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Analysis of the molecular interaction of the farnesyl moiety of transducin through the use of a photoreactive farnesyl analogue.

Publication ,  Journal Article
Hagiwara, K; Wada, A; Katadae, M; Ito, M; Ohya, Y; Casey, PJ; Fukada, Y
Published in: Biochemistry
January 20, 2004

Farnesylation of the gamma-subunit of the retinal G-protein, transducin (Talpha/Tbetagamma), is indispensable for light-initiated signaling in photoreceptor cells. However, the farnesyl-mediated molecular interactions important for signaling are not well understood. To explore this issue, we created a functional Tbetagamma analogue in which the farnesyl group was replaced with a (3-azidophenoxy)geranyl (POG) group, a novel farnesyl analogue with a distal photoreactive azido group. In the presence of lipid membranes and/or Talpha-GDP, UV irradiation of POG-modified Tbetagamma (POG-Tbetagamma) invariably yielded a cross-linked product Tgamma-Tbeta, reflecting a constitutive interaction of the Tgamma C-terminal lipid with Tbeta. In addition to the Tgamma-Tbeta adduct, a Tgamma-Talpha cross-link was detected in the aqueous fraction. Reconstitution of POG-Tbetagamma with Talpha and light-activated rhodopsin (Rh) in photoreceptor membranes resulted in cross-linking of Tgamma with a glycerophospholipid, indicating molecular interaction of the farnesyl group with cellular membranes. The Tgamma-phospholipid cross-link was observed only in the presence of both Talpha-GDP and Rh, and was abolished by the addition of GTPgammaS or by replacing Rh with opsin. These findings suggest a transient farnesyl-membrane interaction occurs only in a signaling state formed in a transducin-Rh ternary complex. On the other hand, UV irradiation of POG-Tbetagamma in a soluble complex with phosducin, a negative regulator of G-protein, yielded a Tgamma-phosducin adduct in addition to the Tgamma-Tbeta cross-link. These results illustrate that, rather than being a static membrane anchor, the farnesyl moiety plays an active role in the dynamics of protein-protein and protein-membrane interactions at defined steps in the signal transduction process.

Duke Scholars

Published In

Biochemistry

DOI

ISSN

0006-2960

Publication Date

January 20, 2004

Volume

43

Issue

2

Start / End Page

300 / 309

Location

United States

Related Subject Headings

  • Vision, Ocular
  • Transducin
  • Signal Transduction
  • Rod Cell Outer Segment
  • Rhodopsin
  • Recombinant Proteins
  • Protein Subunits
  • Protein Prenylation
  • Polyisoprenyl Phosphates
  • Photoaffinity Labels
 

Citation

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Hagiwara, K., Wada, A., Katadae, M., Ito, M., Ohya, Y., Casey, P. J., & Fukada, Y. (2004). Analysis of the molecular interaction of the farnesyl moiety of transducin through the use of a photoreactive farnesyl analogue. Biochemistry, 43(2), 300–309. https://doi.org/10.1021/bi0351514
Hagiwara, Ken’ichi, Akimori Wada, Maiko Katadae, Masayoshi Ito, Yoshikazu Ohya, Patrick J. Casey, and Yoshitaka Fukada. “Analysis of the molecular interaction of the farnesyl moiety of transducin through the use of a photoreactive farnesyl analogue.Biochemistry 43, no. 2 (January 20, 2004): 300–309. https://doi.org/10.1021/bi0351514.
Hagiwara K, Wada A, Katadae M, Ito M, Ohya Y, Casey PJ, et al. Analysis of the molecular interaction of the farnesyl moiety of transducin through the use of a photoreactive farnesyl analogue. Biochemistry. 2004 Jan 20;43(2):300–9.
Hagiwara, Ken’ichi, et al. “Analysis of the molecular interaction of the farnesyl moiety of transducin through the use of a photoreactive farnesyl analogue.Biochemistry, vol. 43, no. 2, Jan. 2004, pp. 300–09. Pubmed, doi:10.1021/bi0351514.
Hagiwara K, Wada A, Katadae M, Ito M, Ohya Y, Casey PJ, Fukada Y. Analysis of the molecular interaction of the farnesyl moiety of transducin through the use of a photoreactive farnesyl analogue. Biochemistry. 2004 Jan 20;43(2):300–309.
Journal cover image

Published In

Biochemistry

DOI

ISSN

0006-2960

Publication Date

January 20, 2004

Volume

43

Issue

2

Start / End Page

300 / 309

Location

United States

Related Subject Headings

  • Vision, Ocular
  • Transducin
  • Signal Transduction
  • Rod Cell Outer Segment
  • Rhodopsin
  • Recombinant Proteins
  • Protein Subunits
  • Protein Prenylation
  • Polyisoprenyl Phosphates
  • Photoaffinity Labels