Uploads by Taylor Pursell
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| Date | Name | Thumbnail | Size | Description |
|---|---|---|---|---|
| 11:24, 20 March 2013 | Figure6 BarlowCell.jpeg (file) |  |
59 KB | |
| 11:42, 27 February 2013 | Figure2A BarlowCell.jpg (file) |  |
26 KB | |
| 11:40, 27 February 2013 | Figure3A Barlow.png (file) |  |
182 KB | Barlow, J. H. et al. Identification of Early Replicating Fragile Sites that Contribute to Genome Instability. Cell 152:1-13 (2013) |
| 11:25, 27 February 2013 | Figure2BC BarlowCell.jpg (file) |  |
99 KB | Barlow, J. H. et al. Identification of Early Replicating Fragile Sites that Contribute to Genome Instability. Cell 152:1-13 (2013) |
| 11:15, 27 February 2013 | Figure2D BarlowCell.tiff (file) |  |
692 KB | Barlow, J. H. et al. Identification of Early Replicating Fragile Sites that Contribute to Genome Instability. Cell 152:1-13 (2013) |
| 10:03, 11 February 2013 | Fig4 ProposedModel.png (file) |  |
126 KB | |
| 10:03, 11 February 2013 | Fig4 HI.png (file) |  |
42 KB | |
| 09:58, 11 February 2013 | Nucleation GrowthRateFig.jpg (file) |  |
34 KB | |
| 15:04, 10 February 2013 | RecFOR Figure.jpg (file) |  |
56 KB | Model of the function of RecF, RecO, and RecR proteins in recombinational pair of ssDNA gaps in E. coli; Credit: Morimatsu, Katsumi & Kowalczykowski, Stephen C. RecFOR Proteins Load RecA Protein onto Gapped DNA to Accelerate DNA Strand Exchange: A Univers |
| 10:10, 6 February 2013 | Figure4ghij DirectImaging.png (file) |  |
218 KB | |
| 10:10, 6 February 2013 | Figure4abcd DirectImaging.png (file) |  |
74 KB | |
| 10:09, 6 February 2013 | Figure3bcd DirectImaging.png (file) |  |
209 KB | |
| 09:49, 6 February 2013 | Fig2abef DirectImaging.png (file) |  |
115 KB | |
| 09:44, 6 February 2013 | Fig1de DirectImaging.jpg (file) |  |
38 KB | |
| 08:27, 6 February 2013 | Direct Imaging Figure1ab.jpg (file) |  |
48 KB | Figure 1 panels a and b; Credit: Bell, Jason C., Plank, Jody L., Dombrowski, Christopher C., and Kowalczykowski. Direct imaging of RecA nucleation and growth on single molecules of SSB-coated ssDNA. Nature 491, 274 - 278 (2012) |
| 08:21, 6 February 2013 | Figure4g.jpg (file) |  |
40 KB | Figure 4 panel g; Credit: Bell, Jason C., Plank, Jody L., Dombrowski, Christopher C., and Kowalczykowski. Direct imaging of RecA nucleation and growth on single molecules of SSB-coated ssDNA. Nature 491, 274 - 278 (2012). |
| 13:17, 5 February 2013 | RecA Diagram 1.jpg (file) |  |
48 KB | Stages of replacement of SSB with RecA protein. Credit:Cox, Michael M. Motoring along with the bacterial RecA. Nature Reveiws Molecular Cell Biology 8, 127-138 (2007) |
| 12:23, 5 February 2013 | RecA-ssDNA ATP.jpg (file) |  |
418 KB | RecA proteins bound to dsDNA and ATP; Credit: Chen, Z., Yang, H., Pavletich, N.P. Machanism of homolgous recombination from the RecA-ssDNA/dsDNA strucures. Nature 435. 489-494 (2008) |
| 12:18, 5 February 2013 | Homologous recombination 3cmt.png (file) |  |
194 KB | RecA dimer bound to ssDNA and ATP Chen, Z., Yang, H., Pavletich, N.P. Machanism of homolgous recombination from the RecA-ssDNA/dsDNA strucures. Nature 435. 489-494 (2008) |
