C P Price scite author profile

cdc28-1N is a conditional allele that has normal G1 (Start) function but confers a mitotic defect. We have isolated seven genes that in high dosage suppress the growth defect of cdc28-1N cells but not of Start-defective cdc28-4 cells. Three of these (CLB1, CLB2, and CLB4) encode proteins strongly homologous to G2-specific B-type cyclins. Another gene, CLB3, was cloned using PCR, CLB1 and CLB2 encode a pair of closely related proteins; CLB3 and CLB4 encode a second pair. Neither CLB1 nor CLB2 is essential; however, disruption of both is lethal and causes a mitotic defect. Furthermore, the double mutant cdc28-1N clb2::LEU2 is nonviable, whereas cdc28-4 clb2::LEU2 is viable, suggesting that the cdc28-1N protein may be defective in its interaction with B-type cyclins. Our results are consistent with CDC28 function being required in both G1 and mitosis. Its mitotic role, we believe, involves interaction with a family of at least four G2-specific cyclins.

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Basis for changes in DNA recognition by the Type I DNA restriction and modification enzymes

Price

Lingner

Bickle

et al. 1989

Journal of Molecular Biology

104

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Untitled

et al. 2001

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The translationally controlled tumor-associated proteins (TCTPs) are a highly conserved and abundantly expressed family of eukaryotic proteins that are implicated in both cell growth and the human acute allergic response but whose intracellular biochemical function has remained elusive. We report here the solution structure of the TCTP from Schizosaccharomyces pombe, which, on the basis of sequence homology, defines the fold of the entire family. We show that TCTPs form a structural superfamily with the Mss4/Dss4 family of proteins, which bind to the GDP/GTP free form of Rab proteins (members of the Ras superfamily) and have been termed guanine nucleotide-free chaperones (GFCs). Mss4 also acts as a relatively inefficient guanine nucleotide exchange factor (GEF). We further show that the Rab protein binding site on Mss4 coincides with the region of highest sequence conservation in the TCTP family. This is the first link to any other family of proteins that has been established for the TCTP family and suggests the presence of a GFC/GEF at extremely high abundance in eukaryotic cells.

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A general approach to the isolation of cell cycle-regulated genes in the budding yeast, Saccharomyces cerevisiae

Price

Nasmyth

Schuster

1991

Journal of Molecular Biology

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Characterisation of the Schizosaccharomyces pombe rad4/cut5 mutant phenotypes: dissection of DNA replication and G2 checkpoint control function

1997

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Mutation of the essential Schizosaccharomyces pombe rad4/cut5 gene causes sensitivity to UV and ionising radiation at the permissive temperature whilst at the restrictive temperature cells fail to undergo DNA replication but still attempt mitosis owing to a defective S-phase checkpoint response. Many mutations in genes encoding DNA replication proteins also abolish checkpoint responses, possibly because the replication machinery is a pre-requisite for the generation of the signal. We demonstrate here that rad4/cut5 cells fail to arrest cell division when treated with the replication inhibitor hydroxyurea at the semi-permissive temperature 32 degrees C, but retain essentially normal replicative capacity. This demonstrates that the replication and checkpoint function of the rad4/cut5 gene product can be separated and that the Rad4 protein differs from other replication proteins in being directly involved in generating the S-phase checkpoint signal. Furthermore, we have investigated the checkpoint response or rad4/cut5-deficient cells to gamma-irradiation and UV-mimetic drugs. We find that, at the restrictive temperature, the rad4-/cut5- cells fail to delay mitosis in response to gamma-irradiation whilst retaining a normal checkpoint response to the UV-mimetic drug 4-nitroquinoline-1-oxide. The lack of the gamma-irradiation checkpoint is reminiscent of the deficiency associated with mutation of the human ATM locus, the causative deficiency of the heritable disorder ataxia telangiectasia. The implications of our results for the organisation of distinct checkpoint-response pathways in both fission yeast and mammalian cells are discussed. Moreover the data are consistent with a model in which the generation of the S-Phase checkpoint signal is DNA polymerase epsilon dependent.

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Measurement of Blood Glucose

Burrin

Price

1985

Ann Clin Biochem

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IQGAP and mitotic exit network (MEN) proteins are required for cytokinesis and re-polarization of the actin cytoskeleton in the budding yeast, Saccharomyces cerevisiae

Corbett¹,

Xiong²,

Boyne³

et al. 2006

European Journal of Cell Biology

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DNA recognition by a new family of type I restriction enzymes: a unique relationship between two different DNA specificities.

Price¹,

Shepherd²,

Bickle³

1987

The EMBO Journal

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The DNA sequences recognized by the allelic type I restriction enzymes EcoR124 and EcoRl24/3 were determined. EcoRl24 recognizes 5'-GAA(N6)RTCG-3' and EcoR12413 recognizes 5'-GAA(N7)RTCG-3'. These are typical of sequences recognized by type I recognition enzymes in that they consist of two specific domains separated by a non-specific spacer sequence. For these two enzymes, the specific sequences are identical but the length of the non-specific spacer is different. The specific domains of EcoR124/3 are thus 3.4 A further apart than those of EcoR124 and rotated with respect to each other through a further 360.

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C P Price

The role of CDC28 and cyclins during mitosis in the budding yeast S. cerevisiae

Basis for changes in DNA recognition by the Type I DNA restriction and modification enzymes

Untitled

A general approach to the isolation of cell cycle-regulated genes in the budding yeast, Saccharomyces cerevisiae

Characterisation of the Schizosaccharomyces pombe rad4/cut5 mutant phenotypes: dissection of DNA replication and G2 checkpoint control function

Measurement of Blood Glucose

IQGAP and mitotic exit network (MEN) proteins are required for cytokinesis and re-polarization of the actin cytoskeleton in the budding yeast, Saccharomyces cerevisiae

DNA recognition by a new family of type I restriction enzymes: a unique relationship between two different DNA specificities.

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