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John Servos explains the emergence of physical chemistry in America by presenting a series of lively portraits of such pivotal figures as Wilhelm Ostwald, A. A. Noyes, G. N. Lewis, and Linus Pauling, and of key institutions, including MIT, the University of California at Berkeley, and Caltech. In the early twentieth century, physical chemistry was a new hybrid science, the molecular biology of its time. The names of its progenitors were familiar to everyone who was scientifically literate; studies of aqueous solutions and of chemical thermodynamics had transformed scientific knowledge of chemical affinity. By exploring the relationship of the discipline to industry and to other sciences, and by tracing the research of its leading American practitioners, Servos shows how physical chemistry was eclipsed by its own offspring--specialties like quantum chemistry.
Chemistry, Physical and theoretical --- United States --- History --- Chemistry, Physical and theoretical - United States - History. --- Química física --- Historia. --- American Physical Society. --- Arrowsmith. --- Baker Chemical Laboratory. --- Bergman, Torbern. --- Bunsen Gesellschaft. --- Carnegie, Andrew. --- Chemical Foundation. --- Columbia University. --- Coming Glass Company. --- Du Pont Company. --- Eastman Kodak Company. --- General Education Board. --- Guggenheim Foundation. --- Harvard Medical School. --- Hoover, Herbert. --- International Education Board. --- Johnston, John. --- Journal de chimie physique. --- Kopp, Hermann. --- Laplace. --- Leiden, University of. --- Liverpool, University of. --- Marsh, Othniel. --- National Academy of Sciences. --- Nernst, Walther. --- Newburyport. --- Ostwald, Wolfgang. --- Pauli, Wolfgang. --- Princeton University. --- Research Corporation. --- Rodebush, Worth. --- Schmidt, Karl. --- Stockholm Hogskola. --- Tammann, Gustav. --- Thomsen, Julius. --- Waage, Peter. --- Wiedemann, Gustav. --- Wislicenus, Johannes. --- Yerkes Observatory. --- adsorption. --- allgemeine Chemie. --- chemical potential. --- energetics. --- free energies. --- optical glass. --- principle of maximum work. --- resonance. --- solubility-product principle. --- specialization. --- ultramicroscope. --- unit operations.
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This book is a collection of original research articles in the field of computer-aided drug design. It reports the use of current and validated computational approaches applied to drug discovery as well as the development of new computational tools to identify new and more potent drugs.
Research & information: general --- Chemistry --- 3D-QSAR --- pharmacophore modeling --- ligand-based model --- HDACs --- isoform-selective histone deacetylase inhibitors --- aminophenylbenzamide --- hERG toxicity --- drug discovery --- fingerprints --- machine learning --- deep learning --- gene expression signature --- drug repositioning approaches --- RNA expression regulation --- high-throughput virtual screening --- dual-target lead discovery --- neurodegenerative disorders --- Alzheimer’s disease --- dual mode of action --- multi-modal --- nicotinic acetylcholine receptor --- acetylcholinesterase --- molecular docking --- methotrexate --- drug resistance --- human dihydrofolate reductase --- virtual screening --- molecular dynamics simulation. --- epitope binning --- epitope mapping --- epitope prediction --- antibody:antigen interactions --- protein docking --- glycoprotein D (gD) --- herpes simplex virus fusion proteins --- Src inhibitors --- pharmacophore model --- molecular dynamics simulations --- in silico --- COX-2 inhibitors --- molecular modeling --- sodium–glucose co-transporters 2 --- FimH --- uropathogenic bacteria --- urinary tract infections --- diabetes --- drug-resistance mutations --- HIV-2 protease --- structural characterization --- induced structural deformations --- SARS-CoV-2 --- COVID-19 --- multiprotein inhibiting natural compounds --- MD simulation --- 3CL-Pro --- antivirals --- docking simulations --- drug repurposing --- consensus models --- binding space --- isomeric space --- MRP4 --- SNPs --- variants --- protein threading modeling --- molecular dynamics --- binding site --- hTSPO --- PK11195 --- cholesterol --- homology modeling --- molecular dynamics (MD) simulation --- carbon nanotubes --- Stone–Wales defects --- haeckelite defects --- doxorubicin encapsulation --- drug delivery system --- binding free energies --- noncovalent interactions --- main protease --- mutants --- inhibitors --- PF-00835231 --- Mycobacterium tuberculosis --- tuberculosis --- proteasome --- natural compounds --- multiscale --- multitargeting --- polypharmacology --- computational biology --- drug repositioning --- structural bioinformatics --- proteomic signature --- skin aging --- oxidative stress --- aging progression mechanism --- genome-wide genetic and epigenetic network (GWGEN) --- systems medicine design --- multiple-molecule drug --- immunoproteasome --- non-covalent inhibitors --- MD binding --- metadynamics --- induced-fit docking --- n/a --- Alzheimer's disease --- sodium-glucose co-transporters 2 --- Stone-Wales defects
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This book is a collection of original research articles in the field of computer-aided drug design. It reports the use of current and validated computational approaches applied to drug discovery as well as the development of new computational tools to identify new and more potent drugs.
3D-QSAR --- pharmacophore modeling --- ligand-based model --- HDACs --- isoform-selective histone deacetylase inhibitors --- aminophenylbenzamide --- hERG toxicity --- drug discovery --- fingerprints --- machine learning --- deep learning --- gene expression signature --- drug repositioning approaches --- RNA expression regulation --- high-throughput virtual screening --- dual-target lead discovery --- neurodegenerative disorders --- Alzheimer’s disease --- dual mode of action --- multi-modal --- nicotinic acetylcholine receptor --- acetylcholinesterase --- molecular docking --- methotrexate --- drug resistance --- human dihydrofolate reductase --- virtual screening --- molecular dynamics simulation. --- epitope binning --- epitope mapping --- epitope prediction --- antibody:antigen interactions --- protein docking --- glycoprotein D (gD) --- herpes simplex virus fusion proteins --- Src inhibitors --- pharmacophore model --- molecular dynamics simulations --- in silico --- COX-2 inhibitors --- molecular modeling --- sodium–glucose co-transporters 2 --- FimH --- uropathogenic bacteria --- urinary tract infections --- diabetes --- drug-resistance mutations --- HIV-2 protease --- structural characterization --- induced structural deformations --- SARS-CoV-2 --- COVID-19 --- multiprotein inhibiting natural compounds --- MD simulation --- 3CL-Pro --- antivirals --- docking simulations --- drug repurposing --- consensus models --- binding space --- isomeric space --- MRP4 --- SNPs --- variants --- protein threading modeling --- molecular dynamics --- binding site --- hTSPO --- PK11195 --- cholesterol --- homology modeling --- molecular dynamics (MD) simulation --- carbon nanotubes --- Stone–Wales defects --- haeckelite defects --- doxorubicin encapsulation --- drug delivery system --- binding free energies --- noncovalent interactions --- main protease --- mutants --- inhibitors --- PF-00835231 --- Mycobacterium tuberculosis --- tuberculosis --- proteasome --- natural compounds --- multiscale --- multitargeting --- polypharmacology --- computational biology --- drug repositioning --- structural bioinformatics --- proteomic signature --- skin aging --- oxidative stress --- aging progression mechanism --- genome-wide genetic and epigenetic network (GWGEN) --- systems medicine design --- multiple-molecule drug --- immunoproteasome --- non-covalent inhibitors --- MD binding --- metadynamics --- induced-fit docking --- n/a --- Alzheimer's disease --- sodium-glucose co-transporters 2 --- Stone-Wales defects
Choose an application
This book is a collection of original research articles in the field of computer-aided drug design. It reports the use of current and validated computational approaches applied to drug discovery as well as the development of new computational tools to identify new and more potent drugs.
Research & information: general --- Chemistry --- 3D-QSAR --- pharmacophore modeling --- ligand-based model --- HDACs --- isoform-selective histone deacetylase inhibitors --- aminophenylbenzamide --- hERG toxicity --- drug discovery --- fingerprints --- machine learning --- deep learning --- gene expression signature --- drug repositioning approaches --- RNA expression regulation --- high-throughput virtual screening --- dual-target lead discovery --- neurodegenerative disorders --- Alzheimer's disease --- dual mode of action --- multi-modal --- nicotinic acetylcholine receptor --- acetylcholinesterase --- molecular docking --- methotrexate --- drug resistance --- human dihydrofolate reductase --- virtual screening --- molecular dynamics simulation. --- epitope binning --- epitope mapping --- epitope prediction --- antibody:antigen interactions --- protein docking --- glycoprotein D (gD) --- herpes simplex virus fusion proteins --- Src inhibitors --- pharmacophore model --- molecular dynamics simulations --- in silico --- COX-2 inhibitors --- molecular modeling --- sodium-glucose co-transporters 2 --- FimH --- uropathogenic bacteria --- urinary tract infections --- diabetes --- drug-resistance mutations --- HIV-2 protease --- structural characterization --- induced structural deformations --- SARS-CoV-2 --- COVID-19 --- multiprotein inhibiting natural compounds --- MD simulation --- 3CL-Pro --- antivirals --- docking simulations --- drug repurposing --- consensus models --- binding space --- isomeric space --- MRP4 --- SNPs --- variants --- protein threading modeling --- molecular dynamics --- binding site --- hTSPO --- PK11195 --- cholesterol --- homology modeling --- molecular dynamics (MD) simulation --- carbon nanotubes --- Stone-Wales defects --- haeckelite defects --- doxorubicin encapsulation --- drug delivery system --- binding free energies --- noncovalent interactions --- main protease --- mutants --- inhibitors --- PF-00835231 --- Mycobacterium tuberculosis --- tuberculosis --- proteasome --- natural compounds --- multiscale --- multitargeting --- polypharmacology --- computational biology --- drug repositioning --- structural bioinformatics --- proteomic signature --- skin aging --- oxidative stress --- aging progression mechanism --- genome-wide genetic and epigenetic network (GWGEN) --- systems medicine design --- multiple-molecule drug --- immunoproteasome --- non-covalent inhibitors --- MD binding --- metadynamics --- induced-fit docking --- 3D-QSAR --- pharmacophore modeling --- ligand-based model --- HDACs --- isoform-selective histone deacetylase inhibitors --- aminophenylbenzamide --- hERG toxicity --- drug discovery --- fingerprints --- machine learning --- deep learning --- gene expression signature --- drug repositioning approaches --- RNA expression regulation --- high-throughput virtual screening --- dual-target lead discovery --- neurodegenerative disorders --- Alzheimer's disease --- dual mode of action --- multi-modal --- nicotinic acetylcholine receptor --- acetylcholinesterase --- molecular docking --- methotrexate --- drug resistance --- human dihydrofolate reductase --- virtual screening --- molecular dynamics simulation. --- epitope binning --- epitope mapping --- epitope prediction --- antibody:antigen interactions --- protein docking --- glycoprotein D (gD) --- herpes simplex virus fusion proteins --- Src inhibitors --- pharmacophore model --- molecular dynamics simulations --- in silico --- COX-2 inhibitors --- molecular modeling --- sodium-glucose co-transporters 2 --- FimH --- uropathogenic bacteria --- urinary tract infections --- diabetes --- drug-resistance mutations --- HIV-2 protease --- structural characterization --- induced structural deformations --- SARS-CoV-2 --- COVID-19 --- multiprotein inhibiting natural compounds --- MD simulation --- 3CL-Pro --- antivirals --- docking simulations --- drug repurposing --- consensus models --- binding space --- isomeric space --- MRP4 --- SNPs --- variants --- protein threading modeling --- molecular dynamics --- binding site --- hTSPO --- PK11195 --- cholesterol --- homology modeling --- molecular dynamics (MD) simulation --- carbon nanotubes --- Stone-Wales defects --- haeckelite defects --- doxorubicin encapsulation --- drug delivery system --- binding free energies --- noncovalent interactions --- main protease --- mutants --- inhibitors --- PF-00835231 --- Mycobacterium tuberculosis --- tuberculosis --- proteasome --- natural compounds --- multiscale --- multitargeting --- polypharmacology --- computational biology --- drug repositioning --- structural bioinformatics --- proteomic signature --- skin aging --- oxidative stress --- aging progression mechanism --- genome-wide genetic and epigenetic network (GWGEN) --- systems medicine design --- multiple-molecule drug --- immunoproteasome --- non-covalent inhibitors --- MD binding --- metadynamics --- induced-fit docking
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