Donald S. Berns scite author profile

Allophycocyanin, which is normally isolated as a trimer (alpha 3 beta 3), has now been successfully dissociated into a monomer (alpha beta) with strikingly different spectroscopic properties. In particular, upon dissociation the characteristic 650-nm absorption and 661-nm fluorescence emission bands of the trimer are completely lost and its fluorescence polarization properties are sharply altered. The spectroscopic characteristics of allophycocyanin monomers are much closer to those of C-phycocyanin than to trimeric allophycocyanin. A model for trimeric allophyocyanin is presented in which the appearance of the 650-nm absorption band is induced by a particular kind of chromophore-chromophore interaction. Similar results are found for both allophycocyanin II and III.

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Characterization of cryptomonad phycoerythrin and phycocyanin

MacColl

Berns

Gibbons

1976

Archives of Biochemistry and Biophysics

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ULTRASTRUCTURE OF THE THERMOPHILIC BLUE‐GREEN ALGA, SYNECHOCOCCUS LIVIDUS COPELAND¹

Edwards

Berns

Ghiorse

et al. 1968

Journal of Phycology

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The ultrastructure of Synechococcus lividus Copeland, a thermophilic blue-green alga, was studied in thin sections. The cell envelope reveals striking similarities with that of some gram-negative bacteria. In contrast to bacteria and to many other species of blue-green algae, ribosomes are predominantly found in the central nuclear region and appear to be associated with the DNA fibrils. Thylakoids (photo-synthetic lamellae) are arranged as concentric shells, around the nuclear equivalent, lying nearly parallel to one another and to the plasma membrane. Both plasma and thylakoidal membranes, as described by other authors for different Cyanophyceae, are of the unit membrane dimension and morphology. Various types of intracellular inclusions are found: (1) Lipid inclusions, located in the cytoplasm are similar to the osmiophilic globules of higher plant chloroplasts. (2) Polyphosphate inclusions (or volutin) resembling those of other species are generally found at the cell poles but within the nuclear region. (3) Polyhedral inclusions also located in the nuclear region are clearly recognized to be different from the polyphosphate bodies, but their function remains unknown.

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Donald S. Berns

Protein-Protein Interaction. The Phycocyanin System^*

Phycocyanin in physical chemical studies

Chromophore interactions in allophycocyanin

Characterization of cryptomonad phycoerythrin and phycocyanin

ULTRASTRUCTURE OF THE THERMOPHILIC BLUE‐GREEN ALGA, SYNECHOCOCCUS LIVIDUS COPELAND¹

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Donald S. Berns

Protein-Protein Interaction. The Phycocyanin System*

Phycocyanin in physical chemical studies

Chromophore interactions in allophycocyanin

Characterization of cryptomonad phycoerythrin and phycocyanin

ULTRASTRUCTURE OF THE THERMOPHILIC BLUE‐GREEN ALGA, SYNECHOCOCCUS LIVIDUS COPELAND1

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Product

Resources

About

Protein-Protein Interaction. The Phycocyanin System^*

ULTRASTRUCTURE OF THE THERMOPHILIC BLUE‐GREEN ALGA, SYNECHOCOCCUS LIVIDUS COPELAND¹