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Jang, Sooin; Harshey, Rasika M (2015) Repair of transposable phage Mu DNA insertions begins only when the E.?coli replisome collides with the transpososome. Mol Microbiol 97:746-58
|
|
Harshey, Rasika M (2014) Transposable Phage Mu. Microbiol Spectr 2:
|
|
Choi, Wonyoung; Saha, Rudra P; Jang, Sooin et al. (2014) Controlling DNA degradation from a distance: a new role for the Mu transposition enhancer. Mol Microbiol 94:595-608
|
|
Choi, Wonyoung; Jang, Sooin; Harshey, Rasika M (2014) Mu transpososome and RecBCD nuclease collaborate in the repair of simple Mu insertions. Proc Natl Acad Sci U S A 111:14112-7
|
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Saha, Rudra P; Lou, Zheng; Meng, Luke et al. (2013) Transposable prophage Mu is organized as a stable chromosomal domain of E. coli. PLoS Genet 9:e1003902
|
|
Jang, Sooin; Sandler, Steven J; Harshey, Rasika M (2012) Mu insertions are repaired by the double-strand break repair pathway of Escherichia coli. PLoS Genet 8:e1002642
|
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Lee, Jaemin; Harshey, Rasika M (2012) Loss of FlhE in the flagellar Type III secretion system allows proton influx into Salmonella and Escherichia coli. Mol Microbiol 84:550-65
|
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Harshey, Rasika M (2012) The Mu story: how a maverick phage moved the field forward. Mob DNA 3:21
|
|
Lazova, Milena D; Butler, Mitchell T; Shimizu, Thomas S et al. (2012) Salmonella chemoreceptors McpB and McpC mediate a repellent response to L-cystine: a potential mechanism to avoid oxidative conditions. Mol Microbiol 84:697-711
|
|
Ge, Jun; Lou, Zheng; Cui, Hong et al. (2011) Analysis of phage Mu DNA transposition by whole-genome Escherichia coli tiling arrays reveals a complex relationship to distribution of target selection protein B, transcription and chromosome architectural elements. J Biosci 36:587-601
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