Vijay N. Hingorani scite author profile

Vijay N. Hingorani

5Publications

77Citation Statements Received

84Citation Statements Given

How they've been cited

179

How they cite others

227

Affiliations

University of Illinois at Chicago, Illinois College

Publications

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Chemical modification of bovine transducin: effect of fluorescein 5'-isothiocyanate labeling on the activities of the transducin .alpha. subunit

Hingorani¹,

Ho²

1987

Biochemistry

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Fluorescein 5'-isothiocyanate (FITC) was used to modify the lysine residues of bovine transducin (T), a GTP-binding protein involved in phototransduction of rod photoreceptor cells. The incorporation of FITC showed a stoichiometry of approximately 1 mol of FITC/mol of transducin. The labeling was specific for the T alpha subunit. There was no significant incorporation on the T beta gamma subunit. The modification had no effect on the transducin-rhodopsin interaction or on the binding of guanosine 5'-(beta, gamma-imidotriphosphate) [Gpp(NH)p] to transducin in the presence of photolyzed rhodopsin. The dissociation of the FITC-transducin-Gpp(NH)p complex from rhodopsin membrane remained unchanged. However, the intrinsic GTPase activity of T alpha and its ability to activate the cGMP phosphodiesterase were diminished by FITC modification. The rate of FITC labeling of the transducin-Gpp(NH)p complex was about 3-fold slower than that of transducin. Limited tryptic digestion and peptide mapping were used to localize the FITC labeling site. The majority of the FITC label was on the 23-kilodalton fragment, and a minor amount was on the 9-kilodalton fragment of the T alpha subunit. These results indicate that FITC labeling does not alter the activation of transducin by photolyzed rhodopsin but does affect the GTP hydrolytic activity as well as the GTP-induced conformational change of T alpha, which ultimately leads to the activation of cGMP phosphodiesterase.

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A structural model for the α‐subunit of transducin Implications of its role as a molecular switch in the visual signal transduction mechanism

Hingorani

1987

FEBS Letters

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Transducin is a GTP‐binding protein which mediates the light activation signal from photolyzed rhodopsin to cGMP phosphodiesterase and is pivotal in the visual excitation process. Biochemical studies suggest that the Tα subunit of transducin is composed of three functional domains, one for rhodopsin/Tβγ interaction, another for guanine nucleotide binding, and a third for the activation of phosphodiesterase. The integration of the primary sequence of Tα along with secondary structure, hydropathy and folding topology predictions, and a comparison with homologous proteins have led to the construction of a three‐dimensional model of the Tα subunit. A molecular mechanism which underlies the coupling action of Tα is suggested on the basis of this model.

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Chemical modification of bovine transducin: probing the GTP-binding site with affinity analogs

Hingorani¹,

Chang²,

Ho³

1989

Biochemistry

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The structure of the GTP-binding site of transducin, a signal-transducing G-protein involved in the visual excitation process, was studied by affinity labeling. Radioactive GTP analogues with reactive groups attached to different moieties of the GTP molecule were obtained and include 8-azido-GTP, P3-(4-azidoanilino)-P1-5'-GTP (AA-GTP), 5'-[p-(fluorosulfonyl)benzoyl]guanosine (FSBG), 3'-O-(3-[N-(4-azido-2-nitrophenyl)amino]propionyl)-GTP (ANPAP-GTP), the 2',3'-dialdehyde derivative of GTP (oGTP), and a bifunctional cross-linking analogue, 8-azido-P3-(4-azidoanilino)-P1-5'-GTP (8-azido-AA-GTP). With the exception of FSBG, all of the analogues were found to bind to transducin specifically and serve as a cofactor to activate the retinal cGMP cascade or act as a competitive inhibitor for the GTPase activity of transducin. The labeling sites of these analogues were localized by tryptic peptide mapping. ANPAP-GTP and oGTP were unable to covalently modify transducin, suggesting that the 2'- and 3'-hydroxy groups on the ribose ring of GTP are not in direct contact with the protein. AA-GTP only labeled the T alpha subunit of transducin and was localized on the 21-kDa tryptic fragment of T alpha. This indicates that the phosphate moiety of the bound GTP is in direct contact with this peptide. On the other hand, 8-azido-GTP labeled both the T alpha and T beta gamma subunits of transducin. The labeling on T alpha was on the 12-kDa tryptic fragment, suggesting that the guanine ring binding site is composed of a different peptide fragment than the phosphate binding region. Treatment with the bifunctional analogue 8-azido-AA-GTP generated the cross-linked products of T alpha and T beta gamma. This observation implies that the guanine ring of the bound GTP on T alpha could be in close proximity with T beta gamma.(ABSTRACT TRUNCATED AT 250 WORDS)

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Chemical cross-linking of bovine retinal transducin and cGMP phosphodiesterase.

Hingorani

Tobias

Henderson

et al. 1988

Journal of Biological Chemistry

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Transducin: A Signaling Switch Regulated by Guanine Nucleotides

Hingorani

Navon

et al. 1989

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