Wisniewski J, Smith M. M, Wu C, (2007) Nonhistone Scm3 and histones CenH3-H4 assemble the core of centromere-specific nucleosomes. Cell 129: 1153-1164.
-
(2007)
Cell
, vol.129
, pp. 1153-1164
-
-
Mizuguchi, G.1
Xiao, H.2
Wisniewski, J.3
Smith, M.M.4
Wu, C.5
-
18
-
-
77956897642
-
The structure of (CENP-A-H4)(2) reveals physical features that mark centromeres
-
Sekulic N, Bassett E. A, Rogers D. J, Black B. E, (2010) The structure of (CENP-A-H4)(2) reveals physical features that mark centromeres. Nature 467: 347-351.
-
(2010)
Nature
, vol.467
, pp. 347-351
-
-
Sekulic, N.1
Bassett, E.A.2
Rogers, D.J.3
Black, B.E.4
-
19
-
-
3242884785
-
Structural determinants for generating centromeric chromatin
-
Black B. E, Foltz D. R, Chakravarthy S, Luger K, Woods V. L Jr, et al. (2004) Structural determinants for generating centromeric chromatin. Nature 430: 578-582.
-
(2004)
Nature
, vol.430
, pp. 578-582
-
-
Black, B.E.1
Foltz, D.R.2
Chakravarthy, S.3
Luger, K.4
Woods Jr., V.L.5
-
20
-
-
67649664594
-
Centromeric nucleosomes induce positive DNA supercoils
-
Furuyama T, Henikoff S, (2009) Centromeric nucleosomes induce positive DNA supercoils. Cell 138: 104-113.
-
(2009)
Cell
, vol.138
, pp. 104-113
-
-
Furuyama, T.1
Henikoff, S.2
-
21
-
-
33845744494
-
Priming of centromere for CENP-A recruitment by human hMis18alpha, hMis18beta, and M18BP1
-
Fujita Y, Hayashi T, Kiyomitsu T, Toyoda Y, Kokubu A, et al. (2007) Priming of centromere for CENP-A recruitment by human hMis18alpha, hMis18beta, and M18BP1. Dev Cell 12: 17-30.
-
(2007)
Dev Cell
, vol.12
, pp. 17-30
-
-
Fujita, Y.1
Hayashi, T.2
Kiyomitsu, T.3
Toyoda, Y.4
Kokubu, A.5
-
22
-
-
33947274529
-
Propagation of centromeric chromatin requires exit from mitosis
-
Jansen L. E, Black B. E, Foltz D. R, Cleveland D. W, (2007) Propagation of centromeric chromatin requires exit from mitosis. J Cell Biol 176: 795-805.
-
(2007)
J Cell Biol
, vol.176
, pp. 795-805
-
-
Jansen, L.E.1
Black, B.E.2
Foltz, D.R.3
Cleveland, D.W.4
-
23
-
-
65649124957
-
Active establishment of centromeric CENP-A chromatin by RSF complex
-
Perpelescu M, Nozaki N, Obuse C, Yang H, Yoda K, (2009) Active establishment of centromeric CENP-A chromatin by RSF complex. J Cell Biol 185: 397-407.
-
(2009)
J Cell Biol
, vol.185
, pp. 397-407
-
-
Perpelescu, M.1
Nozaki, N.2
Obuse, C.3
Yang, H.4
Yoda, K.5
-
24
-
-
65249129208
-
HJURP is a cell-cycle-dependent maintenance and deposition factor of CENP-A at centromeres
-
Dunleavy E. M, Roche D, Tagami H, Lacoste N, Ray-Gallet D, et al. (2009) HJURP is a cell-cycle-dependent maintenance and deposition factor of CENP-A at centromeres. Cell 137: 485-497.
-
(2009)
Cell
, vol.137
, pp. 485-497
-
-
Dunleavy, E.M.1
Roche, D.2
Tagami, H.3
Lacoste, N.4
Ray-Gallet, D.5
-
25
-
-
65249115338
-
Centromere-specific assembly of CENP-a nucleosomes is mediated by HJURP
-
Foltz D. R, Jansen L. E, Bailey A. O, Yates3rd J. R, Bassett E. A, et al. (2009) Centromere-specific assembly of CENP-a nucleosomes is mediated by HJURP. Cell 137: 472-484.
-
(2009)
Cell
, vol.137
, pp. 472-484
-
-
Foltz, D.R.1
Jansen, L.E.2
Bailey, A.O.3
Yates 3rd, J.R.4
Bassett, E.A.5
-
26
-
-
78649835035
-
A small GTPase molecular switch regulates epigenetic centromere maintenance by stabilizing newly incorporated CENP-A
-
Lagana A, Dorn J. F, De Rop V, Ladouceur A. M, Maddox A. S, et al. (2010) A small GTPase molecular switch regulates epigenetic centromere maintenance by stabilizing newly incorporated CENP-A. Nat Cell Biol 12: 1186-1193.
-
(2010)
Nat Cell Biol
, vol.12
, pp. 1186-1193
-
-
Lagana, A.1
Dorn, J.F.2
de Rop, V.3
Ladouceur, A.M.4
Maddox, A.S.5
-
27
-
-
33644542460
-
Mislocalization of the Drosophila centromere-specific histone CID promotes formation of functional ectopic kinetochores
-
Heun P, Erhardt S, Blower M. D, Weiss S, Skora A. D, et al. (2006) Mislocalization of the Drosophila centromere-specific histone CID promotes formation of functional ectopic kinetochores. Dev Cell 10: 303-315.
-
(2006)
Dev Cell
, vol.10
, pp. 303-315
-
-
Heun, P.1
Erhardt, S.2
Blower, M.D.3
Weiss, S.4
Skora, A.D.5
-
28
-
-
0034762198
-
Specification of kinetochore-forming chromatin by the histone H3 variant CENP-A
-
Van Hooser A. A, Ouspenski II, Gregson H. C, Starr D. A, Yen T. J, et al. (2001) Specification of kinetochore-forming chromatin by the histone H3 variant CENP-A. J Cell Sci 114: 3529-3542.
-
(2001)
J Cell Sci
, vol.114
, pp. 3529-3542
-
-
Van Hooser, A.A.1
Ouspenski, I.I.2
Gregson, H.C.3
Starr, D.A.4
Yen, T.J.5
-
29
-
-
33646740560
-
Comprehensive analysis of the ICEN (Interphase Centromere Complex) components enriched in the CENP-A chromatin of human cells
-
Izuta H, Ikeno M, Suzuki N, Tomonaga T, Nozaki N, et al. (2006) Comprehensive analysis of the ICEN (Interphase Centromere Complex) components enriched in the CENP-A chromatin of human cells. Genes Cells 11: 673-684.
-
(2006)
Genes Cells
, vol.11
, pp. 673-684
-
-
Izuta, H.1
Ikeno, M.2
Suzuki, N.3
Tomonaga, T.4
Nozaki, N.5
-
30
-
-
33745004786
-
The human CENP-A centromeric nucleosome-associated complex
-
Foltz D. R, Jansen L. E, Black B. E, Bailey A. O, Yates3rd J. R, et al. (2006) The human CENP-A centromeric nucleosome-associated complex. Nat Cell Biol 8: 458-469.
-
(2006)
Nat Cell Biol
, vol.8
, pp. 458-469
-
-
Foltz, D.R.1
Jansen, L.E.2
Black, B.E.3
Bailey, A.O.4
Yates 3rd, J.R.5
-
31
-
-
33744970012
-
The CENP-H-I complex is required for the efficient incorporation of newly synthesized CENP-A into centromeres
-
Okada M, Cheeseman I. M, Hori T, Okawa K, McLeod I. X, et al. (2006) The CENP-H-I complex is required for the efficient incorporation of newly synthesized CENP-A into centromeres. Nat Cell Biol 8: 446-457.
-
(2006)
Nat Cell Biol
, vol.8
, pp. 446-457
-
-
Okada, M.1
Cheeseman, I.M.2
Hori, T.3
Okawa, K.4
McLeod, I.X.5
-
32
-
-
57149129148
-
CCAN makes multiple contacts with centromeric DNA to provide distinct pathways to the outer kinetochore
-
Hori T, Amano M, Suzuki A, Backer C. B, Welburn J. P, et al. (2008) CCAN makes multiple contacts with centromeric DNA to provide distinct pathways to the outer kinetochore. Cell 135: 1039-1052.
-
(2008)
Cell
, vol.135
, pp. 1039-1052
-
-
Hori, T.1
Amano, M.2
Suzuki, A.3
Backer, C.B.4
Welburn, J.P.5
-
33
-
-
33749569228
-
Mapping the assembly pathways that specify formation of the trilaminar kinetochore plates in human cells
-
Liu S. T, Rattner J. B, Jablonski S. A, Yen T. J, (2006) Mapping the assembly pathways that specify formation of the trilaminar kinetochore plates in human cells. J Cell Biol 175: 41-53.
-
(2006)
J Cell Biol
, vol.175
, pp. 41-53
-
-
Liu, S.T.1
Rattner, J.B.2
Jablonski, S.A.3
Yen, T.J.4
-
34
-
-
70350234665
-
CENP-H-containing complex facilitates centromere deposition of CENP-A in cooperation with FACT and CHD1
-
Okada M, Okawa K, Isobe T, Fukagawa T, (2009) CENP-H-containing complex facilitates centromere deposition of CENP-A in cooperation with FACT and CHD1. Mol Biol Cell 20: 3986-3995.
-
(2009)
Mol Biol Cell
, vol.20
, pp. 3986-3995
-
-
Okada, M.1
Okawa, K.2
Isobe, T.3
Fukagawa, T.4
-
35
-
-
77954396194
-
Dual recognition of CENP-A nucleosomes is required for centromere assembly
-
Carroll C. W, Milks K. J, Straight A. F, (2010) Dual recognition of CENP-A nucleosomes is required for centromere assembly. J Cell Biol 189: 1143-1155.
-
(2010)
J Cell Biol
, vol.189
, pp. 1143-1155
-
-
Carroll, C.W.1
Milks, K.J.2
Straight, A.F.3
-
36
-
-
67650065426
-
Centromere assembly requires the direct recognition of CENP-A nucleosomes by CENP-N
-
Carroll C. W, Silva M. C, Godek K. M, Jansen L. E, Straight A. F, (2009) Centromere assembly requires the direct recognition of CENP-A nucleosomes by CENP-N. Nat Cell Biol 11: 896-902.
-
(2009)
Nat Cell Biol
, vol.11
, pp. 896-902
-
-
Carroll, C.W.1
Silva, M.C.2
Godek, K.M.3
Jansen, L.E.4
Straight, A.F.5
-
37
-
-
37449015481
-
CENP-B controls centromere formation depending on the chromatin context
-
Okada T, Ohzeki J, Nakano M, Yoda K, Brinkley W. R, et al. (2007) CENP-B controls centromere formation depending on the chromatin context. Cell 131: 1287-1300.
-
(2007)
Cell
, vol.131
, pp. 1287-1300
-
-
Okada, T.1
Ohzeki, J.2
Nakano, M.3
Yoda, K.4
Brinkley, W.R.5
-
38
-
-
78751636707
-
Epigenetic engineering shows H3K4me2 is required for HJURP targeting and CENP-A assembly on a synthetic human kinetochore
-
Bergmann J. H, Rodriguez M. G, Martins N. M, Kimura H, Kelly D. A, et al. (2011) Epigenetic engineering shows H3K4me2 is required for HJURP targeting and CENP-A assembly on a synthetic human kinetochore. Embo J 30: 328-340.
-
(2011)
Embo J
, vol.30
, pp. 328-340
-
-
Bergmann, J.H.1
Rodriguez, M.G.2
Martins, N.M.3
Kimura, H.4
Kelly, D.A.5
-
39
-
-
41849114919
-
Inactivation of a human kinetochore by specific targeting of chromatin modifiers
-
Nakano M, Cardinale S, Noskov V. N, Gassmann R, Vagnarelli P, et al. (2008) Inactivation of a human kinetochore by specific targeting of chromatin modifiers. Dev Cell 14: 507-522.
-
(2008)
Dev Cell
, vol.14
, pp. 507-522
-
-
Nakano, M.1
Cardinale, S.2
Noskov, V.N.3
Gassmann, R.4
Vagnarelli, P.5
-
40
-
-
0001577707
-
The replication of DNA in Escherichia coli
-
Meselson M, Stahl F. W, (1958) The replication of DNA in Escherichia coli. Proc Natl Acad Sci U S A 44: 671-682.
-
(1958)
Proc Natl Acad Sci U S A
, vol.44
, pp. 671-682
-
-
Meselson, M.1
Stahl, F.W.2
-
41
-
-
0035889085
-
The concept of self-organization in cellular architecture
-
Misteli T, (2001) The concept of self-organization in cellular architecture. J Cell Biol 155: 181-185.
-
(2001)
J Cell Biol
, vol.155
, pp. 181-185
-
-
Misteli, T.1
-
42
-
-
67749147135
-
The CENP-S complex is essential for the stable assembly of outer kinetochore structure
-
Amano M, Suzuki A, Hori T, Backer C, Okawa K, et al. (2009) The CENP-S complex is essential for the stable assembly of outer kinetochore structure. J Cell Biol 186: 173-182.
-
(2009)
J Cell Biol
, vol.186
, pp. 173-182
-
-
Amano, M.1
Suzuki, A.2
Hori, T.3
Backer, C.4
Okawa, K.5
-
43
-
-
67149142163
-
Live-cell imaging reveals sustained centromere binding of CENP-T via CENP-A and CENP-B
-
Hellwig D, Munch S, Orthaus S, Hoischen C, Hemmerich P, et al. (2008) Live-cell imaging reveals sustained centromere binding of CENP-T via CENP-A and CENP-B. J Biophotonics 1: 245-254.
-
(2008)
J Biophotonics
, vol.1
, pp. 245-254
-
-
Hellwig, D.1
Munch, S.2
Orthaus, S.3
Hoischen, C.4
Hemmerich, P.5
-
44
-
-
67650299735
-
Cancer-upregulated gene 2 (CUG2), a new component of centromere complex, is required for kinetochore function
-
Kim H, Lee M, Lee S, Park B, Koh W, et al. (2009) Cancer-upregulated gene 2 (CUG2), a new component of centromere complex, is required for kinetochore function. Mol Cells 27: 697-701.
-
(2009)
Mol Cells
, vol.27
, pp. 697-701
-
-
Kim, H.1
Lee, M.2
Lee, S.3
Park, B.4
Koh, W.5
-
45
-
-
0031049028
-
Assembly of CENP-A into centromeric chromatin requires a cooperative array of nucleosomal DNA contact sites
-
Shelby R. D, Vafa O, Sullivan K. F, (1997) Assembly of CENP-A into centromeric chromatin requires a cooperative array of nucleosomal DNA contact sites. J Cell Biol 136: 501-513.
-
(1997)
J Cell Biol
, vol.136
, pp. 501-513
-
-
Shelby, R.D.1
Vafa, O.2
Sullivan, K.F.3
-
46
-
-
0028287114
-
CENP-C is required for maintaining proper kinetochore size and for a timely transition to anaphase
-
Tomkiel J, Cooke C. A, Saitoh H, Bernat R. L, Earnshaw W. C, (1994) CENP-C is required for maintaining proper kinetochore size and for a timely transition to anaphase. J Cell Biol 125: 531-545.
-
(1994)
J Cell Biol
, vol.125
, pp. 531-545
-
-
Tomkiel, J.1
Cooke, C.A.2
Saitoh, H.3
Bernat, R.L.4
Earnshaw, W.C.5
-
47
-
-
41549127153
-
Dynamics of inner kinetochore assembly and maintenance in living cells
-
Hemmerich P, Weidtkamp-Peters S, Hoischen C, Schmiedeberg L, Erliandri I, et al. (2008) Dynamics of inner kinetochore assembly and maintenance in living cells. J Cell Biol 180: 1101-1114.
-
(2008)
J Cell Biol
, vol.180
, pp. 1101-1114
-
-
Hemmerich, P.1
Weidtkamp-Peters, S.2
Hoischen, C.3
Schmiedeberg, L.4
Erliandri, I.5
-
48
-
-
77953801741
-
A super-resolution map of the vertebrate kinetochore
-
Ribeiro S. A, Vagnarelli P, Dong Y, Hori T, McEwen B. F, et al. (2010) A super-resolution map of the vertebrate kinetochore. Proc Natl Acad Sci U S A 107: 10484-10489.
-
(2010)
Proc Natl Acad Sci U S A
, vol.107
, pp. 10484-10489
-
-
Ribeiro, S.A.1
Vagnarelli, P.2
Dong, Y.3
Hori, T.4
McEwen, B.F.5
-
49
-
-
0034722340
-
Chromatin assembly at kinetochores is uncoupled from DNA replication
-
Shelby R. D, Monier K, Sullivan K. F, (2000) Chromatin assembly at kinetochores is uncoupled from DNA replication. J Cell Biol 151: 1113-1118.
-
(2000)
J Cell Biol
, vol.151
, pp. 1113-1118
-
-
Shelby, R.D.1
Monier, K.2
Sullivan, K.F.3
-
50
-
-
0019849638
-
Kinetochore structure, duplication, and distribution in mammalian cells: analysis by human autoantibodies from scleroderma patients
-
Brenner S, Pepper D, Berns M. W, Tan E, Brinkley B. R, (1981) Kinetochore structure, duplication, and distribution in mammalian cells: analysis by human autoantibodies from scleroderma patients. J Cell Biol 91: 95-102.
-
(1981)
J Cell Biol
, vol.91
, pp. 95-102
-
-
Brenner, S.1
Pepper, D.2
Berns, M.W.3
Tan, E.4
Brinkley, B.R.5
-
51
-
-
0025773130
-
Disruption of centromere assembly during interphase inhibits kinetochore morphogenesis and function in mitosis
-
Bernat R. L, Delannoy M. R, Rothfield N. F, Earnshaw W. C, (1991) Disruption of centromere assembly during interphase inhibits kinetochore morphogenesis and function in mitosis. Cell 66: 1229-1238.
-
(1991)
Cell
, vol.66
, pp. 1229-1238
-
-
Bernat, R.L.1
Delannoy, M.R.2
Rothfield, N.F.3
Earnshaw, W.C.4
-
52
-
-
33846809037
-
DNA methylation promotes Aurora-B-driven phosphorylation of histone H3 in chromosomal subdomains
-
Monier K, Mouradian S, Sullivan K. F, (2007) DNA methylation promotes Aurora-B-driven phosphorylation of histone H3 in chromosomal subdomains. J Cell Sci 120: 101-114.
-
(2007)
J Cell Sci
, vol.120
, pp. 101-114
-
-
Monier, K.1
Mouradian, S.2
Sullivan, K.F.3
|