Estimation of Drug-Target Residence Times by τ‑Random Acceleration Molecular Dynamics Simulations

Computational methods that predict residence times of GPCR ligands

Potterton, Andrew Graven

December 2020

This thesis describes the development and analysis of different computational meth- ods that predict...

Binding Residence Time through Scaled Molecular Dynamics: A Prospective Application to hDAAO Inhibitors

Mattia Bernetti (4489267)
Elena Rosini (1502269)
Luca Mollica (241978)
Matteo Masetti (123489)
Loredano Pollegioni (431558)
Maurizio Recanatini (123491)
Andrea Cavalli (102196)

November 2018

Traditionally, a drug potency is expressed in terms of thermodynamic quantities, mostly Kd, and empi...

Qualitative Prediction of Ligand Dissociation Kinetics from Focal Adhesion Kinase Using Steered Molecular Dynamics

Spiriti, Justin
Wong, Chung

January 2021

Most early-stage drug discovery projects focus on equilibrium binding affinity to the target alongsi...

Estimation of Drug-Target Residence Times by τ‑Random Acceleration Molecular Dynamics Simulations

Daria B. Kokh (1486933)
Marta Amaral (5202464)
Joerg Bomke (483564)
Ulrich Grädler (1992397)
Djordje Musil (483563)
Hans-Peter Buchstaller (2651536)
Matthias K. Dreyer (1969390)
Matthias Frech (5202458)
Maryse Lowinski (2878514)
Francois Vallee (5322032)
Marc Bianciotto (2281735)
Alexey Rak (2878496)
Rebecca C. Wade (170810)

May 2018

Drug-target residence time (τ), one of the main determinants of drug efficacy, remains highly challe...

Data_Sheet_1_Machine Learning Analysis of τRAMD Trajectories to Decipher Molecular Determinants of Drug-Target Residence Times.pdf

Daria B. Kokh (1486933)
Tom Kaufmann (6643430)
Bastian Kister (6643433)
Rebecca C. Wade (170810)

May 2019

Drug-target residence times can impact drug efficacy and safety, and are therefore increasingly bein...

Table_1_Machine Learning Analysis of τRAMD Trajectories to Decipher Molecular Determinants of Drug-Target Residence Times.XLSX

Daria B. Kokh (1486933)
Tom Kaufmann (6643430)
Bastian Kister (6643433)
Rebecca C. Wade (170810)

May 2019

Drug-target residence times can impact drug efficacy and safety, and are therefore increasingly bein...

Machine Learning Analysis of τRAMD Trajectories to Decipher Molecular Determinants of Drug-Target Residence Times

Daria B. Kokh
Tom Kaufmann
Tom Kaufmann
Bastian Kister
Bastian Kister
Rebecca C. Wade
Rebecca C. Wade
Rebecca C. Wade
Rebecca C. Wade

May 2019

Drug-target residence times can impact drug efficacy and safety, and are therefore increasingly bein...

Predicting Residence Time and Drug Unbinding Pathway through Scaled Molecular Dynamics

Doris A. Schuetz (6083744)
Mattia Bernetti (4489267)
Martina Bertazzo (4841037)
Djordje Musil (483563)
Hans-Michael Eggenweiler (483565)
Maurizio Recanatini (123491)
Matteo Masetti (123489)
Gerhard F. Ecker (221470)
Andrea Cavalli (102196)

December 2018

Computational approaches currently assist medicinal chemistry through the entire drug discovery pipe...

Predicting Residence Time and Drug Unbinding Pathway through Scaled Molecular Dynamics

February 2019

none9siComputational approaches currently assist medicinal chemistry through the entire drug discove...

Investigating Drug-Target Residence Time in Kinases through Enhanced Sampling Simulations

GOBBO, DOROTHEA
PIRETTI, VALENTINA
Di Martino R. M. C.
Tripathi S. K.
Giabbai B.
Storici P.
Demitri N.
Girotto S.
Decherchi S.
Cavalli A.

January 2019

It is widely accepted that drug-target association and dissociation rates directly affect drug effic...

Kinetics of protein-ligand unbinding via smoothed potential molecular dynamics simulations

Mollica, Luca
Decherchi, Sergio
Zia, Syeda Rehana
Gaspari, Roberto
Cavalli, Andrea
Rocchia, Walter

January 2015

Drug discovery is expensive and high-risk. Its main reasons of failure are lack of efficacy and toxi...

Residence Time Prediction of Type 1 and 2 Kinase Inhibitors from Unbinding Simulations

Braka, Abdennour
Garnier, Norbert
Bonnet, Pascal
Aci-Seche, Samia

December 2019

International audienceIn the early stage of a drug discovery process, the selection and optimization...

Bell-Evans model and steered molecular dynamics in uncovering the dissociation kinetics of ligands targeting G-protein-coupled receptors

Akhunzada, Muhammad Jan
Yoon, Hyun Jung
Deb, Indrajit
Braka, Abdennour
Wu, Sangwook

September 2022

Recently, academic and industrial scientific communities involved in kinetics-based drug development...

Computational methods that predict residence times of GPCR ligands

Potterton, Andrew Graven

December 2020

This thesis describes the development and analysis of different computational meth- ods that predict...

Binding Residence Time through Scaled Molecular Dynamics: A Prospective Application to hDAAO Inhibitors

Mattia Bernetti (4489267)
Elena Rosini (1502269)
Luca Mollica (241978)
Matteo Masetti (123489)
Loredano Pollegioni (431558)
Maurizio Recanatini (123491)
Andrea Cavalli (102196)

November 2018

Traditionally, a drug potency is expressed in terms of thermodynamic quantities, mostly Kd, and empi...

Qualitative Prediction of Ligand Dissociation Kinetics from Focal Adhesion Kinase Using Steered Molecular Dynamics

Spiriti, Justin
Wong, Chung

January 2021

Most early-stage drug discovery projects focus on equilibrium binding affinity to the target alongsi...

Estimation of Drug-Target Residence Times by τ‑Random Acceleration Molecular Dynamics Simulations

Daria B. Kokh (1486933)
Marta Amaral (5202464)
Joerg Bomke (483564)
Ulrich Grädler (1992397)
Djordje Musil (483563)
Hans-Peter Buchstaller (2651536)
Matthias K. Dreyer (1969390)
Matthias Frech (5202458)
Maryse Lowinski (2878514)
Francois Vallee (5322032)
Marc Bianciotto (2281735)
Alexey Rak (2878496)
Rebecca C. Wade (170810)

May 2018

Drug-target residence time (τ), one of the main determinants of drug efficacy, remains highly challe...

Data_Sheet_1_Machine Learning Analysis of τRAMD Trajectories to Decipher Molecular Determinants of Drug-Target Residence Times.pdf

Daria B. Kokh (1486933)
Tom Kaufmann (6643430)
Bastian Kister (6643433)
Rebecca C. Wade (170810)

May 2019

Drug-target residence times can impact drug efficacy and safety, and are therefore increasingly bein...

Table_1_Machine Learning Analysis of τRAMD Trajectories to Decipher Molecular Determinants of Drug-Target Residence Times.XLSX

Daria B. Kokh (1486933)
Tom Kaufmann (6643430)
Bastian Kister (6643433)
Rebecca C. Wade (170810)

May 2019

Drug-target residence times can impact drug efficacy and safety, and are therefore increasingly bein...

Machine Learning Analysis of τRAMD Trajectories to Decipher Molecular Determinants of Drug-Target Residence Times

Daria B. Kokh
Tom Kaufmann
Tom Kaufmann
Bastian Kister
Bastian Kister
Rebecca C. Wade
Rebecca C. Wade
Rebecca C. Wade
Rebecca C. Wade

May 2019

Drug-target residence times can impact drug efficacy and safety, and are therefore increasingly bein...

Predicting Residence Time and Drug Unbinding Pathway through Scaled Molecular Dynamics

Doris A. Schuetz (6083744)
Mattia Bernetti (4489267)
Martina Bertazzo (4841037)
Djordje Musil (483563)
Hans-Michael Eggenweiler (483565)
Maurizio Recanatini (123491)
Matteo Masetti (123489)
Gerhard F. Ecker (221470)
Andrea Cavalli (102196)

December 2018

Computational approaches currently assist medicinal chemistry through the entire drug discovery pipe...

Predicting Residence Time and Drug Unbinding Pathway through Scaled Molecular Dynamics

February 2019

none9siComputational approaches currently assist medicinal chemistry through the entire drug discove...

Investigating Drug-Target Residence Time in Kinases through Enhanced Sampling Simulations

GOBBO, DOROTHEA
PIRETTI, VALENTINA
Di Martino R. M. C.
Tripathi S. K.
Giabbai B.
Storici P.
Demitri N.
Girotto S.
Decherchi S.
Cavalli A.

January 2019

It is widely accepted that drug-target association and dissociation rates directly affect drug effic...

Kinetics of protein-ligand unbinding via smoothed potential molecular dynamics simulations

Mollica, Luca
Decherchi, Sergio
Zia, Syeda Rehana
Gaspari, Roberto
Cavalli, Andrea
Rocchia, Walter

January 2015

Drug discovery is expensive and high-risk. Its main reasons of failure are lack of efficacy and toxi...

Residence Time Prediction of Type 1 and 2 Kinase Inhibitors from Unbinding Simulations

Braka, Abdennour
Garnier, Norbert
Bonnet, Pascal
Aci-Seche, Samia

December 2019

International audienceIn the early stage of a drug discovery process, the selection and optimization...

Bell-Evans model and steered molecular dynamics in uncovering the dissociation kinetics of ligands targeting G-protein-coupled receptors

Akhunzada, Muhammad Jan
Yoon, Hyun Jung
Deb, Indrajit
Braka, Abdennour
Wu, Sangwook

September 2022

Recently, academic and industrial scientific communities involved in kinetics-based drug development...

Computational methods that predict residence times of GPCR ligands

Potterton, Andrew Graven

December 2020

This thesis describes the development and analysis of different computational meth- ods that predict...

Binding Residence Time through Scaled Molecular Dynamics: A Prospective Application to hDAAO Inhibitors

Mattia Bernetti (4489267)
Elena Rosini (1502269)
Luca Mollica (241978)
Matteo Masetti (123489)
Loredano Pollegioni (431558)
Maurizio Recanatini (123491)
Andrea Cavalli (102196)

November 2018

Traditionally, a drug potency is expressed in terms of thermodynamic quantities, mostly Kd, and empi...

Qualitative Prediction of Ligand Dissociation Kinetics from Focal Adhesion Kinase Using Steered Molecular Dynamics

Spiriti, Justin
Wong, Chung

January 2021

Most early-stage drug discovery projects focus on equilibrium binding affinity to the target alongsi...

Estimation of Drug-Target Residence Times by τ‑Random Acceleration Molecular Dynamics Simulations

Abstract

Extracted data

Estimation of Drug-Target Residence Times by τ‑Random Acceleration Molecular Dynamics Simulations

Abstract

Extracted data

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