FULL ACTIVATION OF P34(CDC28) HISTONE H1 KINASE-ACTIVITY IS UNABLE TO PROMOTE ENTRY INTO MITOSIS IN CHECKPOINT-ARRESTED CELLS OF THE YEAST SACCHAROMYCES-CEREVISIAE

被引：76

作者：

STUELAND, CS ^{[1
]}

LEW, DJ ^{[1
]}

CISMOWSKI, MJ ^{[1
]}

REED, SI ^{[1
]}

机构：

[1] SCRIPPS RES INST, DEPT MOLEC BIOL, MB7, LA JOLLA, CA 92037 USA

来源：

MOLECULAR AND CELLULAR BIOLOGY | 1993年 / 13卷 / 06期

关键词：

D O I：

10.1128/MCB.13.6.3744

中图分类号：

Q5 [生物化学]; Q7 [分子生物学];

学科分类号：

071010 ; 081704 ;

摘要：

In most cells, mitosis is dependent upon completion of DNA replication. The feedback mechanisms that prevent entry into mitosis by cells with damaged or incompletely replicated DNA have been termed checkpoint controls. Studies with the fission yeast Schizosaccharomyces pombe and Xenopus egg extracts have shown that checkpoint controls prevent activation of the master regulatory protein kinase, p34cdc2, that normally triggers entry into mitosis. This is achieved through inhibitory phosphorylation of the Tyr-15 residue of p34cdc2. However, studies with the budding yeast Saccharomyces cerevisiae have shown that phosphorylation of this residue is not essential for checkpoint controls to prevent mitosis. We have investigated the basis for checkpoint controls in this organism and show that these controls can prevent entry into mitosis even in cells which have fully activated the cyclin B (Clb)-associated forms of the budding yeast homolog of p34cdc2, p34CDC28, as assayed by histone H1 kinase activity. However, the active complexes in checkpoint-arrested cells are smaller than those in cycling cells, suggesting that assembly of mitosis-inducing complexes requires additional steps following histone H1 kinase activation.

引用

页码：3744 / 3755

页数：12

共 33 条

[1] REGULATION OF P34CDC28 TYROSINE PHOSPHORYLATION IS NOT REQUIRED FOR ENTRY INTO MITOSIS IN SACCHAROMYCES-CEREVISIAE [J].

AMON, A ;

SURANA, U ;

MUROFF, I ;

NASMYTH, K .

NATURE, 1992, 355 (6358) :368-371

[2]

Byers B, 1981, MOL BIOL YEAST SACCH, P59

[3]

CISMOWSKI MJ, UNPUB

[4] COMPLETION OF DNA-REPLICATION IS MONITORED BY A FEEDBACK-SYSTEM THAT CONTROLS THE INITIATION OF MITOSIS INVITRO - STUDIES IN XENOPUS [J].

DASSO, M ;

NEWPORT, JW .

CELL, 1990, 61 (05) :811-823

[5] Control of M-phase by maturation-promoting factor [J].

Doree, M. .

CURRENT OPINION IN CELL BIOLOGY, 1990, 2 (02) :269-273

[6] MUTATION OF FISSION YEAST-CELL CYCLE CONTROL GENES ABOLISHES DEPENDENCE OF MITOSIS ON DNA-REPLICATION [J].

ENOCH, T ;

NURSE, P .

CELL, 1990, 60 (04) :665-673

[7] CHARACTERIZATION OF 4 B-TYPE CYCLIN GENES OF THE BUDDING YEAST SACCHAROMYCES-CEREVISIAE [J].

FITCH, I ;

DAHMANN, C ;

SURANA, U ;

AMON, A ;

NASMYTH, K ;

GOETSCH, L ;

BYERS, B ;

FUTCHER, B .

MOLECULAR BIOLOGY OF THE CELL, 1992, 3 (07) :805-818

[8] A CYCLIN-B HOMOLOG IN SACCHAROMYCES-CEREVISIAE - CHRONIC ACTIVATION OF THE CDC28 PROTEIN-KINASE BY CYCLIN PREVENTS EXIT FROM MITOSIS [J].

GHIARA, JB ;

RICHARDSON, HE ;

SUGIMOTO, K ;

HENZE, M ;

LEW, DJ ;

WITTENBERG, C ;

REED, SI .

CELL, 1991, 65 (01) :163-174

[9] TYROSINE PHOSPHORYLATION OF THE FISSION YEAST CDC2+ PROTEIN-KINASE REGULATES ENTRY INTO MITOSIS [J].

GOULD, KL ;

NURSE, P .

NATURE, 1989, 342 (6245) :39-45

[10] DIFFERENTIAL FUNCTION AND EXPRESSION OF SACCHAROMYCES-CEREVISIAE B-TYPE CYCLINS IN MITOSIS AND MEIOSIS [J].

GRANDIN, N ;

REED, SI .

MOLECULAR AND CELLULAR BIOLOGY, 1993, 13 (04) :2113-2125

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