Identification of mutations that decrease the stability of a fragment of Saccharomyces cerevisiae chromosome III lacking efficient replicators.
James F. Theis,Ann Dershowitz,Carmela Irene,Clelia Maciariello,Michael L. Tobin,Giordano Liberi,Sahba Tabrizifard,Malgorzata Korus,Lucia Fabiani,Carol S. Newlon +9 more
TL;DR: Ofm14 is an allele of RAD9, which is required for the activation of the DNA damage checkpoint, suggesting that this checkpoint plays a key role in the maintenance of the “originless” fragment.
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Abstract: Eukaryotic chromosomes are duplicated during S phase and transmitted to progeny during mitosis with high fidelity. Chromosome duplication is controlled at the level of replication initiation, which occurs at cis-acting replicator sequences that are spaced at intervals of approximately 40 kb along the chromosomes of the budding yeast Saccharomyces cerevisiae. Surprisingly, we found that derivatives of yeast chromosome III that lack known replicators were replicated and segregated properly in at least 96% of cell divisions. To gain insight into the mechanisms that maintain these "originless" chromosome fragments, we screened for mutants defective in the maintenance of an "originless" chromosome fragment, but proficient in the maintenance of the same fragment that carries its normal complement of replicators (originless fragment maintenance mutants, or ofm). We show that three of these Ofm mutations appear to disrupt different processes involved in chromosome transmission. The OFM1-1 mutant seems to disrupt an alternative initiation mechanism, and the ofm6 mutant appears to be defective in replication fork progression. ofm14 is an allele of RAD9, which is required for the activation of the DNA damage checkpoint, suggesting that this checkpoint plays a key role in the maintenance of the "originless" fragment.
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Citations
The DNA Damage Response Pathway Contributes to the Stability of Chromosome III Derivatives Lacking Efficient Replicators
James F. Theis,Carmela Irene,Ann Dershowitz,Renee L. Brost,Michael L. Tobin,Fabiana M. di Sanzo,Jian-Ying Wang,Charles Boone,Carol S. Newlon +8 more
TL;DR: Observations suggest that a DNA-damage-independent mechanism enhances ORIΔ chromosome stability, not simply by detecting and responding to DNA template damage, but also by facilitating replication of large inter-origin gaps.
Epigenetic control of DNA replication dynamics in mammals.
TL;DR: Current knowledge on the con-trol of DNA replication dynamics in mammals and the role of chromatin modifications in this basic biological process are presented and discussed.
26
Initiation of DNA Replication from Non-Canonical Sites on an Origin-Depleted Chromosome
TL;DR: Replication profiling of S. cerevisiae chromosome III showed that DNA replication initiates from non-canonical loci around deleted origins in yeast, suggesting that replication initiation can be unexpectedly flexible in this organism.
25
Hst3p, a histone deacetylase, promotes maintenance of Saccharomyces cerevisiae chromosome III lacking efficient replication origins.
TL;DR: The Ofm phenotype is the first report of a chromosome instability phenotype of an hst3 single mutant, indicating that persistence of H3K56Ac-containing chromatin is deleterious for the maintenance of ORIΔ chromosomes, and experiments with synchronous cultures showed that it is replication of H 3K 56Ac- containing chromatin that causes chromosome loss.
•Dissertation
Molecular bases underlying chromosome fragility at Replication Slow Zones in Saccharomyces cerevisiae
N. Hashash
- 01 May 2009
TL;DR: The Rrm3 helicase and Psy2 phosphatase complex were found to suppress chromosome breakage at RSZs in a manner dependent on Tel1, another checkpoint kinase, suggesting that Tel1 is somehow implicated in chromosome stability at RSzs.
References
A system of shuttle vectors and yeast host strains designed for efficient manipulation of DNA in Saccharomyces cerevisiae.
Robert S. Sikorski,Philip Hieter +1 more
TL;DR: A series of yeast shuttle vectors and host strains has been created to allow more efficient manipulation of DNA in Saccharomyces cerevisiae to perform most standard DNA manipulations in the same plasmid that is introduced into yeast.
Functional profiling of the Saccharomyces cerevisiae genome.
Guri Giaever,Angela M. Chu,Li Ni,Carla Connelly,Linda Riles,Steeve Veronneau,Sally Dow,Ankuta Lucau-Danila,Keith Anderson,Bruno André,Adam P. Arkin,Anna Astromoff,Mohamed El Bakkoury,Rhonda Bangham,Rocío Benito,Sophie Brachat,Stefano Campanaro,Matt Curtiss,Karen Davis,Adam M. Deutschbauer,K. D. Entian,Patrick Flaherty,Françoise Foury,David J. Garfinkel,Mark Gerstein,Deanna Gotte,Ulrich Güldener,Johannes H. Hegemann,Svenja Hempel,Zelek S. Herman,Daniel F. Jaramillo,Diane E. Kelly,Steven L. Kelly,Peter Kötter,Darlene LaBonte,David C. Lamb,Ning Lan,Hong Liang,Hong Liao,Lucy Y. Liu,Chuanyun Luo,Marc Lussier,Rong Mao,Patrice Menard,Siew Loon Ooi,José L. Revuelta,Christopher J. Roberts,Matthias Rose,Petra Ross-Macdonald,Bart Scherens,Greg Schimmack,Brenda Shafer,Daniel D. Shoemaker,Sharon Sookhai-Mahadeo,Reginald Storms,Jeffrey N. Strathern,Giorgio Valle,Marleen Voet,Guido Volckaert,Ching Yun Wang,Teresa R. Ward,Julie Wilhelmy,Elizabeth A. Winzeler,Yonghong Yang,Grace Yen,Elaine M. Youngman,Kexin Yu,Howard Bussey,Jef D. Boeke,Michael Snyder,Peter Philippsen,Ronald W. Davis,Mark Johnston +72 more
TL;DR: It is shown that previously known and new genes are necessary for optimal growth under six well-studied conditions: high salt, sorbitol, galactose, pH 8, minimal medium and nystatin treatment, and less than 7% of genes that exhibit a significant increase in messenger RNA expression are also required for optimal Growth in four of the tested conditions.
Designer deletion strains derived from Saccharomyces cerevisiae S288C: a useful set of strains and plasmids for PCR-mediated gene disruption and other applications.
Carrie Baker Brachmann,Adrian Davies,Gregory J. Cost,Emerita Caputo,Joachim J. Li,Joachim J. Li,Philip Hieter,Jef D. Boeke +7 more
TL;DR: A set of yeast strains based on Saccharomyces cerevisiae S288C in which commonly used selectable marker genes are deleted by design based on the yeast genome sequence has been constructed and analysed and will reduce plasmid integration events which can interfere with a wide variety of molecular genetic applications.
•Book
Methods in Yeast Genetics: A Laboratory Course Manual
Mark D. Rose,Fred Winston,Philip Hieter +2 more
- 01 Aug 1990
TL;DR: An intensive course in yeast genetics has been held at Cold Spring Harbor Laboratory for some years, and the course manual reflects its content and scope as discussed by the authors, with a focus on yeast genetics.
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