Sister chromatid cohesion and centromere organization in meiosis

Genome Dynamics and Stability

Volumn 2, Issue , 2008, Pages 57-79

  Tanaka, Koichi ^a   Watanabe, Yoshinori ^a  

^a UNIVERSITY OF TOKYO   (Japan)

Author keywords

[No Author keywords available]

Indexed keywords

EID: 36448995491     PISSN: 18613373     EISSN: 18613381     Source Type: Book Series    
DOI: 10.1007/7050_2007_027     Document Type: Article

References (76)

1. Alexandru G, Uhlmann F, Mechtler K, Poupart MA, Nasmyth K (2001) Phosphorylation of the cohesin subunit Scc1 by Polo/Cdc5 kinase regulates sister chromatid separation in yeast. Cell 10:459-472
2. Bernard P, Maure JF, Javerzat JP (2001a) Fission yeast Bub1 is essential in setting up the meiotic pattern of chromosome segregation. Nat Cell Biol 3:522-526
3. Bernard P, Maure JF, Partridge JF, Genier S, Javerzat JP, Allshire RC (2001b) Requirement of heterochromatin for cohesion at centromeres. Science 294:2539-2542
4. Bloom K, Sharma S, Dokholyan NV (2006) The path of DNA in the kinetochore. Curr Biol 16:R276-278
5. Buonomo SB, Clyne RK, Fuchs J, Loidl J, Uhlmann F, Nasmyth K (2000) Disjunction of homologous chromosomes in meiosis I depends on proteolytic cleavage of the meiotic cohesin Rec8 by separin. Cell 103:387-398
6. Chelysheva L, Diallo S, Vezon D, Gendrot G, Vrielynck N, Belcram K, Rocques N, Marquez-Lema A, Bhatt AM, Horlow C, Mercier R, Mezard C, Grelon M (2005) AtREC8 and AtSCC3 are essential to the monopolar orientation of the kinetochores during meiosis. J Cell Sci 118:4621-4632
7. Ciosk R, Shirayama M, Shevchenko A, Tanaka T, Toth A, Shevchenko A, Nasmyth K (2000) Cohesin's binding to chromosomes depends on a separate complex consisting of Scc2 and Scc4 proteins. Mol Cell 5:243-254
8. Clarke AS, Tang TT, Ooi DL, Orr-Weaver TL (2005) POLO kinase regulates the Drosophila centromere cohesion protein MEI-S332. Dev Cell 8:53-64
9. Clyne RK, Katis VL, Jessop L, Benjamin KR, Herskowitz I, Lichten M, Nasmyth K (2003) Polo-like kinase Cdc5 promotes chiasmata formation and cosegregation of sister centromeres at meiosis I. Nat Cell Biol 5:480-485
10. DeVeaux LC, Smith GR (1994) Region-specific activators of meiotic recombination in Schizosaccharomyces pombe. Genes Dev 8:203-210
11. Gandhi R, Gillespie PJ, Hirano T (2006) Human Wapl is a cohesin-binding protein that promotes sister-chromatid resolution in mitotic prophase. Curr Biol 16:2406-2417
12. Haering CH, Nasmyth K (2003) Building and breaking bridges between sister chromatids. BioEssays 25:1178-1191
13. Hanna JS, Kroll ES, Lundblad V, Spencer FA (2001) Saccharomyces cerevisiae CTF18 and CTF4 are required for sister chromatid cohesion. Mol Cell Biol 21:3144-3158
14. Hauf S, Waizenegger IC, Peters JM (2001) Cohesin cleavage by separase required for anaphase and cytokinesis in human cells. Science 293:1320-1323
15. Hauf S, Watanabe Y (2004) Kinetochore orientation in mitosis and meiosis. Cell 119:317-327
16. Hauf S, Roitinger E, Koch B, Dittrich CM, Mechtler K, Peters JM (2005) Dissociation of cohesin from chromosome arms and loss of arm cohesion during early mitosis depends on phosphorylation of SA2. PLoS Biol 3:e69
17. Hornig NC, Uhlmann F (2004) Preferential cleavage of chromatin-bound cohesin after targeted phosphorylation by Polo-like kinase. EMBO J 23:3144-3153
18. Indjeian VB, Stern BM, Murray AW (2005) The centromeric protein Sgo1 is required to sense lack of tension on mitotic chromosomes. Science 307:130-133
19. Ivanov D, Schleiffer A, Eisenhaber F, Mechtler K, Haering CH, Nasmyth K (2002) Eco1 is a novel acetyltransferase that can acetylate proteins involved in cohesion. Curr Biol 12:323-328
20. Katis VL, Galova M, Rabitsch KP, Gregan J, Nasmyth K (2004a) Maintenance of cohesin at centromeres after meiosis I in budding yeast requires a kinetochore-associated protein related to MEI-S332. Curr Biol 14:560-572
21. Katis VL, Matos J, Mori S, Shirahige K, Zachariae W, Nasmyth K (2004b) Spo13 facilitates monopolin recruitment to kinetochores and regulates maintenance of centromeric cohesion during yeast meiosis. Curr Biol 14:2183-2196
22. Kawashima SA, Tsukahara T, Langegger M, Hauf S, Kitajima TS, Watanabe Y (2007) Shugoshin enables tension-generating attachment of kinetochores by loading Aurora to centromeres. Genes Dev 21:420-435
23. Kenna MA, Skibbens RV (2003) Mechanical link between cohesion establishment and DNA replication: Ctf7p/Eco1p, a cohesion establishment factor, associates with three different replication factor C complexes. Mol Cell Biol 23:2999-3007
24. Kerrebrock AW, Moore DP, Wu JS, Orr-Weaver TL (1995) MEI-S332, a Drosophila protein required for sister-chromatid cohesion, can localize to meiotic centromere regions. Cell 83:247-256
25. Kiburz BM, Reynolds DB, Megee PC, Marston AL, Lee BH, Lee TI, Levine SS, Young RA, Amon A (2005) The core centromere and Sgo1 establish a 50-kb cohesin-protected domain around centromeres during meiosis I. Genes Dev 19:3017-3030
26. Kitajima TS, Miyazaki Y, Yamamoto M, Watanabe Y (2003a) Rec8 cleavage by separase is required for meiotic nuclear divisions in fission yeast. EMBO J 22:5643-5653
27. Kitajima TS, Yokobayashi S, Yamamoto M, Watanabe Y (2003b) Distinct cohesin complexes organize meiotic chromosome domains. Science 300:1152-1155
28. Kitajima TS, Kawashima SA, Watanabe Y (2004) The conserved kinetochore protein shugoshin protects centromeric cohesion during meiosis. Nature 427:510-517
29. Kitajima TS, Hauf S, Ohsugi M, Yamamoto T, Watanabe Y (2005) Human Bub1 defines the persistent cohesion site along the mitotic chromosome by affecting Shugoshin localization. Curr Biol 15:353-359
30. Kitajima TS, Sakuno T, Ishiguro K, Iemura S, Natsume T, Kawashima SA, Watanabe Y (2006) Shugoshin collaborates with protein phosphatase 2A to protect cohesin. Nature 441:46-52
31. Klein F, Mahr P, Galova M, Buonomo SBC, Michaelis C, Nairz K, Nasmyth K (1999) A central role for cohesins in sister chromatid cohesion, formation of axial elements, and recombination during yeast meiosis. Cell 98:91-103
32. Kobayshi T, Horinouchi T, Tongaonkar P, Vu L, Nomura M (2004) SIR2 regulates recombination between different rDNA repeats, but not recombination within individual rRNA genes in yeast. Cell 117:441-453
33. Kueng S, Hegemann B, Peters BH, Lipp JJ, Schleiffer A, Mechtler K, Peters JM (2006) Wapl controls the dynamic association of cohesin with chromatin. Cell 127:955-967
34. Lee BH, Amon A (2003) Role of Polo-like kinase CDC5 in programming meiosis I chromosome segregation. Science 300:482-486
35. Lee BH, Kiburz BM, Amon A (2004) Spo13 maintains centromeric cohesion and kinetochore coorientation during meiosis I. Curr Biol 14:2168-2182
36. Lee JY, Hayashi-Hagihara A, Orr-Weaver TL (2005) Roles and regulation of the Drosophila centromere cohesion protein MEI-S332 family. Philos Trans R Soc Lond B Biol Sci 360:543-552
37. Lee JY, Orr-Weaver TL (2001) The molecular basis of sister-chromatid cohesion. Annu Rev Cell Dev Biol 17:753-777
38. Lengronne A, McIntyre J, Katou Y, Kanoh Y, Hopfner KP, Shirahige K, Uhlmann F (2006) Establishment of sister chromatid cohesion at the S. cerevisiae replication fork. Mol Cell 23:787-799
39. Losada A, Hirano M, Hirano T (2002) Cohesin release is required for sister chromatid resolution, but not for condensin-mediated compaction, at the onset of mitosis. Genes Dev 16:3004-3016
40. Marston AL, Tham WH, Shah H, Amon A (2004) A genome-wide screen identifies genes required for centromeric cohesion. Science 303:1367-1370
41. Mayer ML, Gygi SP, Aebersold R, Hieter P (2001) Identification of RFC (Ctf18p, Ctf8p, Dcc1p): An alternative RFC complex required for sister chromatid cohesion in S. cerevisiae. Mol Cell 7:959-970
42. Mayer ML, Pot I, Chang M, Xu H, Aneliunas V, Kwok T, Newitt R, Aebersold R, Boone C, Brown GW, Hieter P (2004) Identification of protein complexes required for efficient sister chromatid cohesion. Mol Biol Cell 15:1736-1745
43. McGuinness BE, Hirota T, Kudo NR, Peters JM, Nasmyth K (2005) Shugoshin prevents dissociation of cohesin from centromeres during mitosis in vertebrate cells. PLoS Biol 3:e86
44. Moldovan GL, Pfander B, Jentsch S (2006) PCNA controls establishment of sister chromatid cohesion during S phase. Mol Cell 23:723-732
45. Nakaseko Y, Goshima G, Morishita J, Yanagida M (2001) M phase-specific kinetochore proteins in fission yeast: Microtubule-associating Dis1 and Mtc1 display rapid separation and segregation during anaphase. Curr Biol 11:537-549
46. Nasmyth K (2001) Disseminating the genome: Joining, resolving, and separating sister chromatids during mitosis and meiosis. Annu Rev Genet 35:673-745
47. Nasmyth K, Haering CH (2005) The structure and function of SMC and kleisin complexes. Annu Rev Biochem 74:595-648
48. Nonaka N, Kitajima T, Yokobayashi S, Xiao G, Yamamoto M, Grewal SI, Watanabe Y (2002) Recruitment of cohesin to heterochromatic regions by Swi6/HP1 in fission yeast. Nat Cell Biol 4:89-93
49. Parisi S, McKay MJ, Molnar M, Thompson MA, van der Spek PJ, van Drunen-Schoenmaker E, Kannar R, Lehmann E, Hoeijmakers JHJ, Kohli J (1999) Rec8p, a meiotic recombination and sister chromatid cohesion phosphoprotein of the Rad21p family, conserved from fission yeast to humans. Mol Cell Biol 19:3515-3528
50. Petronczki M, Siomos MF, Nasmyth K (2003) Un menage a quatre: The molecular biology of chromosome segregation in meiosis. Cell 112:423-440
51. Petronczki M, Chwalla B, Siomos MF, Yokobayashi S, Helmhart W, Deutschbauer AM, Davis RW, Watanabe Y, Nasmyth K (2004) Sister-chromatid cohesion mediated by the alternative RF-CCtf18/Dcc1/Ctf8, the helicase Chl1 and the polymerase-alpha-associated protein Ctf4 is essential for chromatid disjunction during meiosis II. J Cell Sci 117:3547-3559
52. Petronczki M, Matos J, Mori S, Gregan J, Bogdanova A, Schwickart M, Mechtler K, Shirahige K, Zachariae W, Nasmyth K (2006) Monopolar attachment of sister kinetochores at meiosis I requires casein kinase 1. Cell 126:1049-1064
53. Rabitsch KP, Petronczki M, Javerzat JP, Genier S, Chwalla B, Schleiffer A, Tanaka TU, Nasmyth K (2003) Kinetochore recruitment of two nucleolar proteins is required for homolog segregation in meiosis I. Dev Cell 4:535-548
54. Rabitsch KP, Gregan J, Schleiffer A, Javerzat JP, Eisenhaber F, Nasmyth K (2004) Two fission yeast homologs of Drosophila Mei-S332 are required for chromosome segregation during meiosis I and II. Curr Biol 14:287-301
55. Resnick TD, Satinover DL, MacIsaac F, Stukenberg PT, Earnshaw WC, Orr-Weaver TL, Carmena M (2006) INCENP and Aurora B promote meiotic sister chromatid cohesion through localization of the Shugoshin MEI-S332 in Drosophila. Dev Cell 11:57-68
56. Riedel CG, Katis VL, Katou Y, Mori S, Itoh T, Helmhart W, Galova M, Petronczki M, Gregan J, Cetin B, Mudrak I, Ogris E, Mechtler K, Pelletier L, Buchholz F, Shirahige K, Nasmyth K (2006) Protein phosphatase 2A protects centromeric sister chromatid cohesion during meiosis I. Nature 441:53-61
57. Salic A, Waters JC, Mitchison TJ (2004) Vertebrate shugoshin links sister centromere cohesion and kinetochore microtubule stability in mitosis. Cell 118:567-578
58. Skibbens RV (2004) Chl1p, a DNA helicase-like protein in budding yeast, functions in sister-chromatid cohesion. Genetics 166:33-42
59. Skibbens RV, Corson LB, Koshland D, Hieter P (1999) Ctf7p is essential for sister chromatid cohesion and links mitotic chromosome structure to the DNA replication machinery. Genes Dev 13:307-319
60. Ström L, Sjögren C (2005) DNA damage-induced cohesion. Cell Cycle 4:536-539
61. Sumara I, Vorlaufer E, Stukenberg PT, Kelm O, Redemann N, Nigg EA, Peters JM (2002) The dissociation of cohesin from chromosomes in prophase is regulated by Polo-like kinase. Mol Cell 9:515-525
62. Takahashi K, Murakami S, Chikashige Y, Funabiki H, Niwa O, Yanagida M (1992) A low copy number central sequence with strict symmetry and unusual chromatin structure in fission yeast centromere. Mol Biol Cell 3:819-835
63. Tanaka TU (2005) Chromosome bi-orientation on the mitotic spindle. Philos Trans R Soc Lond B Biol Sci 360:581-589
64. Tang Z, Sun Y, Harley SE, Zou H, Yu H (2004) Human Bub1 protects centromeric sister-chromatid cohesion through Shugoshin during mitosis. Proc Natl Acad Sci USA 101:18012-18017
65. Tang Z, Shu H, Qi W, Mahmood NA, Mumby MC, Yu H (2006) PP2A is required for centromeric localization of Sgo1 and proper chromosome segregation. Dev Cell 10:575-585
66. Toth A, Ciosk R, Uhlmann F, Galova M, Schleiffer A, Nasmyth K (1999) Yeast cohesin complex requires a conserved protein, Eco1p(Ctf7), to establish cohesion between sister chromatids during DNA replication. Genes Dev 13:320-333
67. Toth A, Rabitsch KP, Galova M, Schleiffer A, Buonomo SB, Nasmyth K (2000) Functional genomics identifies monopolin: A kinetochore protein required for segregation of homologs during meiosis I. Cell 103:1155-1168
68. Uhlmann F (2003) Chromosome cohesion and separation: From men and molecules. Curr Biol 13:R104-R114
69. Uhlmann F, Nasmyth K (1998) Cohesion between sister chromatids must be established during DNA replication. Curr Biol 8:1095-1101
70. Watanabe Y (2005) Shugoshin: Guardian spirit at the centromere. Curr Opin Cell Biol 17:590-595
71. Watanabe Y, Nurse P (1999) Cohesin Rec8 is required for reductional chromosome segregation at meiosis. Nature 400:461-464
72. Watanabe Y, Yokobayashi S, Yamamoto M, Nurse P (2001) Premeiotic S phase is linked to reductional chromosome segregation and recombination. Nature 409:359-363
73. Xu H, Boone C, Klein HL (2004) Mrc1 is required for sister chromatid cohesion to aid in recombination repair of spontaneous damage. Mol Cell Biol 24:7082-7090
74. Yokobayashi S, Watanabe Y (2005) The kinetochore protein Moa1 enables cohesionmediated monopolar attachment at meiosis I. Cell 123:803-817
75. Yokobayashi S, Yamamoto M, Watanabe Y (2003) Cohesins determine the attachment manner of kinetochores to spindle microtubules at meiosis I in fission yeast. Mol Cell Biol 23:3965-3973
76. Yu HG, Dawe RK (2000) Functional redundancy in the maize meiotic kinetochore. J Cell Biol 151:131-142