The molecular structure of green fluorescent protein (original) (raw)
References
Morin, J. and Hastings, J. 1971. Energy transfer in a bioluminescent system. J. Cell Physiol. 77: 313–318. ArticleCASPubMed Google Scholar
Ward, W. 1979 pp. 1–57 in Photochemical and photobiological reviews. K. Smith (ed.). Plenum Press, New York. Book Google Scholar
Prasher, D., Eckenrode, V., Ward, W., Prendergast, F., and Cormier, M. 1992. Primarystructure of the Aequorea victoria green fluorescent protein. Gene111: 229–233. ArticleCASPubMed Google Scholar
Chalfie, M., Tu, Y., Euskirchen, G., Ward, W., and Prasher, D. 1994 Green fluorescent protein as a marker for gene expression. Science263: 802–805. ArticleCASPubMed Google Scholar
Kahana, J., Schapp, B., and Silver, P. 1995. Kinetics of spindle pole body sepa ration in budding yeast Proc. Natl. Acad. Sci. USA92: 9707–9711. ArticleCASPubMedPubMed Central Google Scholar
Casper, S. and Holt, C. 1996. Expression of the green fluorescent protein-encoding gene from a tobacco mosaic virus-based vector. Gene173: 69–7. ArticleCASPubMed Google Scholar
Epel, B., Padgett, H., Heinlein, M., and Beachy, R. 1996. Plant virus movement protein dynamics probed with a GFP-protein fusion. Gene173: 75–79 ArticleCASPubMed Google Scholar
Wang, S. and Hazelrigg, T. 1994. Implications for bed mRNA localization from spatial distribution of exu protein in Drosophila oogenesis. Nature369: 400–403. ArticleCASPubMed Google Scholar
Amsterdam, A., Lin, S., Moss, L., and Hopkins, N. 1996. Requirements for green fluorescent protein detection in transgenic zebrafish embryos. Gene173: 99–103. ArticleCASPubMed Google Scholar
Ludin, B., Doll, T., Meill, R., Kaech, S., and Matus, A. 1996. Application of novel vectors for GFP-tagging of proteins to study microtubule-associated proteins. Gene173: 107–111. ArticleCASPubMed Google Scholar
DeGiorgi, F., Brini, M., Bastianutto, C., Marsault, R., Monteto, M. Pezo, P. et al. 1996. Targeting aequorin and green fluorescent protein to intracelular oganelles. Gene173: 113–117. ArticleCAS Google Scholar
Cubitt, A., Heim, R., Adams, S., Boyd, A., Gross, L., and Tsien R. 1995. Understanding, improving and using green fluorescent proteins. TIBS2: 448–455. Google Scholar
Olsen, K., Mclntosh, J., and Olmstead, J. 1995. Analysis of MAP4 function in living cells using green fluorescent protein (GFP) chimeras. J. Cell Biol. 13O: 639–650. Article Google Scholar
Rizzuto, R., Brini, M., De Giorgi, F., Rossi, R., Heim, R. Tsien R. et al. 1996. Double labeling of subcellular structures with organelle-targeted GFP mutants in vivo. Curr. Biol. 6: 183–188. ArticleCASPubMed Google Scholar
Kaether, C. and Gerdes, H. 1995. Visualization of protein transport along the secretory pathway using green fluorescent protein. FEBS Lett. 369: 267–271. ArticleCASPubMed Google Scholar
Marshall, J., Molloy, R., Moss, G., Howe, J., and Hughes, T. 1995. The jellyfish green fluorescent protein a new tool for studying ion channel expression and function. Neuron14: 211–215. ArticleCASPubMed Google Scholar
Mitra, R., Silva, C., and Youvan D. 1996. Fluorescence resonance energy trans fer between blue-emitting and red-shifted excitation derivatives of the green fluorescent protein. Gene173: 13–7. ArticleCASPubMed Google Scholar
Kahana, J. and Silver, P. 1996. pp 9. 7. 22-9.7-28 in Current protocols in molecular biology. Ausabel F., et al. (eds.). Green and Wiley, New York. Google Scholar
Cody, C.W., Prasher, D.C., Westler, W.M., Prendergast, F.G. and Ward W.W. 1993. Chemical structure of the hexapeptide chromophore of the Aequorea green-fluorescent protein. Biochemistry32: 1212–1218. ArticleCASPubMed Google Scholar
Heim, R., Prasher, D.C., and Tsien, R.Y. 1994. Wavelength mutations and post translational autoxidation of green fluorescent protein. Proc. Natl. Acad. Sci. USA 91: 12501–12504. ArticleCAS Google Scholar
Delagrave, S., Hawtin, R., Silva, C., Yang, M., and Youvan, D. 1995. Red-shifted excitation mutants of the green fluorescent protein. Bio/Technology13: 151–154. CAS Google Scholar
Lim, C., Kimata, K., Oka, M., Nomaguchi, K., and Kohno, K., 1995. Thermo-sensitivrty of a green fluorescent protein utilized to reveal novel nuclear like com partments. J. Biochem. (Tokyo)118: 13–17. ArticleCAS Google Scholar
Ward W.W. and Bokman, S.H. 1982. Reversible denaturation of Aequorea green-fluorescent protein physical separation and characterization of the renatured protein. Biochemistry21: 4535–4540. ArticleCASPubMed Google Scholar
Ward, W., Prentice H., Roth, A. Cody, C. and Reeves S. 1982. Spectral perturbations of the Aequona green fluorescent protein. Photochem. Photobiol. 35: 803–808. ArticleCAS Google Scholar
Inouye, S. and Tsuji, F.I 1994 Evidence for redox forms of the Aequorea green fluorescent protein. FEBS Lett. 351: 211–214. ArticleCASPubMed Google Scholar
Dopf, J. and Horiagan, T. 1996. Deletion mapping of the Aequoria victoria green fluorescent protein. Gene173: 39–44. ArticleCASPubMed Google Scholar
Cormack B., Valdivia, R., and Falkow, S. 1996 FACS optimized mutants of the green fluorescent protein (GFP). Gene173: 33–38. ArticleCASPubMed Google Scholar
Ehng, T., O'Kane, D., and Prendergast F. 1995. Green-fluorescent protein mutants with altered fluorescence excitation spectra. FEBS Lett367: 163–166 Article Google Scholar
Crameri A., Whrtehom E., Tate, E., and Stemmer, W. 1996. Improved green fluorescent protein by molecular evolution using DMA shuffling. Nature Biotech. 14: 315–319. ArticleCAS Google Scholar
Perozzo, M., Ward, K., Thompson, R., and Ward, W. 1988. X-ray diffraction and time resolved fluorescence analyses of Aequorea green fluorescent protein crystals. J. Biol. Chem. 263: 7713–7716. CASPubMed Google Scholar
Merbs S. and Nathans, J. 1992 Absorption spectra of the hybrid pigments responsible for anomalous color vision. Science258: 464–466. ArticleCASPubMed Google Scholar
Rao, B., Kemple, M., and Prendergast, F. 1980. Proton nuclear magnetic resonance and fluorescence spectroscopic studies of segmental mobility in aequorin and a green fluorescent protein from Aequorea forskalea. Biophys. J. 32: 630–632. ArticleCASPubMedPubMed Central Google Scholar
Ormö, M., Cubitt, A., Kallio, K., Gross, L., Tsien, R., and Remington, S. 1996. Crystal structure of the Aequorea victona green fluorescent protein. Science In press.
Wright, H. 1991. Nonenzymatic deamidation of asparaginyl and glutaminyl residues in proteins. Crit. Rev. Biochem. Mol. Biol.. 26: 1–52. ArticleCASPubMed Google Scholar
Chattoraj, M., King, B., Bublitz, G., and Boxer S. 1996. Ultra-fast excited state dynamics in green fluorescent protein Multiple states and proton transfer Proc. Natl. Acad. Sci. USA. 93: 8362–8367.
Otwinowski, Z. 1993. Data collection and processing in Proceedings of the CCP4 study weekend. Warnngton, England Daresbury Laboratory. Google Scholar
Sheldrick, G., Dauter, Z., Wilson, K., Hope, H., and Sieker, L. 1993. The applica tion of direct methods and Patterson interpretation to high-resolution native protein data. Acta Cryst. D49: 18–23. CAS Google Scholar
Terwilliger, T., Kim, S.-H., and Eisenberg, D. 1987. Generalized method of determining heavy-atom positions using the difference Patterson function. Acta Cryst. A43: 1–5. ArticleCAS Google Scholar
Yang, W., Hendrickson, W., Crouch R. and Satow Y. 1990. Structure of ribonuclease H phased at 2 A by MAD analysis of the selemomethionyl protein. Science249: 1398–1405. ArticleCASPubMed Google Scholar
Collaborative Computational Project, N 1994. The CCP4 suite Programs for pro tem crystallography. Acta CrysfD50: 760–763.
Jones, T., Zou, J., Cowan, S. and Kjeldgaard M. 1991. Improved methods for building protein models in electron density maps and the location of errors in these models. Acta Crystallogr. 47: 110–119. Article Google Scholar
Brunger, A. 1992. X-PLOR Version 31 A system for X ray crystallography and NMR. Yale University Press, New Haven CT Google Scholar
Carson, M. 1987. Ribbon models of macromolecules. J. Mol. Graphics5: 103–106. ArticleCAS Google Scholar
Sayle, R. and Milner-White, E. 1995. RasMol Biomolecular graphics for all. TIBS20: 374–375. CASPubMed Google Scholar