Dronpa: Difference between revisions
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{{STRUCTURE_2iov | PDB=2iov | SCENE= }} | {{STRUCTURE_2iov | PDB=2iov | SCENE= }} | ||
'''Dronpa''' is a [[GFP]]-like photoswitchable protein. It was first designed by Ryoko Ando, Hideaki Mizuno, and Atsushi Miyawaki in 2004. The protein was named after the “Japanese term Dron, a ninja term referring to instant disappearance of the body, and pa, short for photo activation.”<ref name="webcite"> [http://www.brain.riken.jp/bsi-news/bsinews29/no29/research3e.html] (retrieved on November 30, 2008), </ref> Using a laser diode at 405nm the protein can be activated into its “bright” state, and using an argon laser at 480nm, the protein can be deactivated and turned into its “dark” state<ref name="webcite" />. Dronpa can be turned back and forth as often as necessary just by switching the wavelength of light that is focused onto it. This reversible ability to be able to switch back and forth between “dark” and “light” is what makes Dronpa unique. | '''Dronpa''' is a [[:Category:Gfp-like protein|GFP]]-like photoswitchable protein. It was first designed by Ryoko Ando, Hideaki Mizuno, and Atsushi Miyawaki in 2004. The protein was named after the “Japanese term Dron, a ninja term referring to instant disappearance of the body, and pa, short for photo activation.”<ref name="webcite"> [http://www.brain.riken.jp/bsi-news/bsinews29/no29/research3e.html] (retrieved on November 30, 2008), </ref> Using a laser diode at 405nm the protein can be activated into its “bright” state, and using an argon laser at 480nm, the protein can be deactivated and turned into its “dark” state<ref name="webcite" />. Dronpa can be turned back and forth as often as necessary just by switching the wavelength of light that is focused onto it. This reversible ability to be able to switch back and forth between “dark” and “light” is what makes Dronpa unique. | ||
=== Function=== | === Function=== | ||
Revision as of 16:51, 2 December 2008
Dronpa is a GFP-like photoswitchable protein. It was first designed by Ryoko Ando, Hideaki Mizuno, and Atsushi Miyawaki in 2004. The protein was named after the “Japanese term Dron, a ninja term referring to instant disappearance of the body, and pa, short for photo activation.”[1] Using a laser diode at 405nm the protein can be activated into its “bright” state, and using an argon laser at 480nm, the protein can be deactivated and turned into its “dark” state[1]. Dronpa can be turned back and forth as often as necessary just by switching the wavelength of light that is focused onto it. This reversible ability to be able to switch back and forth between “dark” and “light” is what makes Dronpa unique.
FunctionFunction
Dronpa works by switching between the cis (bright state) to trans (dark state) position of a few amino acids in the chromophore center of the Beta-barrel structure. The amino acids that are key for this change are CYG Tripeptide in the chromophore Cys 62, Tyr 63, and Gly 64. There are also changes in conformation of four additional amino acids that are near the chromophore, Arg 66, Ser 142, Val 157, and His 193[2].