ProTherm and ProNIT: thermodynamic databases for proteins and protein-nucleic acid interactions
about
PRIDB: a Protein-RNA interface databaseA backbone-based theory of protein foldingProtein stability: computation, sequence statistics, and new experimental methodsMerging molecular mechanism and evolution: theory and computation at the interface of biophysics and evolutionary population geneticsReversibility and two state behaviour in the thermal unfolding of oligomeric TIM barrel proteinsHighly accurate sequence-based prediction of half-sphere exposures of amino acid residues in proteinsThermodynamics of neutral protein evolutionKinetic Characterization of 100 Glycoside Hydrolase Mutants Enables the Discovery of Structural Features Correlated with Kinetic ConstantsVariation Ontology for annotation of variation effects and mechanismsBioinformatics for personal genome interpretationmCSM-lig: quantifying the effects of mutations on protein-small molecule affinity in genetic disease and emergence of drug resistanceA Web Resource for Standardized Benchmark Datasets, Metrics, and Rosetta Protocols for Macromolecular Modeling and DesignModeling protein-peptide recognition based on classical quantitative structure-affinity relationship approach: implication for proteome-wide inference of peptide-mediated interactions.Thermal stability and kinetic constants for 129 variants of a family 1 glycoside hydrolase reveal that enzyme activity and stability can be separately designedAnalysis of the unique structural and physicochemical properties of the DraD/AfaD invasin in the context of its belonging to the family of chaperone/usher type fimbrial subunits.The evolution of protein structures and structural ensembles under functional constraint.Mutatomics analysis of the systematic thermostability profile of Bacillus subtilis lipase A.Platinum: a database of experimentally measured effects of mutations on structurally defined protein-ligand complexes.Testing the Coulomb/Accessible Surface Area solvent model for protein stability, ligand binding, and protein design.A three-state prediction of single point mutations on protein stability changes.Improvisation in evolution of genes and genomes: whose structure is it anyway?SPROUTS: a database for the evaluation of protein stability upon point mutation.INPS: predicting the impact of non-synonymous variations on protein stability from sequence.Computational approaches to study the effects of small genomic variations.A model for protein sequence evolution based on selective pressure for protein stability: application to hemoglobinsPredicting protein thermal stability changes upon point mutations using statistical potentials: Introducing HoTMuSiC.STRUM: structure-based prediction of protein stability changes upon single-point mutation.Large scale analysis of protein stability in OMIM disease related human protein variantsThe Mutational Landscape of the Oncogenic MZF1 SCAN Domain in Cancer.In Silico Analysis of the deleterious nsSNP's (missense) in the Homeobox domain of human HOXB13 gene responsible for hereditary prostate cancer.Role of conformational sampling in computing mutation-induced changes in protein structure and stabilityBiophysical Models of Protein Evolution: Understanding the Patterns of Evolutionary Sequence Divergence.mCSM-NA: predicting the effects of mutations on protein-nucleic acids interactions.NewProt - a protein engineering portal.Fast side chain replacement in proteins using a coarse-grained approach for evaluating the effects of mutation during evolution.Effects of point mutations on protein structure are nonexponentially distributed.Predict impact of single amino acid change upon protein structure.Using rigidity analysis to probe mutation-induced structural changes in proteins.Sequence-only evolutionary and predicted structural features for the prediction of stability changes in protein mutants.Protein-DNA docking with a coarse-grained force field.
P2860
Q24612916-31862C0D-A188-44AB-BC26-4F27287B5F8BQ24672727-70A30AA8-6EDB-427B-AE61-7985F785A4A4Q26779815-45D2673B-1C63-422B-84FE-4264174312ABQ26861515-48B2DB7D-CDE0-4C58-8DE1-4922D80EB7EEQ27701624-16B6687D-0E55-43C4-810F-72346B9879CBQ28269843-DD198FDF-D0FD-48FC-BABC-B0BD7292F595Q28274517-F0F3CB18-37A7-4F2A-91D8-043575D33F52Q28552915-E7E20E1C-0802-40B8-9945-13C5C7A5E6EEQ28659580-D8EC7081-A40A-4EB0-B53D-27A8F8DD0957Q28728835-3743F673-FDE8-4E1B-B6B7-82A26D3C1DE8Q28831145-99149326-F816-41DB-9F40-69816D967A7BQ28914715-2069E191-7B59-4C5A-828D-6B15000F3CE6Q30009536-0D7840E3-0C5E-4192-8679-F3C96C2717F6Q30151137-5F8A315E-4320-43EC-9A01-849014C82A17Q30155548-10697C8C-7DEC-440D-B21D-D78EFE7183EFQ30361131-DF27CCF6-F17A-4518-A7E1-C433633F258AQ30362557-1DC57898-47E4-4288-997B-67C12ED141F3Q30367904-3B62DD35-A4F1-4F85-B53A-781FCA21C8A7Q30368473-81A42D36-A7F6-4918-9209-DC2F9F330AE5Q30368637-71627689-FDA3-41CA-86F3-630A1692442EQ30369479-A20085E7-9E25-4064-AB27-96D13140289DQ30372885-E10952C7-857E-46F3-886B-5E99A64B675EQ30374535-54387ED6-89A0-4DF1-9E22-18004E908326Q30378925-6E488A4F-21EC-434F-94C1-9F7FC54F101AQ30381466-A4CFED5C-B5EA-4D9D-8169-82F4D8071ED5Q30385777-C82B33EC-9330-4340-B0E2-7D5473FB8ED8Q30389520-E6950B78-1BF6-477B-9E01-EE98DAE9299BQ30389939-CD6A4699-5D4E-4B53-8F44-FD468E28264FQ30396819-1F01373F-7ABF-4766-8CEC-A63B1BDDF3CBQ30397277-9D1F57AA-7EF8-4051-9503-A11F5834991CQ30399243-82F05683-5F6E-4BF2-9A8F-3DDE4DA65ADBQ30399998-8B4E347C-A5C1-44F3-A7C1-B2EB2ECC4DB1Q30400796-4A0A3FF1-7C6A-4A0F-8E10-DDAF5698BF7CQ30401707-E6CCA38B-EDF7-4A4B-A201-09AB43529BE9Q30405353-921D3D1A-B5BE-4129-9EBF-C417E584F165Q30414469-C0D6C658-7437-4E69-9A13-6982DE77B5E0Q30418801-AAE5439F-429D-437E-940C-70D0AA4C14F2Q30419331-12AE23C7-C052-405E-A320-7FA2888AA6E9Q30426634-208C4804-2756-4769-87D4-F58C9145AC8BQ30529906-C57F34A8-6F02-415D-AE46-DA1B2EB7554B
P2860
ProTherm and ProNIT: thermodynamic databases for proteins and protein-nucleic acid interactions
description
2006 nî lūn-bûn
@nan
2006 թուականի Յունուարին հրատարակուած գիտական յօդուած
@hyw
2006 թվականի հունվարին հրատարակված գիտական հոդված
@hy
2006年の論文
@ja
2006年論文
@yue
2006年論文
@zh-hant
2006年論文
@zh-hk
2006年論文
@zh-mo
2006年論文
@zh-tw
2006年论文
@wuu
name
ProTherm and ProNIT: thermodyn ...... tein-nucleic acid interactions
@ast
ProTherm and ProNIT: thermodyn ...... tein-nucleic acid interactions
@en
ProTherm and ProNIT: thermodyn ...... tein-nucleic acid interactions
@nl
type
label
ProTherm and ProNIT: thermodyn ...... tein-nucleic acid interactions
@ast
ProTherm and ProNIT: thermodyn ...... tein-nucleic acid interactions
@en
ProTherm and ProNIT: thermodyn ...... tein-nucleic acid interactions
@nl
prefLabel
ProTherm and ProNIT: thermodyn ...... tein-nucleic acid interactions
@ast
ProTherm and ProNIT: thermodyn ...... tein-nucleic acid interactions
@en
ProTherm and ProNIT: thermodyn ...... tein-nucleic acid interactions
@nl
P2093
P2860
P3181
P356
P1476
ProTherm and ProNIT: thermodyn ...... tein-nucleic acid interactions
@en
P2093
Akinori Sarai
Hatsuho Uedaira
K Abdulla Bava
Koji Kitajima
M D Shaji Kumar
Ponraj Prabakaran
P2860
P304
P3181
P356
10.1093/NAR/GKJ103
P407
P433
Database issue
P577
2006-01-01T00:00:00Z