Mountain View
biomedical and healthCAre Data Discovery Index Ecosystem
help Advanced Search
Displaying 15 of 15 results for "S100A1"
i
Switch View:
Sorted By:
Dataset Title Dataset ID Primary Publications Keywords
Ca-S100A1 interacting with TRTK12 PDB:2KBM Solution structure of Ca-S100A1-TRTK12
S
METAL BINDING PROTEIN
S100
EF-hand
Protein-protein interaction
conformational change
CapZ
Actin capping
Actin-binding
Metal-binding
METAL BINDING PROTEIN
Solution structure of Ca2+-S100A1-RyRP12 PDB:2K2F S100A1 and Calmodulin Compete for the Same Binding Site on Ryanodine Receptor.
<
METAL BINDING PROTEIN
S100
EF hand
ryanodine receptor
calcium binding
Calcium channel
Calcium transport
Glycoprotein
Ion transport
Ionic channel
Membrane
Transmembrane
Transport
Metal-binding
METAL BINDING PROTEIN
Solution structure of S100A1 Ca2+ PDB:2LP3 Impact of calcium binding and thionylation of S100A1 protein on its nuclear magnetic resonance-derived structure and backbone dynamics.
I
METAL BINDING PROTEIN
calcium binding protein
S100 protein family
METAL BINDING PROTEIN
Structural changes induced in apo-s100a1 protein by the disulphide formation between its CYS85 residue and b-mercaptoethanol PDB:2JPT Structural and motional changes induced in apo-S100A1 protein by the disulfide formation between its Cys 85 residue and beta-mercaptoethanol
S
S100A1
Crystal Structure of Human Calcium-Bound S100A1 PDB:5K89 X-ray crystal structure of human calcium-bound S100A1
X
S100A1
Calcium saturated form of human C85M S100A1 mutant PDB:2LUX Solution structure of human holo-S100A1 C85M mutant
S
METAL BINDING PROTEIN
METAL BINDING PROTEIN
Solution structure of human apo-S100A1 protein by NMR spectroscopy PDB:2L0P Solution NMR structure and dynamics of human apo-S100A1 protein.
S
S100A1
solution structure of human apo-S100A1 C85M PDB:2LLS Chemical Shift Assignments and solution structure of human apo-S100A1 C85M mutant
C
METAL BINDING PROTEIN
S100 protein family
calcium binding protein
METAL BINDING PROTEIN
Solution structure of S100A1 bound to calcium PDB:1ZFS The three-dimensional solution structure of Ca(2+)-bound S100A1 as determined by NMR spectroscopy
T
METAL BINDING PROTEIN
S100
noncovalent homodimer
x-type 4 helix bundle
calcium binding
conformational change
METAL BINDING PROTEIN
Three-dimensional Solution Structure of apo-S100A1. PDB:1K2H Three-dimensional solution structure of the calcium-signaling protein apo-S100A1 as determined by NMR.
T
METAL BINDING PROTEIN
Non-covalent homodimer
X-type four-helix bundle
METAL BINDING PROTEIN
Solution structure and dynamics of human S100A1 protein modified at cysteine 85 with homocysteine disulfide bond formation in calcium saturated form PDB:2LP2 Impact of calcium binding and thionylation of S100A1 protein on its nuclear magnetic resonance-derived structure and backbone dynamics.
I
METAL BINDING PROTEIN
Calcium bound form
EF-hand
calcium binding
helix reorientation
signaling protein
thionylation
small thiols
METAL BINDING PROTEIN
Chemical Shift Assignments and solution structure of human apo-S100A1 E32Q mutant PDB:2LHL 1H, 13C and 15N NMR sequence-specific resonance assignments and relaxation parameters for human apo-S100A1 E32Q mutant
1
METAL BINDING PROTEIN
calcium binding protein
15N relaxation
S100 protein family
METAL BINDING PROTEIN
Post-translational S-nitrosylation is an endogenous factor fine-tuning human S100A1 protein properties PDB:2LLT Post-translational S-Nitrosylation Is an Endogenous Factor Fine Tuning the Properties of Human S100A1 Protein.
P
METAL BINDING PROTEIN
Ca-binding proteins
S-nitrosylation
METAL BINDING PROTEIN
Post-translational S-nitrosylation is an endogenous factor fine-tuning human S100A1 protein properties PDB:2LLU Post-translational S-Nitrosylation Is an Endogenous Factor Fine Tuning the Properties of Human S100A1 Protein.
P
METAL BINDING PROTEIN
Ca-binding proteins
S-nitrosylation
METAL BINDING PROTEIN
Protein structure determination from a set of 4D NOESY PDB:2M3W Determination of protein structure from a set of 4D NOESY performed with non uniform sampling
S100A1 protein