- Title
- Hexose uptake by developing cotyledons of Vicia faba: physiological evidence for transporters of differing affinities and specificities
- Creator
- Harrington, Gregory N.; Dibley, Katherine E.; Ritchie, R. J.; Offler, Christina E.; Patrick, John W.
- Relation
- Functional Plant Biology Vol. 32, no. 11, p. 987-995
- Publisher
- CSIRO Publishing
- Resource Type
- journal article
- Date
- 2005
- Description
- Cotyledons of broad bean (Vicia faba L.) develop in an apoplasmic environment that shifts in composition from one dominated by hexoses to one dominated by sucrose. During the latter phase of development, sucrose / H+ symporter activity and expression is restricted to cotyledon epidermal transfer cell complexes that support sucrose fluxes that are 8.5-fold higher than those exhibited by the storage parenchyma. In contrast, the flux difference between these cotyledon tissues is only 1.7-fold for hexoses. Glucose and fructose uptake was shown to be sensitive to PCMBS and phloridzin, both of which slow H+- sugar transport. A low K-m (or high affinity transporter, HAT) mechanism transports glucose and glucose-analogues exclusively. No HAT system for fructose could be found. A high K-m ( low affinity transporter, LAT) mechanism transports a broader range of hexoses, including glucose and fructose. Consistent with glucose and fructose transport being H+- coupled, their uptake was inhibited by dissipating the proton motive force (pmf) by treating cotyledons with carbonyl cyanide m-chlorophenol hydrazone, propionic acid or tetraphenylphosphonium ion. Erythrosin B inhibited hexose uptake, indicating a role for the P-type H+- ATPase in establishing the pmf. It is concluded that H+- coupled glucose and fructose transport mechanisms occur at plasma membranes of dermal transfer cell complexes and storage parenchyma cells. These transport mechanisms are active during pre- and storage phases of cotyledon development. However, hexose symport only makes a quantitative contribution to cotyledon biomass gain during the pre- storage stage of development.
- Subject
- fructose; glucose; hexose; plasma membrane transport; seed development; Vicia faba cotyledons; dermal transfer cells; sucrose transport; plasma-membrane; sugar; uptake; expression; seed; invertases; inhibitors; symporter; proton
- Identifier
- uon:228
- Identifier
- http://hdl.handle.net/1959.13/25069
- Identifier
- ISSN:1445-4408
- Language
- eng
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