This is a preview of subscription content, log in via an institution to check access.
Access this chapter
Tax calculation will be finalised at checkout
Purchases are for personal use only
Preview
Unable to display preview. Download preview PDF.
References
Ackers G. K., Johnson M. L., Mills F. C. and Ip S. H. Energetics of Oxygenation-Linked Subunit Interactions in Human Hemoglobin. Biochem Biophys Res Commun 1976; 69:135–142.
Albani J., Alpert B., Krajcarski D. T. and Szabo A. G. A Fluorescence Decay Time Study of Tryptophan in Isolated Hemoglobin Subunits. FEBS 1985; 182:302–304.
Albani J. R. Dynamics of Trp Residues in Crystals of Human Al—Acid Glycoprotein (Orosomucoid) Followed by Red-Edge Excitation Spectra. J Flour 1998; 8:213–224.
Alpert B. and Lopez-Delgado R. Fluorescence Lifetimes of Haem Proteins Excited into the Tryptophan Absorption Band with Synchrotron Radiation. Nature 1976; 263:445–446.
Alpert B., Jameson D. and Weber G. Tryptophan Emission From Human Hemoglobin and its Isolated Subunits. Photochemistry and Photobiology 1980; 31:1–4.
Anni H., Vanderkooi J. M., Sharp K. A., Yonetani T., Hopkins S. C., Herenyi L. and Fidy J. Electric Field and Conformational Effects of Cytochrome C and Solvent on Cytochrome C Peroxidase Studied by High-Resolution Fluorescence Spectroscopy. Biochemistry 1994; 33:3475–3486.
Antonini E. and Brunori M. Hemoglobin and Myoglobin in their Reactions with Ligands. Amsterdam: North Holland Publ, 1971.
Asakura T., Agarwal P. I., Relman D. A., McCray J. A., Chance B., Schwartz E., Friedman S. and Lubin B. Mechanical Instability of the Oxy-Form of Sickle Haemoglobin. Nature 1973; 244:437–438.
Asher S. Resonance Raman Spectroscopy of Hemoglobin. Methods Enzymol 1981; 76:371–413.
Asher S. A. UV Resonance Raman Studies of Molecular Structure and Dynamics: Applications in Physical and Biophysical Chemistry. Ann Rev Phys Chem 1988; 39:537–538.
Asher S. A. UV Resonance Raman Spectroscopy for Analytical, Physical, and Biophysical Chemistry. Analyt Chem 1993; 65:201A–210A.
Beechem J. M. and Brand L. Time-Resolved Fluorescence of Proteins. Ann Rev Biochem 1985; 54:43–71.
Benesch R. E., Ikeda S. and Benesch R. Reaction of Haptoglobin with Hemoglobin Covalently Cross-Linked Between the Alpha Beta Dimers. J Biol Chem 1976; 251:465–470.
Bialik C. N., Wolf B., Rachofsky E. L., Ross J. B. A. and Laws W. R. Dynamics of Biomolecules: Assignment of Local Motions by Fluorescence Anisotropy Decay. Biophys J 1998; 75:2564–2573.
Bismuto E., Irace G. and Gratton E. Multiple Conformational Statesin Myoglobin Revealed by Frequency Domain Fluorometry. Biochemistry 1989; 28: 1508–1512.
Bismuto E., Sirangelo I. and Irace G. Conformational Substates of Myoglobin Detected by Extrinsic Dynamic Fluorescence Studies. Biochemistry 1989; 28:7542–7545.
Bismuto E., Sirangelo I., Irace G. and Gratton E. Pressure-Induced Perturbation of Apomyo-globin Structure: Fluorescence Studies on Native and Acidic Compact Forms. Biochemistry 1996; 35:1173–1178.
Brand L. Biological Fluorescence Subgroup Meeting, Jablonski Award, Annual Meeting of the Biophysical Society, February 13, 1999. Biophys J 1999, 76 (1, Part 2 of 2).
Bucci E., Malak H., Fronticelli C., Gryczynski I., Laczko G. and Lakowicz J. R. Time-Resolved Emission Spectra of Hemoglobin on the Picosecond Time-Scale. Bio Chem 1988; 32:187–198.
Bucci E., Gryczynski Z., Fronticelli C., Gryczynski I. and Lakowicz J.R. Fluorescence Intensity and Anisotropy Decays of the Intrinsic Tryptophan Emission of Hemoglobin Measured with a10-Ghz Fluorometer Using Front-Face Geometry on a Free Liquid Surface. J Fluorescence 1992; 2:29–36.
Bunn H. F. and Forget B. G. Hemoglobin: Molecular, Genetic and Clinical Aspects. Phila. WB Saunders, 1986.
Bunn H.F.and Jandl J. H. Exchange of heme among hemoglobin molecules. Proc Natl Acad Sci USA 1966, 56:974–978.
Burstein E.A., Vedenkina N.S. and Ivkova M.N. Fluorescence and the Location of Tryptophan Residues in Protein Molecules. Photochem and Photobiol 1973; 18:263–279.
Callis P.R. Origins of Nonexponential Tryptophan Fluorescence Decay in Proteins. Biological Fluorescence Subgroup Meeting, Annual Meeting of the Biophysical Society, February 13, 1999. Biophys J 1999, 76(1, Part 2 of 2):A2.
Callis P. R. and Burgess B. K. Tryptophan Fluorescence Shifts in Proteins from Hybrid Simulations: An Electrostatic Approach. J Phys Chem 1997; 101:9429–9432.
Carlson M. L., Regan R., Elber R., Li H., Phillips G. N. Jr., Olson J. and Gibson Q. H. Nitric Oxide Recombination to Double Mutants of Myoglobin: Role of Ligand Diffusion in a Fluctuating Heme Pocket. Biochemistry 1994; 33:10597–10606.
Carlson M. L., Regan R. M. and Gibson Q. H. Distal Cavity Fluctuations in Myoglobin: Protein Motion and Ligand Diffusion. Biochemistry 1996; 35:1125–1136.
Chan C. K., Hu Y., Takahashi S., Rousseau D. L., Eaton W.A. and Hofrichter J. Submillisecond Protein Folding Kinetics Studied by Ultrarapid Mixing. Proc Natl Acad Sci USA 1997; 94:1779–1784.
Chance M. R., Miller L. M., Fischetti R. F., Scheuring E., Huang W. X., Sclavi B., Hai Y and Sullivan M. Global Mapping of Structural Solutions Provided by the Extended X-ray Absorption Fine Structure ab initio code FEFF 6.01: Structure of the Cryogenic Photoproduct of the Myoglobin-Carbon Monoxide Complex. Biochemistry 1996; 359014–9023.
Chen Y. and Barkley, C.Y. Toward Under standing Tryptophan Fluorescence in Proteins. Biochemistry 1998; 37:9976–9982.
Chiu F., Vasudevan G., Morris A. and McDonald M. J. Fluorescence Studies of Human Semi-Beta-Hemoglobin Assembly. Biochem Biophys Res Commun 1998; 242:365–368.
Cho N., Song S. and Asher S. A. W Resonance Raman and Excited-State Relaxation Rate Studies of Hemoglobin. Biochemistry 1994; 33:5932–5941.
Chothia C., Wodak S. and Janin J. Role of Subunit Interfaces in the Allosteric Mechanism of Hemoglobin. Proc Natl Acad Sci USA 1976; 73:3793–3797.
Coppey M., Jameson D. M. and Alpert B. Oxygen Diffusion through Hemoglobin and HbdesFe: Quenching of the Tryptophan and Porphyrin Emissions. FEBS Lett 1981; 126:191–194.
Dahms T. E. S. and Szabo A. G. Probing Local Secondary Structure by Fluorescence: Time-Resolved and Circular Dichroism Studies of Highly Purified Neurotoxins. Biophys J 1995;69:1569–576.
Dahms T. E. S. and Szabo A. G. Conformational Heterogeneity in Crystalline Proteins: Time-Resolved Fluorescence Studies. Methods Enzymol 1997; 278:202–221.
Das T. K. and Mazumdar S. pH-Induced Conformational Perturbation in Horseradish Peroxidase Picosecond Tryptophan Fluorescence Studies on Native and Cyanide-Modified Enzymes. J Biochem 1995; 227:2323–828.
Das T. K., Mazumdar S. and Mitra S. Characterization of a Partially Unfolded Structure of Cytochrome C Induced by Sodium Dodecyl Sulphate and the Kinetics of its Refolding. Eur J Biochem 1998; 254:662–670.
Day B. W. and Singh K. Analysis of Hemoglobin Adducts by Fluorescence Spectroscopy. Meth Enzymol 1994; 231:674–681.
Driscoll S. L., Hawkins M. E., Balis F. M., Pfleiderer W. and Laws W. R. Fluorescence Properties of a New Guanosine Analog Incorporated into Small Oligonucleotides. Biophys J 1997; 73:3277–3286.
Eftink, Maurice R. “Fluorescence Techniques for Studying Protein Structure” In Methods of Biochemical Analysis. New York: John Wiley and Sons, Inc., 1991. Clarence H. Suelter, ed.
Eisinger J. Intramolecular Energy Transfer in Adrenocorticotropin. Biochemistry 1969; 8:3902–3908.
Eisinger J. and Flores J. Front-Face Fluorometry of Liquid Samples. Analytical Biochem 1979; 94:15–21.
Eisinger J., Flores J. and Bookchin R. M. The Cytosol-Membrane Interface of Normal and Sickle Erythrocytes. Effect of Hemoglobin Deoxygenation and Sickling. J Biol Chem 1984; 259:7169–7177.
Elbaum D., Harrington J. and Nagel R. L. Surface Activity of Hemoglobin S. Erythrocyte Structure and Function 1976a; 311–328.
Elbaum D., Harrington J., Roth E. F. Jr and Nagel R. L. Surface Activity of Hemoglobin S and Other Human Hemoglobin Variants. Biochim Biophys Acta 1976b; 427:57–69.
Fermi G., Perutz M. F., Shaanan B. and Fourme R. The Crystal Structure of Human Deoxyhaemoglobin at 1.74 A Resolution. J Mol Biol 1984; 175:159–174.
Fidy J., Laberge M., Kaposi A. D. and Vanderkooi J. M. Fluorescence Line Narrowing Applied to the Study of Proteins. Biochim Biophys Acta 1998; 1386:331–351.
Fontaine M. P., Jameson D. M. and Alpert B. Tryptophan-Heme Energy Transfer in Human Hemoglobin: Dependence Upon the State of the Iron. FEBS Letters 1980; 116:310–314.
Forster T. Intermolecular Energy Migration and Fluorescence. Ann Phys (Leipzig) 1948, 2:55–75.
Friedman J. M. Time-Resolved Resonance Raman Spectroscopy as Probe of Structure, Dynamics, and Reactivity in Hemoglobin. Methods Enzymol 1994; 232:205–231.
Garrick L. M., McDonald M. J., Shapiro R., Bleichman M., McManus M. and Bunn H. F. Structural Analysis of the Minor Human Hemoglobin Components: Hb AIa1, Hb AIa2 and Hb A1b. Eur J Biochem 1980; 106:353–359.
Gorbenko G. P. Resonance Energy Transfer Study of Hemoglobin and Cytochrome C Complexes with Lipids. Biochim Biophys Acta 1998; 1409: 12–24.
Gottfried D. S., Juszczak L. J., Fataliev N. A., Acharya A. S., Hirsch R. E. and Friedman J. M. Probing the Hemoglobin Central Cavity by Direct Quantification of Effector Binding using Fluorescence Lifetime Methods. J Biol Chem 1997; 272: 1571–1578.
Grinvald A. and Steinberg I.Z. The Fluorescence Decay of Tryptophan Residues in Native and Denatured Proteins. Biochim Biophys Acta 1976; 427: 663–478.
Gryczynski Z., Tenenholz T. and Bucci E. Rates of Energy Transfer Between Tryptophans and Hemes in Hemoglobin, Assuming that the Heme is a Planar Oscillator. Biophys J 1992; 63: 648–453.
Gryczynski Z., Lubkowski J. and Bucci E. Intrinsic Fluorescence of Hemoglobins and Myoglobins. Methods Enzymol 1997a; 278: 538–569.
Gryczynski Z., Beretta S., Lubkowski J., Razynska A., Gryczynski I. and Bucci E. Time-Resolved Fluorescence of Hemoglobin Species. Biophys Chem 1997b; 64: 81–91.
Gryczynski Z. and Bucci E. Time Resolved Emissions in the Picosecond Range of Single Tryptophan Recombinant Myoglobins Reveal the Presence of Long Range Heme Protein Interactions. Biophys Chem 1998; 74: 187–196.
Hamada D., Hoshino M., Kataoka M., Fink A.L. and Goto Y. Intermediate Conformational States of Apocytochrome C. Biochemistry 1993; 32: 10351–10358.
Haouz A., Glandieres J.M., Zentz C., Pin S., Ramstein J., Tauc P., Brochon J.C. and Alpert B. Solvent Effectson Horse Apomyoglobin Dynamics. Biochemistry 1998; 37:3013–3019.
Harrington J. P. and Hirsch R.E. Analysis of the Acid and Alkaline Dissociation of Earthworm Hemoglobin, Lumbricus terrestris, by Front-Face Fluorescence Spectroscopy. Biochim Biophys Acta 1991; 1076: 351–358.
Hasselbacher C.A., Rusinova E., Waxman E., Rusinova R., Kohanski R.A., Lam W., Guha A., Du J., Lin T. C., Polikarpov I., Boys C. W. G., Nemerson Y., Konigsberg W. H. and Ross J.B.A. Environments of the Four Tryptophans in the Extracellular Domain of Human Tissue Factor: Comparison of Results from Absorption and Fluorescence Difference Spectra of Tryptophan Replacement Mutants with the Crystal Structure of the Wild-Type Protein. Biophys J 1995; 69: 20–29.
Haughland R. P. (1983) “Covalent Fluorescent Probes” in Excited States of Biopolymers ed. RF Steiner pp. 29–58, Plenum Press, NY
Henry E. R., Eaton W. A. and Hochstrasser R. M. Molecular Dynamics Simulations of Cooling in Laser-Excited Heme Proteins. Proc Natl Acad Sci USA 1986; 83: 8982–8986.
Herskovits T.T., Cavanagh S.M. and San George R.C. Light-Scattering Investigations of the Subunit Dissociation of Human Hemoglobin A. Effects of Various Neutral Salts. Biochemistry 1977; 16: 5795–5801.
Hirsch R.E., Zukin R.S. and Nagel R.L. Intrinsic Fluorescence Emission of Intact Oxy Hemoglobins. Biochem Biophys Res Comm 1980a; 93:432–439.
Hirsch R. E., Elbaum D., Brody S. S. and Nagel R. L. Hemoglobin-A and Hemoglobin-S Films at an Air-Water Interface: Absorption Spectra Studies. J Colloid and Interface Sci 1980b; 78: 212–216.
Hirsch R. E. and Nagel R. L. Conformational Studies of Hemoglobins Using Intrinsic Fluorescence Measurements. J Biol Chem 1981; 256: 1080–1083.
Hirsch R. E., Squires N. A., Discepola C. and Nagel R. L. The Detection of Hemoglobin Dimers by Fluorescence. Biochem Biophys Res Comm 1983; 116:712–718.
Hirsch R. E., San George R. C. and Nagel R. L. Intrinsic Fluorimetric Determination of the Stable State of Aggregation in Hemoglobins. Anal Biochem 1985, 149: 415–420.
Hirsch R. E., Zukin R. S. and Nagel R. L. Steady-State Fluorescence Emission from the Fluorescent Probe, 5-Iodoacetamido fluorescein, Bound to Hemoglobin. Biochem Biophys Res Comm 1986; 138: 489–495.
Hirsch R. E. and Peisach J. A Comparison of the Intrinsic Fluorescence of Red Kangaroo, Horse and Sperm Whale Met-Myoglobins. Biochim Biophys Acta 1986; 872: 147–153.
Hirsch R.E. and Nagel R.L. Stopped-Flow Front-Face Fluorometer: A Prototype Design to Measure Hemoglobin R→T Transition Kinetics. Analyt Biochem 1989; 176: 19–21.
Hirsch R. E., Lin M. J. and Park C. M. The Interaction of Zinc Protoporphyrin with Intact Oxy Hemoglobin. Biochemistry 1989; 28: 1851–1855.
Hirsch R.E., Harrington J.P. and Scarlata S.F. The Differential Effectsof Carbon Dioxide and Oxygen on the Pressure Dissociation of Lumbricus terrestris Hemoglobin. Biochim Biophys Acta 1993; 1161: 285–290.
Hirsch R.E. Front-Face Fluorescence Spectroscopy of Hemoglobins. Meth Enzymol 1994a; 232: 1231–246.
Hirsch R. E., Vidugiris G. J. A., Friedman J.M. and Harrington J. P. Alteration of Tryptophan Fluorescence Properties Upon Dissociation of Lumbricus terrestris Hemoglobin. Biochim Biophys Acta 1994a; 1205: 248–251.
Hirsch R. E., Friedman J. M., Harrington J. R. and Scarlata S.F. Stability of a Potential Blood Substitute, HbXL99α Under High Pressure. Biochem Biophys Res Commun 1994b; 200: 11635–1640.
Hirsch R. E., Lin M. J., Vidugiris G. J., Huang S., Friedman J. M. and Nagel R. L. Conformational Changes in Oxyhemoglobin C (Glu beta 6→Lys) Detected by Spectroscopic Probing. J Biol Chem 1996; 271: 372–375.
Hirsch R. E., Rybicki A. C., Fataliev N. A., Lin M. J., Friedman J. M. and Nagel R. L. A Potential Determinant of Enhanced Crystallization of HbC: Spectroscopic and Functional Evidence of an Alteration in the Central Cavity of Oxy HbC. Br J Haematol 1997; 98: 1583–588.
Hirsch R. E., Juszczak L. J., Fataliev N. A., Friedman J. M. and Nagel R. L. Solution-Active Structural Alterations in Liganded Hemoglobins C (β6 Glu→Lys) and S (β6 Glu→Val). J Biol Chem 1999; 274: 13777–13782.
Hochstrasser R.M. and Negus D. K. Picosecond Fluorescence Decay of Tryptophans in Myoglobin. Proc Natl Acad Sci USA 1984; 81: 4399–4403.
Hochstrasser R.A., Carver T.E., Sowers L.C. and Millar D.P. Melting of a DNA Helix Terminus within the Active site of a DNA Polymerase. Biochemistry 1994; 33: 11971–11979.
Horiuchi K. Some Characteristics of β-Naphthyl Oligophosphates as Allosteric Effectors of Human Hemoglobin. Int J Biochem 1982; 14: 601–608.
Horiuchi K. and Asai H. A Reaction Cell for Simultaneous Measurements of Fluorescence and Absorption in a Hemoglobin Solution at Various Oxygen Pressures. Biochem Biophys Res Comm 1980; 97: 811–818.
Horiuchi K. and Asai H. Binding of β-Naphthyl Triphosphate to Human Adult Hemoglobin accompanying Deoxygenation. Investigated by Simultaneous Measurements of fluorescence, Absorbance and Partial Pressure of Oxygen. Eur J Biochem 1983; 131: 613–618.
Hu X. and Spiro T. G. Tyrosine and Tryptophan Structure Markers in Hemoglobin Ultraviolet Resonance Raman Spectra: Mode Assignments via Subunit-Specific Isotope Labeling of Recombinant Protein. Biochemistry 1997; 36: 15701–15712.
Imai K. Allosteric Effects in Haemoglobin. London: Cambridge University Press, 1982.
Itoh M., Mizukoshi H., Fuke K., Matsukawa S., Mawatari K., Yoneyama Y., Sumitani M. and Yoshihara K. Tryptophan Fluorescence of Human Hemoglobin. I. Significant Change of Fluorescence Intensity and Lifetimes in the T—R Transition. Biochem Biophys Res Comm 1981; 100: 1259–1265.
Jameson D. M., Gratton E., Weber G. and Alpert B. Oxygen Distribution and Migration Within Mbdes FE and Hbdes Fe. Multifrequency Phase and Modulation Fluorometry Study. Biophys J 1984; 45:795–803.
Janes S. M., Holtom G., Ascenzi P., Brunor M. and Hochstrasser R. M. Fluorescence and Energy Transfer of Tryptophans in Aplysia Myoglobin. Biophys J 1987; 51:653–660.
Jayaraman V., Rodgers K. R., Mukerji I. and Spiro T. G. Hemoglobin Allostery: Resonance Raman Spectroscopy of Kinetic Intermediates. Science 1995; 269: 1843–1848.
Juszczak L. J., Hirsch R. E., Nagel R. L., and Friedman J. M. Conformational Differences in CO derivatives of HbA, HbC (Eβ6K)and HbS (Eβ6V)in the Presence and Absence of Inositol Hexaphosphate (IHP) Detected Using Ultraviolet Resonance Raman Spectroscopy. J Raman Spectroscopy 1998; 29:963–968.
Khan K. K., Mazumdar S., Modi S., Sutcliffe M., Roberts G. C. K. and Mitra S. Steady-State and Picosecond-Time-Resolved Fluorescence Studies on the Recombinant Heme Domain of Bacillus Megaterium Cytochrome P-450. Eur J Biochem 1997; 244:361–370.
Kitagawa T. Investigation of Higher Order Structures of Proteins by Ultraviolet Resonance Raman Spectroscopy. Prog Biophys Molec Biol 1992; 58:1–18.
Knobler E., Poh-Fitzpatrick M. B., Kravetz D., Vincent W. R., Muller-Eberhard U. and Vincent S. H. Interaction of Hemopexin, Albumin and Liver Fatty Acid-Binding Protein With Protoporphyrin. Hepatology 1989; 10:995–997.
Lakowicz J. R. and Weber G. Quenching of Protein Fluorescence by Oxygen. Detection of Structural Fluctuations in Proteins on the Nanosecond Time Scale. Biochemistry 1973; 12:4171–4179.
Lakowicz J. R. Principles of Fluorescence Spectroscopy. 2nd Edition. New York: Kluwer Academic/Plenum Publishers, 1999.
Larsen R. W., Chavez M. D., Ondrias M. R., Courtney S. H., Friedman J. M., Lin M. J. and Hirsch R. E. Dynamics and Reactivity of HbXL99α: A Crosslinked Hemoglobin Derivative. J Biol Chem 1990; 265:4449–4454.
Lasagna M., Gratton E., Jameson D. M. and Brunet J. E. Apohorseradish Peroxidase Unfolding and Refolding: Intrinsic Tryptophan Fluorescence Studies. Biophys J 1999; 76:443–450.
Levitt M. and Perutz M. F. Aromatic Rings Act as Hydrogen Bond Acceptors. J Mol Biol 1988; 201:751–754.
Longa S. D., Pin S., Cortes R., Soldatov A. V. and Alpert B. Fe-Heme Conformations in Ferric Myoglobin. Biophys J 1998; 75:3154–3162.
MacQuarrie R. and Gibson Q. H. Use of a Fluorescent Analogue of 2,3-Diphosphoglycerate as a Probe of Human Hemoglobin Conformation During Carbon Monoxide Binding. J Biol Chem 1971; 246:5832–5835.
MacQuarrie R. and Gibson Q. H. Ligand Binding and Release of an Analogue of 2,3-Diphosphoglycerate from Human Hemoglobin. J Biol Chem 1972; 247:5686–5694.
Marden M. C., Hoa G. H. B. and Stetzkowski-Marden F. Heme Protein Fluorescence Versus Pressure. Biophys J 1986; 49:619–627.
Marden M. C., Hazard E. S. and Gibson Q. H. Testing the Two-State Model: Anomalous Effector Binding to Human Hemoglobin. Biochemistry 1986; 25:7591–7596.
McCammon J. A., Gelin B. R. and Karplus M. Dynamics of Folded Proteins. Nature 1977; 267:585–590.
McDonald M. J., Bleichman M., Bunn H. F. and Noble R. W. Functional Properties of the Glycosylated Minor Components of Human Adult Hemoglobin. J Biol Chem 1979; 254:702–707.
McLaughlin M. L. and Barkley M. D. Time-Resolved Fluorescence of Constrained Tryptophan Derivatives: Implications for Protein Fluorescence. Methods in Enzymology 1997; 278:190–201.
McMahon L. P., Yu H.-T., Vela M. A., Morales G. A., Shui L., Fronczek F. R., McLaughlin M. L. and Barkley M. D. Conformer Interconversion in the Excited State of Constrained Tryptophan Derivatives. J Phys Chem 1997; 101:3269–3280.
Mizukoshi H., Itoh M., Matsukawa S., Mawatari K. and Yoneyama Y. Tryptophan Fluorescence of Human Hemoglobin. II. Effect of Inositol Hexaphosphateon the T-R Transition. Biochim Biophys Acta 1982; 700: 143–147.
Nagel R. L. and Gibson Q. H. Kinetics and Mechanism of Complex Formation Between Hemoglobin and Haptoglobin. J Biol Chem 1967; 242:3428–3434.
Nagel R. L. and Gibson Q. H. The Binding of Hemoglobin to Haptoglobin and Its Relation to Subunit Dissociation of Hemoglobin. J Biol Chem 1971; 246:69–73.
Nanda V. and Brand L. Fluorescence Characterization of Homeodomains: Quenching of a Buried Tryptophan by Aromatic Hydrogen Bonding Associations. Biophys J 1999; 76 (1, Part 2 of 2):A448.
Nordlund T. M., Andersson S., Nilsson L., Rigler R., Graslund A. and McLaughlin L.W. Structure and Dynamics of a fluorescent DNA oligomer containing the EcoRI recognition sequence: fluorescence, molecular dynamics, and NMR studies. Biochemistry 1989; 28:9095–9103.
Parker, C. A. Photoluminescence of Solutions. Amsterdam: Elsevier Publishing Company, 1968.
Pin S., Royer C.A., Gratton E., Alpert B. and Weber G. Subunit Interactions in Hemoglobin Probed by Fluorescence and High-pressure Techniques. Biochemistry 1990;29:9194–9202.
Pin S. and Royer C. A. High-pressure Fluorescence Methods for Observing Subunit Dissociation in Hemoglobin. Methods Enzymol 1994; 232:42–55.
Ponder J. W. and Richards F. M. Tertiary Templates for Proteins. Use of Packing Criteria in the Enumeration of Allowed Sequences for Different Structural Classes. J Mol Biol 1987; 193:775–791.
Rodgers K. R. and Spiro T. G. Nanosecond Dynamics of the R → T Transition in Hemoglobin: Ultraviolet Raman Studies. Science 1994; 265: 1697–1699.
Ross J. B., Rousslang K. W. and Brand L. Time-Resolved Fluorescence and Anisotropy Decay of the Tryptophan in Adrenocorticotropin-(1–24). Biochemistry 1981; 20:4361–4369.
Ross J. B., Wyssbrod H. R., Porter R. A., Schwartz G. P., Michaels C. A. and Laws W. R. Correlation of Tryptophan Fluorescence Intensity Decay Parameters with 1H NMR-determined Rotamer Conformations: [tryptophan 2] Oxytocin. Biochemistry 1992; 31:1585–1594.
Rouviere N., Vincent M., Craescu C. T. and Gallay J. Immunosuppressor Binding to the Immunophilin FKBP59 Affects the Local Structural Dynamics of a Surface β-Strand: Time-Resolved Fluorescence Study. Biochemistry 1997; 36:7339–7352.
Sassaroli M., Bucci E. and Steiner R. F. Librational Modes in Liganded and Unliganded Hemoglobin as Seen by Fluorescence Spectroscopy. J Biol Chem 1982; 257:10136–10140.
Sassaroli M., Bucci E., Leisegang J., Fronticelli C. and Steiner R. F. Specialized Functional Domains in Hemoglobin: Dimensions in Solution of the Apohemoglobin Dimer Labeled with Fluorescein Iodoacetamide. Biochem 1984;23:2487–2491.
Serbanescu R., Kiger L., Poyart C. and Marden M. C. Fluorescent Effector as a Probe of the Allosteric Equilibrium in Methemoglobin. Biochim Biophys Acta 1998;1363:79–84.
Sharma V. S., Newton G. L., Ranney H. M., Ahmed F., Harris J. W. and Danish E. H. Hemoglobin Rothschild (beta 37 (C3) Trp Replaced by Arg): A High/Low Affinity Hemogiobin Mutant. J Mol Biol 1980; 144:267–280.
Silva J. L., Villas-Boas M., Bonafe C. F. S. and Meirelles N. C. Anomalous Pressure Dissociation of Large Protein Aggregates. J Biol Chem 1989; 264:15863–15868.
Smith J. L., Hendrickson W. A., Honzatko R. B. and Sheriff S. Structural Heterogeneity in Protein Crystals. Biochemistry 1986; 25:5018–5027.
Sokolov L. and Mukerji I. Conformational Changes in FmetHbS Probes with UV Resonance Raman and Fluorescence Spectroscopic Methods. J Phys Chem B 1998; 102:8314–8319.
Spiro T. G., Smulevich G. and Su C. Probing Protein Structure and Dynamics with Resonance Raman Spectroscopy: Cytochrome C Peroxidase and Hemoglobin. Biochemistry 1990; 29:4497–4508.
Sudhakar K., Laberge M., Tsuneshige A. and Vanderkooi J. M. Zinc-Substituted Hemoglobins: Alpha-and Beta-Chain Differences Monitored by High-Resolution Emission Spectroscopy. Biochemistry 1998; 37:7177–7184.
Suwaiyan A. and Klein U. K. A. Picosecond Study of Solute Interaction of the Excited State of Indole. Chem Phys Lett 1989; 159:244–250.
Szabo A. G. and Rayner D. M. The Time Resolved Emission Spectra of Peptide Conformers Measured by Pulsed Laser Excitation. Biochem Biophys Res Commun 1980; 94:909–915.
Szabo A. G., Krajcarski D., Zuker M. and Alpert B. Conformational Heterogeneity in Hemoglobin as Determined by Picosecond Fluorescence Decay Measurements of the Tryptophan Residues. Chemical Physics Letters 1984; 108:145–149.
Szabo A. G., Willis K. J., Krajcarski D. T. and Alpert B. Fluorescence Decay Parameters of Tryptophan in a Homogeneous Preparation of Human Hemoglobin. ChemicalPhysics Letter 1989; 163:565–570.
Teale F. W. J. and Weber G. Ultraviolet Fluorescence of the Aromatic Amino Acids. Biochem J 1957; 65:476–482.
Teale F. W. J. The Ultraviolet Fluorescence of Proteins in Neutral Solution. Biochem J 1960; 76:381–388.
Ushmorov A., Ratter F., Lehmann V., Droge W., Schirrmacher V. and Umansky V. Nitric Oxide-Induced Apoptosis in Human Leukemic Lines Requires Mitochondrial Lipid Degraation and Cytochrome c Release. Blood 1999; 93:2342–2352.
Vanderkooi J. M., Angiolillo P. J. and Laberge M. Fluorescence Line Narrowing Spectroscopy: A Tool for Studying Proteins. Methods Enzymol 1997; 278:71–94.
Vargas V., Brunet J. E. and Jameson D. M. Oxygen Diffusion Near the Heme Binding Site of Horseradish Peroxidase. Biochem Biophys Res Comm 1991; 178:104–109.
Vasudevan G. and McDonald M. J. Spectral Demonstration of Semihemoglobin Formation During CN-Hemin Incorporation into Human Apohemoglobins. J Biol Chem 1997; 272:517–524.
Vincent M., Brochon J. C., Merola F., Jordi W. and Gallay J. Nanosecond Dynamics of Horse Heart Apocytochrome C in Aqueous Solution as Studies by Time-Resolved Fluorescence of the Single Tryptophan Residue (Trp-59). Biochem 1988; 27:8752–8761.
Vincent S. H. and Muller-Eberhard U. A Protein of the Z Class of Liver Cytosolic Proteins in the Rat that Preferentially Binds Heme. J Biol Chem 1985; 260:14521–14528.
Vincent S. H., Grady R. W., Shaklai N., Snider J. M. and Muller-Eberhard U. The Influence of Heme-Binding Proteinsin Heme-Catalyzed Oxidations. ArcBiochem Biophys 1988
Wajcman H., Kister J., Galacteros F., Spielvogel A., Lin M. J., Vidugiris G. J., Hirsch R. E., Friedman J. M. and Nagel R. L. Hb Montefiore (126(H9) Asp → Tyr). High Oxygen Affinity and Loss of Cooperativity Secondary to C-Terminal Disruption. J Biol Chem 1996; 271:22990–22998.
Wang D. and Spiro T. G. Structure Changes in Hemoglobin upon Deletion of C-Terminal Residues, Monitored by Resonance Raman Spectroscopy. Biochemistry 1998; 37:9940–9951.
Weber G. Rotational Brownian Motion and Polarization of the Fluorescence of Solutions. Adv Protein Chem 1953; 8:415–459.
Weber G. and Teale F. W. J. Electronic Energy Transfer in Haem Proteins. Disc of Faraday Soc 1959; 28:134–141.
Weiss S. Fluorescence Spectroscopy of Single Biomolecules. Science 1999; 283:1676–1683.
Williams R. T. and Bridges J. W. Fluorescence of Solutions: A Review. J Clin Path 1964; 17:371–394.
Willis K. J., Szabo A. G., Zuker J., Ridgeway J. M. and Alpert B. Fluorescence Decay Kinetics of the Tryptophyl Residues of Myoglobin: Effect of Heme Ligation and Evidence for Discrete Lifetime Components. Biochemistry 1990; 29:5270–5275.
Willis K. J., Neugebauer W., Sikorska M. and Szabo A. G. Probing Alpha-Helical Secondary Structure at a Specific Site in Model Peptides via Restriction of Tryptophan Side-Chain Rotamer Conformation. Biophys J 1994; 66:1623–1630.
Author information
Authors and Affiliations
Editor information
Editors and Affiliations
Rights and permissions
Copyright information
© 2002 Kluwer Academic Publishers
About this chapter
Cite this chapter
Hirsch, R.E. (2002). Heme-Protein Fluorescence. In: Lakowicz, J.R. (eds) Topics in Fluorescence Spectroscopy. Topics in Fluorescence Spectroscopy, vol 6. Springer, Boston, MA. https://doi.org/10.1007/0-306-47102-7_10
Download citation
DOI: https://doi.org/10.1007/0-306-47102-7_10
Publisher Name: Springer, Boston, MA
Print ISBN: 978-0-306-46451-5
Online ISBN: 978-0-306-47102-5
eBook Packages: Springer Book Archive