Biology Reference
In-Depth Information
11. Bae JH, Rubini M, Jung G, Wiegand G, Seifert MHJ, Azim MK, Kim JS, Zumbusch A, Holak
TA, Moroder L, Huber R, Budisa N (2003) Expansion of the genetic code enables design of a
novel “gold”' class of green fluorescent proteins. J Mol Biol 328(5):1071-1081
12. Shaner NC, Steinbach PA, Tsien RY (2005) A guide to choosing fluorescent proteins. Nat
Methods 2(12):905-909
13. Kwon I, Tirrell DA (2007) Site-specific incorporation of tryptophan analogues into recombi-
nant proteins in bacterial cells. J Am Chem Soc 129(34):10431-10437
14. Wang L, Xie JM, Deniz AA, Schultz PG (2003) Unnatural amino acid mutagenesis of green
fluorescent protein. J Org Chem 68(1):174-176
15. Budisa N, Pal PP, Alefelder S, Birle P, Krywcun T, Rubini M, Wenger W, Bae JH, Steiner T
(2004) Probing the role of tryptophans in Aequorea victoria green fluorescent proteins with an
expanded genetic code. Biol Chem 385(2):191-202
16. Goulding A, Shrestha S, Dria K, Hunt E, Deo SK (2008) Red fluorescent protein variants with
incorporated non-natural amino acid analogues. Protein Eng Des Sel 21(2):101-106
17. Pal PP, Bae JH, Azim MK, Hess P, Friedrich R, Huber R, Moroder L, Budisa N (2005)
Structural and spectral response of Aequorea victoria green fluorescent proteins to chromo-
phore fluorination. Biochemistry 44(10):3663-3672
18. Yarbrough D, Wachter RM, Kallio K, Matz MV, Remington SJ (2001) Refined crystal
structure of dsred, a red fluorescent protein from coral, at 2.0-angstrom resolution. Proc
Natl Acad Sci USA 98(2):462-467
19. Lossau H, Kummer A, Heinecke R, PollingerDammer F, Kompa C, Bieser G, Jonsson T, Silva
CM, Yang MM, Youvan DC, MichelBeyerle ME (1996) Time-resolved spectroscopy of wild-
type and mutant green fluorescent proteins reveals excited state deprotonation consistent with
fluorophore-protein interactions. Chem Phys 213(1-3):1-16
20. Malo GD, Pouwels LJ, Wang MT, Weichsel A, Montfort WR, Rizzo MA, Piston DW,
Wachter RM (2007) X-ray structure of cerulean gfp: A tryptophan-based chromophore useful
for fluorescence lifetime imaging. Biochemistry 46(35):9865-9873
21. Demachy I, Ridard J, Laguitton-Pasquier H, Durnerin E, Vallverdu G, Archirel P, Levy B
(2005) Cyan fluorescent protein: molecular dynamics, simulations, and electronic absorption
spectrum. J Phys Chem B 109(50):24121-24133
22. Sinha HK, Dogra SK, Krishnamurthy M (1987) Excited-state and ground-state proton-transfer
reactions in 5-aminoindole. Bull Chem Soc Jpn 60(12):4401-4407
23. Craggs TD (2009) Green fluorescent protein: structure, folding and chromophore maturation.
Chem Soc Rev 38(10):2865-2875
24. Kasha M (1952) Collisional perturbation of spin orbital coupling and the mechanism
of fluorescence quenching. A visual demonstration of the perturbation. J Chem Phys 20(1):
25. Bonnett R, Harriman A, Kozyrev AN (1992) Photophysics of halogenated porphyrins. J Chem
Soc Faraday Trans 88(6):763-769
26. Bondi A (1964) Van der waals volumes and radii. J Phys Chem 68(3):441-451
27. Brooks B, Phillips RS, Benisek WF (1998) High-efficiency incorporation in vivo of tyrosine
analogues with altered hydroxyl acidity in place of the catalytic tyrosine-14 of delta(5)-3-
ketosteroid isomerase of Comamonas (Pseudomonas) testosteroni : effects of the modifica-
tions on isomerase kinetics. Biochemistry 37(27):9738-9742
28. Kajihara D, Hohsaka T, Sisido M (2005) Synthesis and sequence optimization of gfp mutants
containing aromatic non-natural amino acids at the tyr66 position. Protein Eng Des Sel 18
29. Budisa N, Alefelder S, Bae JH, Golbik R, Minks C, Huber R, Moroder L (2001) Proteins with
beta-(thienopyrrolyl)alanines as alternative chromophores and pharmaceutically active amino
acids. Protein Sci 10(7):1281-1292
30. Visser NV, Borst JW, Hink MA, van Hoek A, Visser AJWG (2005) Direct observation of
resonance tryptophan-to-chromophore energy transfer in visible fluorescent proteins. Biophys
Chem 116(3):207-212
Search WWH ::

Custom Search