Bundschuh, Ralf - Department of Physics, Ohio State University

• RNA secondary structure formation: a solvable model of heteropolymer folding
• RNA secondary structure formation: a solvable model of heteropolymer folding R. Bundschuh and T. Hwa
• Statistics of RNA secondary structures and what we can learn from single-molecule experiments
• Computational Collaborator
• Rapid Signi cance Estimation in Local Sequence Alignment with Gaps
• Force-induced denaturation of RNA Ralf Bundschuh
• An Analytic Study of the Phase Transition Line in Local Sequence Alignment with Gaps
• Statistical mechanics of secondary structures formed by random RNA sequences R. Bundschuh and T. Hwa
• Weak localization of disordered quasiparticles in the mixed superconducting state R. Bundschuh 1 , C. Cassanello 2 , D. Serban 3 and M.R. Zirnbauer 2
• Statistical Physics of Biological Sequences R. Bundschuh
• The Estimation of Statistical Parameters for Local Alignment Score Distributions
• Rare events and statistical physics of biological sequences R. Bundschuh
• Statistical physics of sequence alignment R. Bundschuh, Physics Department, UC San Diego
• Introduction 1 ffl Hybridization is experimental method to find
• Localization of quasiparticles in a disordered vortex R. Bundschuh \Lambda , C. Cassanello, D. Serban y , and M.R. Zirnbauer
• Hybrid Alignment: High-Performance with Universal Statistics Department of Physics
• An Analytic Study of the Phase Transition Line in Local Sequence Alignment with Gaps
• EPJ manuscript No. (will be inserted by the editor)
• Sequence Alignment and Statistical Physics Ralf Bundschuh
• Statistical Signi cance and Extremal Ensemble of Gapped Local Hybrid Alignment Yi-Kuo Yu , Ralf Bundschuh y , and Terence Hwa y
• RNA secondary structure: Statistical physics and quantitative modeling
• Statistical Physics of RNA folding R. Bundschuh and T. Hwa
• Modeling single molecule RNA force extension experiments Ralf Bundschuh
• Alignment Statistics I 1 Sequence alignment is important technique for
• Delocalization transitions of semi-exible manifolds Ralf Bundschuh and Michael Lassig y
• Sequence Alignment, Extremal Distribution, and the Asymmetric Exclusion Process
• COMMENT ON ``SIMPLEST POSSIBLE SELFORGANIZED CRITICAL SYSTEM''
• Large-score Statistics for Sequence Alignment with Gaps R. Bundschuh, Physics Department, UC San Diego
• Rare events and statistical physics of sequence alignments R. Bundschuh, Physics Department, UC San Diego
• Directed polymers in high dimensions Ralf Bundschuh \Lambda and Michael Lassig
• Rapid Assessment of Extremal Statistics for Gapped Local Alignment Rolf Olsen, Ralf Bundschuh, and Terence Hwa
• Kritisches Verhalten von F aden und halbsteifen Polymeren
• An Analytic Approach to Signi cance Assessment in Local Sequence Alignment with Gaps
• Fluctuations and Stiffness of Double Stranded Polymers: Railway Track Model Ralf Everaers, Ralf Bundschuh and Kurt Kremer
• The Stability of RNA Secondary Structures R. Bundschuh, U. Gerland, and T. Hwa
• Force-induced denaturation of RNA Ulrich Gerland, Ralf Bundschuh, and Terence Hwa
• Large-score Statistics for Sequence Alignment with Gaps R. Bundschuh, Physics Department, Ohio State University
• Asymmetric exclusion process and extremal statistics of random sequences R. Bundschuh
• Rapid Signi cance Estimation in Local Sequence Alignment with Gaps
• Statistical Assessment of Sequence Alignments R. Bundschuh, Physics Department, Ohio State University
• Statistical Assessment of Sequence Alignments R. Bundschuh, T. Hwa, and R. Olsen
• An Analytic Approach to Signi cance Assessment in Local Sequence Alignment with Gaps
• Statistical Physics of RNA folding R. Bundschuh and T. Hwa
• Europhysics Letters PREPRINT Phases of the secondary structures of RNA sequences
• Ensemblemittelung in ungeordneten mesoskopischen Leitern
• Translocation of structured polynucleotides through nanopores Ulrich Gerland
• Quantitative modeling of RNA single-molecule experiments Ralf Bundschuh
• Physarum polycephalum Central dogma: DNA
• A Model for Folding and Aggregation in RNA Secondary Structures (Dated: April 20, 2005)
• Melting of Branched RNA Molecules Ralf Bundschuh
• Quantitative models of RNA single-molecule experiments Ralf Bundschuh
• Modeling DNA unzipping in the presence of bound proteins Farhat Habib and Ralf Bundschuh
• Using Hybrid Alignment for Iterative Sequence Database Searches Yuheng Li, Mario Lauria,
• Computational Prediction of Insertional RNA Editing Ralf Bundschuh
• Statistical Physics of RNA folding Ralf Bundschuh
• Aggregation and folding phase transitions of RNA molecules Ralf Bundschuh
• Kinetic modeling of RNA single-molecule experiments Ralf Bundschuh
• Computational Approaches to the Prediction of RNA Editing Sites Ralf Bundschuh
• Quantitative modeling of single-molecule RNA force-extension experiments Ralf Bundschuh
• Significance assessment in local sequence alignment with gaps Ralf Bundschuh
• Statistical Physics of RNA Secondary Structures Ralf Bundschuh
• Significance assessment in local sequence alignment with gaps Ralf Bundschuh
• Quantitative modeling of single-molecule RNA force-extension experiments Ralf Bundschuh
• Glassiness in RNA secondary structures Ralf Bundschuh
• Statistical mechanics of secondary structures formed by random RNA sequences Ralf Bundschuh
• Suboptimal Alignments Improve the Detection of Weak Homologs in Sequence Database Searches
• A Practical Approach to Significance Assessment in Alignments with Gaps Ralf Bundschuh
• The role of dimerization in noise reduction of simple genetic networks
• Using Hybrid Alignment for Iterative Sequence Database Searches Yuheng Li, Mario Lauria, and Ralf Bundschuh
• Coupled dynamics of RNA folding and nanopore translocation Ralf Bundschuh1
• Quantification of the differences between quenched and annealed averaging for RNA secondary structures
• Kinetics of RNA translocation through a nanopore Ralf Bundschuh
• Finite Width Model Sequence Comparison Nicholas Chia and Ralf Bundschuh
• Analytical description of finite size effects for RNA secondary structures Tsunglin Liu and Ralf Bundschuh
• Aggregation and folding phase transitions of RNA molecules Ralf Bundschuh
• Directed polymers and sequence comparison Ralf Bundschuh
• Statistical Assessment of Sequence Alignments Ralf Bundschuh
• Central dogma: DNA genetic code
• Modeling the translocation of structured RNA molecules through a nanopore Ralf Bundschuh
• From the Ising Model to Biological Sequence Analysis Ralf Bundschuh
• Central dogma: DNA genetic code
• Fluctuations and slow variables in genetic networks R. Bundschuh, F. Hayot, and C. Jayaprakash
• A Practical Approach to Significance Assessment in Alignment with Gaps
• A model for codon position bias in RNA editing Tsunglin Liu and Ralf Bundschuh
• Central dogma: DNA genetic code
• Europhysics Letters PREPRINT Numerical Method for Accessing the Universality of the
• Gene Discovery in the Presence of RNA Editing Ralf Bundschuh
• A Practical Approach to Significance Assessment in Alignments with Gaps Ralf Bundschuh
• Computational and physical models of RNA structure Ralf Bundschuh
• DISTRIBUTION OF FIBONACCI AND LUCAS NUMBERS MODULO 3k RALF BUNDSCHUH AND PETER BUNDSCHUH
• EPJ manuscript No. (will be inserted by the editor)
• Ralf Andreas Bundschuh Department of Physics Tel: +1 (614) 688-3978
• Melting of Branched RNA Molecules Ralf Bundschuh*
• EPJ manuscript No. (will be inserted by the editor)
• Anomalous scaling in nanopore translocation of structured heteropolymers