Lorraine S. Symington
Affiliations: | Columbia University, New York, NY |
Area:
Genetics and biochemistry of DNA recombination and repair in yeastWebsite:
http://www.microbiology.columbia.edu/faculty/symington.htmlGoogle:
"Lorraine Symington"Mean distance: 4976.62 (cluster 32)
Children
Sign in to add trainee| Robert A. DeSimone | research assistant | 2006-2007 | Cornell |
| Elizabeth A. Stivison | grad student | Columbia (Crystallography Tree) | |
| Gary S. Fortin | grad student | 2004 | Columbia |
| Allison P. Wheeler | grad student | 2004 | Columbia |
| Lance D. Langston | grad student | 2005 | Columbia |
| Cindy Fung | grad student | 2008 | Columbia |
| Vanessa Marrero | grad student | 2010 | Columbia |
| Christina Mott | grad student | 2010 | Columbia |
| Eleni P. Mimitou | grad student | 2011 | Columbia |
| Huan Chen | grad student | 2014 | Columbia (Cell Biology Tree) |
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Publications
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| Kimble MT, Sane A, Reid RJD, et al. (2024) Repair of replication-dependent double-strand breaks differs between the leading and lagging strands. Molecular Cell |
| Triplett MK, Johnson MJ, Symington LS. (2024) Induction of homologous recombination by site-specific replication stress. Dna Repair. 142: 103753 |
| Kimble MT, Sane A, Reid RJ, et al. (2024) Strand asymmetry in the repair of replication dependent double-strand breaks. Biorxiv : the Preprint Server For Biology |
| Galanti L, Peritore M, Gnügge R, et al. (2024) Dbf4-dependent kinase promotes cell cycle controlled resection of DNA double-strand breaks and repair by homologous recombination. Nature Communications. 15: 2890 |
| Meir A, Raina VB, Rivera CE, et al. (2023) The separation pin distinguishes the pro- and anti-recombinogenic functions of Saccharomyces cerevisiae Srs2. Nature Communications. 14: 8144 |
| Al-Zain AM, Nester MR, Ahmed I, et al. (2023) Double-strand breaks induce inverted duplication chromosome rearrangements by a DNA polymerase δ-dependent mechanism. Nature Communications. 14: 7020 |
| Kimble MT, Johnson MJ, Nester MR, et al. (2023) Long-range DNA end resection supports homologous recombination by checkpoint activation rather than extensive homology generation. Elife. 12 |
| Gnügge R, Reginato G, Cejka P, et al. (2023) Sequence and chromatin features guide DNA double-strand break resection initiation. Molecular Cell |
| Al-Zain A, Nester MR, Symington LS. (2023) Double-strand breaks induce inverted duplication chromosome rearrangements by a DNA polymerase δ and Rad51-dependent mechanism. Biorxiv : the Preprint Server For Biology |
| Marie L, Kimble MT, Symington LS. (2022) Genetic reporters to detect and quantify homologous recombination in yeast. Methods in Cell Biology. 182: 35-48 |