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1

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Membrane-Bound NAD(P)H Dehydrogenases in Higher Plant Cells (1986)

Moller, I M ; Lin, W

Palo Alto, Calif. : Annual Reviews

Annual Review of Plant Physiology 37 (1986), S. 309-334

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ISSN: 0066-4294

Source: Annual Reviews Electronic Back Volume Collection 1932-2001ff

Topics: Biology

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1146/annurev.pp.37.060186.001521

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2

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PLASMALEMMA REDOX FUNCTIONS IN PLANTS (1988)

Crane, F. L. ; Møller, I. M.

Oxford, UK : Blackwell Publishing Ltd

Physiologia plantarum 73 (1988), S. 0

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ISSN: 1399-3054

Source: Blackwell Publishing Journal Backfiles 1879-2005

Topics: Biology

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1111/j.1399-3054.1988.tb09209.x

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3

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Redox enzymes in the plant plasma membrane and their possible roles (2000)

Bérczi, A. ; Møller, I. M.

Oxford, UK : Blackwell Science Ltd

Plant, cell & environment 23 (2000), S. 0

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ISSN: 1365-3040

Source: Blackwell Publishing Journal Backfiles 1879-2005

Topics: Biology

Notes: Purified plasma membrane (PM) vesicles from higher plants contain redox proteins with low-molecular-mass prosthetic groups such as flavins (both FMN and FAD), hemes, metals (Cu, Fe and Mn), thiol groups and possibly naphthoquinone (vitamin K1), all of which are likely to participate in redox processes. A few enzymes have already been identified: Monodehydroascorbate reductase (EC 1.6.5.4) is firmly bound to the cytosolic surface of the PM where it might be involved in keeping both cytosolic and, together with a b-type cytochrome, apoplastic ascorbate reduced. A malate dehydrogenase (EC 1.1.1.37) is localized on the inner side of the PM. Several NAD(P)H-quinone oxidoreductases have been purified from the cytocolic surface of the PM, but their function is still unknown. Different forms of nitrate reductase (EC 1.6.6.1–3) are found attached to, as well as anchored in, the PM where they may act as a nitrate sensor and/or contribute to blue-light perception, although both functions are speculative. Ferric-chelate-reducing enzymes (EC 1.6.99.13) are localized and partially characterized on the inner surface of the PM but they may participate only in the reduction of ferric-chelates in the cytosol. Very recently a ferric-chelate-reducing enzyme containing binding sites for FAD, NADPH and hemes has been identified and suggested to be a trans-PM protein. This enzyme is involved in the reduction of apoplastic iron prior to uptake of Fe2+ and is induced by iron deficiency. The presence of an NADPH oxidase, similar to the so-called respiratory burst oxidase in mammals, is still an open question. An auxin-stimulated and cyanide-insensitive NADH oxidase (possibly a protein disulphide reductase) has been characterized but its identity is still awaiting independent confirmation. Finally, the only trans-PM redox protein which has been partially purified from plant PM so far is a high-potential and ascorbate-reducible b-type cytochrome. In co-operation with vitamin K1 and an NAD(P)H-quinone oxidoreductase, it may participate in trans-PM electron transport.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1046/j.1365-3040.2000.00644.x

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4

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Electrostatic surface properties of plasmalemma vesicles from oat and wheat roots. Ion binding and screening investigated by 9-aminoacridine fluorescence (1985)

Møller, I. M. ; Lundborg, T.

Springer

Planta 164 (1985), S. 354-361

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ISSN: 1432-2048

Keywords: 9-Aminoacridine ; Avena (plasmalemma) ; Bound divalent cations ; Plasmalemma (electrostatic surface properties) ; Triticum (plasmalemma)

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract Right-side-out and sealed plasmalemma vesicles were isolated from roots of spring wheat (Triticum aestivum L. cv. Drabant) and oat (Avena sativa L. cv. Brighton) by two-phase partition in a medium containing sucrose (0.25 mol l-1). Oat root plasmalemma vesicles were discovered to contain a strongly fluorescent compound with an emission maximum at 418 nm. The surface potential of the membranes was monitored by 9-aminoacridine fluorescence and the effect of protein concentration, mannitol versus sucrose, absence of osmoticum, concentrations of salt, and titrations with chelators investigated. It is concluded that i) protein concentrations of less than 50 μg ml-1 for oat and 100 μg ml-1 for wheat plasmalemma vesicles should be used to avoid serious problems with non-linearity of response of 9-aminoacridine fluorescence, ii) mannitol can be used instead of sucrose as the osmoticum, iii) the vesicles were ruptured in the absence of osmoticum allowing us to monitor both sides of the membranes, iv) plasmalemma vesicles from oat roots are more negative than vesicles from wheat roots, and v) oat and wheat root plasmalemma vesicles are isolated with about the same amounts of bound Ca2+ and Mg2+. These bound divalent cations may not, however, reflect the in-vivo conditions since the tissues were homogenised in the presence of ethylenediaminetetraacetic acid.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00402946

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5

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Microsporogenesis and tapetal development in fertile and cytoplasmic male-sterile sugar beet (Beta vulgaris L.) (1991)

Halldén, C. ; Karlsson, G. ; Lind, C. ; [et al.]

Springer

Sexual plant reproduction 4 (1991), S. 215-225

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ISSN: 1432-2145

Keywords: Cytoplasmic male sterility ; Beta vulgaris ; Microsporogenesis ; Tapetum ; Ultrastructure

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Summary The development of sporogenous and tapetal cells in the anthers of male-fertile and cytoplasmic male-sterile sugar beet (Beta vulgaris L.) plants was studied using light and transmission electron microscopy. In general, male-sterile anthers showed a much greater variability in developmental pattern than male-fertile anthers. The earliest deviation from normal anther development was observed to occur in sterile anthers at meiotic early prophase: there was a degeneration or irregular proliferation of the tapetal cells. Other early aberrant events were the occurrence of numerous small vesicles in the microspore mother cells (MMC) and a disorganized chromatin condensation. Deviations that occurred in sterile anthers at later developmental stages included: (1) less distinct inner structures in the mitochondria of both MMC and tapetal cells from middle prophase onwards. (2) dilated ER and nuclear membranes at MMC prophase, in some cases associated with the formation of protein bodies. (3) breakdown of cell walls in MMCs and tapetal cells at late meiotic prophase. (4) no massive increase in tapetal ER at the tetrad stage. (5) a general dissolution of membranes, first in the MMC, then in the tapetum. (6) abortion of microspores and the occurrence of a plasmodial tapetum in anthers reaching the microspore stage. (7) no distinct degeneration of tapetal cells after microspore formation. Thus, it seems that the factors that lead to abortive microsporogenesis are structurally expressed at widely different times during anther development. Aberrant patterns are not restricted to the tetrad stage but occur at early prophase.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00190008

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6

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The stereospecificity, purification, and characterization of an NADH-ferricyanide reductase from spinach leaf plasma membrane (1995)

Møller, I. M. ; Fredlund, K. M. ; Bérczi, A.

Springer

Protoplasma 184 (1995), S. 124-132

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ISSN: 1615-6102

Keywords: NADH-ferricyanide reductase ; Plasma membrane ; Spinacia oleracea ; Stereospecificity

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Summary The stereospecificity of NADH-ferricyanide reductase activities in the inner mitochondrial membrane, peroxisomal membrane, plasma membrane and tonoplast are all specific for the β-hydrogen of NADH whereas the reductases in the ER, the Golgi and the outer mitochondrial membrane are α-specific. This shows unequivocally that the NADH-ferricyanide activity in the plasma membrane is not caused by ER contamination. In all the membranes one or several polypeptides with an apparent size of 45–50 kDa cross-react with antibodies raised against a microsomal NADH-ferricyanide reductase. An NADH-ferricyanide reductase was purified from spinach leaf plasma membranes. The enzyme was released from the membrane by CHAPS solubilization and purified 360-fold by ion-exchange chromatography followed by affinity chromatography and size exclusion chromatography on FPLC. A major band of 45 kDa was detected by SDS-PAGE and it cross-reacted with the anti-NADH-ferricyanide reductase antibodies. The native size of the enzyme is 160 kDa as determined by size-exclusion chromatography indicating that it is a tetramer. Isoelectric focusing revealed three isoenzymes between pH 5.3 and 5.6. The enzyme shows typical FAD fluorescence spectra with excitation peaks at 371 and 468 nm and an emission peak at 525 nm. It is specific for the β-hydrogen of NADH and prefers NADH over NADPH as electron donor. It is highly specific for ferricyanide as electron acceptor and it is therefore unlikely to be the enzyme responsible for iron reduction on the outer surface of the plasma membrane.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01276909

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7

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Characterization and solubilization of residual redox activity in salt-washed and detergent-treated plasma membrane vesicles from spinach leaves (1998)

Bérczi, A. ; Møller, I. M.

Springer

Protoplasma 205 (1998), S. 59-65

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ISSN: 1615-6102

Keywords: Detergent solubilization ; Plasma membrane ; Redox activity

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Summary An NADH-hexacyanoferrate(III) oxidoreductase (N-HCF-OR) was purified from spinach leaf plasma membrane (PM) vesicles; detailed biochemical analyses, however, revealed that the purifed protein is an NADH-monodehydroascorbate oxidoreductase (N-MDA-OR) located on the cytoplasmic surface of the PM. After removing all N-MDA-OR activity from the PM vesicles by consecutive treatments with hypoosmotic shock, salt, and detergents, the remaining PM (the “stripped” PM, SPM) fraction contained about 50% of the protein and 15% of the N-HCF-OR activity of the original PM fraction. The highest redox activity (100%) of the SPM fraction was obtained with NADH as electron donor and hexacyanofer-rate(III) (HCF) as electron acceptor, although redox activity could be measured also with ubiquinone-0 (23%), dichlorophenolindophenol (16%), cytochromec (9%), and Fe3+-EDTA (2%) as electron acceptors. The followingK m values were obtained for the N-HCF-OR activity of SPM:K m(NADH)=66.5 ± 3.8 μM [with 200 μM HCF(III)],K m[HCF(III)]=11.1 ± 1.1 μM (with 150 μM NADH). NAD+ competitively inhibited the activity. Under special conditions, SB-16 (palmityl sulfobetaine, a zwitterionic detergent with a C-16 hydrocarbon chain) solubilized about 50% of the protein and more than 90% of the N-HCF-OR activity of the SPM fraction. Redox activity of the solubilized fraction with dichlorophenolindophenol as electron acceptor was 45% of that with HCF(III). The SB-16-solubilized fraction containedb-type cytochrome(s) which could be reduced by dithionite〉 ascorbate ≫〉 NADH. Silver-stained sodium dodecyl sulfate-polyacrylamide gel electrophoresis of the SB-16-solubilized SPM fraction revealed numerous polypeptides between 17 and 95 kDa. Further purification steps are needed to match the redox activities and spectrophotometric data to one or more of the polypeptides seen on the gel.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01279294

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Mitochondrial metabolism regulated by thioredoxin [Plant Biology] (2015)

Moller, I. M.

National Academy of Sciences

In: PNAS - Proceedings of the National Academy of Sciences

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Publication Date: 2015-03-18

Description: In PNAS, Daloso et al. (1) show that, in plant cells, the activities of two enzymes, succinate dehydrogenase and fumarase, in the tricarboxylic acid (TCA) cycle in the mitochondria, as well as one cytosolic enzyme associated with the cycle (ATP-citrate lyase), are regulated by reversible reduction-oxidation mediated by interaction with...

Print ISSN: 0027-8424

Electronic ISSN: 1091-6490

Topics: Biology , Medicine , Natural Sciences in General