Copper enzymes in isolated chloroplasts. polyphenoloxidase in beta vulgaris
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Evidence that a copper enzyme, polyphenoloxidase (otherwise known as tyrosinase or catecholase), is localized in the chloroplasts of spinach beet (chard), Beta vu?garis is presented.Abstract:
The chloroplast, as the seat of chlorophyll pigments in plants, occupies a unique position in the economy of the green cell. In recent years there has been a renewed interest in the reactions and properties of chloroplasts as a result of the work of Hill (11, 12) and Hill and Scarisbrick (13, 14) who demonstrated that the reaction characteristic of photosynthesis in green plants, the evolution of oxygen, occurs in appreciable quantities in isolated chloroplasts under the influence of light and in the presence of suitable oxidants (2, 7, 8, 26). In the course of an investigation of oxygen evolution by isolated chloroplasts it was deemed important to explore their enzymatic composition. Of special interest were considered enzymes capable of participating in oxidation-reduction reactions, and more particularly, those localized principally, if not entirely, in the chloroplasts. This paper presents evidence that a copper enzyme, polyphenoloxidase (otherwise known as tyrosinase or catecholase), is localized in the chloroplasts of spinach beet (chard), Beta vu?garis.read more
Citations
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Partial Resolution of the Enzymes Catalyzing Photophosphorylation: II. THE INHIBITION AND STIMULATION OF PHOTOPHOSPHORYLATION BY N,N'-DICYCLOHEXYLCARBODIIMIDE
Richard E. McCarty,Efraim Racker +1 more
TL;DR: Dicyclohexylcarbodiimide inhibited the pH decay, indicating that its stimulation of the light-induced pH rise might be due to an inhibition of the breakdown of a high energy intermediate in chloroplasts.
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Sites of function of manganese within photosystem II. Roles in O2 evolution and system II.
George M. Cheniae,I. F. Martin +1 more
TL;DR: In this article, the effect of subnormal Mn content upon the chloroplasts capacity to evolve O2 and to photooxidize electron donors other than water via Photosystem II was studied.
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Oxidation-reduction potentials and stoichiometry of electron transfer in ferredoxins.
K. Tagawa,Daniel I. Arnon +1 more
TL;DR: The results are consistent with the view that, despite their diverse origin and function and their chemical differences, plant and bacterial ferredoxins have similar characteristics as electron carriers.
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Turnover of thylakoid photosystem II proteins during photoinhibition of Chlamydomonas reinhardtii.
TL;DR: It is proposed that the light-dependent turnover of the D1 protein is a protective mechanism against photoinhibition as far as the removal and replacement of D1 is compatible with the photoinactivation incurred by photosystem II.
References
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Absorption of light by chlorophyll solutions
TL;DR: This paper deals with the estimation of chlorophyll in plant extracts by application of absorption coefficients of the isolated solid chlorophylla components, and the question of artifacts is automatically clarified.
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Microelements in culture-solution experiments with higher plants
TL;DR: This paper is a report on the observed responses from a group of elements not generally credited with a function in plant nutrition, which suggested that these and other elements, if present in minute quantity, may favorably influence the growth of plants.
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Cytochrome and Respiratory Enzymes
TL;DR: The results of this study will enable to determine the nature of the relationship between the oxidising enzymes and the intracellular haematin compounds, and this will help to elucidate at least one portion of the complicated respiratory mechanism, of the cell.
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Oxygen Evolved by Isolated Chloroplasts
TL;DR: The hæmoglobin method, originally used by Hoppe-Seyler to demonstrate oxygen from green plants, has been applied to study the oxygen evolution of isolated chloroplasts exposed to light.
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Oxygen Produced by Isolated Chloroplasts
TL;DR: Inman (1935) brought further evidence as to the enzymic nature of the process, and showed also that fresh green extracts of many phanerogams will evolve oxygen in light, using the bacterial mathod.