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The role of trace metals in photosynthetic electron transport in O2-evolving organisms (1999)

Raven, John A. ; Evans, Michael C. W. ; Korb, Rebecca E.

Springer

Photosynthesis research 60 (1999), S. 111-150

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ISSN: 1573-5079

Keywords: calcium ; copper ; iron ; manganese ; oxygen evolution ; phylogeny ; zinc

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract Iron is the quantitatively most important trace metal involved in thylakoid reactions of all oxygenic organisms since linear (= non-cyclic) electron flow from H2O to NADP+ involves PS II (2–3 Fe), cytochrome b6-f (5 Fe), PS I (12 Fe), and ferredoxin (2 Fe); (replaceable by metal-free flavodoxin in certain cyanobacteria and algae under iron deficiency). Cytochrome c6 (1 Fe) is the only redox catalyst linking the cytochrome b6-f complex to PS I in most algae; in many cyanobacteria and Chlorophyta cytochrome c6 and the copper-containing plastocyanin are alternatives, with the availability of iron and copper regulating their relative expression, while higher plants only have plastocyanin. Iron, copper and zinc occur in enzymes that remove active oxygen species and that are in part bound to the thylakoid membrane. These enzymes are ascorbate peroxidase (Fe) and iron-(cyanobacteria, and most al gae) and copper-zinc- (some algae; higher plants) superoxide dismutase. Iron-containing NAD(P)H-PQ oxidoreductase in thylakoids of cyanobacteria and many eukaryotes may be involved in cyclic electron transport around PS I and in chlororespiration. Manganese is second to iron in its quantitative role in the thylakoids, with four Mn (and 1 Ca) per PS II involved in O2 evolution. The roles of the transition metals in redox catalysts can in broad terms be related to their redox chemistry and to their availability to organisms at the time when the pathways evolved. The quantitative roles of these trace metals varies genotypically (e.g. the greater need for iron in thylakoid reactions of cyanobacteria and rhodophytes than in other O2-evolvers as a result of their lower PS II:PS I ratio) and phenotypically (e.g. as a result of variations in PS II:PS I ratio with the spectral quality of incident radiation).

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1023/A:1006282714942

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Role of calcium in the release of EC 3.4.24.15 and EC 3.4.24.16 from endothelial cells (1999)

Norman, M. Ursula ; Smith, A. Ian ; Lew, Rebecca A.

Springer

International journal of peptide research and therapeutics 6 (1999), S. 349-352

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ISSN: 1573-3904

Keywords: calcium ; endothelial cells ; metalloendopeptidase EC 3.4.24.16 ; secretion

Source: Springer Online Journal Archives 1860-2000

Topics: Chemistry and Pharmacology

Notes: Summary The two closely related soluble zinc metalloendopeptidases EC 3.4.24.15 (EP24.15) and EC 3.4.24.16 (EP24.16) readily hydrolyze the vasocative peptide bradykinin in vitro, and therefore may play a role in cardiovascular regulation. Although primarily soluble cytosolic enzymes, both secreted and membrane-associated forms of both peptidases have been reported. However, these enzymes have neither a transmembrane domain nor a signal sequence; thus, the mechanisms of membrane anchoring and secretion are unknown. In the present study, secreted/released EP24.15 and EP24.16 activity from aortic endothelial cells in culture was assessed by the cleavage of a specific quenched fluorescent substrate. An increase in enzyme activity released from endothelial cells, which express both peptidases, was seen following incubation with calcium-free media. In the AtT-20 endocrine cell (mouse pituitary corticotrope), which predominantly expresses EP24.15, the release of activity into media was unaffected by calcium removal. The release of enzyme activity from endothelial cells was inversely proportional to calcium concentrations ranging between 0.01 mM (activity equivalent to calcium-free media) and 0.5 mM (activity equivalent to normal media). Cleavage of the EP24.16-specific substrate AcNT8–13 indicated that the increase in enzyme activity released upon incubation with calcium-free medium was due at least in part to the release of EP24.16. These results suggest that EP24.15 and EP24.16 are secreted from endothelial cells, and that removal of calcium selectively enhances the release of EP24.16 by an as yet unknown mechanism.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF02443431

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Role of calcium in the release of EC 3.4.24.15 and EC 3.4.24.16 from endothelial cells (1999)

Norman, M. Ursula ; Smith, A. Ian ; Lew, Rebecca A.

Springer

International journal of peptide research and therapeutics 6 (1999), S. 349-352

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ISSN: 1573-3904

Keywords: calcium ; endothelial cells ; metalloendopeptidase EC 3.4.24.16 ; secretion

Source: Springer Online Journal Archives 1860-2000

Topics: Chemistry and Pharmacology

Notes: Abstract The two closely related soluble zinc metalloendopeptidases EC 3.4.24.15 (EP24.15) and EC 3.4.24.16 (EP24.16) readily hydrolyze the vasoactive peptide bradykinin in vitro, and therefore may play a role in cardiovascular regulation. Although primarily soluble cytosolic enzymes, both secreted and membrane-associated forms of both peptidases have been reported. However, these enzymes have neither a transmembrane domain nor a signal sequence; thus, the mechanisms of membrane anchoring and secretion are unknown. In the present study, secreted/released EP24.15 and EP24.16 activity from aortic endothelial cells in culture was assessed by the cleavage of a specific quenched fluorescent substrate. An increase in enzyme activity released from endothelial cells, which express both peptidases, was seen following incubation with calcium-free media. In the AtT-20 endocrine cell (mouse pituitary corticotrope), which predominantly expresses EP24.15, the release of activity into media was unaffected by calcium removal. The release of enzyme activity from endothelial cells was inversely proportional to calcium concentrations ranging between 0.01 mM (activity equivalent to calcium-free media) and 0.5 mM (activity equivalent to normal media). Cleavage of the EP24.16-specific substrate AcNT8-13 indicated that the increase in enzyme activity released upon incubation with calcium-free medium was due at least in part to the release of EP24.16. These results suggest that EP24.15 and EP24.16 are secreted from endothelial cells, and that removal of calcium selectively enhances the release of EP24.16 by an as yet unknown mechanism.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1023/A:1008996007306

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