User:Tkadm30/Notebook/Rhodopsin: Difference between revisions
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* http://www.wikigenes.org/e/gene/e/212541.html | * http://www.wikigenes.org/e/gene/e/212541.html | ||
* "Furthermore, we demonstrate that crosstalk between the Ras and Rho GTPase families is involved in cAMP-dependent processing of amyloid precursor protein (APP), a key protein in Alzheimer's disease [7]." http://www.wikigenes.org/e/ref/e/12819788.html | * "Furthermore, we demonstrate that crosstalk between the Ras and Rho GTPase families is involved in cAMP-dependent processing of amyloid precursor protein (APP), a key protein in Alzheimer's disease [7]." http://www.wikigenes.org/e/ref/e/12819788.html | ||
* | * "Photocaging involves the covalent addition of a small molecule effector (e.g., IPTG or doxycyline) onto another molecule (the cage) that upon addition of light such as UV, releases the effector molecule to perform a task. The cage group typically consists of aromatic rings, such as '''ortho-nitrobenzyl''' moieties, that undergoes photolytic cleavage to unmask the target molecule. This permits the spatiotemporal control of gene function upon light stimulation. The caging of IPTG, for instance, permits the temporal control of genes under the control of the Lac operator." [[http://openwetware.org/wiki/CH391L/S12/LightSensors 1]] | ||
Revision as of 12:41, 6 September 2012
References on Rhodopsin
- http://pfam.sanger.ac.uk/family/PF00001
- http://www.wikigenes.org/e/gene/e/212541.html
- "Furthermore, we demonstrate that crosstalk between the Ras and Rho GTPase families is involved in cAMP-dependent processing of amyloid precursor protein (APP), a key protein in Alzheimer's disease [7]." http://www.wikigenes.org/e/ref/e/12819788.html
- "Photocaging involves the covalent addition of a small molecule effector (e.g., IPTG or doxycyline) onto another molecule (the cage) that upon addition of light such as UV, releases the effector molecule to perform a task. The cage group typically consists of aromatic rings, such as ortho-nitrobenzyl moieties, that undergoes photolytic cleavage to unmask the target molecule. This permits the spatiotemporal control of gene function upon light stimulation. The caging of IPTG, for instance, permits the temporal control of genes under the control of the Lac operator." [1]
