Preparation and Properties of Monomolecular Films of Chlorophyll <i>a</i> and Pheophytin <i>a</i>

Bellamy, W. D.; Gaines, George L.; Tweet, A. G.

doi:10.1063/1.1734057

Cited by 105 publications

(25 citation statements)

References 25 publications

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“…1. The surface pressure-area characteristics of ChI-a monolayer were in good agreement with the values by Bellamy, Gaines and Tweet [3] within experimental error. Chl-a and PC monolayers, under the present conditions, reached a collapsing point at 22.0 mN m-1 and 43.0 mN m-1, respectively.…”

Section: Resultssupporting

confidence: 87%

Preparation of multilayers containing chlorophylla and/or phosphatidylcholine and chemical stability of chlorophylla molecules in the multilayers

Iriyama

1980

J. Membrain Biol.

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Summary. The Langmuir-Blodgett films consisting of mixed monolayers containing chlorophyll a (Cht-a) and/or phosphatidylcholine with various molar ratios could be well prepared on glass plates previously covered with three monolayers of cadmium eicosanate. Thin-layer and high-performance liquid chromatographic examinations revealed that the photostability of Chl-a molecules in various media is in the following order: the mixed mono-or multilayers > pure Chl-a mono-or multilayers >> organic solvents.It has generally been recognized that photosynthesis is carried out in the chloroplast where chlorophyll (Chl) molecules and all other photosynthetic materials are incorporated into highly organized lamellar structures. The concept of Chl aggregate with the layered structure has induced numerous studies on the Langmuir-Blodgett films of Chl as a biomimetic membrane system [11]. The aggregation of Chl molecules in vitro should be quite different from that of Chl molecules in vivo. Nevertheless, a detailed knowledge of the two-dimensionaUy packed aggregate forms in vitro would be neccessary to gain insight into the stability of Chl molecules and also to elucidate the relationship between the state and role of Chl in photosynthesis.The present series of work [1,2,7,8] was designated to investigate the properties of Chl in closely packed layers (Langmuir-Blodgett films). Recently, we have re-examined and have established methods for the preparation of chlorophyll a (Chl-a) monolayers [7] and multilayers [8] and have also developed a method for the preparation of phosphatidylcholine (PC) multilayers [5]. In this article, the chemical stability of Chl in multilayers as well as the method for the preparation of the mixed multilayers consisting of Chl-a and PC monolayers will be reported. Materials and MethodsAll the experiments were performed at 20_+ 2 ~ in total darkness or under dim green light unless otherwise stated.Chl-a was carefully prepared from fresh spinach leaves according to the method of Iriyama, Shiraki and Yoshiura [91 or from Porphyra yezoensis according to the method of Iriyama [6]. The molar extinction coefficients of Comar and Zscheile [4] were used in the determination of the concentrations of Chl-a. The purity and chemical stability of Chl-a were examined by thin-layer chromatography [16] and by high-performance Iiquid chromatography [10, 19]. Thin-layer and high-performance liquid chromatographic analyses revealed that Chl-a preparations used did not contain any teal yellow pigments, chlorophyll b or degradation products of Chl. Absorption spectra of the Chl-a preparations dissolved in diethyl ether did not show any significant differences in comparison with the literature [18] within experimental error; the ratio of absorbance of the Soret peak at 427.0 (+_1.0)nm to the red peak at 660 (_+0.5)nm was 1.30 (+0.01). The purity of Chl-a preparations was 99.0 100% on dry wt basis. Pheophytin a (Pheoa), and chlorophyll a' (Chl-a') used in thin-layer chromatographic analysis as standard materials were prepared...

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Section: Resultssupporting

confidence: 87%

Preparation of multilayers containing chlorophylla and/or phosphatidylcholine and chemical stability of chlorophylla molecules in the multilayers

Iriyama

1980

J. Membrain Biol.

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“…Both Soret and Q y bands in the spectrum of the chlorins on the gold plate were red-shifted relative to those of 1 in acetone. Such red-shifts in visible absorption spectra were reported in the cases of porphyrins [16,18] and Chls [4,6,34] on solid substrates. Small red-shift (<10 nm) of absorption bands on a substrate indicates that strong excitonic interaction would not exist among chlorin rings, because J-type self-aggregation of Chl molecules exhibited a large red-shift of both Soret and Q y bands [11,12,[24][25][26]28,29].…”

Section: Visible Absorption and Fluorescence Emission Spectrasupporting

confidence: 58%

Facile synthesis of chlorophyll analog possessing a disulfide bond and formation of self-assembled monolayer on gold surface

Saga

Tamiaki

2004

Journal of Photochemistry and Photobiology B: Biology

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“…From force-area measurements, Bellamy, Gaines and Tweet (1963) conclude that the porphyrin plane of chlorophyll a in the monolayer is tilted. Summarizing the results of previous studies and their own findings, they propose that the chlorophyll molecule is anchored to the water phase by its oxygen-containing groups and that both the porphyrin ring and the phytol chain are directed upward from the water.…”

Section: Discussionmentioning

confidence: 96%

Orientation of the porphyrin ring in artificial chlorophyll membranes

1972

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A sensitive photometric method is described by which the dichroism of lipid bilayer membranes in aqueous phase can be measured. The method is applied to black films with incorporated chlorophylla andb. With chlorophylla a relatively large dichroism is found in the Soret band and a much weaker dichroism in the red band. From the experimental data, the angles β B and β R between the "blue" and "red" transition moments and the membrane can be obtained. β B and β R are then used to calculate the angle γ of the porphyrin ring with respect to the membrane surface. For chlorophylla and three different lipids, values of γ between 44 and 49° are found.

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Preparation and Properties of Monomolecular Films of Chlorophyll a and Pheophytin a

Cited by 105 publications

References 25 publications

Preparation of multilayers containing chlorophylla and/or phosphatidylcholine and chemical stability of chlorophylla molecules in the multilayers

Preparation of multilayers containing chlorophylla and/or phosphatidylcholine and chemical stability of chlorophylla molecules in the multilayers

Facile synthesis of chlorophyll analog possessing a disulfide bond and formation of self-assembled monolayer on gold surface

Orientation of the porphyrin ring in artificial chlorophyll membranes

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