Biology Reference
In-Depth Information
60. Chudakov DM, Belousov VV, Zaraisky AG, Novoselov VV, Staroverov DB, Zorov DB,
Lukyanov S, Lukyanov KA (2003) Kindling fluorescent proteins for precise in vivo photo-
labeling. Nat Biotechnol 21:191-194
61. Lukyanov KA, Chudakov DM, Lukyanov S, Verkhusha VV (2005) Innovation: photoacti-
vatable fluorescent proteins. Nat Rev Mol Cell Biol 6:885-891
62. Verkhusha VV, Sorkin A (2005) Conversion of the monomeric red fluorescent protein into
a photoactivatable probe. Chem Biol 12:279-285
63. Sch
afer LV, Groenhof G, Boggio-Pasqua M, Robb MA, Grubmuller H (2008) Chromophore
protonation state controls photoswitching of the fluoroprotein asFP595. PLoS Comput Biol
4(3):e1000034
64. Schafer LV, Groenhof G, Klingen AR, Ullmann GM, Boggio-Pasqua M, Robb MA, Grub-
muller H (2007) Photoswitching of the fluorescent protein asFP595: mechanism, proton
pathways, and absorption spectra. Angew Chem Int Ed Engl 46:530-536
65. Ando R, Hama H, Yamamoto-Hino M, Mizuno H, Miyawaki A (2002) An optical marker
based on the UV-induced green-to-red photoconversion of a fluorescent protein. Proc Natl
Acad Sci USA 99:12651-12656
66. Nienhaus K, Nienhaus GU, Wiedenmann J, Nar H (2005) Structural basis for photo-induced
protein cleavage and green-to-red conversion of fluorescent protein EosFP. Proc Natl Acad
Sci USA 102:9156-9159
67. Wiedenmann J, Ivanchenko S, Oswald F, Schmitt F, Rocker C, Salih A, Spindler KD,
Nienhaus GU (2004) EosFP, a fluorescent marker protein with UV-inducible green-to-red
fluorescence conversion. Proc Natl Acad Sci USA 101:15905-15910
68. Habuchi S, Tsutsui H, Kochaniak AB, Miyawaki A, van Oijen AM (2008) mKikGR,
a monomeric photoswitchable fluorescent protein. PLoS ONE 3(12):e3944
69. Tsutsui H, Karasawa S, Shimizu H, Nukina N, Miyawaki A (2005) Semi-rational engineer-
ing of a coral fluorescent protein into an efficient highlighter. EMBO Rep 6:233-238
70. Gurskaya NG, Verkhusha VV, Shcheglov AS, Staroverov DB, Chepurnykh TV, Fradkov
AF, Lukyanov S, Lukyanov KA (2006) Engineering of a monomeric green-to-red photo-
activatable fluorescent protein induced by blue light. Nat Biotechnol 24:461-465
71. Tsutsui H, Shimizu H, Mizuno H, Nukina N, Furuta T, Miyawaki A (2009) The E1
mechanism in photo-induced beta-elimination reactions for green-to-red conversion of
fluorescent proteins. Chem Biol 16:1140-1147
72. Mizuno H, Mal TK, Tong KI, Ando R, Furuta T, Ikura M, Miyawaki A (2003) Photo-induced
peptide cleavage in the green-to-red conversion of a fluorescent protein. Mol Cell
12:1051-1058
73. Hayashi I, Mizuno H, Tong KI, Furuta T, Tanaka F, Yoshimura M, Miyawaki A, Ikura M
(2007) Crystallographic evidence for water-assisted photo-induced peptide cleavage in the
stony coral fluorescent protein Kaede. J Mol Biol 372:918-926
74. Lelimousin M, Adam V, Nienhaus GU, Bourgeois D, Field MJ (2009) Photoconversion of
the fluorescent protein EosFP: a hybrid potential simulation study reveals intersystem cross-
ings. J Am Chem Soc 131:16814-16823
75. Gurskaya NG, Fradkov AF, Pounkova NI, Staroverov DB, Bulina ME, Yanushevich YG,
Labas YA, Lukyanov S, Lukyanov KA (2003) A colourless green fluorescent protein
homologue from the non-fluorescent hydromedusa Aequorea coerulescens and its fluores-
cent mutants. Biochem J 373:403-408
76. Pletneva NV, Pletnev VZ, Lukyanov KA, Gurskaya NG, Goryacheva EA, Martynov VI,
Wlodawer A, Dauter Z, Pletnev S (2010) Structural evidence for a dehydrated intermediate
in green fluorescent protein chromophore biosynthesis. J Biol Chem 285:15978-15984
77. Barondeau DP, Tainer JA, Getzoff ED (2006) Structural evidence for an enolate intermediate
in GFP fluorophore biosynthesis. J Am Chem Soc 128:3166-3168
78. Pouwels LJ, Zhang L, Chan NH, Dorrestein PC, Wachter RM (2008) Kinetic isotope effect
studies on the de novo rate of chromophore formation in fast- and slow-maturing GFP
variants. Biochemistry 47:10111-10122
€
Search WWH ::
Custom Search