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1

Electronic Resource

Molecular Regulation of Renal Phosphate Transport (1996)

Levi, M. ; Kempson, S.A. ; Lötscher, M. ; [et al.]

Springer

The journal of membrane biology 154 (1996), S. 1-9

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ISSN: 1432-1424

Keywords: Key words: Phosphate transport — Dietary phosphate — Parathyroid hormone — Endocytosis — Exocytosis — Microtubules--〉

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Chemistry and Pharmacology

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s002329900127

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Disentangling CO2 fluxes: direct measurements of mesocosm-scale natural abundance 13CO2/12CO2 gas exchange, 13C discrimination, and labelling of CO2 exchange flux components in controlled environments (2003)

SCHNYDER, H. ; SCHÄUFELE, R. ; LÖTSCHER, M. ; [et al.]

Oxford, UK : Blackwell Science Ltd

Plant, cell & environment 26 (2003), S. 0

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ISSN: 1365-3040

Source: Blackwell Publishing Journal Backfiles 1879-2005

Topics: Biology

Notes: A 13C/12C mass spectrometer was interfaced with a open gas exchange system including four growth chambers to investigate CO2 exchange components of perennial ryegrass (Lolium perenne L.) stands. Chambers were fed with air containing CO2 with known δ13C (δCΟ2−2.6 or −46.8‰). The system did not fractionate C isotopes and no extraneous CO2 leaked into chambers. The on-line 13C discrimination (Δ) of ryegrass stands in light was independent of δCΟ2 when δCΟ2 was constant. The δ of CO2 exchanged by the stands in light (δNd) and darkness (δRn) differed by 0.7‰, suggesting some Δ in dark respiration at the stand-level. However, Δ decreased by ∼ 10‰ when δCΟ2 was switched from −46.8 to −2.5‰, and increased by ∼ 10‰ following a shift from −2.6 to −46.7‰ due to isotopic disequilibria between photosynthetic and respiratory fluxes. Isotopic imbalances were used to assess (non-photorespiratory) respiration in light and the replacement of the respiratory substrate pool(s) by new photosynthate. Respiration was partially inhibited by light, but increased during the light period and decreased in darkness, in association with temperature changes. The labelling kinetics of respiratory CO2 indicated the existence of two major respiratory substrate pools: a fast pool which was exchanged within hours, and a slow pool accounting for ∼ 60% of total respiration and having a mean residence time of 3.6 d.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1046/j.1365-3040.2003.01102.x

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3

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Distribution of mineral nutrient from nodal roots of Trifolium repens: Genotypic variation in intra-plant allocation of 32P and 45Ca (1996)

Lötscher, M. ; Hay, M. J. M.

Oxford, UK : Blackwell Publishing Ltd

Physiologia plantarum 97 (1996), S. 0

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ISSN: 1399-3054

Source: Blackwell Publishing Journal Backfiles 1879-2005

Topics: Biology

Notes: To assess genotypic variability in nutrient supply of shoot branches, the distribution of 32P and 45Ca exported from a source nodal root (24-h uptake period) was measured within a genotype of a large-leaved (Kopu) and a small-leaved (Tahora) cultivar of Trifolium repens. Source-sink relationships of plants were modified by root severance, defoliation, and shade treatments. In control plants of both genotypes distribution of 32P and 45Ca closely followed the pathways that could be predicted from the known phyllotactic constraints on the vascular system. As such there was little allocation of radioisotopes (3.1% and 2.5% of exported 32P and 45Ca, respectively) from the source root to branches on the apposite side of the parent axis (far-side branches). However, genotypic differences in nutrient allocation were apparent, when treatments were imposed to alter intra-plant source-sink relationships. In the large-leaved genotype, the imposed treatments had minor effects on the allocation to far-side branches: whereas, in the small-leaved genotype, root severance and defoliation treatments increased lateral transport to far-side branches to 30% (32P) and 10% (45Ca) of exported radioisotopes. Genotypes with low (8–9) and high (12–13) numbers of vascular bundles were selected from within the large-leaved cultivar. Distribution of 32P was then measured after plants had been pre-treated by removal of all far-side roots two days prior to labelling. Genotypes with low vascular bundle number allocated 20% and those with high vascular bundle number 3.2% of exported 32P to far-side branches. It was concluded (1) that genotypic variation exists within T. repens for potential to alter intra-plant allocation of mineral nutrients, in response to treatments that modify source-sink relationships within plants; and (2) that this variation is correlated with differences among genotypes in the organisation of the vasculature of their stolons.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1034/j.1399-3054.1996.970209.x

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4

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C-isotope composition of CO2 respired by shoots and roots: fractionation during dark respiration? (2005)

KLUMPP, K. ; SCHÄUFELE, R. ; LÖTSCHER, M. ; [et al.]

Oxford, UK : Blackwell Science Ltd

Plant, cell & environment 28 (2005), S. 0

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ISSN: 1365-3040

Source: Blackwell Publishing Journal Backfiles 1879-2005

Topics: Biology

Notes: The CO2 respired by leaves is 13C-enriched relative to leaf biomass and putative respiratory substrates (Ghashghaie et al., Phytochemistry Reviews 2, 145–161, 2003), but how this relates to the 13C content of root, or whole plant respiratory CO2 is unknown. The C isotope composition of respiratory CO2 (δR) from shoots and roots of sunflower (Helianthus annuus L.), alfalfa (Medicago sativa L.), and perennial ryegrass (Lolium perenne L.) growing in a range of conditions was analysed. In all instances plants were grown in controlled environments with CO2 of constant concentration and δ13C. Respiration of roots and shoots of individual plants was measured with an open CO2 exchange system interfaced with a mass spectrometer. Respiratory CO2 from shoots was always 13C-enriched relative to that of roots. Conversely, shoot biomass was always 13C-depleted relative to root biomass. The δ-difference between shoot and root respiratory CO2 was variable, and negatively correlated with the δ-difference between shoot and root biomass (r2 = 0.52, P = 0.023), suggesting isotope effects during biosynthesis. 13C discrimination in respiration (R) of shoots, roots and whole plants (eShoot, eRoot, ePlant) was assessed as e = (δSubstrate − δR)/(1 + δR/1000), where root and shoot substrate is defined as imported C, and plant substrate is total photosynthate. Estimates were obtained from C isotope balances of shoots, roots and whole plants of sunflower and alfalfa using growth and respiration data collected at intervals of 1 to 2 weeks. eplant and eShoot differed significantly from zero. eplant ranged between −0.4 and −0.9‰, whereas eShoot was much greater (−0.6 to −1.9‰). eRoot was not significantly different from zero. The present results help to resolve the apparent conflict between leaf- and ecosystem-level 13C discrimination in respiration.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1111/j.1365-3040.2004.01268.x

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5

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Acute toxicity of pyridostigmine in rats: histological findings (1986)

Gebbers, J. -O. ; Lötscher, M. ; Kobel, W. ; [et al.]

Springer

Archives of toxicology 58 (1986), S. 271-275

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ISSN: 1432-0738

Keywords: Pyridostigmine ; Acute toxicity ; Histopathology of skeletal muscles

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract To assess the morphological changes due to pyridostigmine (Pyr), sublethal doses of Pyr (20 and 40 mg/ kg body weight) were given to adult rats through a gastric tube. Within 24 h, acute focal necroses, leukocytic infiltrates and marked changes in the motor endplates appeared in the skeletal muscle. The changes were more evident in the diaphragm than in the quadriceps muscle. The acetylcholinesterase activity in the whole blood and in the erythrocytes was reduced to considerably less than onehalf of the normal value. The histological changes induced by Pyr have not been reported to date, but are similar to those observed in experimental poisoning with other anticholinesterase agents such as carbamates and organophosphates.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00297119

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6

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Branch and root formation in Trifolium repens is influenced by the light environment of unfolded leaves (1997)

Lötscher, M. ; Nösberger, J.

Springer

Oecologia 111 (1997), S. 499-504

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ISSN: 1432-1939

Keywords: Key words Axillary bud ; Light perception ; Nodal root ; Red:far-red ratio ; Trifolium repens

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract In plagiotropic plants, axillary buds on the stolon can be exposed to low red:far-red (R:FR) ratios, while the leaves may be positioned in the uppermost layer of the sward where they are exposed to a high R:FR ratio. We tested whether the light environment of unfolded leaves influences outgrowth of the axillary buds and the formation of nodal roots of Trifolium repens. Single plants were grown in a growth cabinet with high photosynthetic photon flux rate (PPFR) and a high R:FR ratio (FHRH, control), low PPFR and high R:FR (FLRH) or low PPFR and low R:FR (FLRL). In an additional treatment (SS), only stolons were shaded so that developing leaves grew into light conditions similar to the control treatment. Neutral shading (FLRH) had a minor effect on branching and did not influence root formation. A reduction in the R:FR ratio (FLRL) significantly delayed the outgrowth of axillary buds so that, compared to the control plants, the percentage of branched phytomers was reduced by 43% on the parent axis and by 75% on primary branches. Furthermore, the number of nodal roots per plant was reduced by about 30%. When only the stolons were shaded (SS), the percentage of branched and rooted phytomers was similar to that of the control plants. Extension of petioles and leaves was very variable, increasing the values in the FLRL treatment at least 2.5-fold compared with the control plants. It was concluded that the light environment of the unfolded leaves had a significant influence on the regulation of the outgrowth of axillary buds and that the high plasticity in petiole growth allows the positioning of the leaves in a light environment conducive to the stimulation of branch outgrowth.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s004420050263

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7

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Immunolocalization of Na/SO4-cotransport (NaSi-1) in rat kidney (1996)

Lötscher, M. ; Custer, M. ; Quabius, E. S. ; [et al.]

Springer

Pflügers Archiv 432 (1996), S. 373-378

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ISSN: 1432-2013

Keywords: Key words Kidney ; Proximal tubules ; Sodium-dependent sulphate cotransport ; Immunohistochemistry

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract The proximal tubule is the major site for renal reabsorption of sulphate. A sodium-dependent transport system for sulphate (NaSi-1) has recently been identified from a rat kidney cortex cDNA library. Recent work demonstrated that NaSi-1 mRNA is expressed predominantly in proximal tubules. In the present work expression along the nephron of the Na/SO4-cotransporter NaSi-1 was studied by immunofluorescence. A polyclonal antibody was raised in rabbits against a fusion protein containing a 53-amino-acid polypeptide specific for the NaSi-1 sequence. The anti-NaSi-1 polyclonal antibody specifically detected a 68-kDa protein on Western blots and, by immunofluorescence specific staining, was observed in MDCK cells transfected with the NaSi-1 cotransporter. Using rat kidney cortex slices specific NaSi-1-related immunoreactivity was detected in proximal tubules and was restricted to the apical membrane. No immunoreactivity was observed in the other nephron segments. This was confirmed by Western blot analysis using proximal tubular apical and basolateral membranes isolated by free-flow electrophoresis. The results indicate that the Na/SO4-cotransporter NaSi-1 is expressed in the apical membrane of proximal tubular cells and is therefore likely to be involved in proximal reabsorption of sulphate.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s004240050147

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