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BMC Bioinformatics
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June 14, 2016
Identifying peaks in *-seq data using shape information
Francesco Strino, Michael Lappe
Nature Biotechnology
|
December 9, 2003
Unraveling protein interaction networks with near-optimal efficiency
Michael Lappe, Liisa Holm
BMC Bioinformatics
|
December 6, 2008
Detection of protein catalytic residues at high precision using local network properties
Patrick Slama, Ioannis Filippis, Michael Lappe
Journal of Computational Biology : a Journal of Computational Molecular Cell Biology
|
February 11, 2005
Accurate detection of very sparse sequence motifs
Andreas Heger, Michael Lappe, Liisa Holm
Plos One
|
June 27, 2009
Optimized null model for protein structure networks
Tijana Milenković, Ioannis Filippis, Michael Lappe, et al.
Bioinformatics (Oxford, England)
|
March 18, 2006
Prediction of viable circular permutants using a graph theoretic approach
Konrad H Paszkiewicz, Michael J E Sternberg, Michael Lappe
Transcription
|
February 18, 2011
Crosstalk between phosphorylation and multi-site arginine/lysine methylation in C/EBPs
Achim Leutz, Ole Pless, Michael Lappe, et al.
Plos Computational Biology
|
December 10, 2009
Defining an essence of structure determining residue contacts in proteins
R Sathyapriya, Jose M Duarte, Henning Stehr, et al.
BMC Structural Biology
|
December 10, 2008
Residue contact-count potentials are as effective as residue-residue contact-type potentials for ranking protein decoys
Dan M Bolser, Ioannis Filippis, Henning Stehr, et al.
BMC Bioinformatics
|
May 29, 2010
Optimal contact definition for reconstruction of contact maps
Jose M Duarte, Rajagopal Sathyapriya, Henning Stehr, et al.
Page
of 3
Search research articles
Search
Showing results (1-10 of 28) with videos related to
Sort By:
Page
of 3
BMC Bioinformatics
|
June 14, 2016
Identifying peaks in *-seq data using shape information
Francesco Strino, Michael Lappe
Nature Biotechnology
|
December 9, 2003
Unraveling protein interaction networks with near-optimal efficiency
Michael Lappe, Liisa Holm
BMC Bioinformatics
|
December 6, 2008
Detection of protein catalytic residues at high precision using local network properties
Patrick Slama, Ioannis Filippis, Michael Lappe
Journal of Computational Biology : a Journal of Computational Molecular Cell Biology
|
February 11, 2005
Accurate detection of very sparse sequence motifs
Andreas Heger, Michael Lappe, Liisa Holm
Plos One
|
June 27, 2009
Optimized null model for protein structure networks
Tijana Milenković, Ioannis Filippis, Michael Lappe, et al.
Bioinformatics (Oxford, England)
|
March 18, 2006
Prediction of viable circular permutants using a graph theoretic approach
Konrad H Paszkiewicz, Michael J E Sternberg, Michael Lappe
Transcription
|
February 18, 2011
Crosstalk between phosphorylation and multi-site arginine/lysine methylation in C/EBPs
Achim Leutz, Ole Pless, Michael Lappe, et al.
Plos Computational Biology
|
December 10, 2009
Defining an essence of structure determining residue contacts in proteins
R Sathyapriya, Jose M Duarte, Henning Stehr, et al.
BMC Structural Biology
|
December 10, 2008
Residue contact-count potentials are as effective as residue-residue contact-type potentials for ranking protein decoys
Dan M Bolser, Ioannis Filippis, Henning Stehr, et al.
BMC Bioinformatics
|
May 29, 2010
Optimal contact definition for reconstruction of contact maps
Jose M Duarte, Rajagopal Sathyapriya, Henning Stehr, et al.
Page
of 3