细胞生物学教程

[1] AbdelRahman YM, Belland RJ. 2005. The chlamydial developmental. FEMS Microbiology Reviews, 29:949-959. 文献编号: 13032.

[2] Alberts et al. 2002. Chapter 17: The cell cycle and programmed cell death, in Molecular Biology of The Cell 4th. Garland Science Publishing, 983-1026. 文献编号: 13142.

[3] Allshire, R. 2004. Cell division: guardian spirit blesses meiosis. Nature, 427:495-497. 文献编号: 13082.

[4] Amor DJ, Kalitsis P, Sumer H, et al. 2004. Building the centromere: from foundation proteins to 3D organization. Trends in Cell Biology, 14:359-368. 文献编号: 13064.

[5] Bardin AJ, Amon A. 2001. Men and sin: what’s the difference?. Nature Reviews/Molecular Cell Biology, 2:815-826. 文献编号: 13161.

[6] Bates D,.Kleckner N. 2005. Chromosome and Replisome Dynamics in E. coli: Loss of Sister Cohesion Triggers Global Chromosome Movement and Mediates Chromosome Segregation . Cell, 121:899-911. 文献编号: 13036.

[7] Bellaiche Y, Gotta M. 2005. Heterotrimeric G proteins and regulation of size asymmetry during cell division. Current Opinion in Cell Biology, 17:658–663. 文献编号: 13230.

[8] Bernard P, Maure JF, Partridge JF et al. 2001. Requirement of heterochromatin for cohesion at centromeres. Science, 294:2539-2542. 文献编号: 13128.

[9] Bhatt AM, Canales C, Dickinson HG. 2001. Plant meiosis: the means to 1N . Trends in Plant Science, 6:114-121. 文献编号: 13002.

[10] Biggins S, Walczak CE. 2003. Captivating Capture: How Microtubules Attach to Kinetochores. Current Biology, 13:R449-R460. 文献编号: 13067.

[11] Blanco MA, Sanchez-Diaz A, de Prada JM, et al. 2000. APC(ste9/srw1) promotes degradation of mitotic cyclins in G(1) and is inhibited by cdc2 phosphorylation. EMBO J, 19:3945-55. 文献编号: 13090.

[12] Boeneman K, Crooke E. 2005. Chromosomal replication and the cell membrane. Current Opinion in Microbiology, 8:143-148. 文献编号: 13040.

[13] Bornens M. 2002. Centrosome composition and microtubule anchoring mechanisms. Current Opinion in Cell Biology, 14:25–34. 文献编号: 13239.

[14] Boutros R, Dozier C, Ducommun B. 2006. The when and wheres of CDC25 phosphatases. Current Opinion in Cell Biology, 18:185–191. 文献编号: 13225.

[15] Branzei D, Foiani M. 2005. The DNA damage response during DNA replication. Current Opinion in Cell Biology, 17:568–575. 文献编号: 13228.

[16] Bravo A, Serrano-Heras G, Salas M. 2005. Compartmentalization of prokaryotic DNA replication. FEMS Microbiology Reviews, 29:25-47. 文献编号: 13043.

[17] Brust-Mascher I, Civelekoglu-Scholey G., Kwon M, et al. 2004. Model for anaphase B: Role of three mitotic motors in a switch from poleward flux to spindle elongation. PNAS, 101:15938-15943. 文献编号: 13198.

[18] Brust-Mascher I, Scholey JM. 2002. Microtubule Flux and Sliding in Mitotic Spindles of Drosophila Embryos. Mol. Biol. Cell, 13:3967-3975. 文献编号: 13097.

[19] Bunz F, Dutriaux A, Lengauer C. 1998. Requirement for p53 and p21 to Sustain G2 Arrest After DNA Damage. Science, 282:1497-1510. 文献编号: 13180.

[20] Burton JL, Solomon MJ. 2001. D box and KEN box motifs in budding yeast Hsl1p are required for APC-mediated degradation and direct binding to Cdc20p and Cdh1p. Genes Dev, 15:2381-2395. 文献编号: 13093.

[21] Campbell L, Hardwick KG. 2002. Analysis of Bub3 spindle checkpoint function in Xenopus egg extracts. Journal of Cell Science, 116:617-628. 文献编号: 13133.

[22] Cande WZ, Wein HJ. 1996. Anaphase in vitro. Proc. Natl. Acad. Sci. USA, 93:12076–12077. 文献编号: 13003.

[23] Canman JC Salmon ED,Fang GW. 2002. Inducing Precocious Anaphase in Cultured Mammalian Cells. Cell Motility and the Cytoskeleton, 52:61–65. 文献编号: 13156.

[24] Canman JC, Sharma N, Straight A, et al. 2002. Anaphase onset does not require the microtubule dependent depletion of kinetochore and centromerebinding proteins. Journal of Cell Science, 115:3787-3795. 文献编号: 13134.

[25] Capron A, Ökrész L, Genschik P. 2003. First glance at the plant APC/C, a highly conserved ubiquitin–protein ligase. Trends in Plant Science, 8:83-89. 文献编号: 13076.

[26] Carcedo CH, Bonazzi M, Spano S, et a. . Mitotic Golgi Partitioning Is Driven by the Membrane-Fissioning Protein CtBP3/BARS. Science, 305:93-96. 文献编号: 13166.

[27] Chan RC, Chan A, Jeon M, et al. 2003. Chromosome cohesion is regulated by a clock gene paralogue TIM-1. Nature, 423:1102-1109. 文献编号: 13008.

[28] Cheeseman IM, MacLeod I, Yates III JR, et al. 2005. The CENP-F-like Proteins HCP-1 and HCP-2 Target CLASP to Kinetochores to Mediate Chromosome Segregation. Current Biology, 15:771-777. 文献编号: 13193.

[29] Chen KC, Calzone L, Csikasz-Nagy A, et al. 2004. Integrative Analysis of Cell Cycle Control in Budding Yeast. Molecular Biology of the Cell, 15:3841–3862. 文献编号: 13157.

[30] Claudia Lukas C, Sørensen CS, Kramer E, et al. 1999. Accumulation of cyclin B1 requires E2F and cyclin-A-dependent rearrangement of the anaphase-promoting complex. Nature, 401:815-818. 文献编号: 13184.

[31] Cleveland DW, et al. 2003. Centromeres and Kinetochores: From Epigenetics to Mitotic Checkpoint Signaling. Cell, 112:407–421. 文献编号: 13125.

[32] Clyne RK, Katis VL, Jessop L, et al. 2003. Polo-like kinase Cdc5 promotes chiasmata formation and cosegregation of sister centromeres at meiosis I. Nature Cell Biology, 5:480-485. 文献编号: 13025.

[33] Coffman JA. 2004. Cell Cycle Development. Developmental Cell, 6:321-327. 文献编号: 13057.

[34] Conrad MN, Dominguez AM, Dresser ME. 2004. Ndj1p, a Meiotic Telomere Protein Required for Normal Chromosome Synapsis and Segregation in Yeast. Science, 276:1253-1255. 文献编号: 13169.

[35] Craig JM, Choo KWA. 2005. Kiss and break up—a safe passage to anaphase in mitosis and meiosis. Chromosoma, 114:252–262. 文献编号: 13158.

[36] D’Amours D, Stegmeier F, Amon A. 2004. Cdc14 and Condensin Control the Dissolution of Cohesin-Independent Chromosome Linkages at Repeated DNA. Cell, 117:455–469. 文献编号: 13136.

[37] Dai Y, Grant S. 2003. Cyclin-dependent kinase inhibitors. Current Opinion in Pharmacology, 3:362-370. 文献编号: 13054.

[38] Deanna M. Koepp DM, Schaefer LK,Ye X, et al. 2001. Phosphorylation-Dependent Ubiquitination of Cyclin E by the SCFFbw7 Ubiquitin Ligase. Science, 294:173-177. 文献编号: 13174.

[39] Decker EL, Reski R. 2004. The moss bioreactor. Current Opinion in Plant Biology, 7:166-170. 文献编号: 13048.

[40] Desai A, Maddox PS, Mitchison TJ, et al. 1998. Anaphase A Chromosome Movement and Poleward Spindle Microtubule Flux Occur At Similar Rates in Xenopus Extract Spindles. J. Cell Biol, 141:703-713. 文献编号: 13094.

[41] Desai A. 2000. Kinetochores. Current Biology, . 文献编号: 13192.

[42] Deshaies RJ, Jacks T. 1999. Cell multiplication Peering in and peering out: regulation of and by the cell cycle Editorial overview. Current Opinion in Cell Biology, 11:705–707. 文献编号: 13141.

[43] Dez C, Tollervey D. 2004. Ribosome synthesis meets the cell cycle. Current Opinion in Microbiology, 7:631-637. 文献编号: 13061.

[44] Diffley JFX, Labib K. 2002. The Chromosome Replication Cycle. Journal of Cell Science, 115:869-872. 文献编号: 13113.

[45] do Carmo Avides M, Tavares A, Glover DM. 2001. Polo kinase and Asp are needed to promote the mitotic organizing activity of centrosomes. Nature Cell Biology, 3:421-424. 文献编号: 13023.

[46] Domenico Maiorano D, Lutzmann M, Méchali M. 2006. MCM proteins and DNA replication. Current Opinion in Cell Biology, 18:130–136. 文献编号: 13224.

[47] Dove AW. 2001. Motoring through the checkpoint. J. Cell Biol, 155:1092. 文献编号: 13086.

[48] Doxsey S, Zimmerman W, Mikule K. 2005. Centrosome control of the cell cycle . Trends in Cell Biology, 15:303-311. 文献编号: 13055.

[49] Dylewski DP, Keenan TW. 1984. Centrioles In The Mammary Epithelium Of The Rat. J. Cell Sci, 72:185-193. 文献编号: 13246.

[50] Edward H. Hinchcliffe EH, Li C, Thompson EA, et al. 1999. Requirement of Cdk2-Cyclin E Activity for Repeated Centrosome Reproduction in Xenopus Egg Extracts. Science, 283:851-854. 文献编号: 13182.

[51] Endow SA. 1999. Microtubule motors in spindle and chromosome motility. Eur. J. Biochem, 262:12-18. 文献编号: 13085.

[52] Esue O, Tseng Y, Wirtz D. 2005. The rapid onset of elasticity during the assembly of the bacterial cell-division protein FtsZ . Biochemical and Biophysical Research Communications, 333:508-516. 文献编号: 13034.

[53] Fedor Severin F, Hyman,AA, Piatti S. 2001. Correct spindle elongation at the metaphase/anaphase transition is an APC-dependent event in budding yeast. The Journal of Cell Biology, 155:11–717. 文献编号: 13146.

[54] Gadde S, Heald R. 2004. Mechanisms and Molecules of the Mitotic Spindle. Current Biology, 14:797-R805. 文献编号: 13060.

[55] Garabet G. Toby GG, Gherraby W, Coleman TR, et al. 2003. A Novel RING Finger Protein, Human Enhancer of Invasion 10, Alters Mitotic Progression through Regulation of Cyclin B Levels. Molecular and Cellular Biology, 23:2109–2122. 文献编号: 13130.

[56] Garcia MA, Koonrugsa N, Toda T. 2002. Two Kinesin-like Kin I Family Proteins in Fission Yeast Regulate the Establishment of Metaphase and the Onset of Anaphase A. Current Biology, 12:610-621. 文献编号: 13195.

[57] Garret MD. 2001. Cell cycle control and cancer. Curr Sci, 81:515-522. 文献编号: 13092.

[58] Geng Y, Yu QY, Sicinska E, et al. 2003. Cyclin E Ablation in the Mouse. Cell, 114:431–443. 文献编号: 13148.

[59] Gerdes K, Møller-Jensen J, Ebersbach G, et al. 2004. Bacterial Mitotic Machineries . Cell, 116:359-366. 文献编号: 13049.

[60] Gillett ES, Sorger PK. 2001. Tracing the pathway of spindle assembly checkpoint signaling. Dev Cell, 1:162-4. 文献编号: 13105.

[61] Gitai Z, Dye NA, Reisenauer A, et al. 2005. MreB Actin-Mediated Segregation of a Specific Region of a Bacterial Chromosome. Cell, 120:329-341. 文献编号: 13041.

[62] Gitai Z, Thanbichler M, Shapiro L. 2005. The choreographed dynamics of bacterial chromosomes . Trends in Microbiology, 13:221-228. 文献编号: 13037.

[63] Gitai Z. 2005. The New Bacterial Cell Biology: Moving Parts and Subcellular. Cell, 120:577-586. 文献编号: 13042.

[64] Glickman MH, Ciechanover A. 2002. The Ubiquitin-Proteasome Proteolytic Pathway: Destruction for the Sake of Construction. Physiol Rev, 82:373–428. 文献编号: 13103.

[65] Gorbsky GJ, Borisy GG. 1989. Microtubules of the kinetochore fiber turn over in metaphase but not in anaphase. J. Cell Biol, 109:653-662. 文献编号: 13102.

[66] Gordon MB, Howard L, Compton DA. 2001. Chromosome Movement in Mitosis Requires Microtubule Anchorage at Spindle Poles. J. Cell Biol, 152:425-434. 文献编号: 13201.

[67] Groisman I, Jung MY, Sarkissian M, et al. 2002. Translational Control of the Embryonic Cell Cycle. Cell, 109:473–483. 文献编号: 13106.

[68] Hagting A, den Elzen N, Vodermaier HC, et al. 2002. Human securin proteolysis is controlled by the spindle checkpoint and reveals when the APC/C switches from activation by Cdc20 to Cdh1. The Journal of Cell Biology, 157:1125-1137. 文献编号: 13154.

[69] Hanks SK, Rao PN. 1980. Initiation of DNA synthesis in the prematurely condensed chromosomes of G1 cells. J. Cell Biol, 87: 285. 文献编号: 13242.

[70] Harper JW, Burton JL, Solomon MJ. 2002. The anaphase-promoting complex: it’s not just for mitosis any more. Genes & Development, 16:2179–2206. 文献编号: 13114.

[71] Hauf S, Watanabe Y. 2004. Kinetochore Orientation in Mitosis and Meiosis. Cell, 119:317-327. 文献编号: 13063.

[72] Hess HA, Roper JC, Grill SW, Koelle MR. 2004. RGS-7 completes a receptor-independent heterotrimeric G protein cycle to asymmetrically regulate mitotic spindle positioning in C. elegans. Cell, 19:209-218. 文献编号: 13123.

[73] Hinchcliffe EH, MillerFJ, Cham M, et al. 2001. Requirement of a Centrosomal Activity for Cell Cycle Progression Through G1 into S Phase. Science, 291:1547-1550. 文献编号: 13181.

[74] Hirao Y, Eppig JJ. 1997. Analysis of the mechanism(s) of metaphase I arrest in strain LT mouse oocytes: participation of MOS. Development, 124:5107-5113. 文献编号: 13081.

[75] Hodges CA, Hunt PA. 2002. Simultaneous analysis of chromosomes and chromosome-associated proteins in mammalian oocytes and embryos. Chromosoma, 111:165–169. 文献编号: 13117.

[76] Holger Bastians H, Topper LM, Gorbsky GL, et al. 1999. Cell Cycle–regulated Proteolysis of Mitotic Target Proteins. Molecular Biology of the Cell, 10:3927–3941. 文献编号: 13140.

[77] Holtzendorff J, Hung DA, Brende P, et al. 2004. Oscillating Global Regulators Control the Genetic Circuit Driving a Bacterial Cell Cycle. Science, 304:983-987. 文献编号: 13172.

[78] Hotta Y, Ito M, Stern H. 1966. Synthesis of DNA during Meiosis. PNAS, 56: 1184 - 1191. 文献编号: 13221.

[79] Hotta Y, Parchman LG, Stern H. 1968. Protein Synthesis during Meiosis. PNAS, 60: 575 - 582. 文献编号: 13222.

[80] Hunt T. 2004. The control of cell proliferation and the problem of cancer. Genopole – Symposium February 4, 2004. 文献编号: 13001.

[81] Jagiello GM, Mesa-Tejada R, Ducayen MB, et al. 1988. The immunocytochemical localization of potential Z-DNA sites in human testicular tubule epithelium. Biol Reprod, 38:891-898. 文献编号: 13216.

[82] Jallepalli PV, Waizenegger IC, Bunz F, et al. 2001. Securin Is Required for Chromosomal Stability in Human Cells. Cell, 105:445–457. 文献编号: 13119.

[83] Jefferson KK. 2004. What drives bacteria to produce a biofilm? . FEMS Microbiology Letters, 236:163-173. 文献编号: 13046.

[84] Johnson RT, Mullinger AM. 1975. The induction of DNA synthesis in the chick red cell nucleus in heterokaryons during the first cell cycle after fusion with HeLa cells. J. Cell Sci, 18: 455-490. 文献编号: 13244.

[85] Jürgens G. 2005. Plant cytokinesis: fission by fusion. Trends in Cell Biology, 15:277-283. 文献编号: 13059.

[86] Kaitna S, Pasierbek P, Jantsch M, et al. 2002. The Aurora B Kinase AIR-2 Regulates Kinetochores during Mitosis and Is Required for Separation of Homologous Chromosomes during Meiosis. Current Biology, 12:798-812. 文献编号: 13069.

[87] Kaufmann S, Tyers M. 2005. Cell division, growth and death: The cellular trinity of division, growth and death. Current Opinion in Cell Biology, 17:565–567. 文献编号: 13227.

[88] Kemp B, Boumil RM, Stewart MN, et al. 2004. A role for centromere pairing in meiotic chromosome segregation. Genes & Dev, 18: 1946-1951. 文献编号: 13249.

[89] Kepinski S, Leyser O. 2003. SCF-Mediated Proteolysis and Negative Regulation Ethylene Signaling. Cell, 115:647–653. 文献编号: 13120.

[90] Khodjakov A, Cole RW, Bajer AS, et al. 1996. Ndj1p, a Meiotic Telomere Protein Required for Normal Chromospoleward chromosome motion in Haemanthus cells acts along the length of the chromosome during metaphase but only at the kinetochore during anaphase. J. Cell Biol, 132:1093-1104. 文献编号: 13186.

[91] Khodjakov A, Terra SL, Chang F. 2004. Laser Microsurgery in Fission Yeast: Role of the Mitotic Spindle Midzone in Anaphase B. Current Biology, 14:1330-1340. 文献编号: 13197.

[92] Kirkpatrick DT. 1999. Roles of the DNA mismatch repair and nucleotide excision repair proteins during meiosis. Cell Mol Life Sci, . 文献编号: 13122.

[93] Kishimoto T. 2003. Cell-cycle control during meiotic maturation. Current Opinion in Cell Biology, 15:654-663. 文献编号: 13075.

[94] Kline-Smith SL, Sandall S, Desai A. 2005. Kinetochore–spindle microtubule interactions during mitosis. Current Opinion in Cell Biology, 17:35-46. 文献编号: 13062.

[95] Kline-Smith SL, Walczak CE. 2004. Mitotic Spindle Assembly and Chromosome Segregation: Refocusing on Microtubule Dynamics. Molecular Cell, 15:317-327. 文献编号: 12189.

[96] Kozar K, Ciemerych MA, Rebel V, et al. 2004. Mouse Development and Cell Proliferation in the Absence of D-Cyclins. Cell, 118:477–491. 文献编号: 13167.

[97] Kruse T, Gerdes K. 2005. Bacterial DNA segregation by the actin-like MreB protein . Trends in Cell Biology, 15:343-345. 文献编号: 13035.

[98] Kwon M, Scholey JM. 2004. Spindle mechanics and dynamics during mitosis in Drosophila. Trends in Cell Biology,, 14:194-205. 文献编号: 13080.

[99] LaFountain Jr JR, Cohan CS, Siegel AJ, et al. 2004. Direct Visualization of Microtubule Flux during Metaphase and Anaphase in Crane-Fly Spermatocytes. Mol. Biol. Cell, 15:5724-5732. 文献编号: 13095.

[100] Lee B, Amon A. 2001. Meiosis: how to create a specialized cell cycle. Current Opinion in Cell Biology, 13:770–777. 文献编号: 13219.

[101] Lee BH, Amon A. 2003. Role of Polo-like kinase CDC5 in programming meiosis I chromosome segregation. Science, 300:482-486. 文献编号: 13121.

[102] Leismann O, Lehner CF. 2003. Drosophila securin destruction involves a D-box and a KEN-box and promotes anaphase in parallel with Cyclin A degradation. Journal of Cell Science, 116:2453-2460. 文献编号: 13151.

[103] Lénárt P, Ellenberg J. 2003. Nuclear envelope dynamics in oocytes: from germinal vesicle breakdown to mitosis. Current Opinion in Cell Biology, 15:88-95. 文献编号: 13077.

[104] Li YM, Bachant J, Alcasabas AA, et al. 2002. The mitotic spindle is required for loading of the DASH complex onto the kinetochore. Genes & Dev, 16:183-197. 文献编号: 13210.

[105] Lichten M. 2001. Meiotic recombination: Breaking the genome to save it. Current Biology, 11:R253–R256. 文献编号: 13071.

[106] Lincoln AJ, Wickramasinghe D, Stein P, et al. 2002. Cdc25b phosphatase is required for resumption of meiosis during oocyte maturation. Nature Genetics, 30:446-449. 文献编号: 13012.

[107] Lindner K, Gregan J, Montgomery S, et al. 2002. Essential Role of MCM Proteins in Premeiotic DNA Replication. Molecular Biology of the Cell, 13:435–444. 文献编号: 13152.

[108] Lionel A. Tintignac LA, LeibovitchMP, Kitzmann M, et al. 2000. Cyclin E–Cdk2 Phosphorylation Promotes Late G1-Phase Degradation of MyoD in Muscle Cells. Experimental Cell Research, 259:300–307. 文献编号: 13149.

[109] Lisby M, Rothstein R. 2004. DNA damage checkpoint and repair centers. Current Opinion in Cell Biology, 16:328–334. 文献编号: 13229.

[110] Littlepage LE, Ruderman JV. 2002. Identification of a new APC/C recognition domain, the A box, which is required for the Cdh1-dependent destruction of the kinase Aurora-A during mitotic exit. GENES & DEVELOPMENT, 16:2274–2285. 文献编号: 13155.

[111] Liu D, Matzuk MM, Sung WK, et al. 1998. Cyclin A1 is required for meiosis in the male mouse. Nature Genetics, 20:377-380. 文献编号: 13015.

[112] Losada A, Hirano T. 2001. Shaping the metaphase chromosome: coordination of cohesion and condensation. Bioessays, 23:924–935. 文献编号: 13118.

[113] Lukowitz W, Roeder A, Parmenter D, et al. 2004. A MAPKK Kinase Gene Regulates Extra-Embryonic Cell Fate in Arabidopsis. , 116:109–119. 文献编号: 13129.

[114] Lundgren M, Bernander R. 2005. Archaeal cell cycle. Current Opinion in Microbiology, 8:662-668. 文献编号: 13031.

[115] Luo X, Tang Z, Xia G, et al. 2004. The Mad2 spindle checkpoint protein has two distinct natively folded states. Nat Struct Mol Biol, 11:338-345. 文献编号: 13112.

[116] Lupardus PJ, Cimprich KA. 2004. Checkpoint Adaptation:Molecular Mechanisms Uncovered. Cell, 117:555–559. 文献编号: 13143.

[117] Maddox P, Desai A, Oegema K,et al. 2002. Poleward Microtubule Flux Is a Major Component of Spindle Dynamics and Anaphase A in Mitotic Drosophila Embryos. Current Biology, 12:1670–1674. 文献编号: 13194.

[118] Madine M, Laskey R. 2001. Geminin bans replication licence. Nature Cell Biology, 3:E1-2. 文献编号: 13028.

[119] Maiato H, Rieder CL, Khodjakov A. 2004. Kinetochore-driven formation of kinetochore fibers contributes to spindle assembly during animal mitosis. J. Cell Biol, 167:831-840. 文献编号: 13099.

[120] Maja Zecevic M, Catling AD, Eblen ST, et al. 1998. Active MAP Kinase in Mitosis: Localization at Kinetochores and Association with the Motor Protein CENP-E. J. Cell Biol, 142:1547-1558. 文献编号: 13206.

[121] Makhnevych T, et al. 2003. Cell Cycle Regulated Transport Controlled by Alterations in the Nuclear Pore Complex. Cell, 115:813–823. 文献编号: 13005.

[122] Maller JL, Schwab MS, Roberts BT, et al. 2001. The pathway of MAP kinase mediation of CSF arrest in Xenopus oocytes. Biology of the Cell, 93:27-33. 文献编号: 13109.

[123] Malumbres M, Barbacid M. 2001. To cycle or not to cycle: a critical decision in cancer. Nat Rev Cancer, 1:222-31. 文献编号: 13104.

[124] Mao YH, Abrieu A, Cleveland DW. 2003. Activating and Silencing the Mitotic Checkpoint through CENP-E-Dependent Activation/Inactivation of BubR1. Cell, 114:87–98. 文献编号: 13131.

[125] Margolin W, Bernander R. 2004. How Do Prokaryotic Cells Cycle? . Current Biology, 14:R768-R770. 文献编号: 13045.

[126] Margolin W. 2001. Spatial regulation of cytokinesis in bacteria. Current Opinion in Microbiology, 4:647-652. 文献编号: 13052.

[127] Margolin W. 2005. Bacterial Mitosis: Actin in a New Role at the Origin. Current Biology, 15:R259-R261. 文献编号: 13038.

[128] Marston AL, Amon A. 2004. Meiosis: cell-cycle controls shuffle and deal. Nature Reviews/Molecular Cell Biology, 5:983-997. 文献编号: 13160.

[129] Matt Sullivan M, Higuchi T, Katis VL, et al. 2004. Cdc14 Phosphatase Induces rDNA Condensation and Resolves Cohesin-Independent Cohesion during Budding Yeast Anaphase. Cell, 117:471–482:. 文献编号: 13137.

[130] McAdams HH, Shapiro L.. 2003. A bacterial cell-cycle regulatory network operating in time and space. Science, 301:1874-1877. 文献编号: 13088.

[131] McCarthy EK, Goldstein B. 2006. Asymmetric spindle positioning. Current Opinion in Cell Biology, 18:79–85. 文献编号: 13223.

[132] McGowan CH, Russell P. 2004. The DNA damage response: sensing and signaling. Current Opinion in Cell Biology, 16:629–633. 文献编号: 13232.

[133] McHugh B, Heck MMS. 2003. Regulation of chromosome condensation and segregation. Current Opinion in Genetics & Development, 13:185–190. 文献编号: 13179.

[134] McIntosh JR, Pfarr CM. 1991. Mitotic motors. J. Cell Biol, 115:577-585. 文献编号: 13100.

[135] McKee bd. 2004. Homologous pairing and chromosome dynamics in meiosis and mitosis. Biochimica et Biophysica Acta (BBA) - Gene Structure and Expression, 1677:165-180. 文献编号: 13058.

[136] Meier B, Ahmed S. 2001. Checkpoints: Chromosome pairing takes an unexpected twist. Current Biology, 11:R865–R868. 文献编号: 13218.

[137] Michel LS, Liberal V, Chatterjee A, et al. 2001. MAD2 haplo-insuf®ciency causes premature anaphase and chromosome instability in mammalian cells. Nature, 409:355-359. 文献编号: 13013.

[138] Mileykovskaya E, Dowhan W. 2005. Role of membrane lipids in bacterial division-site. Current Opinion in Microbiology, 8:135-142. 文献编号: 13039.

[139] Mitchison TJ, Salmon ED. 1992. Poleward kinetochore fiber movement occurs during both metaphase and anaphase-A in newt lung cell mitosis. J. Cell Biol, 119:569. 文献编号: 13207.

[140] Mitchison TJ, Salmon ED. 2001. Mitosis: a history of division. Nature Cell Biology, 3:E17-E21. 文献编号: 13162.

[141] Mittal B, Sanger JM, Sanger JW. 1987. Visualization of myosin in living cells. J Cell Biol, 105:1753-1760. 文献编号: 13237.

[142] Mogilner A, Wollman R, Civelekoglu-Scholey G, et al. 2006. Modeling mitosis. Trends in Cell Biology, 16:88-96. 文献编号: 13233.

[143] Molina I, et al. 1997. A Chromatin-associated Kinesin-related Protein Required for Normal Mitotic Chromosome Segregation in Drosophila. The Journal of Cell Biology , 139:1361–1371. 文献编号: 13004.

[144] Morgan DO. 1999. Regulation of the APC and the exit from mitosis. Nature Cell Biology, 1:E47-53. 文献编号: 13022.

[145] Murakami1 H, Nurse P. 2000. DNA replication and damage checkpoints and meiotic cell cycle controls in the fission and budding yeasts. Biochem. J, 349:1-12. 文献编号: 13150.

[146] Murata-Hori M, Tatsuka M, Wang YL. 2002. Probing the Dynamics and Functions of Aurora B Kinase in Living Cells during Mitosis and Cytokinesis. Mol. Biol. Cell, 13:1099-1108. 文献编号: 13204.

[147] Murray AW. 2004. Recycling the Cell Cycle: Review Cyclins Revisited. Cell, 116:221–234. 文献编号: 13178.

[148] Narumiya S, Yasuda S. 2006. Rho GTPases in animal cell mitosis. Current Opinion in Cell Biology, 18:199–205. 文献编号: 13226.

[149] Nasmyth K, Peters JM, Uhlmann F. 2000. Splitting the chromosome: cutting the ties that bind sister chromatids. Science, 288:1379-1385. 文献编号: 13116.

[150] Nasmyth K. 2001. A Prize for Proliferation. Cell, 107:689–701. 文献编号: 13245.

[151] Natacha Vitrat N, Cohen-Solal K, Piqu C, et al. 1998. Endomitosis of Human Megakaryocytes Are Due to Abortive Mitosis. Blood, 91:3711-3723. 文献编号: 13203.

[152] Nedelec F, Surrey T, Karsenti E. 2003. Self-organisation and forces in the microtubule cytoskeleton. Curr Opin Cell Biol, 15:118-124. 文献编号: 13191.

[153] Nicklas RB. 1989. The motor for poleward chromosome movement in anaphase is in or near the kinetochore. J. Cell Biol, 109:2245-2255. 文献编号: 13101.

[154] Nimmo ER, Pidoux AL, Perry PE, et al. 1998. Defective meiosis in telomere-silencingmutants of Schizosaccharomyces pombe. Nature, 392:825-828. 文献编号: 13018.

[155] Novak B, Sible JC, Tyson JJ. 2002. Checkpoints in the Cell Cycle. ENCYCLOPEDIA OF LIFE SCIENCES, 2002. 文献编号: 13144.

[156] Orlicky S,Tang XJ, Willems A, et al. 2003. Structural Basis for Phosphodependent Substrate Selection and Orientation by the SCFCdc4 Ubiquitin Ligase. Cell, 112:243–256. 文献编号: 13115.

[157] Ortega S, Prieto I, Odajima J, et al. 2003. Cyclin-dependent kinase 2 is essential for meiosis but not for mitotic cell division in mice. Nature Genetics, 35:25-31. 文献编号: 13016.

[158] Parry DH, O'Farrell PH. 2001. The schedule of destruction of three mitotic cyclins can dictate the timing of events during exit from mitosis. Current Biology, 11:671-683.. 文献编号: 13108.

[159] Pawlowski WP, Cande WZ. 2005. Coordinating the events of the meiotic prophase. Trends in Cell Biology, 15: 674-681. 文献编号: 13247.

[160] Pearson CG, Maddox PS, Salmon ED, et al. 2001. Budding Yeast Chromosome Structure and Dynamics during Mitosis. J. Cell Biol, 152:1255-1266. 文献编号: 13199.

[161] Pecot MY, Malhotra V. 2004,. Golgi Membranes Remain Segregated from the Endoplasmic Reticulum during Mitosis in Mammalian Cells. Cell, 116:99–107. 文献编号: 13153.

[162] Peng CY, Graves PR, Thoma, RS, et al. 1997. Mitotic and G2 Checkpoint Control: Regulation of 14-3-3 Protein Binding by Phosphorylation of Cdc25C on Serine-216. Science, 277:1501-1505. 文献编号: 13164.

[163] Peter M, Castro A, Lorca T, et al. 2001. The APC is dispensable for first meiotic anaphase in Xenopus oocytes. Nature Cell Biology, 3:83-87. 文献编号: 13020.

[164] Peters JM. 2002. The Anaphase-Promoting Complex: Proteolysis in Mitosis and Beyond. Molecular Cell, 9:931–943. 文献编号: 13124.

[165] Mark Petronczki M, Chwalla B, Siomos MF, et al. 2004. Sister-chromatid cohesion mediated by the alternative RF-CCtf18/Dcc1/Ctf8, the helicase Chl1 and the polymerase--associated protein Ctf4 is essential for chromatid disjunction during meiosis II. J. Cell Sci. 117: 3547 - 3559. 文献编号: 13006.

[166] Petronczki M, Siomos MF, Nasmyth K.. 2003. Un menage a quatre: the molecular biology of chromosome segregation in meiosis. Cell, 112:423-440.. 文献编号: 13110.

[167] Pickett-Heaps J, Spurck T, Tippit D. 1984. Chromosome motion and the spindle matrix. J. Cell Biol, 99:137s-143s. 文献编号: 13187.

[168] Pidoux A, Allshire R. 2003. Chromosome Segregation: Clamping down on Deviant Orientations. Current Biology, Volume, 13:R385-R387. 文献编号: 13068.

[169] Piekny A, Werner M, Glotzer M. 2005. Cytokinesis: welcome to the Rho zone. Trends in Cell Biology, 15:651-658. 文献编号: 13248.

[170] Pines J. 2006. Mitosis: a matter of getting rid of the right protein at the right time. Trends in Cell Biology, 16: 55-63. 文献编号: 13234.

[171] Pinsky BA, Biggins S. 2005. The spindle checkpoint: tension versus attachment • REVIEW ARTICLE, Volume. Trends in Cell Biology, 15:486-493. 文献编号: 13072.

[172] Pogliano K, Pogliano J, Becker E. 2003. Chromosome segregation in Eubacteria. Current Opinion in Microbiology, 6:586-593. 文献编号: 13051.

[173] Qian YW, Erikson E, Maller JL. 1998. PuriÞcation and Cloning of a Protein Kinase That Phosphorylates and Activates the Polo-Like Kinase Plx1. Science, 282:1701-1704. 文献编号: 13176.

[174] Rajagopalan M, Maloney E, Dziadek J, et al. 2005. Genetic evidence that mycobacterial FtsZ and FtsW proteins interact, and colocalize to the division site in Mycobacterium. FEMS Microbiology Letters, 250:9-17. 文献编号: 13033.

[175] Raman R, Singh AP, Nanda I. 1988. DNase I nick translation in situ on meiotic chromosomes of the mouse, Mus musculus. J. Cell Sci, 90:629-634. 文献编号: 13217.

[176] Ramzi Azzam R,Chen SL, Shou WY, et al. 2004. Phosphorylation by Cyclin B–Cdk Underlies Release of Mitotic Exit Activator Cdc14 from the Nucleolus. Science, 305:516-519. 文献编号: 13173.

[177] Ranganath RM, Nijagunaiah R, Shubhakara G. 2004. Meiosis-II and mitosis have different molecular formats. Journal of Theoretical Biology, 227:445-447. 文献编号: 13065.

[178] Rao H, Uhlmann F, Nasmyth K, et al. 2001. Degradation of a cohesin subunit by the N-end rule pathway is essential for chromosome stability. Nature, 410:955-959. 文献编号: 13019.

[179] Rao PN, Johnson RT. 1972. Premature Chromosome Condensation: a Mechanism for the Elimination of Chromosomes in Virus-Fused Cells. J. Cell Sci, 10: 495 - 513. 文献编号: 13241.

[180] Rape M, Kirschner MW. 2004. Autonomous regulation of the anaphase-promoting complex couples mitosis to S-phase entry. Nature, 432:588-595. 文献编号: 13011.

[181] Reed SI. 2003. Ratchets and clocks: the cell cycle, ubiquitylation and protein turnover. Nature Reviews/Molecular Cell Biology, 4:855-864. 文献编号: 13177.

[182] Reis T, Edgar BA. 2004. Negative Regulation of dE2F1 by Cyclin-Dependent Kinases Controls Cell Cycle Timing. Cell, 117:253–264. 文献编号: 13170.

[183] Ren SJ, Rollins BJ. 2004. Cyclin C/Cdk3 Promotes Rb-Dependent G0 Exit. Cell, 117:239–251. 文献编号: 13147.

[184] Riparbelli MG, Callaini G. 2005. The meiotic spindle of the Drosophila oocyte: the role of Centrosomin and the central aster. J. Cell Sci, 118:2827-2836. 文献编号: 13209.

[185] Robinson DN, Spudich JA. 2004. Mechanics and regulation of cytokinesis . Current Opinion in Cell Biology, 16:182–188. 文献编号: 13231.

[186] Rosenblatt J, Cramer LP, Baum B, et al. 2004. Myosin II-Dependent Cortical Movement Is Required for Centrosome Separation and Positioning during Mitotic Spindle Assembly. Cell, 117:361–372. 文献编号: 13168.

[187] Ryan RM, Phillips AC, Vousden KH. 2001. Regulation and function of the p53 tumor suppressor protein. Current Opinion in Cell Biology, 13:332–337. 文献编号: 13238.

[188] Sagata N. 1996. Meiotic metaphase arrest in animal oocytes: its mechanisms and biological significance. Trends in Cell Biology, 6:22-28. 文献编号: 13084.

[189] Sánchez I, Dynlacht BD. 2005. New insights into cyclins, CDKs, and cell cycle control. Seminars in Cell & Developmental Biology, 16:311-321. 文献编号: 13074.

[190] Sanger JM, Sanger JW. 2000. Assembly Of Cytoskeletal Proteins Into Cleavage Furrows of Tissue Culture Cells. Microscopy Research And Technique, 49:190–201. 文献编号: 13235.

[191] Scholey JM, Rogers GC, Sharp DG. 2001. Mitosis, microtubules, and the matrix. J. Cell Biol, 154:261-266. 文献编号: 13205.

[192] Shah JV, et al. 2004. Dynamics of Centromere and Kinetochore Proteins: Implications for Checkpoint Signaling and Silencing. Current Biology, 14:942–952. 文献编号: 13029.

[193] Shannon KB, Salmon ED. 2002. Chromosome Dynamics: New Light on Aurora B Kinase Function. Current Biology, 12:R458-R460. 文献编号: 13079.

[194] Sharp DJ, Rogers GC, Scholey JM. 2000. Cytoplasmic dynein is required for poleward chromosome movement during mitosis in Drosophila embryos. Nature Cell Biology, 2:922-930. 文献编号: 13017.

[195] Sharp DJ, Rogers GC, Scholey JM.. 2000. Microtubule motors in mitosis. Nature, 407:41-47. 文献编号: 13236.

[196] Sherratt DJ, Lau IF, Barre FX. 2001. Chromosome segregation . Current Opinion in Microbiology, 4:653-659. 文献编号: 13053.

[197] Shirayama M, Toth A, Galova M, et al. 1999. APCCdc20 promotes exit from mitosis by destroying the anaphase inhibitor Pds1 and cyclin Clb5 . Nature, 402:203-207. 文献编号: 13009.

[198] Shonn MA, McCarroll R, Murray AW. 2000. Requirement of the spindle checkpoint for proper chromosome segregation in budding yeast meiosis. Science, 289:300-303. 文献编号: 13126.

[199] Shuhei Matsuoka S, Huang MX, Elledge SJ. 1998. Linkage of ATM to Cell Cycle Regulation by the Chk2 Protein Kinase. Science, 282:1893-1897. 文献编号: 13159.

[200] Simanis V. 2003. Events at the end of mitosis in the budding and fission yeasts. J. Cell Sci, 116:4263-4275. 文献编号: 13200.

[201] SluderG, McCollum D. 2000. The Mad Ways of Meiosis. Science, 289:254-255. 文献编号: 13111.

[202] Smits VAJ, Klompmaker R, Arnaud L, et al. 2000. Polo-like kinase-1 is a target of the DNA damage checkpoint . Nature Cell Biology, 2:672-676. 文献编号: 13007.

[203] Snyder JA, Armstrong L, Stonington OG, et al. 1991. UV-microbeam irradiations of the mitotic spindle: spindle forces and structural analysis of lesions. Eur J Cell Biol, 55:122-132. 文献编号: 13213.

[204] Spruck CH, de Miguel MP, Smith APL, et al. 2003. Requirement of Cks2 for the First Metaphase/Anaphase Transition of Mammalian Meiosis. Science, 300:647-650. 文献编号: 13183.

[205] Spurck TP, Pickett-Heaps JD. 1987. On the mechanism of anaphase A: evidence that ATP is needed for microtubule disassembly and not generation of polewards force. J. Cell Biol, 105:1691-1705. 文献编号: 13188.

[206] Spurck TP, Stonington OG, Snyder JA, et al. 1990. UV microbeam irradiations of the mitotic spindle. II. Spindle fiber dynamics and force production. J. Cell Biol, 111:1505-1518. 文献编号: 13212.

[207] Stern H, Hotta Y. 1974. DNA metabolism during pachytene in relation to crossing over. Genetics, 78:227-235. 文献编号: 13215.

[208] Stoop-Myer C, Amon A. 1999. Meiosis: Rec8 is the reason for cohesion. Nature Cell Biology, 1:E125-127. 文献编号: 13030.

[209] Straight AF, Marshall WF, Sedat,JW, et al. 1997. Mitosis in Living Budding Yeast: Anaphase A But No Metaphase Plate. Science, 277:574-578. 文献编号: 13163.

[210] Sullivan KF. 2001. A solid foundation: functional specialization of centromeric chromatin. Current Opinion in Genetics & Development, 11:182-188. 文献编号: 13070.

[211] Sunkara PS, Wright DA, Rao PN. 1979. Mitotic Factors from Mammalian Cells Induce Germinal Vesicle Breakdown and Chromosome Condensation in Amphibian Oocytes. PNAS, 76: 2799 - 2802. 文献编号: 13243.

[212] Takahashi K, Chen ES, Yanagida M. 2000. Requirement of Mis6 centromere connector for localizing a CENP-A-like protein in fission yeast. Science, 288:2215-2219. 文献编号: 13127.

[213] Trevors JT. 2004. Evolution of cell division in bacteria . Theory in Biosciences, 123:3-15. 文献编号: 13047.

[214] Tyers M, Jorgensen P. 2000. Proteolysis and the cell cycle: with this RING I do thee destroy. Current Opinion in Genetics & Development, 10:54–64. 文献编号: 13175.

[215] Tyers M. 2004. Cell cycle goes global . Current Opinion in Cell Biology, 16:602-613. 文献编号: 13056.

[216] Uhlmann F, Lottspeich F, Nasmyth K. 1999. Sister-chromatid separation at anaphase onset is promoted by cleavage of the cohesin subunit Scc1. Nature, 400:37-42. 文献编号: 13021.

[217] Uhlmann F. 2003. Chromosome Cohesion and Separation: From Men and Molecules. Current Biology, 13:R104-R114. 文献编号: 13078.

[218] Urbani L, Stearns T. 1999. The centrosome. Current Biology, 9:R315-317. 文献编号: 13107.

[219] Vaisberg EA, Koonce MP, McIntosh JR. 1993. Cytoplasmic dynein plays a role in mammalian mitotic spindle formation. J. Cell Biol, 123:849-858. 文献编号: 13211.

[220] van Hooser AA, Ouspenski II, Gregson HC, et al. 2001. Specification of kinetochore-forming chromatin by the histone H3 variant CENP-A. J. Cell Sci, 114:3529-3542. 文献编号: 13214.

[221] van Roesse P, Elliott DA, Robinson IM, et al. 2004. Independent Regulation of Synaptic Size and Activity by the Anaphase-Promoting Complex. Cell, 119:707-718. 文献编号: 13024.

[222] van Veen JE, Hawley RS. 2003. Meiosis: When Even Two Is a Crowd. Current Biology, 13:R831-R833. 文献编号: 13066.

[223] Vermeulen K, Berneman ZN, Van Bockstaele DR. 2003. Cell cycle and apoptosis. Cell Prolif, 36:165–175. 文献编号: 13027.

[224] Viollier PH, Shapiro L. 2004. Spatial complexity of mechanisms controlling a bacterial cell cycle . Current Opinion in Microbiology, 7:572-578. 文献编号: 13044.

[225] Vodermaier HC. 2001. Cell cycle: Waiters serving the Destruction machinery. Current Biology, 11:R834–R837. 文献编号: 13138.

[226] Vodermaier HC. 2004. APC/C and SCF: controlling each other and the cell cycle. Curr Biol, 14:R787-96. 文献编号: 13089.

[227] Walczak CE, Vernos I, Mitchison TJ, et al. 1998. A model for the proposed roles of different microtubule-based motor proteins in establishing spindle bipolarity. Current Biology, 8:903-913. 文献编号: 13190.

[228] Walpita D, Plug AW, Neff NF, et al. 1999. Bloom’s syndrome protein, BLM, colocalizes with replication protein A in meiotic prophase nuclei of mammalian spermatocytes. PNAS, 96:5622–5627. 文献编号: 13135.

[229] Walther A, Wendland J. 2003. Septation and cytokinesis in fungi. Fungal Genetics and Biology, 40:187-196. 文献编号: 13050.

[230] Wasch R, Cross FR. 2002. APC-dependent proteolysis of the mitotic cyclin Clb2 is essential for mitotic exit. Nature, 418:556-562. 文献编号: 13010.

[231] Wassmann K, Benezra R. 2001. Mitotic checkpoints: from yeast to cancer. Current Opinion in Genetics & Development, 11:83–90. 文献编号: 13165.

[232] Watanabe Y, Nurse P. 1999. Cohesin Rec8 is required for reductional chromosome segregation atmeiosis. Nature, 400:461-464. 文献编号: 13014.

[233] Watanabe Y. 2005. Sister chromatid cohesion along arms and at centromeres. Trends in Genetics,, 21:405-412. 文献编号: 13073.

[234] Waters JC, Chen RH, Murray AW, et al. 1998. Localization of Mad2 to kinetochores depends on microtubule attachment, not tension. J Cell Biol, . 文献编号: 13185.

[235] Waters JC, Cole RW, Rieder CL. 1993. The force-producing mechanism for centrosome separation during spindle formation in vertebrates is intrinsic to each aster. J Cell Biol, 122:361-372. 文献编号: 13087.

[236] Watters C. 2004. Video Views and Reviews: Mitosis, Microfibers, and Motility. Cell Biol Educ, 3:81-84. 文献编号: 13202.

[237] Weinreich M, Liang C, Chen HH, et al. 2001. Binding of cyclin-dependent kinases to ORC and Cdc6p regulates the chromosome replication cycle. PNAS, 98:11211-7. 文献编号: 13091.

[238] Wells WA. 2001. Searching for a spindle matrix. J. Cell Biol, 154:1102-1104. 文献编号: 13208.

[239] Wimber DE, Prensky F. 1963. Autoradiography with meiotic chromosomes of the male newt (triturus viridescens) using h3-thymidine. Genetics, 48: 1731-1738. 文献编号: 13220.

[240] Wojcik E, Basto R, Serr M, et al. 2001. Kinetochore dynein: its dynamics and role in the transport of the Rough deal checkpoint protein. Nature Cell Biology, 3:1001-1007. 文献编号: 13026.

[241] Wu JQ, Kuhn JR, Kovar DR, et al. 2003. Spatial and Temporal Pathway for Assembly and Constriction of the Contractile Ring in Fission Yeast Cytokinesis. Developmental Cell, 5:723-734. 文献编号: 13196.

[242] Xua H, Boulianne GL, Trimble WS. 2002. Membrane trafﬁcking in cytokinesis. Seminars in Cell & Developmental Biology, 13:77–82. 文献编号: 13083.

[243] Yamasaki1 L, Pagano M. 2004. Cell cycle, proteolysis and cancer. Current Opinion in Cell Biology, 16:623–628. 文献编号: 13139.

[244] Yolanda Sanchez Y, Bachant J, Wang H,et al. 1999. Control of the DNA Damage Checkpoint by Chk1 and Rad53 Protein Kinases Through Distinct Mechanisms. Science, 286:1166-1171. 文献编号: 13145.

[245] Yoo HY, Kumagai A, Shevchenko A, et al. 2004. Adaptation of a DNA Replication Checkpoint Response Depends upon Inactivation of Claspin by the Polo-like Kinase. Cell, 117:575–588. 文献编号: 13132.

[246] Yu HT. 2002. Regulation of APC–Cdc20 by the spindle checkpoint, . Current Opinion in Cell Biology, 14:706–714. 文献编号: 13240.

[247] Zhai Y, Kronebusch Borisy GG. 1995. Kinetochore microtubule dynamics and the metaphase-anaphase transition. J. Cell Biol, 131:721-734. 文献编号: 13098.

[248] Zhai Y, Kronebusch PJ, Simon PM, et al. 1996. Microtubule dynamics at the G2/M transition: abrupt breakdown of cytoplasmic microtubules at nuclear envelope breakdown and implications for spindle morphogenesis. J. Cell Biol, 135:201-214. 文献编号: 13096.

[249] Zhang FX, Su KH, Yang XY, et al. 2003. O-GlcNAc Modification Is an Endogenous Inhibitor of the Proteasome. Cell, 115:715–725. 文献编号: 13171.

参考文献：