Literature DB >> 19081059

Early interrogation and recognition of DNA sequence by indirect readout.

Elizabeth J Little1, Andrea C Babic, Nancy C Horton.   

Abstract

Control of replication, transcription, recombination and repair requires proteins capable of finding particular DNA sequences in a background of a large excess of nonspecific sequences. Such recognition can involve direct readout, with direct contacts to the bases of DNA, or in some cases through the less well-characterized indirect readout mechanisms. In order to measure the relative contributions of direct and indirect readout by a sequence specific endonuclease, HincII, a mutant enzyme deficient in a direct contact, was characterized, and surprisingly showed no loss of sequence specificity. The three dimensional crystal structure shows the loss of most of the direct readout contacts to the DNA, possibly capturing an early stage in target site recognition using predominately indirect readout to prescreen sites before full sequence interrogation.

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Year:  2008        PMID: 19081059      PMCID: PMC2637360          DOI: 10.1016/j.str.2008.09.009

Source DB:  PubMed          Journal:  Structure        ISSN: 0969-2126            Impact factor:   5.006


  44 in total

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5.  DNA cleavage by the EcoRV restriction endonuclease: roles of divalent metal ions in specificity and catalysis.

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8.  DNA distortion and specificity in a sequence-specific endonuclease.

Authors:  Andrea C Babic; Elizabeth J Little; Veena M Manohar; Jurate Bitinaite; Nancy C Horton
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Review 2.  Origins of specificity in protein-DNA recognition.

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Review 3.  Dancing on DNA: kinetic aspects of search processes on DNA.

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Journal:  Chemphyschem       Date:  2011-05-10       Impact factor: 3.102

4.  DNA Binding and Cleavage by the Human Parvovirus B19 NS1 Nuclease Domain.

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Journal:  Biochemistry       Date:  2016-11-17       Impact factor: 3.162

5.  A model for the evolution of prokaryotic DNA restriction-modification systems based upon the structural malleability of Type I restriction-modification enzymes.

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7.  Detailed mechanism for transposition by TnpA transposase involves DNA shape rather than direct protein-DNA recognition to generate an active nucleoprotein complex.

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8.  DNA intercalation without flipping in the specific ThaI-DNA complex.

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9.  DNA phosphate crowding correlates with protein cationic side chain density and helical curvature in protein/DNA crystal structures.

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10.  DNA structure at the plasmid origin-of-transfer indicates its potential transfer range.

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