An entropic perspective of protein stability on surfaces - sprookjes - yvandenbroek - TriplyDB

An entropic perspective of protein stability on surfaces

An entropic perspective of protein stability on surfaces

http://www.wikidata.org/entity/Q36785231

about

Thermal stability limits of proteins in solution and adsorbed on a hydrophobic surface.Migration of marrow stromal cells in response to sustained release of stromal-derived factor-1alpha from poly(lactide ethylene oxide fumarate) hydrogels.Thermal and mechanical multistate folding of ribonuclease H.Protein stability at a carbon nanotube interface.Salt effects on surface-tethered peptides in solution.Release characteristics and osteogenic activity of recombinant human bone morphogenetic protein-2 grafted to novel self-assembled poly(lactide-co-glycolide fumarate) nanoparticles.The importance of interfaces in protein drug delivery - why is protein adsorption of interest in pharmaceutical formulations?Understanding small biomolecule-biomaterial interactions: a review of fundamental theoretical and experimental approaches for biomolecule interactions with inorganic surfaces.Modeling and simulation of protein-surface interactions: achievements and challenges.The effects of tether placement on antibody stability on surfaces.Nanoscale architecture and cellular adhesion of biomimetic collagen substrates.The effects of multiple probes on the hybridization of target DNA on surfaces.Conformational transitions at an S-layer growing boundary resolved by cryo-TEM.Entropic and electrostatic effects on the folding free energy of a surface-attached biomolecule: an experimental and theoretical study.Permeability of anti-fouling PEGylated surfaces probed by fluorescence correlation spectroscopy.Entropic (de)stabilization of surface-bound peptides conjugated with polymers.Exploring the mechanisms of DNA hybridization on a surface.Transitions of tethered chain molecules under tension.Molecular rigidity and enthalpy-entropy compensation in DNA melting.Partition function zeros and finite size scaling for polymer adsorption.Multiple molecule effects on the cooperativity of protein folding transitions in simulations.Probing the effects of surface hydrophobicity and tether orientation on antibody-antigen binding.Effects of tethering a multistate folding protein to a surface.Structural studies unravel the active conformation of apo RORγt nuclear receptor and a common inverse agonism of two diverse classes of RORγt inhibitors.Parallel tempering Monte Carlo simulations of lysozyme orientation on charged surfaces.

P2860

Q30416194-4F946379-07F7-47DB-9FD6-85ABEB30D1DE Q33810547-680B9CB7-18F1-420E-B854-7DDDD0214662 Q34089223-05A490EA-CDE2-427A-AF51-51263D8C352F Q34803580-041F37EC-4DCA-442F-82D7-9AA55F2D1900 Q37304960-4728B589-D93F-4717-8AC8-C85DF207D6E9 Q37439946-A207991B-B82E-460C-B3B5-96A51B8264C1 Q37873947-0B2B38DB-6F12-4633-ABAA-E54796F25C81 Q38046807-DA001EF7-8E26-45A3-A8FB-0EAB426A9155 Q38715169-674EE6B1-4396-44AA-B841-77CDA67CFCD6 Q38747988-326149AC-1890-4EBF-B533-77CA114F795F Q39074605-5E7DE227-B22D-4F97-A1B9-A5250D16CB1F Q41602032-0FDAC2D4-3144-4059-93C8-31738E12FEBB Q41611188-EF15F58E-F445-4557-AA76-83611147F3B7 Q41829607-E23B3082-092D-4774-81A5-FE9C8E9C22A4 Q41988108-1222A6A5-29F4-45B5-97A6-F27292B54A47 Q44718103-799C5E13-3FB1-4F72-89C4-DE93276CD8B5 Q45155922-0FBD0710-5C7C-4BF6-B480-22993CEAC2F4 Q45733992-CB2F3BE3-C042-4713-AF4B-418B90F7F4C5 Q47422914-645912A3-24ED-46A3-88DF-C9252252F3BD Q47423727-DE8B6BE7-5FA6-4A98-88C5-28A88EE53570 Q47424792-94638AB7-3C66-4DB2-906B-75F1B16CC9F7 Q47578130-C98C1883-6B12-41D0-AA45-C1FC7E81E69F Q47586797-08E0022B-D0DD-4A86-A5F1-AC7CAD3C59CF Q47879931-78C58C38-F012-49A6-9114-2493149A660A Q50563987-BB86BE66-FC4D-4813-8895-E3217A1B204B

P2860

An entropic perspective of protein stability on surfaces

http://www.wikidata.org/entity/Q36785231

description

2008 nî lūn-bûn

@nan

2008年の論文

@ja

2008年論文

@yue

2008年論文

@zh-hant

2008年論文

@zh-hk

2008年論文

@zh-mo

2008年論文

@zh-tw

2008年论文

@wuu

2008年论文

@zh

2008年论文

@zh-cn

name

An entropic perspective of protein stability on surfaces

@en

type

label

An entropic perspective of protein stability on surfaces

@en

prefLabel

An entropic perspective of protein stability on surfaces

@en

P1433

Q36785231-118DDB0F-B482-42CC-A78D-57E4029CCF37

P1476

Q36785231-03AF9F74-366E-458A-9CDD-54032D8B025D

P2093

Q36785231-34A4D6CF-28AF-4C6A-852F-6C50119BE5A2

Q36785231-58286AE5-5DD9-4AAB-9D3A-F2466D854FED

Q36785231-CF72E33A-5465-4568-969D-EA0208BA2940

P2860

Q36785231-03A24DEC-383A-4C5D-86E7-9050BA734B79

Q36785231-0BAB343B-A465-4D4B-BCD0-F98317743666

Q36785231-0E09D439-5D15-4B73-BE93-40A401F3B3B4

Q36785231-0EED037F-EE92-4483-A306-55BAF5C9AA0C

Q36785231-1273A126-BB9A-4415-B34F-3625B14F4674

Q36785231-14FAD4B3-9618-4ADB-A0EB-1454F97D9389

Q36785231-26179876-69A7-4C19-8D88-5522DF626147

Q36785231-2881A4A9-2153-4195-9571-0BF5D863F5D2

Q36785231-29C04B54-4915-4654-B6B2-77FEFFC2E87B

Q36785231-2A29FD55-F018-4C61-8D80-AF0925ACA5C0

P304

Q36785231-1458AB81-0A78-4072-BA43-D03EDFB8B70A

P31

Q36785231-AB479492-CCC8-42CB-A72A-96C654F3C66F

P356

Q36785231-E1ADF40D-DC8F-4F7D-BC5A-06A1E55B63B2

P407

Q36785231-ACC4A730-3DA1-4837-B651-16C7C6D31EA2

P433

Q36785231-B76CDA95-5245-4586-B2D0-7C8D9CEE11B2

P478

Q36785231-258F0AF7-C728-4126-ABAB-1F5947943E13

P577

Q36785231-EA15DA7E-B215-4D07-AE42-6D9B5A09099E

P5875

Q36785231-F832588F-4695-45A1-AF69-7779C405F23C

P698

Q36785231-2A6D4F93-56ED-4B3D-A5E3-FF5C8E4AFE75

P932

Q36785231-DD444076-46FA-419C-9D0E-C4859EB35243

P356

BIOPHYSJ.107.123158

P1433

Biophysical Journal

P1476

An entropic perspective of protein stability on surfaces

@en

P2093

Juan J de Pablo

http://www.w3.org/2001/XMLSchema#string

Nitin Rathore

http://www.w3.org/2001/XMLSchema#string

Thomas A Knotts

http://www.w3.org/2001/XMLSchema#string

P2860

Determining the density of states for classical statistical models: A random walk algorithm to produce a flat histogram

Efficient, Multiple-Range Random Walk Algorithm to Calculate the Density of States

Three-dimensional solution structure of the B domain of staphylococcal protein A: comparisons of the solution and crystal structures

CATH--a hierarchic classification of protein domain structures

Stability of a protein tethered to a surface.

Effects of surface tethering on protein folding mechanisms.

Multiple folding pathways of the SH3 domain.

Unfolding of Green Fluorescent Protein mut2 in wet nanoporous silica gels.

Go-ing for the prediction of protein folding mechanisms

Simulations of beta-hairpin folding confined to spherical pores using distributed computing.

P304

4473-4483

http://www.w3.org/2001/XMLSchema#string

P31

scholarly article

P356

10.1529/BIOPHYSJ.107.123158

http://www.w3.org/2001/XMLSchema#string

P407

P433

11

http://www.w3.org/2001/XMLSchema#string

P478

94

http://www.w3.org/2001/XMLSchema#string

P577

2008-03-07T00:00:00Z

http://www.w3.org/2001/XMLSchema#dateTime

P5875

5524892

http://www.w3.org/2001/XMLSchema#string

P698

18326646

http://www.w3.org/2001/XMLSchema#string

P932

2480681

http://www.w3.org/2001/XMLSchema#string