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Mingyang Lu

Showing results (1-10 of 98) with videos related to

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Iscience|January 26, 2023
A data-driven optimization method for coarse-graining gene regulatory networksCristian Caranica, Mingyang Lu
NPJ Systems Biology and Applications|November 13, 2018
Role of noise and parametric variation in the dynamics of gene regulatory circuitsVivek Kohar, Mingyang Lu
Proceedings of the National Academy of Sciences of the United States of America|October 4, 2008
A minimalist network model for coarse-grained normal mode analysis and its application to biomolecular x-ray crystallographyMingyang Lu, Jianpeng Ma
Iscience|February 24, 2023
A quantitative evaluation of topological motifs and their coupling in gene circuit state distributionsBenjamin Clauss, Mingyang Lu
Archives of Biochemistry and Biophysics|January 8, 2011
Normal mode analysis with molecular geometry restraints: bridging molecular mechanics and elastic modelsMingyang Lu, Jianpeng Ma
Biophysical Journal|August 2, 2005
The role of shape in determining molecular motionsMingyang Lu, Jianpeng Ma
Journal of Molecular Biology|January 22, 2013
PIM: phase integrated method for normal mode analysis of biomolecules in a crystalline environmentMingyang Lu, Jianpeng Ma
Molecular Systems Biology|February 9, 2026
Dissecting reversible and irreversible single cell state transitions from gene regulatory networksDaniel A Ramirez, Mingyang Lu
Biorxiv : the Preprint Server for Biology|September 11, 2024
Dissecting reversible and irreversible single cell state transitions from gene regulatory networksDaniel A Ramirez, Mingyang Lu
The Journal of Physical Chemistry. B|March 28, 2012
fSUB: normal mode analysis with flexible substructuresMingyang Lu, Dengming Ming, Jianpeng Ma
Pageof 10

Showing results (1-10 of 98) with videos related to

Sort By:
Pageof 10
Iscience|January 26, 2023
A data-driven optimization method for coarse-graining gene regulatory networksCristian Caranica, Mingyang Lu
NPJ Systems Biology and Applications|November 13, 2018
Role of noise and parametric variation in the dynamics of gene regulatory circuitsVivek Kohar, Mingyang Lu
Proceedings of the National Academy of Sciences of the United States of America|October 4, 2008
A minimalist network model for coarse-grained normal mode analysis and its application to biomolecular x-ray crystallographyMingyang Lu, Jianpeng Ma
Iscience|February 24, 2023
A quantitative evaluation of topological motifs and their coupling in gene circuit state distributionsBenjamin Clauss, Mingyang Lu
Archives of Biochemistry and Biophysics|January 8, 2011
Normal mode analysis with molecular geometry restraints: bridging molecular mechanics and elastic modelsMingyang Lu, Jianpeng Ma
Biophysical Journal|August 2, 2005
The role of shape in determining molecular motionsMingyang Lu, Jianpeng Ma
Journal of Molecular Biology|January 22, 2013
PIM: phase integrated method for normal mode analysis of biomolecules in a crystalline environmentMingyang Lu, Jianpeng Ma
Molecular Systems Biology|February 9, 2026
Dissecting reversible and irreversible single cell state transitions from gene regulatory networksDaniel A Ramirez, Mingyang Lu
Biorxiv : the Preprint Server for Biology|September 11, 2024
Dissecting reversible and irreversible single cell state transitions from gene regulatory networksDaniel A Ramirez, Mingyang Lu
The Journal of Physical Chemistry. B|March 28, 2012
fSUB: normal mode analysis with flexible substructuresMingyang Lu, Dengming Ming, Jianpeng Ma
Pageof 10