Download Citační ohlasy podle WoS – F. Cvrčková (k 31.1.2005)

Cvrčková - ohlasy
Citační ohlasy podle WoS – F. Cvrčková (k 31.1.2005)
Počet ohlasů:
Všechny práce
Přílohy habil. spisu
Práce s výhradně rostlinnou tématikou
Celkem
Bez vlastních
autocitací (včetně
autocit. spoluautorů)
408
284
83
392
270
69
Bez autocitací
360
245
56
V následujícím seznamu jsou uvedeny pouze ohlasy, které nejsou autocitacemi z hlediska
žádného z autorů. Čísla v závorkách za citacemi (tučně) odpovídají číslování podle seznamu
publikací.
Cvrčková, F., Eliáš, M., Hála, M., Obermeyer, G., and Žárský, V. (2001). Small GTPases and
conserved signalling pathways in plant cell morphogenesis: from exocytosis to the Exocyst.
In: Cell Biology of Plant and Fungal Tip Growth. A. Geitmann, M. Cresti, and I.B. Heath,
eds. (Amsterdam: IOS Press), s. 105-122 (3)
- celkem 4 ohlasy, z toho 2 x autocitace vlastní, 1 x spoluautora, 1 „čistý“ ohlas
1.
Segui-Simarro, JM; Austin, JR; White, EA; Staehelin, LA. 2004. Electron tomographic analysis of somatic cell plate formation in
meristematic cells of arabidopsis preserved by high-pressure freezing. PLANT CELL 16 (4): 836-856.
Nasmyth, K.A., Dirick, L., Surana, U., Amon, A., a Cvrčková, F. (1991). Some facts and
thoughts on cell cycle control in yeast. Cold Spring Harb.Symp.Quant.Biol. 56, 9-20 (12)
- celkem 8 ohlasů, z toho 2 x autocitace spoluautorů, 6 „čistých“ ohlasů
1.
Gimenez-Abian, JF; Clarke, DJ; Gimenez-Abian, MI; de la Torre, C; Gimenez-Martin, G. 2001. Synchronous nuclear-envelope
breakdown and anaphase onset in plant multinucleate cells. PROTOPLASMA 218 (3-4): 192-202.
2.
Martin-Castellanos, C; Blanco, MA; de Prada, JM; Moreno, S. 2000. The puc1 cyclin regulates the G1 phase of the fission yeast
cell cycle in response to cell size. MOLECULAR BIOLOGY OF THE CELL 11 (2): 543-554.
3.
Rhind, N; Russell, P. 1998. The Schizosaccharomyces pombe S-phase checkpoint differentiates between different types of DNA
damage. GENETICS 149 (4): 1729-1737.
4.
Diffley, JFX. 1995. The initiation of DNA replication in the budding yeast cell division cycle. YEAST 11 (16): 1651-1670.
5.
PRETEL, R; LENNON, K; BIRD, A; KUKURUZINSKA, MA. 1995. EXPRESSION OF THE FIRST N-GLYCOSYLATION
GENE IN THE DOLICHOL PATHWAY, ALG7, IS REGULATED AT 2 MAJOR CONTROL POINTS IN THE G1 PHASE OF
THE SACCHAROMYCES-CEREVISIAE CELL-CYCLE. EXPERIMENTAL CELL RESEARCH 219 (2): 477-486.
6.
DOHMEN, RJ; WU, PP; VARSHAVSKY, A. 1994. HEAT-INDUCIBLE DEGRON - A METHOD FOR CONSTRUCTING
TEMPERATURE-SENSITIVE MUTANTS. SCIENCE 263 (5151): 1273-1276.
Cvrčková, F. a Nasmyth, K.A. (1993). Yeast G1 cyclins CLN1 and CLN2 and a GAP-like
protein have a role in bud formation. EMBO J. 12, 5277-5286 (13)
- celkem 109 ohlasů, z toho 1 x autocitace vlastní, 3 x spoluautora, 105 „čistých“ ohlasů
1.
Queralt, E; Igual, JC. 2004. Functional distinction between Cln1p and Cln2p Cyclins in the control of the Saccharomyces
cerevisiae mitotic cycle. GENETICS 168 (1): 129-140.
2.
Chen, KC; Calzone, L; Csikasz-Nagy, A; Cross, FR; Novak, B; Tyson, JJ. 2004. Integrative analysis of cell cycle control in
budding yeast. MOLECULAR BIOLOGY OF THE CELL 15 (8): 3841-3862.
3.
Kaeberlein, M; Andalis, AA; Liszt, GB; Fink, GR; Guarente, L. 2004. Saccharomyces cerevisiae SSD1-V confers longevity by a
Sir2p-independent mechanism. GENETICS 166 (4): 1661-1672.
4.
Johansson, MJO; Bystrom, AS. 2004. The Saccharomyces cerevisiae TAN1 gene is required for N-4-acetylcytidine formation in
tRNA. RNA-A PUBLICATION OF THE RNA SOCIETY 10 (4): 712-719.
5.
Bryan, BA; McGrew, E; Lu, Y; Polymenis, M. 2004. Evidence for control of nitrogen metabolism by a START-dependent
mechanism in Saccharomyces cerevisiae. MOLECULAR GENETICS AND GENOMICS 271 (1): 72-81.
6.
Lottersberger, F; Rubert, F; Baldo, V; Lucchini, G; Longhese, MP. 2003. Functions of Saccharomyces cerevisiae 14-3-3 proteins
in response to DNA damage and to DNA replication stress. GENETICS 165 (4): 1717-1732.
7.
Willis, KA; Barbara, KE; Menon, BB; Moffat, J; Andrews, B; Santangelo, GM. 2003. The global transcriptional activator of
Saccharomyces cerevisiae, Gcr1p, mediates the response to glucose by stimulating protein synthesis and CLN-dependent cell
cycle progression. GENETICS 165 (3): 1017-1029.
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Cvrčková - ohlasy
8.
Kellogg, DR. 2003. Wee1-dependent mechanisms required for coordination of cell growth and cell division. JOURNAL OF
CELL SCIENCE 116 (24): 4883-4890.
9.
Shields, CM; Taylor, R; Nazarenus, T; Cheatle, J; Hou, A; Tapprich, A; Haifley, A; Atkin, AL. 2003. Saccharomyces cerevisiae
Ats1p interacts with Nap1p, a cytoplasmic protein that controls bud morphogenesis. CURRENT GENETICS 44 (4): 184-194.
10. Han, BK; Aramayo, R; Polymenis, M. 2003. The G(1) cyclin Cln3p controls vacuolar biogenesis in Saccharomyces cerevisiae.
GENETICS 165 (2): 467-476.
11. Singer, T; Haefner, S; Hoffmann, M; Fischer, M; Ilyina, J; Hilt, W. 2003. Sit4 phosphatase is functionally linked to the ubiquitinproteasome system. GENETICS 164 (4): 1305-1321.
12. Sreenivasan, A; Bishop, AC; Shokat, KM; Kellogg, DR. 2003. Specific inhibition of Elm1 kinase activity reveals functions
required for early G(1) events. MOLECULAR AND CELLULAR BIOLOGY 23 (17): 6327-6337.
13. Soinov, LA; Krestyaninova, MA; Brazma, A. 2003. Towards reconstruction of gene networks from expression data by supervised
learning. GENOME BIOLOGY 4 (1): art. no.-R6.
14. Queralt, E; Igual, JC. 2003. Cell cycle activation of the Swi6p transcription factor is linked to nucleocytoplasmic shuttling.
MOLECULAR AND CELLULAR BIOLOGY 23 (9): 3126-3140.
15. Ash, J; Wu, CL; Larocque, R; Jamal, M; Stevens, W; Osborne, M; Thomas, DY; Whiteway, M. 2003. Genetic analysis of the
interface between Cdc42p and the CRIB domain of Ste20p in Saccharomyces cerevisiae. GENETICS 163 (1): 9-20.
16. McDonald, HB; Helfant, AH; Mahony, EM; Khosla, SK; Goetsch, L. 2002. Mutational analysis reveals a role for the C terminus
of the proteasome subunit Rpt4p in spindle pole body duplication in Saccharomyces cerevisiae. GENETICS 162 (2): 705-720.
17. Xu, HQ; Wu, PR; Wu, CFJ; Tidwell, C; Wang, YX. 2002. A smooth response surface algorithm for constructing a gene
regulatory network. PHYSIOLOGICAL GENOMICS 11 (1): 11-20.
18. Johansson, MJO; Bystrom, AS. 2002. Dual function of the tRNA(m(5)U(54))methyltransferase in tRNA maturation. RNA-A
PUBLICATION OF THE RNA SOCIETY 8 (3): 324-335.
19. Watanabe, CMH; Supekova, L; Schultz, PG. 2002. Transcriptional effects of the potent enediyne anti-cancer agent calicheamicin
gamma. CHEMISTRY & BIOLOGY 9 (2): 245-251.
20. Calzada, A; Bueno, A. 2002. Genes involved in the initiation of DNA replication in yeast. INTERNATIONAL REVIEW OF
CYTOLOGY - A SURVEY OF CELL BIOLOGY, VOL 212 212: 133-207.
21. Edgington, NP; Futcher, B. 2001. Relationship between the function and the location of G1 cyclins in S-cerevisiae. JOURNAL
OF CELL SCIENCE 114 (24): 4599-4611.
22. Frenz, LM; Johnson, AL; Johnston, LH. 2001. Rme1, which controls CLN2 expression in Saccharomyces cerevisiae, is a nuclear
protein that is cell cycle regulated. MOLECULAR GENETICS AND GENOMICS 266 (3): 374-384.
23. Corellou, F; Brownlee, C; Kloareg, B; Bouget, FY. 2001. Cell cycle-dependent control of polarised development by a cyclindependent kinase-like protein in the Fucus zygote. DEVELOPMENT 128 (21): 4383-4392.
24. Vannier, D; Damay, P; Shore, D. 2001. A role for Sds3p, a component of the Rpd3p/Sin3p deacetylase complex, in maintaining
cellular integrity in Saccharomyces cerevisiae. MOLECULAR GENETICS AND GENOMICS 265 (3): 560-568.
25. Miller, ME; Cross, FR. 2001. Mechanisms controlling subcellular localization of the G(1) cyclins Cln2p and Cln3p in budding
yeast. MOLECULAR AND CELLULAR BIOLOGY 21 (18): 6292-6311.
26. Drees, BL; Sundin, B; Brazeau, E; Caviston, JP; Chen, GC; Guo, W; Kozminski, KG; Lau, MW; Moskow, JJ; Tong, A;
Schenkman, LR; McKenzie, A; Brennwald, P; Longtine, M; Bi, E; Chan, C; Novick, P; Boone, C; Pringle, JR; Davis, TN; Fields,
S; Drubin, DG. 2001. A protein interaction map for cell polarity development. JOURNAL OF CELL BIOLOGY 154 (3): 549571.
27. Meier, B; Driller, L; Jaklin, S; Feldmann, HM. 2001. New function of CDC13 in positive telomere length regulation.
MOLECULAR AND CELLULAR BIOLOGY 21 (13): 4233-4245.
28. Miller, ME; Cross, FR. 2001. Cyclin specificity: how many wheels do you need on a unicycle?. JOURNAL OF CELL SCIENCE
114 (10): 1811-1820.
29. Belli, G; Gari, E; Aldea, M; Herrero, E. 2001. Osmotic stress causes a G(1) cell cycle delay and downregulation of Cln3/Cdc28
activity in Saccharomyces cerevisiae. MOLECULAR MICROBIOLOGY 39 (4): 1022-1035.
30. Gulli, MP; Peter, M. 2001. Temporal and spatial regulation of Rho-type guanine-nucleotide exchange factors: the yeast
perspective. GENES & DEVELOPMENT 15 (4): 365-379.
31. Zimmerman, ZA; Kellogg, DR. 2001. The Sda1 protein is required for passage through start. MOLECULAR BIOLOGY OF THE
CELL 12 (1): 201-219.
32. Lenburg, ME; O'Shea, EK. 2001. Genetic evidence for a morphogenetic function of the Saccharomyces cerevisiae Pho85 cyclindependent kinase. GENETICS 157 (1): 39-51.
33. Gulli, MP; Jaquenoud, M; Shimada, Y; Niederhauser, G; Wiget, P; Peter, M. 2000. Phosphorylation of the Cdc42 exchange factor
Cdc24 by the PAK-like kinase Cla4 may regulate polarized growth in yeast. MOLECULAR CELL 6 (5): 1155-1167.
34. Friedman, N; Linial, M; Nachman, I; Pe'er, D. 2000. Using Bayesian networks to analyze expression data. JOURNAL OF
COMPUTATIONAL BIOLOGY 7 (3-4): 601-620.
35. Burton, JL; Solomon, MJ. 2000. Hsl1p, a Swe1p inhibitor, is degraded via the anaphase-promoting complex. MOLECULAR
AND CELLULAR BIOLOGY 20 (13): 4614-4625.
36. Nern, A; Arkowitz, RA. 2000. G proteins mediate changes in cell shape by stabilizing the axis of polarity. MOLECULAR CELL
5 (5): 853-864.
37. Yuste-Rojas, M; Cross, FR. 2000. Mutations in CDC14 result in high sensitivity to cyclin gene dosage in Saccharomyces
cerevisiae. MOLECULAR AND GENERAL GENETICS 263 (1): 60-72.
38. Miller, ME; Cross, FR. 2000. Distinct subcellular localization patterns contribute to functional specificity of the Cln2 and Cln3
cyclins of Saccharomyces cerevisiae. MOLECULAR AND CELLULAR BIOLOGY 20 (2): 542-555.
39. Alepuz, PM; Matheos, D; Cunningham, KW; Estruch, F. 1999. The Saccharomyces cerevisiae RanGTP-binding protein Msn5p is
involved in different signal transduction pathways. GENETICS 153 (3): 1219-1231.
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Cvrčková - ohlasy
40. Bouquin, N; Johnson, AL; Morgan, BA; Johnston, LH. 1999. Association of the cell cycle transcription factor Mbp1 with the
Skn7 response regulator in budding yeast. MOLECULAR BIOLOGY OF THE CELL 10 (10): 3389-3400.
41. Levine, K; Kiang, L; Jacobson, MD; Fisher, RP; Cross, FR. 1999. Directed evolution to bypass cyclin requirements for the
Cdc28p cyclin-dependent kinase. MOLECULAR CELL 4 (3): 353-363.
42. Luukkonen, BGM; Seraphin, B. 1999. A conditional U5 snRNA mutation affecting pre-mRNA splicing and nuclear pre-mRNA
retention identifies SSD1/SRK1 as a general splicing mutant suppressor. NUCLEIC ACIDS RESEARCH 27 (17): 3455-3465.
43. Park, HO; Sanson, A; Herskowitz, I. 1999. Localization of Bud2p, a GTPase-activating protein necessary for programming cell
polarity in yeast to the presumptive bud site. GENES & DEVELOPMENT 13 (15): 1912-1917.
44. Drgonova, J; Drgon, T; Roh, DH; Cabib, E. 1999. The GTP-binding protein Rho1p is required for cell cycle progression and
polarization of the yeast cell. JOURNAL OF CELL BIOLOGY 146 (2): 373-387.
45. Anghileri, P; Branduardi, P; Sternieri, F; Monti, P; Visintin, R; Bevilacqua, A; Alberghina, L; Martegani, E; Baroni, MD. 1999.
Chromosome separation and exit from mitosis in budding yeast: Dependence on growth revealed by cAMP-mediated inhibition.
EXPERIMENTAL CELL RESEARCH 250 (2): 510-523.
46. Loeb, JDJ; Sepulveda-Becerra, M; Hazan, I; Liu, HP. 1999. A G(1) cyclin is necessary for maintenance of filamentous growth in
Candida albicans. MOLECULAR AND CELLULAR BIOLOGY 19 (6): 4019-4027.
47. Koch, C; Wollmann, P; Dahl, M; Lottspeich, F. 1999. A role for Ctr9p and Paf1p in the regulation G(1) cyclin expression in
yeast. NUCLEIC ACIDS RESEARCH 27 (10): 2126-2134.
48. Nern, A; Arkowitz, RA. 1999. A Cdc24p-Far1p-G beta gamma protein complex required for yeast orientation during mating.
JOURNAL OF CELL BIOLOGY 144 (6): 1187-1202.
49. Shellman, YG; Svee, E; Sclafani, RA; Langan, TA. 1999. Identification and characterization of individual cyclin-dependent
kinase complexes from Saccharomyces cerevisiae. YEAST 15 (4): 295-309.
50. Johnson, DI. 1999. Cdc42: An essential Rho-type GTPase controlling eukaryotic cell polarity. MICROBIOLOGY AND
MOLECULAR BIOLOGY REVIEWS 63 (1): 54-+.
51. Vallen, EA; Cross, FR. 1999. Interaction between the MEC1-dependent DNA synthesis checkpoint and G1 cyclin function in
Saccharomyces cerevisiae. GENETICS 151 (2): 459-471.
52. Kukuruzinska, MA; Lennon-Hopkins, K. 1999. ALG gene expression and cell cycle progression. BIOCHIMICA ET
BIOPHYSICA ACTA-GENERAL SUBJECTS 1426 (2): 359-372.
53. Colomina, N; Gari, E; Gallego, C; Herrero, E; Aldea, M. 1999. G(1) cyclins block the Ime1 pathway to make mitosis and meiosis
incompatible in budding yeast. EMBO JOURNAL 18 (2): 320-329.
54. Zeng, GS; Cai, MJ. 1999. Regulation of the actin cytoskeleton organization in yeast by a novel serine/threonine kinase Prk1p.
JOURNAL OF CELL BIOLOGY 144 (1): 71-82.
55. Mendenhall, MD; Hodge, AE. 1998. Regulation of cdc28 cyclin-dependent protein kinase activity during the cell cycle of the
yeast Saccharomyces cerevisiae. MICROBIOLOGY AND MOLECULAR BIOLOGY REVIEWS 62 (4): 1191-+.
56. Carroll, CW; Altman, R; Schieltz, D; Yates, JR; Kellogg, D. 1998. The septins are required for the mitosis-specific activation of
the Gin4 kinase. JOURNAL OF CELL BIOLOGY 143 (3): 709-717.
57. Madden, K; Snyder, M. 1998. Cell polarity and morphogenesis in budding yeast. ANNUAL REVIEW OF MICROBIOLOGY 52:
687-744.
58. Tjandra, H; Compton, J; Kellogg, D. 1998. Control of mitotic events by the Cdc42 GTPase, the Clb2 cyclin and a member of the
PAK kinase family. CURRENT BIOLOGY 8 (18): 991-1000.
59. Cabib, E; Drgonova, J; Drgon, T. 1998. Role of small G proteins in yeast cell polarization and wall biosynthesis. ANNUAL
REVIEW OF BIOCHEMISTRY 67: 307-333.
60. Bordallo, J; Plemper, RK; Finger, A; Wolf, DH. 1998. De3p/Hrd1p is required for endoplasmic reticulum-associated degradation
of misfolded lumenal and integral membrane proteins. MOLECULAR BIOLOGY OF THE CELL 9 (1): 209-222.
61. Gallego, C; Gari, E; Colomina, N; Herrero, E; Aldea, M. 1997. The Cln3 cyclin is down-regulated by translational repression and
degradation during the G(1) arrest caused by nitrogen deprivation in budding yeast. EMBO JOURNAL 16 (23): 7196-7206.
62. Sutton, A; Freiman, R. 1997. The Cak1p protein kinase is required at G(1)/S and G(2)/M in the budding yeast cell cycle.
GENETICS 147 (1): 57-71.
63. Benton, BK; Tinkelenberg, A; Gonzalez, I; Cross, FR. 1997. Cla4p, a Saccharomyces cerevisiae Cdc42p-activated kinase
involved in cytokinesis, is activated at mitosis. MOLECULAR AND CELLULAR BIOLOGY 17 (9): 5067-5076.
64. Igual, JC; Toone, WM; Johnston, LH. 1997. A genetic screen reveals a role for the late G(1)-specific transcription factor Swi4p in
diverse cellular functions including cytokinesis. JOURNAL OF CELL SCIENCE 110: 1647-1654, Part 14.
65. Uesono, Y; Tohe, A; Kikuchi, Y. 1997. Ssd1p of Saccharomyces cerevisiae associates with RNA. JOURNAL OF BIOLOGICAL
CHEMISTRY 272 (26): 16103-16109.
66. Wassmann, K; Ammerer, G. 1997. Overexpression of the G(1)-cyclin gene CLN2 represses the mating pathway in
Saccharomyces cerevisiae at the level of the MEKK ste11. JOURNAL OF BIOLOGICAL CHEMISTRY 272 (20): 13180-13188.
67. Winsor, B; Schiebel, E. 1997. Review: An overview of the Saccharomyces cerevisiae microtubule and microfilament
cytoskeleton. YEAST 13 (5): 399-434.
68. Evans, DRH; Stark, MJR. 1997. Mutations in the Saccharomyces cerevisiae type 2A protein phosphatase catalytic subunit reveal
roles in cell wall integrity, actin cytoskeleton organization and mitosis. GENETICS 145 (2): 227-241.
69. Martin, H; Mendoza, A; RodriguezPachon, JM; Molina, M; Nombela, C. 1997. Characterization of SKM1, a Saccharomyces
cerevisiae gene encoding a novel Ste20/PAK-like protein kinase. MOLECULAR MICROBIOLOGY 23 (3): 431-444.
70. Levine, K; Huang, K; Cross, FR. 1996. Saccharomyces cerevisiae G(1) cyclins differ in their intrinsic functional specificities.
MOLECULAR AND CELLULAR BIOLOGY 16 (12): 6794-6803.
71. Igual, JC; Johnson, AL; Johnston, LH. 1996. Coordinated regulation of gene expression by the cell cycle transcription factor
SWI4 and the protein kinase C MAP kinase pathway for yeast cell integrity. EMBO JOURNAL 15 (18): 5001-5013.
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Cvrčková - ohlasy
72. Toda, T; Niwa, H; Nemoto, T; Dhut, S; Eddison, M; Matsusaka, T; Yanagida, M; Hirata, D. 1996. The fission yeast sts5(+) gene
is required for maintenance of growth polarity and functionally interacts with protein kinase C and an osmosensing MAP-kinase
pathway. JOURNAL OF CELL SCIENCE 109: 2331-2342, Part 9.
73. Hiller, MM; Finger, A; Schweiger, M; Wolf, DH. 1996. ER degradation of a misfolded luminal protein by the cytosolic ubiquitinproteasome pathway. SCIENCE 273 (5282): 1725-1728.
74. Tang, HY; Cai, MJ. 1996. The EH-domain-containing protein pan1 is required for normal organization of the actin cytoskeleton
in Saccharomyces cerevisiae. MOLECULAR AND CELLULAR BIOLOGY 16 (9): 4897-4914.
75. Herskowitz, I; Park, HO; Sanders, S; Valtz, N; Peter, M. 1995. Programming of cell polarity in budding yeast by endogenous and
exogenous signals. COLD SPRING HARBOR SYMPOSIA ON QUANTITATIVE BIOLOGY 60: 717-727.
76. Pringle, JR; Bi, E; Harkins, HA; Zahner, JE; DeVirgilio, C; Chant, J; Corrado, K; Fares, H. 1995. Establishment of cell polarity in
yeast. COLD SPRING HARBOR SYMPOSIA ON QUANTITATIVE BIOLOGY 60: 729-744.
77. Lyons, DM; Mahanty, SK; Choi, KY; Manandhar, M; Elion, EA. 1996. The SH3-domain protein Bem1 coordinates mitogenactivated protein kinase cascade activation with cell cycle control in Saccharomyces cerevisiae. MOLECULAR AND
CELLULAR BIOLOGY 16 (8): 4095-4106.
78. Longhese, MP; Fraschini, R; Plevani, P; Lucchini, G. 1996. Yeast pip3/mec3 mutants fail to delay entry into S phase and to slow
DNA replication in response to DNA damage, and they define a functional link between Mec3 and DNA primase. MOLECULAR
AND CELLULAR BIOLOGY 16 (7): 3235-3244.
79. Zahner, JE; Harkins, HA; Pringle, JR. 1996. Genetic analysis of the bipolar pattern of bud site selection in the yeast
Saccharomyces cerevisiae. MOLECULAR AND CELLULAR BIOLOGY 16 (4): 1857-1870.
80. Knop, M; Finger, A; Braun, T; Hellmuth, K; Wolf, DH. 1996. Der1, a novel protein specifically required for endoplasmic
reticulum degradation in yeast. EMBO JOURNAL 15 (4): 753-763.
81. Benton, BK; Plump, SD; Roos, J; Lennarz, WJ; Cross, FR. 1996. Overexpression of S-cerevisiae G(1) cyclins restores the
viability of alg1 N-glycosylation mutants. CURRENT GENETICS 29 (2): 106-113.
82. Barbet, NC; Schneider, U; Helliwell, SB; Stansfield, I; Tuite, MF; Hall, MN. 1996. TOR controls translation initiation and early
G1 progression in yeast. MOLECULAR BIOLOGY OF THE CELL 7 (1): 25-42.
83. Govindan, B; Novick, P. 1995. Development of cell polarity in budding yeast. JOURNAL OF EXPERIMENTAL ZOOLOGY
273 (5): 401-424.
84. Kao, LR; Peterson, J; Ji, R; Bender, L; Bender, A. 1996. Interactions between the ankyrin repeat-containing protein Akr1p and
the pheromone response pathway in Saccharomyces cerevisiae. MOLECULAR AND CELLULAR BIOLOGY 16 (1): 168-178.
85. CROSS, FR. 1995. STARTING THE CELL-CYCLE - WHATS THE POINT. CURRENT OPINION IN CELL BIOLOGY 7 (6):
790-797.
86. KRON, SJ; GOW, NAR. 1995. BUDDING YEAST MORPHOGENESIS - SIGNALING, CYTOSKELETON AND CELLCYCLE. CURRENT OPINION IN CELL BIOLOGY 7 (6): 845-855.
87. SANTOCANALE, C; NEECKE, H; LONGHESE, MP; LUCCHINI, G; PLEVANI, P. 1995. MUTATIONS IN THE GENE
ENCODING THE 34 KDA SUBUNIT OF YEAST REPLICATION PROTEIN-A CAUSE DEFECTIVE S-PHASE
PROGRESSION. JOURNAL OF MOLECULAR BIOLOGY 254 (4): 595-607.
88. MORGAN, BA; BOUQUIN, N; JOHNSTON, LH. 1995. 2-COMPONENT SIGNAL-TRANSDUCTION SYSTEMS IN
BUDDING YEAST MAP A DIFFERENT PATHWAY. TRENDS IN CELL BIOLOGY 5 (12): 453-457.
89. MORGAN, BA; BOUQUIN, N; MERRILL, GF; JOHNSTON, LH. 1995. A YEAST TRANSCRIPTION FACTOR
BYPASSING THE REQUIREMENT FOR SBF AND DSC1/MBF IN BUDDING YEAST HAS HOMOLOGY TO
BACTERIAL SIGNAL-TRANSDUCTION PROTEINS. EMBO JOURNAL 14 (22): 5679-5689.
90. DOSEFF, AI; ARNDT, KT. 1995. LAS1 IS AN ESSENTIAL NUCLEAR-PROTEIN INVOLVED IN CELL
MORPHOGENESIS AND CELL-SURFACE GROWTH. GENETICS 141 (3): 857-871.
91. ALTHOEFER, H; SCHLEIFFER, A; WASSMANN, K; NORDHEIM, A; AMMERER, G. 1995. MCM1 IS REQUIRED TO
COORDINATE G(2)-SPECIFIC TRANSCRIPTION IN SACCHAROMYCES-CEREVISIAE. MOLECULAR AND
CELLULAR BIOLOGY 15 (11): 5917-5928.
92. ADAMES, N; BLUNDELL, K; ASHBY, MN; BOONE, C. 1995. ROLE OF YEAST INSULIN-DEGRADING ENZYME
HOMOLOGS IN PROPHEROMONE PROCESSING AND BUD SITE SELECTION. SCIENCE 270 (5235): 464-467.
93. CID, VJ; DURAN, A; DELREY, F; SNYDER, MP; NOMBELA, C; SANCHEZ, M. 1995. MOLECULAR-BASIS OF CELL
INTEGRITY AND MORPHOGENESIS IN SACCHAROMYCES-CEREVISIAE. MICROBIOLOGICAL REVIEWS 59 (3):
345-386.
94. VALLEN, EA; CROSS, FR. 1995. MUTATIONS IN RAD27 DEFINE A POTENTIAL LINK BETWEEN G(1) CYCLINS AND
DNA-REPLICATION. MOLECULAR AND CELLULAR BIOLOGY 15 (8): 4291-4302.
95. CROSS, F. 1995. TRANSCRIPTIONAL REGULATION BY A CYCLIN-CDK. TRENDS IN GENETICS 11 (6): 209-211.
96. LEW, DJ; REED, SI. 1995. A CELL-CYCLE CHECKPOINT MONITORS CELL MORPHOGENESIS IN BUDDING YEAST.
JOURNAL OF CELL BIOLOGY 129 (3): 739-749.
97. TRON, T; YANG, MJ; DICK, FA; SCHMITT, ME; TRUMPOWER, BL. 1995. QSR1, AN ESSENTIAL YEAST GENE WITH
A GENETIC-RELATIONSHIP TO A SUBUNIT OF THE MITOCHONDRIAL CYTOCHROME BC(1) COMPLEX, IS
HOMOLOGOUS TO A GENE IMPLICATED IN EUKARYOTIC CELL-DIFFERENTIATION. JOURNAL OF BIOLOGICAL
CHEMISTRY 270 (17): 9961-9970.
98. DICOMO, CJ; CHANG, H; ARNDT, KT. 1995. ACTIVATION OF CLN1 AND CLN2 G(1) CYCLIN GENE-EXPRESSION
BY BCK2. MOLECULAR AND CELLULAR BIOLOGY 15 (4): 1835-1846.
99. ZHENG, Y; BENDER, A; CERIONE, RA. 1995. INTERACTIONS AMONG PROTEINS INVOLVED IN BUD-SITE
SELECTION AND BUD-SITE ASSEMBLY IN SACCHAROMYCES-CEREVISIAE. JOURNAL OF BIOLOGICAL
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