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Craig J Benham

Showing results (1-10 of 39) with videos related to

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Nucleic Acids Research|November 23, 2023
DNA superhelicityCraig J Benham
Physical Biology|May 17, 2011
DNA stress and strain, in silico, in vitro and in vivoDavid Levens, Craig J Benham
Bioinformatics (Oxford, England)|May 8, 2004
WebSIDD: server for predicting stress-induced duplex destabilized (SIDD) sites in superhelical DNAChengpeng Bi, Craig J Benham
Journal of Computational Biology : a Journal of Computational Molecular Cell Biology|December 8, 2004
The analysis of stress-induced duplex destabilization in long genomic DNA sequencesCraig J Benham, Chengpeng Bi
Plos Computational Biology|January 23, 2008
Superhelical destabilization in regulatory regions of stress response genesHuiquan Wang, Craig J Benham
BMC Bioinformatics|May 9, 2006
Promoter prediction and annotation of microbial genomes based on DNA sequence and structural responses to superhelical stressHuiquan Wang, Craig J Benham
Nucleic Acids Research|August 24, 2013
Competitive superhelical transitions involving cruciform extrusionDina Zhabinskaya, Craig J Benham
The Journal of Biological Chemistry|February 29, 2020
Emerging roles for R-loop structures in the management of topological stressFrederic Chedin, Craig J Benham
Plos Computational Biology|February 2, 2011
Theoretical analysis of the stress induced B-Z transition in superhelical DNADina Zhabinskaya, Craig J Benham
Plos Computational Biology|May 10, 2012
Theoretical analysis of competing conformational transitions in superhelical DNADina Zhabinskaya, Craig J Benham
Pageof 4

Showing results (1-10 of 39) with videos related to

Sort By:
Pageof 4
Nucleic Acids Research|November 23, 2023
DNA superhelicityCraig J Benham
Physical Biology|May 17, 2011
DNA stress and strain, in silico, in vitro and in vivoDavid Levens, Craig J Benham
Bioinformatics (Oxford, England)|May 8, 2004
WebSIDD: server for predicting stress-induced duplex destabilized (SIDD) sites in superhelical DNAChengpeng Bi, Craig J Benham
Journal of Computational Biology : a Journal of Computational Molecular Cell Biology|December 8, 2004
The analysis of stress-induced duplex destabilization in long genomic DNA sequencesCraig J Benham, Chengpeng Bi
Plos Computational Biology|January 23, 2008
Superhelical destabilization in regulatory regions of stress response genesHuiquan Wang, Craig J Benham
BMC Bioinformatics|May 9, 2006
Promoter prediction and annotation of microbial genomes based on DNA sequence and structural responses to superhelical stressHuiquan Wang, Craig J Benham
Nucleic Acids Research|August 24, 2013
Competitive superhelical transitions involving cruciform extrusionDina Zhabinskaya, Craig J Benham
The Journal of Biological Chemistry|February 29, 2020
Emerging roles for R-loop structures in the management of topological stressFrederic Chedin, Craig J Benham
Plos Computational Biology|February 2, 2011
Theoretical analysis of the stress induced B-Z transition in superhelical DNADina Zhabinskaya, Craig J Benham
Plos Computational Biology|May 10, 2012
Theoretical analysis of competing conformational transitions in superhelical DNADina Zhabinskaya, Craig J Benham
Pageof 4