Publications of Govindjee (both refereed and non-refereed) |
Scientific American
*[1] E. Rabinowitch and Govindjee (1965) The Role
of Chlorophyll in Photosynthesis. Scientific American. 213: 74-83.
*[2] Govindjee and R. Govindjee (1974) Primary
Events in Photosynthesis. Scientific American. 231: 68-82.
*[3] Govindjee and W. Coleman (1990) How Does Photosynthesis
Make Oxygen? Scientific American. 262: 50-58.
Proceedings of National Academies of Sciences
Proceedings of the National Institiute of Science(India)
[1] S. Ranjan, Govindjee, and M.M. Laloraya (1955)
Chromatographic Studies on the Amino Acid Metabolism of Healthy and Diseased
Leaves of Croton sparsiflorus Morong.Proc.Natl.Inst.Sci. (India). 21: 42-47.
Proceedings of the National Academy of Sciences(USA)
[1] A. Krey and Govindjee (1964) Fluorescence Changes
in Porphyridium Exposed to Green Light of Different Intensity: A
New Emission Band at 693 m and Its Significance to Photosynthesis. Proc.
Nat. Acad. Sci. USA. 52: 1568-1572.
[2] H. deKlerk, Govindjee, M.D. Kamen, and J. Lavorel
(1969) Age and Fluorescence Characteristics in Some Species of Athiorhodaceae.
Proc. Natl. Acad. Sci. USA. 62: 972-978.
[3] A. Stemler, G.T. Babcock, and Govindjee (1974)
The Effect of Bicarbonate on Photosynthetic Oxygen Evolution in Flashing
Light in Chloroplast Fragments. Proc. Nat. Acad. Sci. USA. 71.
4679-4683.
[4] T. Wydrzynski, N. Zumbulyadis, P.G. Schmidt,
H.S. Gutowsky, and Govindjee (1976) Proton Relaxation and Charge Accumulation
During Oxygen Evolution in Photosynthesis. Proc. Nat. Acad. Sci. USA,
73: 1196-1198.
[5] D. DeVault, Govindjee and W. Arnold (1983)
Energetics of Photosynthetic Glow Peaks. Proc. Natl. Acad. Sci. USA.
80: 983-987.
[6] D.C. McCain, T.C. Selig, Govindjee and J.L.
Markley (1984) Some Plant Leaves have Orientation-Dependent EPR and NMR
Spectra. Proc. Natl. Acad. Sci. USA. 81: 748-752.
[7] W. Rutherford, Govindjee and Y. Inoue (1984) Charge Accumulation and
Photochemistry in Leaves Studied by Thermoluminescence and Delayed Light Emission. Proc.
Natl. Acad. Sci. USA. 81: 1107-1111.
[8] T. Kambara and Govindjee (1985) Molecular Mechanism
of Water Oxidation in Photosynthesis Based on the Functioning of Manganese
in Two Different Environments. Proc. Natl Acad. Sci. USA. 82: 6119-6123.
[9] M. R. Wasielewski, D. G. Johnson, M. Seibert
and Govindjee (1989) Determination of the Primary Charge Separation Rate
in Isolated Photosystem II Reaction Centers with 500 Femtosecond Time Resolution.
Proc. Natl. Acad. Sci. USA. 86: 524-548.
[10] V. P. Shinkarev and Govindjee (1993) Insight
into the Relationship of Chlorophyll a Fluorescence Yield to the
Concentration of Its Natural Quenchers in Oxygenic Photosynthesis. Proc.
Natl. Acad. Sci. USA. 90: 7466-7469.
[11] Gilmore, A. M. T. L. Hazlett and Govindjee (1995) Xanthophyll
cycle-dependent quenching of photosystem II chlorophyll a fluorescence:
formation of a quenching complex with a short fluorescence lifetime. Proceed.
of the National Acad. of Sci. USA. 92: 2273-2277.
Short Article Journals
Environmental Letters
[1] M.B. Bazzaz and Govindjee (1974) Effects of
Cadmium Nitrate on Spectral Characteristics and Light Reactions of Chloroplasts.
Environ. Lett. 6: 1-12.
[2] M.B. Bazzaz and Govindjee (1974) Effects of
Lead Chloride on Chloroplast Reactions. Environ. Lett. 6: 175-191.
Experientia
[1] M.M. Laloraya, Govindjee, R. Varma, and T. Rajarao
(1956) Increased Formation of Asparagine in Carica-curl Virus Infected
Leaves. Experientia. 12: 58.
[2] Govindjee, M.M. Laloraya, and T. Rajarao (1956)
Formation of Asparagine and Increase in the Free Amino Acid Content in
Virus Infected Leaves of Abelmoschus esculentus. Experientia. 12: 180.
FEBS Letters
[1] Govindjee and J.M. Briantais (1972) Chlorophyll
b Fluorescence and an Emission Band at 700 nm at Room Temperature in Green
Algae. FEBS Lett. 19: 278-280.
[2] P. Mohanty, B.Z. Braun (Zilinskas), and Govindjee (1972)
Fluorescence and Delayed Light Emission in Tris-Washed Chloroplasts. FEBS
Lett. 20: 273-276.
[3] B.Z. Braun (Zilinskas) and Govindjee (1972) Antibodies Against
an Intermediate on the Water Side of Photosystem II of Photosynthesis.
FEBS Lett. 25: 143-146.
[4] D.L. VanderMeulen and Govindjee (1974) 12-(9-anthroyl)-Stearic
Acid and Atebrin as Fluorescence Probes for Energetic Status of Chloroplasts.
FEBS Lett. 45: 186-190.
[5] D. VanderMeulen and Govindjee (1975) Interactions
of Fluorescent Analogs of Adenine Nucleotides with Coupling Factor Protein
Isolated from Spinach Chloroplasts. FEBS Lett. 57: 272-275.
[6] R.E. Schooley and Govindjee (1976) Cation-induced
Changes in the Circular Dichroism Spectrum of Chloroplasts. FEBS Lett.
65: 123-125.
[7] A.J. Hoff, Govindjee, and J.C. Romijn (1977)
Electron Spin Resonance in Zero Magnetic Field of Triplet States of Chloroplasts
and Subchloroplast Particles. FEBS Lett. 73: 191-196.
[8] I. Moya, Govindjee, C. Vernotte, and J.M. Briantais
(1977) Antogonistic Effect of Mono-and Divalent Cations on Lifetime t
and Quantum Yield of Fluorescence f in Isolated Chloroplasts. FEBS
Lett. 75: 13-18.
[9] D. Wong and Govindjee (1979) Antagonistic Effects
of Mono-and Divalent Cations on Polarization of Chlorophyll Fluorescence
in Thylakoids and Changes in Excitation Energy Transfer. FEBS Lett.
97: 373-377.
[10] J.M. Fenton, M.J. Pellin, Govindjee, and K.
Kaufmann (1979) Primary Photochemistry of the Reaction Center of Photosystem
I. FEBS Lett. 100: 1-4.
[11] D. Wong, H. Merkelo, and Govindjee (1979) Regulation
of Excitation Transfer by Cations: Wavelength-Resolved Fluorescence Lifetimes
and Intensities at 77 K in Thylakoid Membranes of Pea Chloroplasts. FEBS
Lett. 104: 223-226.
[12] R. Khanna, R. Wagner, W. Junge, and Govindjee
(1980) Effects of CO2-Depletion on Proton Uptake and Release in Thylakoid
Membranes. FEBS Lett. 121: 222-224.
[13] Govindjee, C. Vernotte, B. Peteri, C. Astier
and A-L. Etienne (1990). Differential Sensitivity of Bicarbonate-reversible
Formate Effects on Herbicide-resistant Mutants of Synechocystis
6714. FEBS Lett. 267: 273-276.
[14] Jajoo, A. Bharti, S. and Govindjee (1998) Anion-induced state changes
in spinach thylakoid membranes. FEBS Lett. 434(1-2): 93-196.
Nature(London)
[1] M.M. Laloraya and Govindjee (1956) Effect of
Tobacco Leaf-curl and Tobacco Masaic Virus on the Amino Acid Content of
Nicotiana sp. Nature(London). 175: 907.
Naturwissenschaften
[1] T. Rajarao, M.M. Laloraya, and Govindjee (1956)
Absence of Some Free Amino Acids from the Diseased Leaves of Trichosanthes
angiuna. Naturwissenschaften. 43: 301.
[2] Govindjee (1956) Effect of X-rays on the Oxygen
Uptake of Cicer arietinum T87 Seedlings. Naturwissenschaften.
43: 524.
[3] Govindjee (1957) Effect of X-rays on the Content
of Free Amino Acids and Amides of Cicer arietinum T87 Seedlings.
Naturwissenschaften. 44: 183.
[4] Govindjee (1963) Observations on P750A from Anacystis
nidulans. Naturwissenschaften. 50: 720-721.
[5] D.C. Fork and Govindjee (1980) Chlorophyll
a Fluorescence Transients of Leaves from Sun and Shade Plants.
Naturwishenschaften. 67: 510-511.
[6] Gy. Garab, Zs. Rozsa and Govindjee (1988) Carbon-dioxide
affects Charge Accummulation in Leaves: Measurements by Thermoluminescence.
Naturwissenschaften. 75: 517-519.
[7] Govindjee, H. Robinson, A. R. Crofts and J.
J. S. Van Rensen (1989) Bicarbonate does not influence electron transfer
to the reaction center chlorophyll a of photosystem II: measurements
by chlorophyll a fluoresence rise in microseconds. Naturwissenschaften.
76: 119-121.
[8] Govindjee, H.G. Weger, D.H. Turpin, J.J.S.
van Rensen, O.J. de Vos and J.F.H. Snel (1991) Formate Releases Carbon
di-oxide/Bicarbonate from Thylakoid Membranes: Measurements by Mass Spectroscopy
and Infrared Gas Analyzer. Naturwissenschaften. 78: 168-170.
[9] Xu, C. R. Li, Y. Shen and Govindjee (1995) The sequential release
of three extrinsic polypeptides in the PS II particles by high concentrations
of trichloroacetates. Naturwissenschaften. 82: 477-478.
Plant Science Letters
[1] M.B. Bazzaz and Govindjee (1973) Absorption
and Chlorophyll a Fluorescence Characteristics of Tris-treated and
Sonicated Chloroplasts. Plant Sci. Lett. 1: 201-206.
[2] B.Z. Braun (Zilinskas) and Govindjee (1974) Antisera Against
a Component of the Oxygen-Evolving Side of System II Reaction: Antisera
Prepared Against an Extract from Frozen and Thawed Chloroplasts. Plant
Sci. Lett. 3: 219-227.
[3] Govindjee, W.J.S. Downton, D.C. Fork, and P.A.
Armond (1981) chlorophyll a Fluorescence Transients as an Indicator
of Water Potential of Leaves. Plant Sci. Lett. 20: 191-194.
Science
[1] Govindjee and E. Rabinowitch (1960) Two Forms
of chlorophyll a in vivo with Distinct Photochemical
Function. Science. 132: 355-356.
[2] E. Rabinowitch, Govindjee and J.B. Thomas (1960)
Inhibition of Photosynthesis in Some Algae by Extreme-Red Light. Science.
132: 422.
[3] Govindjee, C. Cederstrand, and E. Rabinowitch
(1961) Existence of Absorption Bands at 730-740 and 750-760 Millimicrons
in Algae of Different Divisions. Science. 134: 391-392.
[4] G. Bedell and Govindjee (1966) Quantum Yield
of Oxygen Evolution and the Emerson Enhancement Effect in Deuterated Chlorella.
Science. 152: 1383-1385.
[5] H. Merkelo, S.R. Hartman, T. Mar, G.S. Singhal,
and Govindjee (1969) Mode locked Lasers: Measurements of Very Fast Radiative
Decay in Fluorescent Systems. Science. 164: 301-302.
Regular Journals
Astrobiology
[1] Kiang, N.Y., Siefert, J., Govindjee and Blankenship, R.E. (2007) Spectral signatures of photosynthesis. I. Review of earth organisms. Astrobiology, Volume 7 (No. 1), in press, DOI: 10.1089/ast.2006.0105
[2] Kiang, N.Y., Segura, A., Tinetti, G., Govindjee, Blankenship, R.E.,
Cohen, M., Siefert, J., Crisp, D. and Meadows, V.S. (2007) Spectral signatures
of photosynthesis II. Coevolution with other stars and the atmosphere on extra-solarworlds.
Astrobiology, Volume 7 (No. 1), in press. DOI: 10.1089/ast.2006.0108
Acta Biochimica et Biophysica Sinica
[1] Yu, H. Zheng, X.-H. Li, K.-B. Song, H.-Y. Xu, C.-H. and Govindjee (1997)
Comparison of different effects of chloroacetates on electron transport in PS
II and in the reaction center of Rb.sphaeroides 601. Acta Biochimica et Biophysica
Sinica. 29 : 36-43.
Archives of Biochemistry and Biophysics
[1] Govindjee, S. Ichimura, C. Cederstrand, and E. Rabinowitch (1960) Effect
of Combining Far-Red Light with Shorter Wave Light on the Excitation of Fluorescence
in Chlorella. Arch. Biochem. Biophys. 89: 322-323.
Archives of Biochemistry and Biophysics, Academy
of Sciences, Hungary
[1] L. Szalay, M. Törok, and Govindjee (1967) Effect of Secondary Fluorescence
on the Emission Spectrum and Quantum Yield of Fluorescence in chlorophyll a
Solutions and Algal Suspensions. Acta Biochim. Biophys. Acad. Sci. Hung. 2:
425-432.
Archives de Sceance, Genève
[1] R. Strasser, P. Eggenberg, K. Pfister and Govindjee (1992) An Equilibrium
Model for Electron Transfer in Photostystem II Acceptor Complex: An Application
to Chlamydomonas reinhardtii cells of D1 Mutants and Those Treated with
Formate. Archives de Sceance, Genève. 45: 207-224.
Australian Journal of Plant Physiology
*[1] Govindjee (1995) Sixty-three years since Kautsky: chlorophyll a fluorescence.
Australian Journal of Plant Physiology. 22: 131-160.[* invited overview]
Biochemistry
[1] T.J. Wydrzynski, S.B. Marks, P.G. Schmidt, Govindjee, and H.S. Gutowsky
(1978) Nuclear Magnetic Relaxation by the Manganese in Aqueous Suspensions of
Chloroplasts. Biochemistry. 17: 2155-2162.
[2] Gilmore, A. Shinkarev, V.P. Hazlett, T.L. and Govindjee (1998) Quantitative
analysis of the effects of intrathylakoid pH and the xanthophyll cycle pigments
on chlorophyll a fluorescence lifetime distributions and intensity
in thylakoids. Biochemistry. 37: 13582-13593
Biochemical and Biophysical Research Communication
[1] R. Govindjee, Govindjee, and G. Hoch (1962) The Emerson Enhancement Effect
in TPN-Photoreduction by Spinach Chloroplasts. Biochem. Biophys. Res. Comm.
9: 222-225.
Biochimica et Biophysica Acta
[1] Govindjee, O.V.H. Owens, and G. Hoch (1963) A Mass Spectroscopic Study of
the Emerson Enhancement Effect. Biochim. Biophys. Acta. 75: 281-284.
[2] A. Krey and Govindjee (1966) Fluorescence Studies on a Red Alga Porphyridium
cruentum. Biochim. et Biophys. Acta. 120: 1-18.
[3] A. Ghosh, Govindjee, H.L. Crespi, and J.J. Katz (1966) Fluorescence Studies
on Deuterated Chlorella vulgaris. Biochim. et Biophys. Acta. 120: 19-22.
[4] C. Cederstrand and Govindjee (1966) Some Properties of Spinach Chloroplast
Fractions Obtained by Digitonin Solubilization. Biochim.Biophys.Acta. 120: 177-180.
[5] C. Cederstrand, E. Rabinowitch, and Govindjee (1966) Analysis of the Red
Absorption Band of chlorophyll a in vivo. Biochim. et Biophys.
Acta. 126: 1-12.
[6] F. Cho, J. Spencer, and Govindjee (1966) Emission Spectra of Chlorella at
Very Low Temperatures (-269 C to -196 C). Biochim. et Biophys. Acta. 126: 174-176.
[7] G. Papageorgiou and Govindjee (1967) Oxygen Evolution from Lyophilized Anacystis
with Carbon Dioxide as Oxidant. Biochim. et Biophys. Acta. 131: 173-178.
[8] C. Cederstrand, E. Rabinowitch, and Govindjee (1966) Absorption and Fluorescence
Spectra of Spinach Chloroplast Fractions Obtained by Solvent Extraction. Biochim.
et Biophys. Acta. 120: 247-258.
[9] M. Das and Govindjee (1967) A Long-wave Absorbing Form of chlorophyll a
Responsible for the Red Drop in Fluorescence at 298 K and the F723 Band at 77
K. Biochim. et Biophys. Acta. 143: 570-576.
[10] R. Govindjee, E. Rabinowitch, and Govindjee (1968) Maximum Quantum Yield
and Action Spectra of Photosynthesis and Fluorescence in Chlorella. Biochim.
et Biophys. Acta. 162: 530-544.
[11] F. Cho and Govindjee (1970) Fluorescence Spectra of Chlorella in the 295-77
K Range. Biochim. et Biophys. Acta. 205: 371-378.
[12] Govindjee, G. Döring, and R. Govindjee (1970) The Active Chlorophyll
a II in Suspensions of Lyophilized and Tris-Washed Chloroplasts.
Biochim. et Biophys. Acta. 205: 303-306.
[13] P. Mohanty, J.C. Munday, Jr. and Govindjee (1970) Time-dependent Quenching
of Chlorophyll a Fluorescence from (Pigment) System II by (Pigment)
System I of Photosynthesis in Chlorella. Biochim. et Biophys. Acta. 223: 198-200.
[14] R. Govindjee, Govindjee, J. Lavorel, and J.M. Briantais (1970) Fluorescence
Characteristics of Lyophilized Maize Chloroplasts Suspended in Buffer. Biochim.
et Biophys. Acta. 205: 361-370.
[15] F. Cho and Govindjee (1970) Low-Temperature (4-77 K) Spectroscopy of Chlorella:
Temperature Dependence of Energy Transfer Efficiency. Biochim. et Biophys. Acta.
216: 139-150.
[16] F. Cho and Govindjee (1970) Low Temperature (4-77 K) Spectroscopy of Anacystis:
Temperature Dependence of Energy Transfer Efficiency. Biochim. et Biophys. Acta.
216: 151-161.
[17] T. Mar and Govindjee (1971) Thermoluminescence in Spinach Chloroplasts
and in Chlorella. Biochim. Biophys. Acta. 226: 200-203.
[18] G. Papageorgiou and Govindjee (1971) pH Control of the Chlorophyll a
Fluorescence in Algae. Biochim. Biophys. Acta. 234: 428-432.
[19] P. Mohanty, T.Mar, and Govindjee (1971) Action of Hydroxylamine in the
Red Alga Porphyridium cruentum. Biochim. Biophys. Acta. 253: 213-221.
[20] P. Mohanty, B.Z. Braun (Zilinskas), and Govindjee (1973) Light-induced
Slow Changes in Chlorophyll a Fluorescence in Isolated Chloroplasts:
Effects of Magnesium and Phenazine Methosulfate. Biochim. Biophys. Acta. 292:
459-476.
[21] P. Mohanty and Govindjee (1973) Light-induced Changes in the Fluorescence
Yield of Chlorophyll a in Anacystis nidulans. I. Relationships
of Slow Fluorescence Changes with Structural Changes. Biochim. et Biophys. Acta.
305 95-104.
[22] D.L. VanderMeulen and Govindjee (1974) Relation of Membrane Structural
Changes to Energy Spillover in Oats and Spinach Chloroplasts: Use of Fluorescence
Probes and Light Scattering. Biochim. Biophys. Acta. 368: 61-70.
[23] T. Wydrzynski, E.L. Gross, and Govindjee (1975) Effects of Cations (Sodium
and Magnesium) on the Dark and Light-induced Chlorophyll a Fluorescence
Yields in Sucrose-washed Spinach Chloroplasts. Biochim. Biophys. Acta. 376:
151-161.
[24] T. Wydrzynski and Govindjee (1975) A New Site of Bicarbonate Effect in
Photosystem II of Photosynthesis: Evidence from Chlorophyll Fluorescence Transients
in Spinach Chloroplasts. Biochim. Biophys. Acta. 387: 403-408.
[25] B.A. Zilinskas and Govindjee (1975) Silicomolybdate and Silicontungstate
Mediated Dichlorophenyldimethylurea-insensitive Photosystem II Reaction: Electron
Flow, Chlorophyll a Fluorescence and Delayed Light Emission Changes.
Biochim. et Biophys. Acta. 387: 306-319.
[26] Govindjee, J.H. Hammond, W.R. Smith, R. Govindjee, and H. Merkelo (1975)
Lifetime of the Excited States in vivo. IV. Bacteriochlorophyll and Bacteriopheophytin
in Rhodospirillum rubrum. Photosynthetica. 9: 216-219.
[27] T. Wydrzynski, N. Zumbulyadis, P.G. Schmidt, and Govindjee (1975) Water
Proton Relaxation as a Monitor of Membrane- bound Manganese in Spinach Chloroplasts.
Biochim. et Biophys. Acta. 408: 349-354.
[28] Govindjee, M.P.J. Pulles, R. Govindjee, H.J. van Gorkom, and L.N.M. Duysens
(1976) Inhibition of the Reoxidation of the Secondary Electron Acceptor of Photosystem
II by Bicarbonate Depletion. Biochim. et Biophys. Acta. 449: 602-605.
[29] D.L. VanderMeulen and Govindjee (1976) Anthroyl Stearate as a Fluorescent
Probe of Chloroplast Membranes. Biochim. Biophys. Acta. 449: 340-356.
[30] P. Jursinic, J. Warden, and Govindjee (1976) A Major Site of Bicarbonate
Effect in System II Reaction: Evidence from ESR Signal II vf, Fast Fluorescence
Yield Changes and Delayed Light Emission. Biochim. et Biophys. Acta. 440: 323-330.
[31] P. Jursinic and Govindjee (1977) The Rise in Chlorophyll a
Fluorescence Yield and Decay in Delayed Light Emission in Tris-washed Chloroplasts
in the 6-100 Microsecond Time Range after an Excitation Flash. Biochim. et Biophys.
Acta. 461: 253-267.
[32] R. Khanna, Govindjee, and T. Wydrzynski (1977) Site of Bicarbonate Effect
in Hill Reaction: Evidence from the Use of Artificial Electron Acceptors and
Donors. Biochim. et Biophys. Acta. 462: 208-214.
[33] U. Siggel, R. Khanna, G. Renger, and Govindjee (1977) Investigation of
the Absorption Changes of the Plastoquinone System in Broken Chloroplasts: The
Effect of Bicarbonate Depletion. Biochim. Biophys. Acta. 462: 196-207.
*[34] Govindjee and J.J.S. van Rensen (1978) Bicarbonate Effects on the Electron
Flow in Isolated Broken Chloroplasts. Biochim. Biophys. Acta. 505: 183-213.
[35] H.M. Younis, J.S. Boyer, and Govindjee (1979) Conformation and Activity
of Chloroplast Coupling Factor Exposed to Low Chemical Potential of Water in
Cells. Biochim. et Biophys. Acta. 548: 228-240.
[36] D. Wong, Govindjee, and H. Merkelo (1980) Effects of Bulk pH and of Monovalent
and Divalent Cations on chlorophyll a Fluorescence and Electron
Transport in Pea Thylakoids. Biochim. Biophys. Acta. 592: 546-558.
[37] R. Khanna, K. Pfister, A. Keresztes, J.J.S. van Rensen, and Govindjee (1981)
Evidence for a Close Spatial Location of the Binding Sites of and for Photosystem
II Inhibitors. Biochim. Biophys. Acta. 634: 105-116.
[38] G. Sarojini and Govindjee (1981) On the Active Species in Bicarbonate Stimulation
of Hill Reaction in Thylakoid Membranes. Biochim. et Biophys. Acta. 634: 340-343.
[39] W.F.J. Vermaas and Govindjee (1982) Bicarbonate Effects on chlorophyll
a Fluorescence Transients in the Presence and the Absence of Diuron.
Biochim. et Biophys. Acta. 680: 202-209.
[40] W.F.J. Vermaas, J.J.S. van Rensen, and Govindjee (1982) The Interaction
Between Bicarbonate and the Herbicide Ioxynil in the Thylakoid Membrane and
the Effects of Amino Acid Modification. Biochim. et Biophys. Acta. 681: 242-247.
[41] C. Critchley, I.C. Baianu, Govindjee and H.S. Gutowsky (1982) The Role
of Chloride in O2 Evolution by Thylakoids from Salt-tolerant Higher Plants.
Biochim. et Biophys. Acta. 682: 436-445.
[42] R. Khanna, S. Rajan, Govindjee and H.S. Gutowsky (1983) Effects of Physical
and Chemical Treatments on Chloroplast Manganese: NMR and ESR Studies. Biochim.
et Biophys. Acta. 725: 10-18.
[43] Govindjee, H.Y. Nakatani, A.W. Rutherford and Y. Inoue (1984) Evidence
from Thermoluminescence for Bicarbonate Action on the Recombination Reactions
Involving the Secondary Quinone Electron Acceptor of Photosystem II. Biochim.
et Biophys. Acta. 766: 416-423.
[44] D.J.Blubaugh and Govindjee (1986) Bicarbonate, not CO2, is the
Species Required for the Stimulation of Photosystem II Electron Transport. Biochim.
et Biophys. Acta. 848: 147-151.
[45] W.J. Coleman, Govindjee and H.S. Gutowsky (1987) [35]Cl[-] NMR Measurement
of Chloride Binding to the Oxygen-Evolving Complex of Spinach Photosystem II.
Biochim. et Biophys. Acta. 894: 443-452.
[46] W.J. Coleman, Govindjee and H.S. Gutowsky (1987) The Location of the Chloride
Binding Sites in the Oxygen Evolving Complex of Spinach Photosytem II. Biochim.
et Biophys. Acta. 894: 453-459.
[47] J. J. Eaton-Rye and Govindjee (1988) Electron Transfer through the Quinone
Acceptor Complex of Photosystem II in Bicarbonate-Depleted Spinach Thylakoid
Membranes as a Function of Actinic Flash Number and Frequency. Biochim. et Biophys.
Acta. 935: 237-247.
[48] J. J. Eaton-Rye and Govindjee (1988) Electron Transfer through the Quinone
Acceptor Complex of Photosystem II after one or two Actinic Flashes in Bicarbonate-depleted
Spinach Thylakoid Membranes. Biochim. et Biophys. Acta. 935: 248-257.
[49] D. J. Blubaugh and Govindjee (1988) Kinetics of the Bicarbonate Effect
and the Number of Bicarbonate Binding Sites in Thylakoid Membranes. Biochim.
et Biophys. Acta. 936: 208-214.
[50] R. J. Shopes, D. Blubaugh, C. A. Wraight and Govindjee (1989) Absence of
a Bicarbonate-depletion Effect in Electron Transfer Between Quinones in Chromatophores
and Reaction Centers of Rhodobacter sphaeroides. Biochim. et Biophys.
Acta. 974: 114-118.
[51] Govindjee, M. Van de Ven, C. Preston, M. Seibert and E. Gratton (1990)
chlorophyll a Fluorescence Lifetime Distributions in Open and
Closed Photosystem II Reaction Center Preparations: Analysis by Multifrequency
Phase Fluorometry. Biochim. et Biophys. Acta. 1015: 173-179.
[52] J. Cao and Govindjee (1990) chlorophyll a Fluorescence Transient
as an Indicator of Active and Inactive Photosystem II in Thylakoid Membranes.
Biochim. et Biophys. Acta. 1015: 180-188.
[53] J. Cao, W.F.J. Vermaas and Govindjee (1991) Arginine Residues in the D2
Polypeptide May Stabilize Bicarbonate Binding in Photosystem II of Synechocystis
sp. PCC 6803. Biochim. Biophys. Acta. 1059: 171-180.
[54] C. Xu, S. Taoka, A. R. Crofts and Govindjee (1991) Kinetic Characteristics
of Formate/Formic Acid Binding at the Plastoquinone Reductase Site in Spinach
Thylakoids. Biochim. et Biophys. Acta. 1098: 32-40.
[55] X. Wang, J. Cao, P. Maroti, H. U. Stilz, U. Finkele, C. Lauterwasse, W.
Zinth, D. Oesterhelt, Govindjee and C. A. Wraight (1992) Is Bicarbonate in Photosystem
II the equivalent of the Glutamate Ligand to the Iron Atom in Bacterial Reaction
Centers? Biochim. Biophys. Acta. 1100: 1-8.
[56] Govindjee, P. Eggenberg, K. Pfister and R. J. Strasser (1992) chlorophyll
a Fluorescence Yield Decay in Herbicide-resistant D1 mutants of
Chlamydomonas reinhardtii and the Formate Effect. Biochim. et Biophys.
Acta. 1101: 353-358
[57] Roffey, R.A. D.M. Kramer, Govindjee and R.T. Sayre (1994) Lumenal side
histidine mutations in the D1 protein of photosystem II affect donor side electron
transfer in Chlamydomonas reinhardtii. Biochim. et Biophys. Acta. 1185:
257-270.
[58] D.M. Kramer, R.A. Roffey, Govindjee and R.T. Sayre (1994) The At thermoluminescence
band from Chlamydomonas reinhardtii and the effects of mutagenesis of
histidine residues on the donor side of the photosystem II D1 polypeptide. Biochim.
et Biophys. Acta. 1185: 228-237.
[59] Vernotte, C. J.-M. Briantais, C. Astier and Govindjee (1995) Differential
effects of formate in single and double mutants of D1 in Synechocystis species
PCC 6714. Biochim. et Biophys. Acta. 1229 : 296-301.
[60] Hutchison, R.S. J. Xiong, R.T. Sayre and Govindjee (1996) Construction
and characterization of a photosystem II D1 mutant (arginine-269-glycine) of
Chlamydomonas reinhardtii. Biochim. et Biophys. Acta. 1277 :83-92.
[61] Xiong, J. R.S. Hutchison, R.T. Sayre and Govindjee (1997) Modification
of the photosystem II acceptor side function in a D1 mutant (arginine-269-glycine)
of Chlamydomonas reinhardtii.. Biochim. et Biophys. Acta. 1322: 60-76.
[62] Xiong, J. Minagawa, J. Crofts,A.R. and Govindjee (1998) Loss of inhibition
by formate in newly constructed Photosystem II D1 mutants, D1-R257E and D1-R257M,
of Chlamydomonas reinhardtii. Biochim. et Biophys. Acta. 1365: 473-491.
[63] Kana R, Prášil O, Komárek O, Papageorgiou GC and Govindjee (2009) Spectral characteristic of fluorescence induction in a model cyanobacterium, Synechococcus sp. (PCC 7942) Biochim. Biophys. Acta 1787: 1170–1178.
[64] Yusuf MA, Kumar D, Rajwanshi R, Strasser RJ, Tsimilli-Michael M, Govindjee
and Sarin NB (2010) Overexpression of y-tocopherol methyl transferase gene in
transgenic Brassica juncea plants alleviates abiotic stress: Physiological and
chlorophyll fluorescence measurements. Biochim. Biophys. Acta doi:10.1016/j.bbabio.2010.02.002,
Available Online/ BBABIO-46424; No. of pages: 11; 4C: 8.
Biophysical Journal
[1] J.B. Thomas and Govindjee (1960) Changes in Quantum Yield of Photosynthesis
in the Red Alga Porphyridium cruentum Caused by the Stepwise Reduction
in the Intensity of Light Preferentially Absorbed by the Phycobilins. Biophys.
J. 1: 63-72.
[2] Govindjee and E. Rabinowitch (1960) Action Spectrum of the Second Emerson
Effect. Biophysic. J. 1: 73-89.
[3] Govindjee, E. Rabinowitch, and J.B. Thomas (1960) Inhibition of Photosynthesis
in Certain Algae by Extreme Red Light. Biophysic. J. 1: 91-97.
[4] A.K. Ghosh and Govindjee (1966) Transfer of the Excitation Energy in Anacystis
nidulans Grown to Obtain Different Pigment Ratios. Biophysic. J. 6: 611-619.
[5] L. Szalay, E. Rabinowitch, N. Murty, and Govindjee (1967) Relationship Between
the Absorption and Emission Spectra and the Red Drop in the Action Spectra of
Fluorescence in vivo. Biophysic. J. 7: 137-149.
[6] G. Papageorgiou and Govindjee (1967) Changes in Intensity and Spectral Distribution
of Fluorescence. Effect of Light Pretreatment on Normal and DCMU-Poisoned Anacystis
nidulans. Biophysic. J. 7: 375-390.
[7] G. Papageorgiou and Govindjee (1968) Light Induced Changes in the Fluorescence
Yield of chlorophyll a in vivo. I. Anacystis nidulans.
Biophysic. J. 8: 1299-1315.
[8] G. Papageorgiou and Govindjee (1968) Light Induced Changes in the Fluorescence
Yield of chlorophyll a in vivo. II. Chlorella pyrenoidosa.
Biophysic. J. 8: 1316-1328.
[9] J.C. Munday, Jr. and Govindjee (1969) Light-Induced Changes in the Fluorescence
Yield of chlorophyll a in vivo. III. The Dip and the Peak in the
Fluorescence Transient of Chlorella pyrenoidosa. Biophysic. J. 9, 1-21.
[10] J.C. Munday, Jr. and Govindjee (1969) Light-Induced Changes in the Fluorescence
Yield of chlorophyll a in vivo. IV. The Effect of Preillumination
on the Fluorescence Transient of Chlorella pyrenoidosa. Biophysic. J.
9: 22-35.
[11] T. Mar, Govindjee, G.S. Singhal, and H. Merkelo (1972) Lifetime of the
Excited State in vivo. I. Chlorophyll a at Liquid Nitrogen Temperature; Rate
Constant of Radiationless Deactivation and Trapping. Biophysic. J. 12: 797-808.
[12] Govindjee, J.H. Hammond, and H. Merkelo (1972) Lifetime of the Excited
State in vivo. II. Bacteriochlorophyll in Photosynthetic Bacteria at Room Temperature.
Biophysic. J. 12: 809-814.
Carnegie Institute of Washington Year Book
[1] Govindjee (1963) Photosynthesis in Stichococcus. Carnegie Inst. Wash. Year
Book. 62: 363-364.
[2] Govindjee and R. Govindjee (1964) Induction Transients in O2 Evolution by
Porphyridium cruentum in Monochromatic Light. Carnegie Inst. Wash. Year
Book. 63: 468-472.
[3] Govindjee and R. Govindjee (1964) Oxygen Evolution From a Red Alga Exposed
to Monochromatic Light Flashes with Background Light of Different Wavelengths
and Intensities. Carnegie Inst. Wash. Year Book. 63: 472-477.
Chemical Physics
[1] Greenfield, S.R. M. Seibert, Govindjee and M.R. Wasielewski (1996) Wavelength
and intensity dependent primary photochemistry of isolated photosystem II reaction
centers at 5 C. Chemical Physics. 210 : 279-295.
Current Science/Current Science(India)
[1] M.M. Laloraya, Govindjee, and T. Rajarao (1955) A Chromatographic Study
of the Amino Acids (and Sugars) of Healthy and Diseased Leaves of Acalypha
indica. Curr.Sci. (India). 24: 203.
[2] Björn LO, Papageorgiou GC, Dravins D and Govindjee (2009) Detectability of life on exoplanets. Current Science 96: 1171-1175.
[3] Björn LO and Govindjee (2009) The evolution of photosynthesis and
chloroplasts. Current Science 96: 1466-1474.
Cytometry
[1] C. Xu, J. Auger and Govindjee (1990) Chlorophyll a Fluorescence Measurements
of Isolated Spinach Thylakoids using Single-Laser-based Flow Cytometry. Cytometry.
11: 349-358.
European Journal of Biochemistry
[1] D.L. VanderMeulen and Govindjee (1977) Binding of Modified Adenine Nucleotides
to Isolated Coupling Factor from Chloroplasts as Measured by Polarization of
Fluorescence. Eur. J. Biochem. 78: 585-598.
Indian Journal of Experimental Biology
[1] P.V. Sane, Govindjee, T.S. Desai and V.G. Tatake (1984) Characterization
of Glow Peaks of Chloroplast Membranes: III. Effects of Bicarbonate Depletion
on Peaks I and II Associated with Photosystem II. Ind. J. Experimental Biol.
22: 267-269.
Israel Journal of Chemistry
[1] R. Khanna, S. Rajan, K.E. Steinback, S. Bose, Govindjee, and H.S. Gutowsky
(1981) ESR and NMR Studies on the Effects of Magnesium Ion on Chloroplast Manganese.
Israel J. Chem. (Special issue on Photosynthesis). 21: 291-296.
Journal of General Physiology
[1] Govindjee and L. Yang (1966) Structure of the Red Fluorescence Band in Chloroplasts.
J.Gen.Physiol. 49: 763-780.
Journal of Microscopy
[1] Holub, O., Seufferheld, M.J., Gohlke, C., Govindjee, Heiss, G.J. and Clegg,
R.M. (2007) Fluorescence lifetime imaging microscopy of Chlamydomonas reinhardtii:
non-photochemical quenching mutants and the effect of photosynthetic inhibitors
on the slow chlorophyll fluorescence transient. Journal of Microscopy, Vol.
XXX/Pt. 1, January 2007, pp. 1-31
Journal of Photochemistry and Photobiology
[1] Govindjee; C. Xu, G. Schansker and J.J.S. van Rensen (1997) Chloroacetates
as inhibitors of photosystem II: effects on electron acceptor side. J. Photochem.
and Photobiol.B: Biology. 37: 107-117.
Journal of Physical Chemistry
[1] Greenfield, S.R.M. Seibert, Govindjee and M.R. Wasielewski (1997) Direct
measurement of the effective rate constant for primary charge separation in
isolated photosystem II reaction centers. J. of Physical Chem. 101: 2251-2255.
Zeitschrift für Pflanzenphysiologie / Journal
of Plant Physiology
[1] M.B. Bazzaz, Govindjee, and D.J. Paolillo (1974) Biochemical, Spectral,
and Structural Study of Olive Necrotic 8147 Mutant in Zea Mays. L. Z.
Pflanzenphysiol. 72: 181-192.
[2] R. Gasanov and Govindjee (1974) Chlorophyll Fluorescence Characteristics
of Photosystems I and II from Grana and Photosystem I from Stroma Lamellae.
Z. Pflanzenphysiol. 72: 193-202.
[3] B. Zilinskas and Govindjee (1976) Stabilization by Glutaraldehyde Fixation
of Chloroplast Membranes Against Inhibitors of Oxygen Evolution. Zeitschrift
für Pflanzenphysiol. 77: 302-314.
[4] R. Gasanov, Z.K. Abilov, R.M. Gazanchyan, U.M. Kurbanova, R. Khanna, and
Govindjee (1979) Excitation Energy Transfer in Photosystems I and II from Grana
and in Photosystem I from Stroma Lamellae, and Identification of Emission Bands
with Pigment-Protein Complexes at 77 K. Z. für Pflanzenphysiologie. 95:
149-169.
[5] G.S. Singhal, P. Mohanty, and Govindjee (1981) Effects of Preheating Intact
Algal Cells on Pigments Revealed by Absorption and Fluorescence Spectra. Z.
für Pflanzenphysiologie. 103: 217-228.
[6] F. El-Shintinawy, C. Xu and Govindjee (1990). A Dual Bicarbonate-Reversible
Formate Effect in Chlamydomonas cells. J. Plant Physiology. 136: 421-428.
Journal of Scientific and and Industrial Research
(India)
*[1] Govindjee and E. Rabinowitch (1965) The Photochemical Stage of Photosynthesis.
J.Sci. and Indus. Res. 24: 591-596.
Journal of Theoretical Biology
[1] T. Mar and Govindjee (1972) Kinetic Models of Oxygen Evolution in Photosynthesis.
J. Theoret. Biol. 36: 427-446.
[2] Stirbet, A. Govindjee, Strasser,B. and Strasser,R.(1998) Chlrophyll a fluorescence
induction in higher plants: modelling and numerical simulation. J. Theoret.
Biol. 193: 131-151.
Photobiochemistry and Photobiophysics
[1] S. Malkin, D. Wong, Govindjee, and H. Merkelo (1980) Parallel Measurements
on Fluorescence Lifetime and Intensity Changes from Leaves During the Fluorescence
Induction. Photobiochem. Photobiophys. 1: 83-89.
[2] G. Freyssinet, C.A. Rebeiz, J.M. Fenton, R. Khanna, and Govindjee (1980)
Unequal Distribution of Novel Chlorophyll a and b Chromophores in Subchloroplast
Particles of Higher Plants. Photobiochem. Photobiophys. 1: 203-212.
*[3] Govindjee and J. Barber (1980) Photosynthesis Session of the British Photobiology
Society Meeting. Photobiochem. Photobiophys. 1: 183-187.
[4] J. J. Eaton-Rye and Govindjee (1984) A study of the specific effect of bicarbonate
on photosynthetic electron transport in the presence of methyl viologen. Photobiochemistry
and Photobiophysics. 8: 279-288.
Photochemistry and Photobiology
[1] Govindjee and R. Govindjee (1965) Two Different Manifestations of Enhancement
in the Photosynthesis of Porphyridium cruentum in Flashing Monochromatic
Light. Photochem. Photobiol. 4: 401-415.
[2] Govindjee and R. Govindjee (1965) Action Spectra for the Appearance of Difference
Absorption Bands at 480 and 520 m in Illuminated
Chlorella Cells and Their Possible Significance to a Two-Step Mechanism of Photosynthesis.
Photochem. Photobiol. 4: 675-683.
[3] Govindjee and M. Bazzaz (1967) On the Emerson Enhancement Effect in the
Ferricyanide Hill Reaction in Chloroplast Fragments. Photochem. Photobiol. 6:
885-894.
[4] W.T. Stacy, T.Mar, C.E. Swenberg, and Govindjee (1971) An Analysis of a
Triplet Exciton Model for the Delayed Light in Chlorella. Photochem. Photobiol.
14: 197-219.
[5] P. Mohanty, G. Papageorgiou, and Govindjee (1971) Fluorescence Induction
in the Red Alga Porphyridium cruentum. Photochem. Photobiol. 14: 667-682.
[6] P. Jursinic and Govindjee (1972) Thermoluminescence and Temperature Effects
on Delayed Light Emission (Corrected for Changes in Quantum Yield of Fluorescence)
in DCMU-Treated Algae. Photochem. Photobiol. 15: 331-348.
[7] A. Stemler and Govinjdee (1974) Effects of Bicarbonate Ion on Chlorophyll
a Fluorescence Transients and Delayed Light Emission from Maize
Chloroplasts. Photochem. Photobiol. 19: 227-232.
[8] R. Govindjee, W.R. Smith, Jr. and Govindjee (1974) Interaction of Viologen
Dyes with Chromatophores and Reaction-Center Preparations from Rhodospirillum
rubrum. Photochem. Photobiol. 20: 191-199.
[9] T. Mar, G. Roy, and Govindjee (1974) Effect of Chloride and Benzoate Anions
on the Delayed Light Emission in DCMU- treated Spinach Chloroplasts. Photochem.
Photobiol. 20: 501-504.
[10] Govindjee, T.S. Desai, V.G. Tatake, and P.V. Sane (1977) A New Glow Peak
in Rhodopseudomonas sphaeroides. Phtotchem.Photobiol. 25: 119-122.
[11] P.V. Sane, T.S. Desai, V.G. Tatake, and Govindjee (1977) On the Origin
of Glow Peaks in Euglena Cells, Spinach Chloroplasts and Subchloroplast Fragments
Enriched in System I or II. Photochem. Photobiol. 26: 33-39.
[12] K. Vacek, D. Wong, and Govindjee (1977) Absorption and Fluorescence Properties
of Highly Enriched Reaction Center Particles of Photosystem I and of Artificial
Systems. Photochem. Photobiol. 26: 269-276.
[13] P. Jursinic and Govindjee (1977) Temperature Dependence of Delayed Light
Emission in the 6 to 340 Microsecond Range After a Single Flash in Chloroplasts.
Photochem. Photobiol. 26: 617-628.
[14] P. Jursinic, Govindjee, and C.A. Wraight (1978) Membrane Potential and
Microsecond to Millisecond Delayed Light Emission After a Single Excitation
Flash in Isolated Chloroplasts. Photochem. Photobiol. 27: 61-71.
[15] J.A. Anton, P.A. Loach, and Govindjee (1978) Transfer of Excitation Energy
Between Porphyrin Centers of a Covalently- linked Dimer. Photochem. Photobiol.
28: 235-242.
*[16] Govindjee (1978) Ultrafast Reactions in Photosynthesis. Photochem. Photobiol.
28: 935-938.
*[17] D. Wong, Govindjee, and P. Jursinic (1978) Analysis of Microsecond Fluorescence
Yield and Delayed Light Emission Changes After a Single Flash in Pea Chloroplasts:
Effects of Mono-and Divalent Cations. Photochem. Photobiol. 28: 963-974.
*[18] R. Khanna and Govindjee (1979) (Book Review) Photosynthesis, 2nd ed. by
D.O. Hall and K.K. Rao, Photochem. Photobiol. 29: 440-441.
[19] B.M. Sweeney, B.B. Prezelin, D. Wong, and Govindjee (1979) In Vivo chlorophyll
a Fluorescence Transients and the Circadian Rhythm of Photosynthesis
in Gonyaulax polyedra. Photochem. Photobiol. 30: 309-311.
[20] Govindjee, D. Wong, B.B. Prezelin, and B.M. Sweeney (1979) chlorophyll
a Fluorescence of Gonyaulax polydera Grown on a Light-Dark
Cycle and After Transfer to Constant Light. Photochem. Photobiol. 30: 405-411.
[21] V.G. Tatake, T.S. Desai, Govindjee, and P.V. Sane (1981) Energy Storage
States of Photosynthetic Membranes: Activation Energies and Lifetimes of Electrons
in the Trap States by Thermoluminescence Method. Photochem. Photobiol. 33: 243-250.
[22] D. Wong, H. Merkelo, and Govindjee (1981) Estimation of Energy Distribution
and Redistribution Among Two Photosystems Using Parallel Measurements of Fluorescence
Lifetimes and Transients at 77 K. Photochem. Photobiol. 33: 97-101.
[23] D. Wong and Govindjee (1981) Action Spectra of Cation Effects on the Fluorescence
Polarization and Intensity in Thylakoids at Room Temperature. Photochem. Photobiol.
33: 103-108.
*[24] W.F.J. Vermaas and Govindjee (1981) The Acceptor Side of Photosystem II
in Photosynthesis. Photochem. Photobiol. 34: 775-793.
[25] Govindjee, H. Koike, and Y. Inoue (1985) Thermoluminiscence and Oxygen
Evolution from a Thermophilic #051FB0 -green Alga Obtained After Single-turnover
Light Flashes. Photochem. Photobiol. 42: 579-585.
*[26] Govindjee, T. Kambara, and W. Coleman (1985) The Electron Donor Side of
Photosystem II: The Oxygen Evolving Complex. Photochem. Photobiol. 42: 187-210.
[27] Govindjee, M. Van de Ven, J. Cao, C. Royer, and E. Gratton (1993) Multifrequency
Cross-correlation Phase Fluorometry of Open and Closed Reaction Centers in Thylakoid
Membranes and PSII-enriched Membranes. Photochem. Photobiol. 58: 437-444.
[28] Srivastava, A. R.J. Strasser and Govindjee (1995) Differential effects
of dimethylbenzoquinone and dichlorobenzoquinone on chlorophyll fluorescence
transient in spinach thylakoids. J. of Photochem. and Photobiol. B: Biology.
31: 163-169.
[29] Strasser, R.J. A. Srivastava and Govindjee (1995) Polyphasic chlorophyll
a fluorescence transient in plants and cyanobacteria. Photochem.
and Photobiol. 61: 32-42.
[30] Gilmore, A. T.L. Hazlett, P.G. Debrunner and Govindjee (1996) Comparative
time-resolved photosystem II chlorophyll a fluorescence analyses
reveal distinctive differences between photoinhibitory reaction center damage
and xanthophyll cycle dependent energy dissipation. Photochem. and Photobiol.
64: 552-563.
Photosynthesis Research
[1] P. Jursinic and Govindjee (1982) Effects of Hydroxylamine and Silicomolybdate
on the Decay in Delayed Light Emission in the 6-100 Microsecond Range after
a single 10 ns Flash in Pea Thylakoids. Photosynth. Res. 3: 161-177.
[2] M.H.Spalding, C. Critchley, Govindjee and W.L. Ogren (1984) Influence of
Carbon-di-oxide Concentration During Growth on Fluorescence Induction Characteristics
of the Green Alga Chlamydomonas reinhardtii. Photosynth. Res. 5: 169-176.
*[3] G. Renger and Govindjee (1985) The Mechanism of Photosynthetic Water Oxidation.
Photosynth. Res. 6: 33-55.
*[4] S. Padhye, T.Kambara, D.N. Hendrickson, and Govindjee (1986) Manganese-histidine
Cluster as the Functional Center of the Water Oxidation Complex in Photosynthesis.
Photosynth. Res. 9: 103-112.
[5] Govindjee (1986) Publications of Warren L. Butler on Photosynthesis. Photosynth.
Res. 10: 151-159.
*[6] Govindjee and J.J. Eaton-Rye (1986) Electron Transfer through Photosystem
II Acceptors: Interactions with Anions. Photosynth. Res. 10: 365-379.
[7] M.R. Wasielewski, J.M. Fenton, and Govindjee (1987) The Rate of Formation
of P700 [+]-Ao[-] in Photosystem I Particles from Spinach as Measured by Picosecond
Transient Absorption Spectroscopy. Photosynth. Res. 12: 181-190.
*[8] W.J. Coleman and Govindjee (1987) A Model for the Mechanism of Chloride
Activation of Oxygen Evolution in Photosystem II. Photosynth. Res. 13: 199-223.
*[9] Govindjee and J.J. Eaton-Rye (1987) (Book Review) D.O. Hall and K.K. Rao:
Photosythesis (1987). Photosynthesis Research. 13: 95-98.
[10] Govindjee (1987) (editorial). Our editors. Photosynth. Res. 13: 275-284.
[11] Govindjee (1987) (editorial) Symbols, Système International (SI)
Units, Abbreviations, Conversion Factors and Special Instructions to be Used
in Photosynthesis Research. Photosynth. Res. 13: 191-199.
[12] J. Coleman, Govindjee and H. S. Gutowsky (1988) The Effect of Chloride
on the Thermal Inactivation of Oxygen Evolution. Photosynth. Res. 16: 261-276.
[13] Govindjee (1988) The Discovery of Chlorophyll-protein Complex by Emil L.
Smith during 1937-1941. Photosynth. Res. 16: 285-289.
*[14] D. J. Blubaugh and Govindjee (1988) The Molecular Mechanism of the Bicarbonate
Effect at the Plastoquinone Reductase Site of Photosynthesis. Photosynth. Res.
19: 85-128.
*[15] D. J. Blubaugh and Govindjee (1988) The Molecular Mechanism of the Bicarbonate
Effect at the Plastoquinone Reductase Site of Photosynthesis. Photosynth. Res.
19: 85-128.
[16] J. Cao and Govindjee (1988) Bicarbonate Effect on Electron Flow in Cyanobacterium
Synechocystis PCC 6803. Photosynth. Res. 19: 277-285.
[17] C. Xu, S.M.D. Rogers, C. Goldstein, J. M. Widholm and Govindjee (1989)
Fluorescence Characterestics of Photoautrophic Soybean Cells. Photosynth. Res.
21: 93-106.
[18] M. R. Wasielewski, D. G. Johnson, Govindjee, C. Preston and M. Seibert
(1989) Determination of the Primary Charge Separation Rate in Photosystem II
Reaction Centers at 15K. Photosynth. Res. 22: 89-100.
[19] D. DeVault and Govindjee (1990) Photosynthetic Glow Peaks and their Relationship
with the Free Energy Changes. Photosynthesis Research. 24 : 175-181.
[20] F. El-Shintinawy and Govindjee (1990) Bicarbonate Effect in Leaf Discs
from Spinach. Photosynth. Res. 24: 189-200.
[21] Govindjee (1990) Photosystem II Heterogeneity: Electron Acceptor Side.
Photosynth. Res. 25: 151-160.
[22] H. Shim, J. Cao, Govindjee and P. G. Debrunner (1990) Purification of Highly
Active Oxygen-Evolving Photosystem II from Chlamydomonas reinhardtii.
Photosynth. Res. 26: 223-228.
[23] Govindjee, B. Schwarz, J-D. Rochaix and R.J. Strasser (1991) The Herbicide-resistant
D1 Mutant L275F of Chlamydomonas reinhardtii Fails to Show the Bicarbonate-reversible
Formate Effect on Chlrophyll a Fluorescence Transients. Photosynth.
Res. 27: 199-208.
[24] J. Cao, N. Ohad, J. Hirschberg, J. Xiong, and Govindjee (1992) Binding
Affinity of Bicarbonate and Formate in Herbicide-resistant D1 Mutants of Synechococcus
sp. PCC 7942. Photosynth. Res. 34: 397-408.
[25] Govindjee and G. Renger (1993). In appreciation of Bessel Kok. Photosyn.
Res. 38: 211-213.
*[26] . D. Naber, J.J.S. Van Rensen and Govindjee (1993) High Misses after Odd
Flashes in Thoroughly Dark-adapted Thylakoids from Pea and Chenopodium album.
Photosynth. Res. 38: 309-314.
[27] Srivastava, A.K. Strasser, R.J. and Govindjee (1995) Polyphasic rise of
chlorophyll a fluorescence in herbicide-resistant D1 mutants of
Chlamydomonas reinhardtii. Photosynth. Res. 43: 131-141.
*[28] Vass, I. and Govindjee (1996) Thermoluminescence from the photosynthetic
apparatus. Photosynth. Res. 48: 117-126. [*invited minireview]
[29] Gilmore, A.M. T.L. Hazlett, P.G. Debrunner and Govindjee (1996) Photosystem
II chlorophyll a fluorescence lifetimes and intensity are independent
of the antenna size differences between barley wild-type and chlorina mutants:
Photochemical quenching and xanthophyll cycle dependent non-photochemical quenching
of fluorescence. Photosynth. Res. 48: 171-187.
[30] Govindjee, R.S. Knox and J. Amesz (1996) Editorial [on "Photosynthetic
Unit: Antenna and Reaction Centers", a special issue of "Photosynthesis Research"
dedicated to William A. Arnold, Volume 48 (Numbers 1 and 2, May, 1996, : 1-319].
Photosynth. Res. 48: 1-2.
[31] Shinkarev, V.P. C. Xu, Govindjee and C.A. Wraight (1997) Kinetics of the
oxygen evolution step in plants determined from flash-induced chlorophyll a
fluorescence. Photosynth. Res. 51: 43-49.
[32] Xiong, J. Subramaniam, S. and Govindjee (1998) A knowledge-based three
dimensional model of the Photosystem II reaction center of Chlamydomonas
reinhardtii. Photosynth. Res. 56: 229-254.
[33] Govindjee (1999) On the requirement of minimum number of four versus eight
quanta of light for the evolution of one molecule of oxygen in photosynthesis:
A historical note. Photosynth. Res. 59: 249-254.
[34] G.C. Papageorgiou, Govindjee, R. Govindjee, M. Mimuro, K. Stamatakis, A.
Alygizaki-Zorba, N. Murata (1999).Light-induced and osmotically-induced changes
in chlorophyll a fluorescence in two Synechocystic sp. PCC
6803 strains that differ in membrane lipid unsaturation. Photosynth. Res.
59: 125-136.
[35] Larry Orr and Govindjee (2007) Photosynthesis and the Web: 2008. Photosynth.
Res. 91:107-131.
[36] Govindjee and Hyungshim Yoo (2007) The International Society of Photosynthesis
Research (ISPR) and its associated International Congress on Photosynthesis
(ICP): a pictorial report. Photosynth. Res. 91:95-106.
[37] Govindjee (2007) Editorial:A tale of naming a photosynthetic bacterium. Photosynth. Res. 92:1-2.
[38] Nozzolillo, C.G., Gorham, H. H. and Govindjee (2007) Obituary: Paul R. Gorham (April 16,1918––November 9, 2006). Photosynth. Res. 92:3-5.
[39] Govindjee and Telfer, A. (2007) Six young research investigators were honored at an international conference in Russia. Photosynth. Res. 92: 139-141.
[40] Govindjee, Rutherford, A. W. and Britt, R. D. (2007) Four young research investigators were honored at the 2006 Gordon research conference on photosynthesis. Photosynth. Res. 92:137-138.
[41] Prasil O, Suggett J, Cullen JJ, Babin M and Govindjee (2008) Aquafluo 2007: chlorophyll fluorescence in aquatic sciences, an international conference held in Nové Hrady. Photosynth. Res. 95:111-115.
[42] Govindjee (2008) Recollections of Thomas John Wydrzynski. Photosynth. Res. 98:13-31.
[43] Rose S, Minagawa J, Seufferheld M, Padden S, Svensson B, Kolling DRJ, Crofts AR and Govindjee (2008) D1-arginine mutants (R257E, K and Q) of Chlamydomonas reinhardtii have a lowered QB redox potential: analysis of thermoluminescence and fluorescence measurements. Photosynth. Res. 98:449-468.
[44] Black CC and Govindjee (2008) Martin Gibbs and the peaceful uses of nuclear radiation, 14C. Photosynth. Res. 99: 63-80.
[45] Govindjee (2009) List of biography and history published mostly in Photosynthesis Research, 1988-2008. Photosynth. Res. 99: 139-153.
[46] Björn LO, Papageorgiou GC, Blankenship R and Govindjee (2009) A viewpoint: why chlorophyll a? Photosynth. Res. 99: 85-98.
[47] Govindjee (2009) A tribute to Achim Trebst, a friend. Photosynth. Res. 100:113-115.
[48] Messinger J, Alia A and Govindjee (Editorial) (2009) Special educational issue on 'Basics and application of biophysical techniques in photosynthesis and related processes'-[Part B]. Photosynth. Res. (2009) 102:103-106.
[49] Messinger J, Alia A and Govindjee (Editorial) (2009) Special educational issue on 'Basics and application of biophysical techniques in photosynthesis and related processes'-[Part A]. Photsynth. Res. (2009) 101:89-92.
[50] Govindjee (2009) Young research investigators honored at the 2008 and 2009 Gordon research conferences on photosynthesis: ambiance and a personal perspective. Photosynth. Res. 102:1-6.
[51] Govindjee and Seibert M (2010) Picosecond spectroscopy of the isolated reaction centers from the photosystems of oxygenic photosynthesis-ten years (1987-1997) fun. A tribute to Michael R. Waisielewski on his 60th birthday. Photosynth. Res. 103:1-6.
[52] Govindjee (2010) Book Review: Gernot Renger (ed): Primary processes of photosynthesis: principles and apparatus, parts 1 and 2. The Royal Society of Chemistry (RSC), 2008 Photosynth. Res. 103: 61-63.
Photosynthetica
[1] C. Shimony, J. Spencer, and Govindjee (1967) Spectral Characteristics of
Anacystis Particles. Photosynthetica. 1: 113-125.
[2] J.M. Briantais, H. Merkelo, and Govindjee (1972) Lifetime of the Excited
State t in vivo. III. Chlorophyll During Fluorescence
Induction in Chlorella pyrenoidosa. Photosynthetica. 6: 133-141.
[3] P. Mohanty and Govindjee (1973) Effect of Phenazine Methosulfate and Uncouplers
on Light-induced Chlorophyll a Fluorescence Yield Changes in Intact
Algal Cells. Photosynthetica. 7: 146-160.
[4] Govindjee, J.H. Hammond, W.R. Smith, R. Govindjee, and H. Merkelo (1975)
Lifetime of the Excited States in vivo. IV. Bacteriochlorophyll and Bacteriopheophytin
in Rhodospirillum rubrum. Photosynthetica. 9: 216-219.
[5] D. Wong and Govindjee (1976) Effects of Lead Ions on Photosystem I in Isolated
Chloroplasts: Studies on the Reaction Center P700. Photosynthetica. 10: 241-254.
[6] P.V. Sane, T.S. Desai, V. G. Tatake and Govindjee (1984) Heat-induced reversible
increase in photosystem I emission in algae, leaves and chloroplasts: spectra,
activities, and relation to state changes. Photosynthetica. 18: 439-444.
Physiologia Plantarum
*[1] S. Demeter and Govindjee (1989) Thermoluminescence from Plants. Physiologia
Plantarum. 75: 121-130.
[2] Govindjee, J.F.H. Snel, O. J. deVos and J.J.S. Van Rensen (1993) Antagonistic
Effects of Light I and II on Chlorophyll a fluorescence yield and P700 turnover
as monitors of carbon dioxide depletion in intact algal and cyanobacterial cells.
Physiologia Plant. 89: 143-148.
*[3] Van Rensen, J.J.S. Xu,C. and Govindjee (1999) Role of bicarbonate in the
photosystem II, the water-plastoquinone oxido-reductase of plant photosynthesis.
Physiologia Plantarum. 105: 585-592.
The Plant Biochemical Journal
*[1] P. Mohanty and Govindjee (1974, printed in 1975) The Slow Decline and the
Subsequent Rise of Chlorophyll Fluorescence Transients in Intact Algal Cells.
The Plant Biochem. J. 1: 78-106.
[2] M. Das and Govindjee (1975) Action Spectra of Chlorophyll Fluorescence in
Spinach Chloroplast Fractions Obtained by Solvent Extraction. Plant Biochem.J.
2: 51-60.
*[3] Govindjee (1980) The Oxygen Evolving System of Photosynthesis. Plant Biochem.
J. Sicar Memorial Volume. 7-30.
Plant Cell Physiology
[1] P. Mohanty, B.Z. Braun (Zilinskas), Govindjee, and P. Thornber (1972) Chlorophyll
Fluorescence Characteristics of System I Chlorophyll a-Protein Complex and System
II Particles at Room and Liquid Nitrogen Temperatures. Plant and Cell Physiol.
13: 81-91.
[2] P. Mohanty and Govindjee (1973) Light-induced Changes in the Fluorescence
Yield of Chlorophyll a in Anacystis nidulans. II. The Fast
Changes and the Effect of Photosynthetic Inhibitors on both the Fast and Slow
Fluorescence Induction. Plant and Cell Physiol. 14: 611-629.
[3] G.W. Bedell and Govindjee (1973) Photophosphorylation in Intact Algae: Effects
of Inhibitors, Intensity of Light, Electron Acceptors and Donors. Plant Cell
Physiol. 14: 1081-1097.
[4] P. Mohanty, Govindjee, and T. Wydrzynski (1974) Salt-induced Alterations
of the Fluorescence Yield and of Emission Spectra in Chlorella. Plant Cell Physiol.
15: 213-224.
Plant Molecular Biology
[1] Mulo,P. T. Tyystjarvi, E. Tyystjarvi, Govindjee; P. Maenpaa and E-M. Aro
(1997) Mutagenesis of the D-E loop of photosystem II reaction centre protein
D1. Function and assembly of photosystem II. Plant Molecular Biology. 33: 1059-1071.
Plant Physiology
[1] R. Govindjee, Govindjee, and G. Hoch (1964) Emerson Enhancement Effect in
Chloroplast Reactions. Plant Physiol. 39: 10-14.
[2] A. Stemler and Govindjee (1973) Biocarbonate Ion as a Critical Factor in
Photosynthetic Oxygen Evolution. Plant Physiol. 52: 119-123.
[3] M.B. Bazzaz and Govindjee (1973) Photochemical Properties of Mesophyll and
Bundle Sheath Chloroplasts of Maize. Plant Physiol. 52: 257-262.
[4] A. Stemler and Govindjee (1974) Bicarbonate Stimulation of Oxygen Evolution,
Ferricyanide Reduction and Photoinactivation Using Isolated Chloroplasts. Plant
Cell Physiol. 15: 533-544.
[5] T. Ogawa, D. Grantz, J. Boyer, and Govindjee (1982) Effects of Abscisic
Acid on chlorophyll a Fluorescence in Guard Cells of Vicia
faba. Plant Physiol. 69: 1140-1144.
[6] D.J. Blubaugh and Govindjee (1988) Sites of Inhibition by Disulfiram in
Thylakoid Membranes. Plant Physiology. 88: 1021-1025.
[7] D.J. Blubaugh and Govindjee (1988) Sites of Inhibition by Disulfiram in
Thylakoid Membranes. Plant Physiology. 88: 1021-1025.
[8] C. Xu, L. C. Blair, S.M.D. Rogers, Govindjee and J. M. Widholm (1988) Characterestics
of Five New Photoautotropic Suspension Cultures Including Two Amaranthus species
and a Cotton Strain Growing on Ambient CO2 Levels. Plant Physiol.
88: 1297-1302.
[9] Maenpaa, P. T. Miranda, E. Tyystjarvi, T. Tyystjarvi, Govindjee, J-M. Ducruet,
A.-L. Etienne and D. Kirilovsky (1995) A mutation in the D-de loop of D1 modifies
the stability of the S2QA- and S2QB- states in photosystem II. Plant Physiol.
107: 187-197.
Protein Science
[321] Xiong, J. S. Subramaniam and Govindjee (1996) Modeling of the D1/D2 proteins
and cofactors of the photosystem II reaction center : Implications for herbicide
and bicarbonate binding. Protein Sci. 5 :2054-2073.
Science and Culture
*[1] Govindjee (1965) Modern Trends in Photobiology: Energy Conversion in Photosynthesis.
Science and Culture. 31: 468-476.
Zeitschrift für Naturforschung
[1] J.J.S. van Rensen, D. Wong, and Govindjee (1978) Characterization of the
Inhibition of Photosynthetic Electron Transport in Pea Chloroplasts by the Herbicide
4, 6 Dinitro-o-cresol by Comparative Studies with 3-(3-4-dichlorophenyl)-1,1-dimethylurea.
Z. für Naturforschg. 33c: 413-420.
[2] D. Wong, K. Vacek, H. Merkelo, and Govindjee (1978) Excitation Energy Transfer
Among chlorophyll a Molecules in Polystyrene: Concentration Dependence
of Quantum Yield, Polarization and Lifetime of Fluorescence. Z. für Naturforschg.
33c: 863-869.
[3] Govindjee, P. Mathis, C. Vernotte, D. Wong, S. Saphon, T. Wydrzynski, and
J.M. Briantais (1979) Cation Effects on System II Reactions in Thylakoids: Measurements
on Oxygen Evolution, the Electrochromic Change at 515 nm, the Primary Acceptor
and the Primary Donor. Z. für Naturforschg. 34c: 826-830.
[4] D.J. Blubaugh and Govindjee (1984) Comparison of Bicarbonate Effects on
the Variable chlorophyll a Fluorescence of CO2-depleted
and non CO2-depleted Thylakoids in the Presence of Diuron. Z. für
Naturforschung. 39C: 378-381.
[5] H.H. Robinson, J.J. Eaton-Rye, J.J.S. van Rensen and Govindjee (1984) The
Effects of Bicarbonate Depletion and Formate Incubation on the Kinetics of Oxidation-Reduction
Reactions of the Photosystem II Quinone Acceptor Complex. Z. für Naturforschung.
39C: 382-385.
[6] C. Xu, Y. Zhu and Govindjee (1992) Differential Inhibition and Rephasing
of Photosystem II Electron Acceptor Side by Monohalogenated Acetates of Different
Hydrophobicity. Z. für Naturforschung. 47C: 121-126.
*[7] Govindjee (1993) Bicarbonate-reversible Inhibition of Plastoquinone Reductase
in Photosystem II. Zeitschr. für Naturforschg. 48c: 251-258.
[8] Li, R. N. Lin, C. Xu, Y. Shen and Govindjee (1997) Trichloroacetate affects
redox active tyrosine 160 of the D2 polypeptide of the photosystem II core.
Zeitschrift fuer Naturforschung. 52 C: 782-788.
[9] Govindjee; C. Xu and J.J.S. van Rensen (1997) On the requirement of bound
bicarbonate for photosystem II. Zeitschrift fuer Naturforschung. 52C: 24-32.
Symposia Volumes and Books
Chapters/Articles in Symposia Volumes
*[1] E. Rabinowitch and Govindjee (1961) Different Forms of chlorophyll a
in vivo and Their Photochemical Function. In: Light and Life (eds. W.D. McElroy
and B. Glass) The Johns Hopkins Press. pp. 378-387.
*[2] J.B. Thomas and Govindjee (1961) On the Long-wave Decline of the Quantum
Yield of Photosynthesis in the Red Alga Porphyridium cruentum. In: Light
and Life (eds. W.D. McElroy and B. Glass) The Johns Hopkins Press. pp. 475-478.
*[3] Govindjee (1963) Emerson Enhancement Effect and Two Light Reactions in
Photosynthesis: Dedicated to the Memory of Late Professor Robert Emerson. In:
Photosynthetic Mechanisms of Green Plants (eds. B. Kok, and A.T. Jagendorf)
Publication 1145, Nat. Acad. Sci. Nat. Res. Council. pp. 318-334.
*[4] Govindjee (1966) Fluorescence Studies on Algae, Chloroplasts and Chloroplast
Fragments. In: Currents in Photosynthesis (eds. J.B. Thomas and J.H.C. Goedheer)
Ad Donker Publisher, Rotterdam. pp. 93-103.
*[5] E. Rabinowitch, L. Szalay, M. Das, N. Murty, C. Cederstrand, and Govindjee
(1967) Spectral Properties of Cell Suspensions. In: Energy Conversion by the
Photosynthetic Apparatus (ed. J.M. Olson) Brookhaven Symposia in Biology. 19:
1-7.
*[6] Govindjee, J.C. Munday, Jr. and G. Papageorgiou (1967) Fluorescence Studies
with Algae: Changes with Time and Preillumination. In: Energy Conversion by
the Photosynthetic Apparatus (ed. J.M. Olson) Brookhaven Symposia in Biology.
19: 434-445.
[7] E. Rabinowitch and Govindjee (1969) Photosynthesis. John Wiley and Sons
Inc. NY. 273 pages.
[8] J.C. Munday, Jr. and Govindjee (1969) Fluorescence Transients in Chlorella:
Effects of Supplementary Light, Anaerobiosis and Methyl Viologen. Progress in
Photosynthesis Res. II: 913-922.
[9] G. Papageorgiou and Govindjee (1969) The Second Wave of Fluorescence Induction
in Chlorella pyrenoidosa. Progress in Photosynthesis Res. II: 905-912.
[10] P. Jursinic and Govindjee (1972) Delayed Light Emission in DCMU-treated
Chlorella: Temperature Effects. In: Photosynthesis, Two Centuries After its
Discovery by Joseph Priestley.(eds. G. Forti, M. Avron, and A. Melandri). Dr.
W. Junk N.V. Publishers, Den Haag. pp. 223-232.
[11] T. Mar and Govindjee (1972) Decrease in the Degree of Polarization of Chlorophyll
Fluorescence Upon the Addition of DCMU to Algae. In: Photosynthesis, Two Centuries
After its Discovery by Joseph Priestley (eds. G. Forti, M. Avron, and A. Melandri)
Dr. W. Junk N.V. Publishers, Den Haag. pp. 271-281.
*[12] Govindjee and P.K. Mohanty (1972) Photochemical Aspects of Photosynthesis
in #051FB0 -Green Algae. In: Biology and Taxonony of #051FB0 -Green Algae (ed.
T. Desikachary) U. Madras, Madras, India. pp. 171-196.
*[13] A. Stemler and Govindjee (1974) Bicarbonate Stimulation of Oxygen Evolution
in Chloroplast Membranes. In: International Symposium in Biomembranes (ed. L.
Packer). Academic Press, NY. pp. 319-330.
[14] E.L. Gross, T. Wydrzynski, D. VanderMeulen, and Govindjee (1975) Monovalent
and Divalent Cation-induced Changes in Chlorophyll a Florescence
and Chloroplast Structure, In: Proc. 3rd Int. Congr. on Photosynthesis, Vol.
I (ed. M. Avron) Elsevier Publ. Co. Amsterdam. pp. 345-361.
[15] Govindjee, A.J. Stemler, and G.T. Babcock (1975) A Critical Role of Bicarbonate
in the Reaction Center II Complex During Oxygen Evolution in Isolated Broken
Chloroplasts. In: Proc. 3rd Int. Cong. on Photosynthesis, Vol. I (ed. M. Avron)
Elsevier Publ. Co, Amsterdam. pp. 363-371.
[16] D.L. VanderMeulen and Govindjee (1975) Anthroyl Stearate: A Fluorescent
Probe for Chloroplasts. In: Proc. 3rd Int. Cong. on Photosynthesis Vol. I. (ed.
M. Avron) Elsevier Publ. Co, Amsterdam. pp. 1095-1105.
*[17] T. Wydrzynski, Govindjee, N. Zumbulyadis, P.G. Schmidt, and H.S. Gutowsky
(1976) NMR Studies on Chloroplast Membranes. In: Magnetic Resonance in Colloid
and Interface Science (eds. H.A. Resing and G.G. Wade) A.C.S. Symposium Series
34, American Chemical Society. pp. 471-487.
*[18] Govindjee, T. Wydrzynski, and S.B. Marks (1977) The Role of Manganese
in the Oxygen Evolving Mechanism of Photosynthesis. In: Bioenergetics of Membranes
(eds. L. Packer, G. Papageorgiou, and A. Trebst) Elsevier/North Holland Biomedical
Press. pp. 305-316.
*[19] S.B. Marks, T. Wydrzynski, Govindjee, P.G. Schmidt, and H.S. Gutowsky
(1978) An NMR Study of Manganese in Chloroplast Membranes. In: Biomolecular
Structure and Function (ed. P.F. Agris) Academic Press, NY. pp. 95-100.
*[20] Govindjee and R. Khanna (1978) Bicarbonate: Its Role in Photosystem II.
In: Photosynthetic Oxygen Evolution (ed. H. Metzner) Academic Press, London.
pp. 269-282.
*[21] Govindjee, T. Wydrzynski, and S.B. Marks (1978) Manganese and Chloride:
Their Roles in Photosynthesis. In: Symposium on Photosynthetic Oxygen Evolution
(ed. H. Metzner) Academic Press, London. pp. 321-344.
*[22] D. Jordan and Govindjee (1980) Bicarbonate Stimulation of Electron Flow
in Thylakoids. Golden Jubilee Commemoration Volume of the National Academy of
Sciences(India). 369-378.
[23] G. Sarojini and Govindjee (1981) Is CO2 an Active Species in
Stimulating the Hill Reaction in Thylakoid Membranes? In: Photosynthesis, Vol.
II. Photosynthetic Electron Transport and Photophosphorylation. (ed. G. Akoyunoglou),
Balaban International Science Services, Philadelphia. pp. 143-150.
*[24] Govindjee and T. Wydrzynski (1981) Oxygen Evolution, Manganese, ESR and
NMR. In: Photosynthesis, Vol. II. Photosynthetic Electron Transport and Photophosphorylation.
(ed. G.Akoyunoglou), Balaban International Science Services, Philadelphia. pp.
293-306.
[25] R. Khanna, S. Rajan, Govindjee, and H.S. Gutowsky (1981) NMR and ESR Studies
of Thylakoid Membranes. In: Photosynthesis, Vol. II. Photosynthetic Electron
Transport and Photophosphorylation. (ed. G. Akoyunoglou) Balaban International
Science Services, Philadelphia. pp. 307-316.
*[26] Govindjee, I.C. Baianu, C. Critchley and H.S. Gutowsky (1983) Comments
on the Possible Roles of Bicarbonate and Chloride Ions in Photosystem II. In:
Y. Inoue, A.R. Crofts, Govindjee, N. Murata, G. Renger and K. Satoh (eds.) The
Oxygen Evolving System of Photosynthesis. Academic Press, Tokyo and San Diego.
pp. 303-315.
*[27] Govindjee (1984) Photosystem II: The Oxygen Evolving System of Photosynthesis.
In: C. Sybesma (ed.) Advances in Photosynthesis Research, Vol. 1, Martinus Nijhoff/Dr.
W. Junk Publishers, Den Haag. pp. 227-238.
[28] A.W. Rutherford, Govindjee and Y. Inoue (1984) Thermoluminescence as a
probe of Photosystem II in Leaves. In: C. Sybesma (ed.) Advances in Photosynthesis
Research, Martinus Nijhoff/Dr. W. Junk Publishers, Den Haag. pp. 261-264.
+[29] W.J. Coleman, I.C. Baianu, H.S. Gutowsky and Govindjee (1984) The Effect
of Chloride and Other Anions on the Thermal Inactivation of Oxygen Evolution
in Spinach Chloroplasts. In: C. Sybesma (ed.) Advances in Photosynthesis Research,
Martinus Nijhoff/Dr. W. Junk Publishers, Den Haag. pp. 283-286.
*[30] W. Coleman and Govindjee (1985) The Role of Chloride in Oxygen Evolution.
In: Proceedings of the 16th FEBS Congress, Part B. VNU Science Press, Utrecht,
Netherlands. pp. 21-28.
*[31] Govindjee, J.J. Eaton-Rye, D.J. Blubaugh, and W. Coleman (1985) Action
of Bicarbonate and Chloride Anions on Electron Transport in Thylakoid Membranes.
In: Proceedings of Ion Interactions in Energy Transport Systems. Nuclear Research
Center Demokritos, Athens, Greece. pp. 75-80.
*[32] J.J. Eaton-Rye, D.J. Blubaugh, and Govindjee (1986) Action of Bicarbonate
on Photosynthetic Electron Transport in the Presence or Absence of Inhibitory
Anions. In: Ion Interactions in Energy Transfer Biomembranes, (G. Papageorgiou,
J. Barber and S. Papa, eds.). Plenum Press, New York. pp. 263-278.
[33] J.J. Eaton-Rye and Govindjee (1987) The Effect of pH and Flash Frequency
on Electron Transfer Through the Quinone Acceptor Complex of PSII in Bicarbonate-depleted
or Anion-inhibited Thylakoid Membranes. Progress in Photosynth. Res. 2: 433-436.
[34] W.J. Coleman, Govindjee and H.S. Gutowsky (1987) Involvement of Ca [2+]
in Cl[-] Binding to the Oxygen Evolving Complex of Photosystem II. Progress
in Photosynthesis Research. 1: 629-632.
*[35] W.J. Coleman and Govindjee (1987) A Model for the Mechanism of Chloride
Activation of Oxygen Evolution in Photosystem II. Photosynth. Res. 13: 199-223.
*[36] W. J. Coleman and Govindjee (1987) Applications of [35]Cl[-]NMR to the
study of Chloride-binding in the oxygen-evolving complex of Photosystem II.
In: Current Trends in Life Sciences, XIII Biomembranes: structure, biogenesis
and transport. Today and Tomorrow's Printers and Publishers, New Delhi. pp.
215-220.
*[37] Govindjee and P. H. Homann (1989) Function of Chloride in Water Oxidation
in Photosynthesis. In: Highlights of Modern Biochemistry. (A. Kotyk, J. Skoda,
V. Paces and V. Kostka eds.). VSP International Science Publishers Ziest. pp.
933-960.
*[38] Govindjee and M. R. Wasielewski (1989) Photosystem II: From a Femtosecond
to a Millisecond. In: (G.E. Briggs ed.) Photosynthesis. Alan Liss Publishers,
NY. pp. 71-103.
[39] M.R. Wasielewski, D.G. Johnson, Govindjee, C. Preston and M. Seibert (1990).
The Primary Charge-Separation Rate in Isolated Photosystem II Reaction Center
Complex. Current Research in Photosynthesis. (M. Baltscheffsky ed.). I.2: 451-454.
Kluwer Academic Publishers, Dordrecht, Netherlands.
[40] Govindjee, M. Van de Ven, C. Preston, M. Seibert and E. Gratton (1990).
Recombinational Light Emission from Photosystem II Reaction Centers. Current
Research in Photosynthesis. (M. Baltscheffsky ed.). I.2: 459-462. Kluwer Academic
Publishers, Dordrecht, Netherlands.
[41] F. El-Shintinawy and Govindjee (1990). Reversible Anion Interactions Between
QA and QB and Between Z (or D) and QA in leaves
and Green Algae. Current Research in Photosyntheses. (M. Baltscheffsky ed.).
I.2: 511-518. Kluwer Academic Publishers, Dordrecht, Netherlands.
[42] J. Cao and Govindjee (1990). Anion Effects on the Electron Acceptor Side
of Photosystem II in a Transformable Cyanobacterium Synechocystis 6803.
Current Research in Photosynthesis. (M. Baltscheffsky ed.). I.2: 515-518. Kluwer
Academic Publishers, Dordrecht, Netherlands.
[43] Govindjee (1992) What About the Bicarbonate Effect? Research in Photosynthesis.
(N. Murata ed.). II: 143-146. Kluwer Academic Publishers, Dordrecht, Netherlands.
[44] R. J. Strasser and Govindjee (1992) On the O-J-I-P Fluorescence Transient
in Leaves and D1 Mutants of Chlamydomonas reinhardtii. Research in Photosynthesis.
(N. Murata ed.). II: 29-32. Kluwer Acadaemic Publishers, Dordrecht, Netherlands.
[45] M. Seibert, S. Toon, Govindjee, M. P. O'Neil and M. R. Wasielewski (1992)
Primary Charge Separation in Isolated Photosystem II Reaction Centers. Research
in Photosynthesis. (N. Murata ed.). II: 41-44. Kluwer Academic Publishers, Dordrecht,
Netherlands.
[46]Oscar J. deVos, van Rensen J.J.S. and Govindjee (1995) Photosystem II electron
flow requires bound bicarbonate. In: Photosynthesis: from Light to biosphere.
(Ed. P. Mathis), Kluwer Academic Publishers, The Netherlands.Volume I, pp. 567-570.
[47]Xiong J., Hutchison R., Sayre, R. and Govindjee (1995) Characterization
of a site-directed mutant (D1-arginine 269-glycine) of Chlamydomonas reinhardtii..
In: Photosynthesis: from Light to biosphere. (Ed. P. Mathis), Kluwer Academic
Publishers, The Netherlands.Volume I, pp. 575-578..
[48]Greenfield S.R., Wasielewski, M. Govindjee and Seibert M. (1995) Femtosecond
spectroscopy of PSII reaction centers: new results. In: Photosynthesis: from
Light to biosphere. (Ed. P. Mathis), Kluwer Academic Publishers, The Netherlands.Volume
I, pp. 663-666.
[49]Halls S., Downie S.R. and Govindjee (1995) Phylogenetic analysis of photosystems
I and II. In: Photosynthesis: from Light to biosphere. (Ed. P. Mathis), Kluwer
Academic Publishers, The Netherlands.Volume I, pp. 955-958.
[50]Gilmore A.M., Hazlett TL and Govindjee (1995) Xanthophyll cycle dependent
non-photochemical quenching of chlorophyll a fluorescence at low physiological
temperatures. In: Photosynthesis: from Light to biosphere. (Ed. P. Mathis),
Kluwer Academic Publishers, The Netherlands.Volume IV, pp. 825-828.
[51]A.D. Stirbet, Govindjee,. B.J. Strasser and R.J. Strasser (1995) Numerical
simulation of chlorophyll a fluorescence induction in plants. In: P. Mathis
(editor) Photosynthesis: from light to biosphere. Kluwer Academic Publishers,
The Netherlands. Volumre II, pp. 919-922.
[52] Ker?en M., Mulo P., Aro E.-M., Govindjee, and Tyystj?vi E (1998) Thermoluminescence
B and Q bands are at the same temperature in an autotrophic and a heterotrophic
D1 protein mutant of Synechocystis sp. PCC 6803. In: Photosynthesis:
Mechanisms and Effects. (Ed. G. Garab). Kluwer Academic Publishers, Dordrecht,
Netherlands. pp. 1145-1148.
[53] Xu C., Li R., Hou C., Yu X., Yu Y., Zeng X., Shen Y.,and Govindjee (1998)
On differences in accessibility and redox activity of D1-Y161 and D2-Y160 of
PSII as probed by halogenated acetates. In: Photosynthesis: Mechanisms and Effects.
(Ed. G. Garab). Kluwer Academic Publishers, Dordrecht, Netherlands. pp. 1181-1184.
[54] Jajoo A., Bharti S., and Govindjee (1998) Inorganic anions induce state
changes in spinach thylakoid membranes. In: Photosynthesis: Mechanisms and Effects.
(Ed. G. Garab). Kluwer Academic Publishers, Dordrecht, Netherlands. pp. 1227-1230.
[55] Govindjee, Srivastava A., and Strasser R.J.(1998) The "oxygen clock" in
greening pea leaves as probed by the period four oscillations in the fluorescence
intensity at 50 micro-seconds and 2 milli-seconds after pre-flashing during
the OJIP transient. In: Photosynthesis: Mechanisms and Effects. (Ed. G. Garab).
Kluwer Academic Publishers, Dordrecht, the Netherlands. pp. 1467-1450.
[56] Spilotro P.J., Patil S.C., and Govindjee (1998) Chlorophyll a
fluorescence measurements of an Arabidopsis mutant, altered in the gamma-subunit
of the ATP synthase, display changes in non-photochemical quenching. In: Photosynthesis:
Mechanisms and Effects. (Ed. G. Garab). Kluwer Academic Publishers, Dordrecht,
Netherlands. pp. 2253-2256.
[57] Gilmore A.M., Shinkarev V.P., Hazlett T.L., and Govindjee (1998) Quantitative
analysis of intrathylakoid pH and xanthophyll cycle effects on PSII fluorescence
lifetime distributions and intensity. In: Photosynthesis: Mechanisms and Effects.
(Ed. G. Garab). Kluwer Academic Publishers, Dordrecht, Netherlands. pp. 2297-2300.
[58] Papageorgiou G.C., Govindjee, Govindjee R., Mimuro M., Stamatakis K., Alygizaki-Zorba
A., and Murata N. (1998) Temperature and lipid unsaturation effects on plasma
and thylakoid membranes of Synechocystis sp PCC6803. In: Photosynthesis: Mechanisms
and Effects. (Ed. G. Garab), Kluwer Academic Publishers, Dordrecht, Netherlands.
pp. 2485-2488.
[59]Orr L. and Govindjee (1998) Photosynthesis and the World Wide Web.. In:
Photosynthesis: Mechanisms and Effects. (Ed. G. Garab). Kluwer Academic Publishers,
Dordrecht, Netherlands. pp. 4387-4400.
General Articles, Reviews, and Chapters in Books
*[1] Govindjee (1965) Modern Trends in Photobiology: Energy Conversion in Photosynthesis.
Science and Culture. 31: 468-476.
*[2] Govindjee and E. Rabinowitch (1965) The Photochemical Stage of Photosynthesis.
J.Sci. and Indus. Res. 24: 591-596.
*[3] Govindjee (1966) Photosynthesis. In: Catholic Encyclopedia for Home and
Schools. McGraw-Hill Publishers, NY. pp. 425-429.
*[4] Govindjee, G. Papageorgiou, and E. Rabinowitch (1967) Chlorophyll Fluorescence
and Photosynthesis. In: Fluorescence Theory, Instrumentation and Practice (ed.
G.G. Guilbault) Marcel Dekker Inc. NY. pp. 511-564.
*[5] Govindjee (1967) Transformation of Light Energy into Chemical Energy: Photochemical
Aspects of Photosynthesis. Crop Science. 7: 551-560.
*[6] Govindjee and G. Papageorgiou (1971) Chlorophyll Fluorescence; Fluorescence
Compounds, Plants. In: McGraw-Hill Encyclopedia of Science and Technology. McGraw-Hill
Book Co Inc, NY. pp 86-87; 382-386.
*[7] Govindjee (1971) Bacterial Photosynthesis; Photosynthesis. In: McGraw-Hill
Encyclopedia of Science and Technology. McGraw-Hill Book Co Inc, NY. pp. 62-66;
201-210.
*[8] Govindjee and G. Papageorgiou (1971) Chlorophyll Fluorescence and Photosynthesis:
Fluorescence Transients. In: Photophysiology (ed. A.C. Giese) Academic Press,
NY. 6: 1-46.
*[9] Govindjee and P. Mohanty (1971) Chlorophyll a Fluorescence
in the Study of Photosynthesis. In: Fluorescence News (eds. R.A. Passwater and
P. Welker) 6 (no. 2). Publ. by Biochemical Instrumentation Div. American Instrument
Co. Silver Spring, MD. pp. 1-4.
*[10] Govindjee and P.K. Mohanty (1972) Photochemical Aspects of Photosynthesis
in #051FB0 -Green Algae. In: Biology and Taxonony of #051FB0 -Green Algae (ed.
T. Desikachary) U. Madras, Madras, India. pp. 171-196. br>
*[11] Govindjee, G. Papageorgiou, and E. Rabinowitch (1973) Chlorophyll Fluorescence
and Photosynthesis(Revision of 1967 article). In: Practical Fluorescence Theory,
Methods, and Techniques (ed. G.G. Guilbault) Marcel Dekker Inc, NY. pp. 543-575.
*[12] D. VanderMeulen and Govindjee (1973) Is There a Role of Triplet State
of Chlorophyll in Photosynthesis? J. Sci. Indust. Res. 32: 62-69.
*[13] Govindjee and B.Z. Braun (Zilinskas) (1974) Light Absorption, Emission
and Photosynthesis. In: Algal Physiology and Biochemistry (ed. W.D.P. Stewart).
Blackwell Scientific Publication Ltd, Oxford. pp. 346-390.
*[14] Govindjee and R. Govindjee (1975) Introduction to Photosynthesis, In:
Bioenergetics of Photosynthesis, (ed. Govindjee) Academic Press, NY. pp. 1-50.
*[15] Govindjee (1977) chlorophyll a Fluorescence as a Probe for
Locating the Site of Bicarbonate Action in Photosystem II of Photosynthesis.
Acta Physica et Chemica Nova Series. 23: 49-60.
*[16] Govindjee and R. Govindjee (1977) Photosynthesis.(Revision of 1971 article.)
In: McGraw-Hill Encyclopedia of Science and Technology. 10. pp. 200-210.
[17] Govindjee and J. Warden (1977) Green Plant Photosynthesis: Upconversion
or not? J. Am. Chem. Soc. 99: 8088-8090.
*[18] Govindjee and R. Govindjee (1977) Light Energy Conversion by Photosynthesis.
J. Sci. Indust. Res. 36: 662-671.
*[19] Govindjee (1978) Pulsed Nuclear Magnetic Resonance and Thylakoid Membranes.
Nat. Acad. Sci. Lett. (India), 1: 3-6.
*[20] Govindjee and D. Wong (1978) Regulation of Excitation Energy Transfer
Among the Two Pigment Systems in Photosynthesis. In: Proc. of 3rd Internat.
Seminar on Excitation Energy Transfer in Condensed Matter (ed. J. Fiala) Charles
University, Prague, Czechoslovakia. pp. 19-28.
*[21] R. Khanna and Govindjee (1979) (Book Review) Photosynthesis, 2nd ed. by
D.O. Hall and K.K. Rao, Photochem. Photobiol. 29: 440-441.
*[22] Govindjee and P.A. Jursinic (1979) Photosynthesis and Fast Changes in
Light Emission by Green Plants. In: Photochem. Photobiol. Reviews, Vol. 4, (ed.
K.C. Smith) The Plenum Press, NY. pp. 125-205.
*[23] Govindjee and J. Barber (1980) Photosynthesis Session of the British Photobiology
Society Meeting. Photobiochem. Photobiophys. 1: 183-187.
*[24] Govindjee (1980) The Oxygen Evolving System of Photosynthesis. Plant Biochem.
J. Sicar Memorial Volume. 7-30.
*[25] W.F.J. Vermaas and Govindjee (1981) Unique Role(s) of Carbon Dioxide and
Bicarbonate in the Photosynthetic Electron Transport System. Proc. Indian Nat.
Sci. Acad. B47: 581-605.
*[26] W.F.J. Vermaas and Govindjee (1981) The Acceptor Side of Photosystem II
in Photosynthesis. Photochem. Photobiol. 34: 775-793.
*[27] Govindjee and J. Whitmarsh (1982) Chapter 1: Introduction to Photosynthesis.
In: Photosynthesis. I. Energy Conversion by Plants and Bacteria (ed. Govindjee),
Academic Press, NY. pp. 1-16.
*[28] W.F.J. Vermaas and Govindjee (1982) Chapter 16: Bicarbonate or CO2
as a Requirement for Efficient Electron Transport on the Acceptor Side of Photosystem
II. In: Photosynthesis II. Development, Carbon Metabolism, and Plant Productivity
(ed. Govindjee), Academic Press, NY. pp. 541-558.
*[29] Govindjee (1983) Bacterial Photosynthesis; Chlorophyll; Fluorescence compounds,
Plant(Revisions of earlier versions). In: McGraw Hill Encyclopedia of Science
and Technology, New York. pp. 71-75; 127-129; 510-514.
*[30] Govindjee (1984) Photosystem II: The Oxygen Evolving System of Photosynthesis.
In: C. Sybesma (ed.) Advances in Photosynthesis Research, Vol. 1, Martinus Nijhoff/Dr.
W. Junk Publishers, Den Haag. pp. 227-238.
*[31] Govindjee, T. Kambara, and W. Coleman (1985) The Electron Donor Side of
Photosystem II: The Oxygen Evolving Complex. Photochem. Photobiol. 42: 187-210.
*[32] G. Renger and Govindjee (1985) The Mechanism of Photosynthetic Water Oxidation.
Photosynth. Res. 6: 33-55.
[33] Govindjee (1986) Publications of Warren L. Butler on Photosynthesis. Photosynth.
Res. 10: 151-159.
*[34] D.R. Ort and Govindjee (1987) Introduction to Oxygenic Photosynthesis.
In: Photosynthesis, Vol. I. (translated into Russian by A.O. Ganago, E.V. Ganago,
and A.A. Melkosernova; Edited by by A.A. Krasnovsky and F.F. Litvin). Mir Publishers,
Moscow, USSR. pp. 8-89.
*[35] Govindjee, R. Govindjee and R. Shopes (1987) Photosynthesis: Plant Photosynthesis
and Bacterial Photosynthesis. McGraw Hill Encyclopedia of Science and Technology,
6th edition. 13: 430-444.
*[36] Govindjee and J.J. Eaton-Rye (1987) (Book Review) D.O. Hall and K.K. Rao:
Photosythesis (1987). Photosynthesis Research. 13: 95-98.
[37] Govindjee (1987) (editorial). Our editors. Photosynth. Res. 13: 275-284.
[38] Govindjee (1987) (editorial) Symbols, Système International (SI)
Units, Abbreviations, Conversion Factors and Special Instructions to be Used
in Photosynthesis Research. Photosynth. Res. 13: 191-199.
[39] Govindjee (1988) The Discovery of Chlorophyll-protein Complex by Emil L.
Smith during 1937-1941. Photosynth. Res. 16: 285-289.
*[40] Govindjee (1989) The Role of Chloride in Oxygen Evolution. In: Photosynthesis:
Molecular Biology and Bioenergetics (G.S. Singhal, J. Barber, R. Dilley, Govindjee,
R. Haselkorn and P. Mohanty, eds.) Narosa Publishers, New Delhi. pp. 147-162.
*[41] Govindjee (1989) My Association with Stacey French. In: (G.E. Briggs ed.)
Photosynthesis. Alan Liss Publishers, NY. pp. 1-3.
[42] Govindjee (1990) Photosystem II Heterogeneity: Electron Acceptor Side.
Photosynth. Res. 25: 151-160.
*[43] Govindjee (1991) A Unique Role of CO2 in Photosystem II. In:
Impact of Global Climatic Changes on Photosynthesis and Plant Productivity.
(Y. Abrol, P. N. Wattal, A. Gnanam, Govindjee, D. R. Ort and A. H. Teramura
eds.). Oxford/IBH Private Ltd, New Delhi. pp. 349-369.
*[44] Govindjee and W. Coleman (1993) Oxidation of Water to Molecular Oxygen.
In: Photosynthesis: Photoreactions to Productivity. (Y. Abrol, P. Mohanty and
Govindjee. eds.). Oxford/IBH Private Ltd. New Delhi. pp. 83-108.
*[45] Govindjee and J.J.S. Van Rensen (1993) Photosystem II Reaction Centers
and Bicarbonate. In: Photosynthetic Reaction Centers, Volume I. (J. Deisenhofer
and J. R. Norris. eds.). Academic Press, Orlando. pp. 357-389.
*[46] Govindjee (1993) Bicarbonate-reversible Inhibition of Plastoquinone Reductase
in Photosystem II. Zeitschr. für Naturforschg. 48c: 251-258.
[47] Govindjee and G. Renger (1993). In appreciation of Bessel Kok. Photosyn.
Res. 38: 211-213.
* [48] Whitmarsh, J. and Govindjee (1995) Photosynthesis. Encyclopedia for Applied
Physics. 13: 513-532. [*invited review]
*[49] Govindjee (1995) Sixty-three years since Kautsky: chlorophyll a fluorescence.
Australian Journal of Plant Physiology. 22 : 131-160.[* invited overview]
[50] Strasser, R.J. A. Srivastava and Govindjee (1995) Polyphasic chlorophyll
a fluorescence transient in plants and cyanobacteria. Photochem.
and Photobiol. 61: 32-42.
*[51] Vass, I. and Govindjee (1996) Thermoluminescence from the photosynthetic
apparatus. Photosynth. Res. 48: 117-126. [*invited minireview]
[52] Govindjee, R.S. Knox and J. Amesz (1996) Editorial [on "Photosynthetic
Unit: Antenna and Reaction Centers", a special issue of "Photosynthesis Research"
dedicated to William A. Arnold, Volume 48 (Numbers 1 and 2, May, 1996, : 1-319].Photosynth.
Res. 48: 1-2.
[53] Orr L. and Govindjee (1998) Photosynthesis and the World Wide Web.. In:
Photosynthesis: Mechanisms and Effects. (Ed. G. Garab). Kluwer Academic Publishers,
Dordrecht, Netherlands. pp. 4387-4400.
*[54] Van Rensen, J.J.S. Xu,C. and Govindjee (1999) Role of bicarbonate in the
photosystem II, the water-plastoquinone oxido-reductase of plant photosynthesis.
Physiologia Plantarum. 105: 585-592.
[55] Govindjee (1999) On the requirement of minimum number of four versus eight
quanta of light for the evolution of one molecule of oxygen in photosynthesis:
A historical note. Photosynth. Res. 59: 249-254.
*[56] Whitmarsh, J. and Govindjee (1999) The Photosynthetic Process. In: Concepts
in Photobiology: Photosynthesis and Photomorphogenesis. Edited by G.S. Singhal,
G. Renger, K-D. Irrgang, S. Sopory and Govindjee. Narosa Publishers/Kluwer Academic
Publishers. pp 11-51.
*[57] Gilmore, A. and Govindjee (1999) How higher plants respond to excess light:
Energy dissipation in Photosystem II. In: Concepts in Photobiology: Photosynthesis
and Photomorphogenesis. Edited by G.S. Singhal, G. Renger, K-D. Irrgang, Govindjee
and S. Sopory. Narosa Publishers/Kluwer Academic Publishers. pp. 513-548
*[58] Govindjee (1999) Carotenoids in photosynthesis: An historical perspective.
In: The Photochemistry of Carotenoids: Applications in Biology. Edited by H.A.
Frank, A.J. Young, G. Britton and R.J. Cogdell. Kluwer Academic Publishers,
Dordrecht, Netherlands. In Press.
*[59] Govindjee (1999) Milestones in Photosynthesis Research. In: Probing Photosynthesis.
Edited by M.Younis, U.Pathre and P.Mohanty. Taylor & Francis, UK, In Press.
*[60] Govindjee, Blankenship, R.E. and Shopes, R. (2007) Bacterial photosynthesis. The Encyclopedia of Science and Technology, 10th Edition, Volume 13, pp. 481-486. McGraw Hill Publishers, New York.
*[61] Berkowitz, G.A., Portis, A.R. Jr. and Govindjee (2007) Carbon dioxide fixation. The Encyclopedia of Science and Technology, 10th Edition, Volume 13, pp. 475-481. McGraw Hill Publishers, New York.
*[62] Blankenship, R.E. and Govindjee (2007) Photosynthesis. The Encyclopedia of Science and Technology, 10th Edition, Volume 13, pp. 468-475. McGraw Hill Publishers, New York.
*[63] Govindjee, Porra, R.J. and Papageorgiou, G.C. (2007) Chlorophyll. The Encyclopedia of Science and Technology, 10th Edition, Volume 4, pp. 113-116. McGraw Hill Publishers, New York.
*[64] Björn L.O. and Govindjee (2007) ,The evolution of photosynthesis
and its environmental impact. In: L.O. Bjorn (ed.) Photobiology: The Science
of Light and Life. pp 243-274, Springer, New York.
*[65] Govindjee (2008) Teaching Photosynthesis: Some Thoughts. In: Allen JF,
Gantt E, Golbeck JH and Osmond B (ed) Photosynthesis. Energy from the Sun, pp
1619--1624. Springer, Dordrecht.
*[66] Laisk A, Nedbal L and Govindjee (Eds.) (2009) Photosynthesis in silico: Understanding Complexity from Molecules to Ecosystem. Springer, Dordrecht, ISBN 978-1-4020-9236-7 (Hard Copy); ISBN 978-1-4020-9237-4.
*[67] Govindjee, Kern JF, Messinger J, and Whitmarsh J (2010) Photosystem II. (February 2010) Photosystem II. In: Encyclopedia of Life Sciences (ELS). John Wiley & Sons, Ltd: Chichester. DOI: 10.1002/9780470015902.a0000669.pub2.
*[68] Pareek A, Sopory SK, Bohnert HJ and Govindjee (Eds.) (2009) Abiotic Stress Adaptation in Plants: Physiological, Molecular and Genomic Foundation, Springer, Dordrecht, XLI, 526 p. 25 illus. in color., Hardcover: ISBN: 978-90-481-3111-2.
*[69] Clegg R M, Sener M and Govindjee (2010) From Förster Resonance
Energy Transfer (FRET) to Coherent Resonance Energy Transfer (CRET) and Back
--A wheen o' mickles mak's a muckle. SPIE (Society for Promotion of Instrumentation
and Engineering) Proceedings (Invited Paper) "in Optical Biopsy VII, edited
by Robert R. Alfano, Proceedings of SPIE, Vol. 7561 (SPIE, Bellingham, WA, 2010),
paper number: 7561-12; article CID number: 75610C, 21 pages.