Sami Raza scite author profile

PDZ domains (also known as DHR domains or GLGF repeats) are approximately 90-residue repeats found in a number of proteins implicated in ion-channel and receptor clustering, and the linking of receptors to effector enzymes. PDZ domains are protein-recognition modules; some recognize proteins containing the consensus carboxy-terminal tripeptide motif S/TXV with high specificity. Other PDZ domains form homotypic dimers: the PDZ domain of the neuronal enzyme nitric oxide synthase binds to the PDZ domain of PSD-95, an interaction that has been implicated in its synaptic association. Here we report the crystal structure of the third PDZ domain of the human homologue of the Drosophila discs-large tumour-suppressor gene product, DlgA. It consists of a five-stranded antiparallel beta-barrel flanked by three alpha-helices. A groove runs over the surface of the domain, ending in a conserved hydrophobic pocket and a buried arginine; we suggest that this is the binding site for the C-terminal peptide.

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Definition of the Switch Surface in the Solution Structure of Cdc42Hs^,

Feltham

et al. 1997

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Proteins of the rho subfamily of ras GTPases have been shown to be crucial components of pathways leading to cell growth and the establishment of cell polarity and mobility. Presented here is the solution structure of one such protein, Cdc42Hs, which provides insight into the structural basis for specificity of interactions between this protein and its effector and regulatory proteins. Standard heteronuclear NMR methods were used to assign the protein, and approximately 2100 distance and dihedral angle constraints were used to calculate a set of 20 structures using a combination of distance geometry and simulated annealing refinement. These structures show overall similarity to those of other GTP-binding proteins, with some exceptions. The regions corresponding to switch I and switch II in H-ras are disordered, and no evidence was found for an alpha-helix in switch II. The 13-residue insertion, which is only present in rho-subtype proteins and has been shown to be an important mediator of binding of regulatory and target proteins, forms a compact structure containing a short helix lying adjacent to the beta4-alpha3 loop. The insert forms one edge of a "switch surface" and, unexpectedly, does not change conformation upon activation of the protein by the exchange of GTP analogs for GDP. These studies indicate the insert region forms a stable invariant "footrest" for docking of regulatory and effector proteins.

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Enantioselectivity in Candida antarctica lipase B: A molecular dynamics study

2001

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A major problem in predicting the enantioselectivity of an enzyme toward substrate molecules is that even high selectivity toward one substrate enantiomer over the other corresponds to a very small difference in free energy. However, total free energies in enzyme-substrate systems are very large and fluctuate significantly because of general protein motion. Candida antarctica lipase B (CALB), a serine hydrolase, displays enantioselectivity toward secondary alcohols. Here, we present a modeling study where the aim has been to develop a molecular dynamics-based methodology for the prediction of enantioselectivity in CALB. The substrates modeled (seven in total) were 3-methyl-2-butanol with various aliphatic carboxylic acids and also 2-butanol, as well as 3,3-dimethyl-2-butanol with octanoic acid. The tetrahedral reaction intermediate was used as a model of the transition state. Investigative analyses were performed on ensembles of nonminimized structures and focused on the potential energies of a number of subsets within the modeled systems to determine which specific regions are important for the prediction of enantioselectivity. One category of subset was based on atoms that make up the core structural elements of the transition state. We considered that a more favorable energetic conformation of such a subset should relate to a greater likelihood for catalysis to occur, thus reflecting higher selectivity. The results of this study conveyed that the use of this type of subset was viable for the analysis of structural ensembles and yielded good predictions of enantioselectivity.

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Sami Raza

Crystal structure of a PDZ domain

Definition of the Switch Surface in the Solution Structure of Cdc42Hs^,

Enantioselectivity in Candida antarctica lipase B: A molecular dynamics study

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About

Sami Raza

Crystal structure of a PDZ domain

Definition of the Switch Surface in the Solution Structure of Cdc42Hs,

Enantioselectivity in Candida antarctica lipase B: A molecular dynamics study

Contact Info

Product

Resources

About

Definition of the Switch Surface in the Solution Structure of Cdc42Hs^,