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Digitale Medien

Phloem loading and unloading of sugars and amino acids (2003)

LALONDE, S. ; TEGEDER, M. ; THRONE-HOLST, M. ; [weitere]

Oxford, UK : Blackwell Science, Ltd

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

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ISSN: 1365-3040

Quelle: Blackwell Publishing Journal Backfiles 1879-2005

Thema: Biologie

Notizen: In terrestrial higher plants, phloem transport delivers most nutrients required for growth and storage processes. Some 90% of plant biomass, transported as sugars and amino nitrogen (N) compounds in a bulk flow of solution, is propelled though the phloem by osmotically generated hydrostatic pressure differences between source (net nutrient export) and sink (net nutrient import) ends of phloem paths. Source loading and sink unloading of sugars, amino N compounds and potassium largely account for phloem sap osmotic concentrations and hence pressure differences. A symplasmic component is characteristic of most loading and unloading pathways which, in some circumstances, may be interrupted by an apoplasmic step. Raffinose series sugars appear to be loaded symplasmically. However, sucrose, and probably certain amino acids, are loaded into minor veins from source leaf apoplasms by proton symporters localized to plasma membranes of their sieve element/companion cell (se/cc) complexes. Sucrose transporters, with complementary kinetic properties, are conceived to function as membrane transporter complexes that respond to alterations in source/sink balance. In contrast, symplasmic unloading is common for many sink types. Intervention of an apoplasmic step, distal from importing phloem, is reserved for special situations. Effluxers that release sucrose and amino acids to the surrounding apoplasm in phloem loading and unloading are yet to be cloned. The physiological behaviour of effluxers is consistent with facilitated membrane transport that can be energy coupled. Roles of sucrose and amino acid transporters in phloem unloading remain to be discovered along with mechanisms regulating symplasmic transport. The latter is hypothesized to exert significant control over phloem unloading and, in some circumstances, phloem loading.

Materialart: Digitale Medien

URL: http://dx.doi.org/10.1046/j.1365-3040.2003.00847.x

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Digitale Medien

Spatial and temporal expression of sucrose transport-related genes in developing cotyledons ofVicia faba L. (1997)

Harrington, G. N. ; Nussbaumer, Y. ; Wang, X. -D. ; [weitere]

Springer

Protoplasma 200 (1997), S. 35-50

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ISSN: 1615-6102

Schlagwort(e): Developmental gene expression ; H+/sucrose symporter ; P-type H+-ATPase ; Sucrose-binding protein ; Transfer cells ; Vicia faba ; Cotyledons

Quelle: Springer Online Journal Archives 1860-2000

Thema: Biologie

Notizen: Summary Dry-matter accumulation by developing cotyledons of grain legumes includes a mandatory influx of photoassimilates, largely in the form of sucrose, from the seed apoplasm across the plasma membranes of the cotyledon cells. This study examined the temporal and spatial expression of an H+/sucrose symporter, a P-type H+-ATPase, and a sucrose-binding protein (SBP) in cotyledons ofVicia faba L. throughout their development. The flux of dry matter and sucrose symporter activity exhibited identical temporal trends. These were a marked increase during cotyledon expansion to a plateau maintained until cotyledon maturity. Thereafter both parameters declined precipitously. The temporal changes in sucrose symporter activity were accounted for by shifts in its Vmax. Transcript levels of the H+/sucrose symporter followed a similar temporal pattern to the sucrose symporter activity suggesting regulation by gene expression. Equivalent conclusions were drawn for SBP and the H+-ATPase expression during cotyledon expansion. Thereafter, during seed filling, the transcript levels of SBP and H+-ATPase did not closely follow that found for the sucrose symporter. A progressive wave of gene expression in the abaxial epidermal cells spread from the cotyledon region juxtaposed to the non-vascular region of the seed coat at the pole distal from the funicle. The pattern of expression progressed most rapidly along the median longitudinal plane of the cotyledons and more slowly outward to their margins. The densities of SBP and H+-ATPase, inserted into the plasma membranes of the abaxial epidermal cells, increased throughout cotyledon expansion. Gene expression (sucrose symporter) and membrane insertion of the gene products (SBP, H+-ATPase) were closely associated with the initiation and development of wall ingrowths in the abaxial epidermal cells.

Materialart: Digitale Medien

URL: http://dx.doi.org/10.1007/BF01280733

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Digitale Medien

Cell specific expression of three genes involved in plasma membrane sucrose transport in developingVicia faba seed (1997)

Harrington, G. N. ; Franceschi, V. R. ; Offler, C. E. ; [weitere]

Springer

Protoplasma 197 (1997), S. 160-173

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ISSN: 1615-6102

Schlagwort(e): Gene expression ; Plasma membrane transport ; Seed ; Sucrose efflux/influx ; Transfer cells ; Vicia faba

Quelle: Springer Online Journal Archives 1860-2000

Thema: Biologie

Notizen: Summary In developing seeds ofVicia faba, transfer cells line the inner surface of the seed coat and the juxtaposed epidermal surface of the cotyledons. Circumstantial evidence, derived from anatomical and physiological studies, indicates that these cells are the likely sites of sucrose efflux to, and influx from, the seed apoplasm, respectively. In this study, expression of an H+/sucrose symporter-gene was found to be localised to the epidermal-transfer cell complexes of the cotyledons. The sucrose binding protein (SBP) gene was expressed in these cells as well as in the thin-walled parenchyma transfer cells of the seed coat. SBP was immunolocalised exclusively to the plasma membranes located in the wall ingrowth regions of the transfer cells. In addition, a plasma membrane H+-ATPase was most abundant in the wall ingrowth regions with decreasing levels of expression at increasing distance from the transfer cell layers. The observed co-localisation of high densities of a plasma membrane H+-ATPase and sucrose transport proteins to the wall ingrowths of the seed coat and cotyledon transfer cells provides strong evidence that these regions are the principal sites of facilitated membrane transport of sucrose to and from the seed apoplasm.

Materialart: Digitale Medien

URL: http://dx.doi.org/10.1007/BF01288025

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