P. Roychowdhury scite author profile

The x-ray structure of chicken skeletal muscle troponin C (TnC), the Ca2+-binding subunit of the troponin complex, shows that the protein is about 70 angstroms long with an unusual dumbbell shape. The carboxyl and amino domains are separated by a single long alpha helix of about nine turns. Only the two high-affinity Ca2+-Mg2+ sites of the COOH-domain are occupied by metal ions resulting in conformational differences between the COOH- and NH2-domains. These differences are probably important in the triggering of muscle contraction by TnC. Also the structure of TnC is relevant in understanding the function of other calcium-regulated proteins, in particular that of calmodulin because of its strong similarity in amino acid sequence.

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Structural analysis of picene, C22H14

De¹,

Ghosh²,

Roychowdhury³

et al. 1985

Acta Crystallogr C Cryst Struct Commun

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Crystal and molecular structure of 8-hydroxyquinoline

Roychowdhury¹,

Das²,

Basak³

1978

Acta Crystallogr B Struct Sci

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The crystal structure of indole

Roychowdhury¹,

Basak²

1975

Acta Crystallogr Sect B

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Indole crystallizes in the orthorhombic space group Pna2t with unit-cell parameters a= 7.86, b= 5"66, c= 14.89 A with four molecules per unit cell. The crystal structure was found to be disordered with the indole molecule capable of assuming two alternative orientations. The gross structure (R 0.23) was confidently predicted from the crystalline properties, weighted reciprocal lattice plot and by analogy with the structures of carbazole and the 1 : 1 complex of indole with s-trinitrobenzene, although it could not be carried to its logical stage of refinement because of very high interactions between the overlapping atoms.

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Homology model of human corticosteroid binding globulin: a study of its steroid binding ability and a plausible mechanism of steroid hormone release at the site of inflammation

Dey

Roychowdhury

2003

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Corticosteroid binding globulin (CBG) and thyroxin binding globulin (TBG) both belong to the same SERPIN superfamily of serine-proteinase inhibitors but in the course of evolution CBG has adapted to its new role as a transport agent of insoluble hormones. CBG binds corticosteroids in plasma, delivering them to sites of inflammation to modify the inflammatory response. CBG is an effective drug carrier for genetic manipulation, and hence there is immense biological interest in the location of the hormone binding site. The crystal structure of human CBG (hCBG) has not been determined, but sequence alignment with other SERPINs suggests that it conforms as a whole to the tertiary structure shared by the superfamily. Human CBG shares 52.15% and 55.50% sequence similarity with alpha1-antitrypsin and alpha1-antichymotrypsin, respectively. Multiple sequence alignment among the three sequences shows 73 conserved regions. The molecular structures of alpha1-antitrypsin and alpha1-antichymotrypsin, the archetype of the SERPIN superfamily, obtained by X-ray diffraction methods are used to develop a homology model of hCBG. Energy minimization was applied to the model to refine the structure further. The homology model of hCBG contains 371 residues (His13 to Val383 ). The secondary structure comprises 11 helices, 15 turns and 11 sheets. The putative corticosteroid binding region is found to exist in a pocket between beta-sheets S4, S10, S11 and alpha helix H10. Both cortisol and aldosterone are docked to the elongated hydrophobic ligand binding pocket with the polar residues at the two extremities. A difference accessible surface area (DASA) study revealed that cortisol binds with the native hCBG more tightly than aldosterone. Cleavage at the Val379-Met380 peptide bond causes a deformation of hCBG (also revealed through a DASA study). This deformation could probably trigger the release of the bound hormone. Figure Stereoscopic view of the ribbon diagram of hCBG complexed with cortisol. The bound cortisol is shown in space filling model in blue. Helices and sheets are shown in red and magenta respectively. Turns are shown in yellow.

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P. Roychowdhury

Molecular Structure of Troponin C from Chicken Skeletal Muscle at 3-Angstrom Resolution

Structural analysis of picene, C22H14

Crystal and molecular structure of 8-hydroxyquinoline

The crystal structure of indole

Homology model of human corticosteroid binding globulin: a study of its steroid binding ability and a plausible mechanism of steroid hormone release at the site of inflammation

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