Mechanisms of excitation and adaptation in Dictyostelium.
Publication
, Journal Article
Pitt, GS; Gundersen, RE; Devreotes, PN
Published in: Semin Cell Biol
April 1990
A G-protein linked signal transduction mechanism controls chemotaxis in eukaryotes. During development the social amoeba Dictyostelium directs chemotaxis towards external cAMP with its G-protein linked cAMP receptor. Interactions of the receptor and G-proteins transduce the chemotactic signal to the interior of the cell and eventually to the motor apparatus. Phosphorylation of the cAMP receptor has been correlated with the cell's ability to adapt to the external cAMP signal. This signal transduction pathway may help to explain the ability of eukaryotic cells to orient within a chemical gradient by the use of spatial cues.
Duke Scholars
Published In
Semin Cell Biol
ISSN
1043-4682
Publication Date
April 1990
Volume
1
Issue
2
Start / End Page
99 / 104
Location
England
Related Subject Headings
- Signal Transduction
- Receptors, Cyclic AMP
- Models, Biological
- GTP-Binding Proteins
- Dictyostelium
- Chemotaxis
- Cell Movement
- Adaptation, Biological
Citation
APA
Chicago
ICMJE
MLA
NLM
Pitt, G. S., Gundersen, R. E., & Devreotes, P. N. (1990). Mechanisms of excitation and adaptation in Dictyostelium. Semin Cell Biol, 1(2), 99–104.
Pitt, G. S., R. E. Gundersen, and P. N. Devreotes. “Mechanisms of excitation and adaptation in Dictyostelium.” Semin Cell Biol 1, no. 2 (April 1990): 99–104.
Pitt GS, Gundersen RE, Devreotes PN. Mechanisms of excitation and adaptation in Dictyostelium. Semin Cell Biol. 1990 Apr;1(2):99–104.
Pitt, G. S., et al. “Mechanisms of excitation and adaptation in Dictyostelium.” Semin Cell Biol, vol. 1, no. 2, Apr. 1990, pp. 99–104.
Pitt GS, Gundersen RE, Devreotes PN. Mechanisms of excitation and adaptation in Dictyostelium. Semin Cell Biol. 1990 Apr;1(2):99–104.
Published In
Semin Cell Biol
ISSN
1043-4682
Publication Date
April 1990
Volume
1
Issue
2
Start / End Page
99 / 104
Location
England
Related Subject Headings
- Signal Transduction
- Receptors, Cyclic AMP
- Models, Biological
- GTP-Binding Proteins
- Dictyostelium
- Chemotaxis
- Cell Movement
- Adaptation, Biological