Abstracts

 

·                    Malkova A., Downing B., VanHulle K., and Deem A.  Single-strand annealing between inverted repeats initiated by double-strand breaks.  Abstracts of the FASEB Summer Research Conference “DNA palindromes: roles, consequences and implications of structurally ambivalent DNA”, 2008: 6.  

·                    Deem A., VanHulle K., Downing B., Hull K., Morgan R., and Malkova A.  Deleterious pathways channeling repair of double-strand breaks into chromosomal rearrangements.  Abstracts of the FASEB Summer Research Conference “Genetic recombination and genome rearrangements”, 2007: 70.

·                    VanHulle K., Lemoine F. J., Narayanan V., Downing B., Hull K., McCullough C., Bellinger M., Lobachev K., Petes T. D., and Malkova A.  Inverted DNA repeats channel repair of distant double-strand breaks into chromatid fusions and chromosomal rearrangements.  Abstracts of the FASEB Summer Research Conference “Yeast chromosome structure, replication, and segregation”, 2006: B23.

·                    VanHulle K., Lemoine F. J., Narayanan V., Downing B., Hull K., McCullough C., Bellinger M., Lobachev K., Petes T. D., and Malkova A.  Inverted DNA repeats channel repair of distant double-strand breaks into chromatid fusions and chromosomal rearrangements.  Abstracts of the Gordon Research Conference “Mutagenesis”, 2006: T12.

·                    Deem A., VanHulle K., Lemoine F. J., Narayanan V., Downing B., Hull K., McCullough C., Bellinger M., Lobachev K., Petes T. D., and Malkova A.  Inverted DNA repeats channel repair of distant double-strand breaks into chromatid fusions and chromosomal rearrangements.  Abstracts of the SALK Institute Research Conference on DNA replication and genomic integrity, 2006: 76.

·                    VanHulle K., Lemoine F. J., Narayanan V., Downing B., Hull K., McCullough C., Bellinger M., Lobachev K., Petes T.D., and Malkova A. Inverted DNA repeats channel repair of distant double-strand breaks into chromatid fusions and chromosomal rearrangements. Abstracts of the 8th Annual Midwest DNA repair symposium, 2006: 12.

·                    Bellinger M., Lemoine F., VanHulle K., Hull K., Noble E., Petes T., and Malkova A. The mechanism of chromosomal rearrangements resulting from RAD51-independent repair of DNA breaks. Abstracts of the FASEB Summer Research Conference “Genetic recombination and genome rearrangements”, 2005: 70.

·                    Malkova A. Characterization of gross chromosomal rearrangements resulting from RAD51-independent repair of DNA breaks.  Abstracts of the FASEB Summer Research Conference “Yeast chromosome structure, replication, and segregation”, 2004: B7.

 

Meeting abstracts prior to arrival at IUPUI (selected abstracts).

·                    Malkova A., Naylor M.-A., Yamaguchi M., Haber J.E. RAD51-dependent break-induced replication differs in kinetics and checkpoint responses from RAD51-mediated gene conversion. Abstracts of the FASEB Summer Research Conference “Genetic recombination and genome rearrangements”, 2003: 63.

·                    Malkova A., Ira G., Yamaguchi M., Naylor M., and Haber J.E.  Mechanisms of break-induced replication and the maintenance of telomeres without telomerase.  Abstracts of the papers presented at the 2003 meeting on Telomeres and Telomerase, 2003: 197.

·                    Haber J.E., Lee S-E., Vaze M.B., Malkova A., Pellicioli A., and Foiani M.  Checkpoint responses and repair of a single broken chromosome in Saccharomyces.  Abstracts of the papers presented at the at the Weimar meeting on DNA repair, 2000.

·                     Haber J., Lee S-E., Vaze M., Malkova A., Naylor M., Signon L., Holmes A., and Sugawara N.  Checkpoint responses and repair of double-strand breaks in Saccharomyces.  Abstracts of the meeting of the American Association of Cancer Research, 2000: 47.

·                    Malkova A., Ira G., Yamaguchi M., Naylor M., Kraus E., and Haber J.E.  Role of break-induced replication in repair of double-strand breaks in yeast.  Abstracts of the National Academy of Sciences Colloquium “Links between Recombination and Replication: Vital Roles of Recombination”, 2000.

·                    Haber J.E, Ira G., Malkova A., Sugawara N. and Naylor M.  Exploring chromosome structure and function by recombination.  Abstracts of the FASEB Summer Research Conference “Yeast Chromosome Structure, Replication and Segregation”, 2000: T22.

·                    Malkova A., Klein F., Leung W.-Y., and Haber J.E.  Meiotic and Mitotic pathways of HO-induced double-strand break repair in the yeast Saccharomyces cerevisiae.  Abstracts of the Gordon research Conference “Meiosis”, 2000: P23.

·                    Lee S.E., A. Pellicioli, Demeter J., Vaze M.P., Gasch A.P., Malkova A., Brown P.O., Botstein P.O., Stearns T., Foiani M., and Haber J.E.  Genetic Analysis of Adaptation process from the damage-inducible G2/M cell cycle checkpoint in Saccharomyces cerevisiae. LXV Cold Spring Harbor Symposium on Quantitative Biology “Biological Responses to DNA damage”, 2000.

·                    Malkova A., and Haber J.E.  Double-strand break repair and crossing-over in meiosis and mitosis.  Abstracts of the 4th European Meiosis Meeting “The Meiotic process: Nuclear Architecture, Recombination and Chromosomal Segregation”, 1999: 6.

·                    Haber J.E., Bosco G., Colaiacovo M., Holmes A., Lee S-E., Malkova A., Paques F., Richard G.-F., and Sugawara, N.  Multiple pathways of double-strand break repair in Saccharomyces: three model systems for human diseases.  Abstracts of the conference on “Yeast Genetics and human disease”, 1999.

·                    Haber J.E., Bosco G., Colaiacovo M., Holmes A., Lee S.-E., Malkova A., Paques F., Richard G.-F., and Sugawara, N.  Recombination and replication in  Saccharomyces. Abstracts of the Keystone Symposia on Molecular and Cellular Biology “Molecular Mechanisms in DNA Replication and Recombination”, 1999: T21.

·                    Haber J.E., Bosco G., Colaiacovo M., Holmes A., Malkova A., Paques F., Richard, G.-F., and Sugawara, N. Recombination and replication in Saccharomyces. Abstracts of the DNA repair meeting in Japan, 1998: 28.

·                    Malkova A., Leung W.-Y., and Haber JE. Comparing of meiotic and mitotic repair of HO-induced DNA breaks in yeast.  Abstracts of the Gordon Research Conference “Meiosis”, 1998: P20.

·                    Malkova A., Ross L., Dawson M., Hoekstra F. and J. E. Haber.  Meiotic repair of HO-induced DNA breaks in the yeast Sacharomyces cerevisiae.  Abstracts of the Gordon Research Conference “Meiosis”, 1996: P25.

·                    Haber J.E., Ivanov E., Sugawara N., Malkova A., and Bosco G.  Mechanisms of Homologous and Nonhomologous Recombination in  Saccharomyces cerevisiae.  Abstracts of the Keystone Symposia on Molecular and Cellular Biology “Molecular Mechanisms in DNA Replication and Recombination”, 1996: T22.

·                    Malkova A. and Haber J.E.  Competition between different repair events during mitosis and meiosis in yeast.  Abstracts of the FASEB  Summer Research Conference “Yeast Chromosome Structure, Replication and Segregation”, 1994: B28.

·                    Malkova A. and Haber J.E.  Competition between different repair events during mitosis and meiosis in yeast.  Abstracts of the Gordon Research Conference “Meiosis”, 1994: P12.

·                    Gordenin D.A., Malkova A.L., Petersen A., Kulikov V.N, Pavlov Y.I., Perkins E., and Resnick M.A. Marker-effect of bacterial transposon Tn5 in intragenic recombination in yeast.  Abstracts of the Sixth Congress of N.I. Vavilov All-Union Society of Genetics and Breeding, 1992: 31.

 

 

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