Jessica Danahy scite author profile

Jessica Danahy

2Publications

10Citation Statements Received

112Citation Statements Given

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University of Missouri–Kansas City

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Mechanisms of Specific and Nonspecific Binding of Architectural Proteins in Prokaryotic Gene Regulation

et al. 2008

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IHF and HU are small basic proteins of eubacteria that bind as homodimers to double-stranded DNA and bend the duplex to promote architectures required for gene regulation. These architectural proteins share a common alpha/beta fold but exhibit different nucleic acid binding surfaces and distinct functional roles. With respect to DNA-binding specificity, for example, IHF is sequence specific, while HU is not. We have employed Raman difference spectroscopy and gel mobility assays to characterize the molecular mechanisms underlying such differences in DNA recognition. Parallel studies of solution complexes of IHF and HU with the same DNA nonadecamer (5' --> 3' sequence: TC TAAGTAGTTGATTCATA, where the phage lambda H1 consensus sequence of IHF is underlined) show the following. (i) The structure of the targeted DNA site is altered much more dramatically by IHF than by HU binding. (ii) In the IHF complex, the structural perturbations encompass both the sugar-phosphate backbone and the bases of the consensus sequence, whereas only the DNA backbone is altered by HU binding. (iii) In the presence of excess protein, complexes of order higher than 1 dimer per duplex are detected for HU:DNA, though not for IHF:DNA. The results differentiate structural motifs of IHF:DNA and HU:DNA solution complexes, provide Raman signatures of prokaryotic sequence-specific and nonspecific recognition, and suggest that the architectural role of HU may involve the capability to recruit additional binding partners to even relatively short DNA sequences.

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NMR Assignment of Protein Rv1980c from Mycobacterium Tuberculosis

et al. 2005

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Jessica Danahy

Mechanisms of Specific and Nonspecific Binding of Architectural Proteins in Prokaryotic Gene Regulation

NMR Assignment of Protein Rv1980c from Mycobacterium Tuberculosis

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