(1) Willstater, Stoll. (1928) Investigations on Chlorophyll. Science Press.

(2) Chemical of the week: Chlorophyll

(3) Haworth P., Watson J.L., Arntzen C.J. (1983) The detection, isolation and characterisation of a light-harvesting complex which is specifically associated with photosystem I. Biochimica et Biophysica Acta 724: 151-158.

(4) Ogawa T., Obata F., Shibata K. (1966) The pigment-proteins in spinach chloroplasts. Biochimica et Biophysica Acta 112: 223-234.

(5) Thornber J.P. (1975) Chlorophyll proteins: Light-harvesting and reaction centre components of plants. Annual Review of Plant Physiology 26: 127-158.

(6) Wessels J.S.C., Borchert M.T. (1978) Polypeptide profiles of chlorophyll-protein complexes and thylakoid membranes of spinach chloroplasts. Biochimica et Biophysica Acta 503: 78-93.

(7) Mullet J.E., Burke J.J., Arntzen C.J. (1980) Chlorophyll proteins of photosystem I. Plant Physiology 65: 814-822.

(8) Setif P., Acekr S., Langoutte B., Duranton J. (1980) Contribution to the structural characterisation of eucaryotic PS I reaction centre - II. Characterisation of a highly purified photoactive SDS-SP1 complex. Photosynthesis Research 1: 17-27.

(9) Vierling E., Alberte R.S. (1983) Regulation of synthesis of the photosystem I reaction centre. Plant Physiology 72: 625-633.

(10) Nechushtai R., Muster P., Binder A., Liveanu V., Nelson N. (1983) Photosystem I reaction centre from the thermophilic cyanobacterium Mastigocladus laminosus Proc Nat Arad Sci US 80: 1179-1183.

(11) Setif P., Mathis P. (1986) Photosystem I reaction centre and its primary electron transfer systems. In Staehelin L.A. and Arntzen C.J. (eds) Encylopaedia of Plant Physiology 19 (New Series), 476-486. Berlin: Springer-Verlag.

(12) Kuang T.Y., Argyroudi-Akoyunoglou J.H., Nakatani H.Y., Watson J. Arntzen C.J. (1984) The origin of long-wavelength fluoresence emission band (77K) from photosystem I Arch Biochem Biophys 235: 618-627.

(13) Nechushtai R., Nourizadeh S.D., Thornber J.P. (1986) A re-evaluation of the fluorescence of the core chlorophylls of Photosystem I. Biochimica et Biophysica Acta 848: 193-200.

(14) Gounaris K., Whitford D., Barber J. (1983) The effect of thylakoid lipids on an oxygen-evolving photosystem II preparation. FEBS Letters 163: 230-234.

(15) Moller B.L., Hoj P.B., Henry L.E.A. (1983) Electron microscopic characteristics of photosystem II preparations and their inactivation and reactivation with respect to oxygen evolution. Advanced Photosynthesis Research 3: 219-222.

(16) Goodman-Dunahay T.G., Staehelin L.A., Seibert M., Ogilvie P.D., Berg S.P. (1984) Structual, biochemical and biophysical characterisation of four oxygen-evolving photosystem II preparations from spinach. Biochimica et Biophysica Acta 764: 179-193.

(17) Murata N., Miyao M., Omata T., Kuwabara T. (1984) The oxygen evolution system of photosystem II particles from spinach chloroplasts. Advanced Photosynthesis Research 1: 329-332.

(18) Camm E.L., Green B.R. (1980) Fractionation of thylakoid membranes with the nonionic detergent octyl-D-glucopyranoside. Plant Physiology 66: 428-432.

(19) Camm E.L., Green B.R. (1981) Widespread distribution of some minor chlorophyll-protein complexes in some green plants and algae. Plant Physiology 67: 1061-1063.

(20) Koifman, Berezin. (1970) Journal of General Chemistry USSR (English translation) 40: 2693.

(21) Sams, Tsin. (1974) Chemistry Physical Letters 25: 599.

These references were found using the Bath Information Delivery Service (BIDS) and Beilstein.

Searches in BIDS were carried out for chlorophyll and chlorophyll with photosynthesis. Beilstein Crossfire was used to search for chlorophyll and porphyrin derivatives.