Biology Reference
In-Depth Information
82. Gurskaya NG, Verkhusha VV, Shcheglov AS et al (2006) Engineering of a monomeric
green-to-red photoactivatable fluorescent protein induced by blue light. Nat Biotechnol 24:
461-465
83. Labas YA, Gurskaya NG, Yanushevich YG et al (2002) Diversity and evolution of the green
fluorescent protein family. Proc Natl Acad Sci U S A 99:4256-4261
84. Oswald F, Schmitt F, Leutenegger A et al (2007) Contributions of host and symbiont pigments
to the coloration of reef corals. FEBS J 274:1102-1109
85. Mizuno H, Mal TK, Tong KI et al (2003) Photo-induced peptide cleavage in the green-to-red
conversion of a fluorescent protein. Mol Cell 12:1051-1058
86. Hayashi I, Mizuno H, Tong KI et al (2007) Crystallographic evidence for water-assisted
photo-induced peptide cleavage in the stony coral fluorescent protein Kaede. J Mol Biol
372:918-926
87. Lelimousin M, Adam V, Nienhaus GU et al (2009) Photoconversion of the fluorescent protein
EosFP: a hybrid potential simulation study reveals intersystem crossings. J Am Chem Soc
131:16814-16823
88. Lukyanov KA, Chudakov DM, Lukyanov S et al (2005) Innovation: photoactivatable fluores-
cent proteins. Nat Rev Mol Cell Biol 6:885-891
89. Chudakov DM, Belousov VV, Zaraisky AG et al (2003) Kindling fluorescent proteins for
precise in vivo photolabeling. Nat Biotechnol 21:191-194
90. Wilmann PG, Turcic K, Battad JM et al (2006) The 1.7 A crystal structure of Dronpa: a
photoswitchable green fluorescent protein. J Mol Biol 364:213-224
91. Andresen M, Stiel AC, Trowitzsch S et al (2007) Structural basis for reversible photoswitch-
ing in Dronpa. Proc Natl Acad Sci U S A 104:13005-13009
92. Henderson JN, Ai HW, Campbell RE et al (2007) Structural basis for reversible photobleach-
ing of a green fluorescent protein homologue. Proc Natl Acad Sci U S A 104:6672-6677
93. Schafer LV, Groenhof G, Klingen AR et al (2007) Photoswitching of the fluorescent protein
asFP595: mechanism, proton pathways, and absorption spectra. Angew Chem Int Ed 46:
530-536