Rosemarie Knaust scite author profile

The biochemistry and circadian regulation of luminescence in two Pyrocystis species, P. lunula Hulburt and P. noctiluca Murray et Haeckel, were compared with a wellstudied species, Gonyaulax polyedra Stein. All exhibit circadian rhythms and all have similar luciferins and luciferases. However, the Pyrocystis species lack a second protein involved in the reaction in Gonyaulax, the luciferin (substrate) binding protein, which sequesters the luciferin at the cytoplasmic pH and releases it upon acidification, thus controlling the characteristic flashing, which is similar in the three species. More striking is the difference in the circadian regulation of luminescence, which in Gonyaulax involves the daily synthesis and destruction of the two proteins, along with the luminous organelles (scintillons) from which light is emitted, and which are present in all species. In the Pyrocystis species, the amount of luciferase is the same in extracts made during the day and night phases; its circadian regulation in vivo may be attributed to a change in its localization from day to night phase.

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Colony filtration blot: a new screening method for soluble protein expression in Escherichia coli

Cornvik

Dahlroth

Magnusdottir

et al. 2005

Nat Methods

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The implementation of efficient technologies for the production of recombinant mammalian proteins remains an outstanding challenge in many structural and functional genomics programs. We have developed a new method for rapid identification of soluble protein expression in E. coli, based on a separation of soluble protein from inclusion bodies by a filtration step at the colony level. The colony filtration (CoFi) blot is very well suited to screen libraries, and in the present work we used it to screen a deletion mutagenesis library.

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Screening for Soluble Expression of Recombinant Proteins in a 96-Well Format

Knaust

Nordlund

2001

Analytical Biochemistry

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Phototransformation of monovinyl and divinyl protochlorophyllide by NADPH:Protochlorophyllide oxidoreductase of barley expressed in Escherichia coli

Knaust

Seyfried

Schmidt

et al. 1993

Journal of Photochemistry and Photobiology B: Biology

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DETECTION OF CHLOROPHYLL C¹ AND MAGNESIUM‐2,4‐DIVINYLPHEOPORPHYRIN A₅ MONOMETHYLESTER IN CRYPTOPHYTES¹

Schimek

Stadnichuk

Knaust

et al. 1994

Journal of Phycology

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Three different chlorophyll (chl) c‐type pigments were isolated from two cryptophyte species by silica thin‐layer chromatography or polyethylene high‐performance liquid chromatography. Chroomonas sp. Hansgirg contained chl c1 and magnesium‐2,4‐divinylpheoporphyrin a, mono‐methylester; chl c2 and magnesium‐2,4‐divinylpheoporphyrin a5 monomethylester were found in Cryptomonas maculata (syn. Rhodomonas maculata Butcher). These identifications were based on spectral characteristics and on comparison with reference pigments isolated from the synurophycean Synura petersenii Korshikov and the prasinophyte Mantoniella squamata Manton & Park. Neither of the cryptophyte species contained chl c1 and chl c2. The significance of chl c1 as a major pigment and the occurrence of magnesium‐2,4‐divinylpheoporphyrin a5 monomethylester in cryptophytes are discussed.

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