Mechanism of arginine transport in Chlorella
- 1 September 1984
- journal article
- research article
- Published by Springer Nature in Planta
- Vol. 162 (1) , 23-29
- https://doi.org/10.1007/bf00397416
Abstract
The incubation of Chlorella cells with glucose causes the induction of an uptake system, which is specific for the basic amino acids arginine and lysine. Both amino acids are taken up in the positively charged form and with high affinity (K m values 2 μM and 7 μM, respectively). The transport of arginine depolarizes the membrane by 20–30 mV. The charge compensation is achieved within a few seconds after arginine addition by the proton pump, later on K+ efflux serves for charge compensation. No evidence for arginine-proton symport was found, neither by inhibitor studies nor by use of other Chlorella strains which have a slower-responding proton pump. The accumulation of arginine is appreciably higher than it should be according to the thermodynamic force of the membrane potential. There is, however, some evidence that a large proportion of arginine is trapped by intracellular compartments and is therefore not in equilibrium with the outside arginine.Keywords
This publication has 18 references indexed in Scilit:
- Mechanism of proline uptake by Chlorella vulgarisBiochimica et Biophysica Acta (BBA) - Biomembranes, 1983
- The hexose uptake system of Chlorella: Is it a proton symport or a hydroxyl ion antiport system?FEBS Letters, 1983
- Mechanism of Uptake of l‐Arginine by Sugar‐Cane CellsEuropean Journal of Biochemistry, 1981
- Electrical Evidence for Different Mechanisms of Uptake for Basic, Neutral, and Acidic Amino Acids in Oat ColeoptilesPlant Physiology, 1980
- Membrane‐linked energy buffering as the biological function of Na+/K+ gradientFEBS Letters, 1978
- The Determination of the Membrane Potential of Chlorella vulgaris. Evidence for Electrogenic Sugar TransportEuropean Journal of Biochemistry, 1976
- Amino acid transport systems of cultured soybean root cellsCanadian Journal of Botany, 1975
- Characterization of a Specific Transport System for Arginine in Isolated Yeast VacuolesEuropean Journal of Biochemistry, 1975
- Proton‐coupled hexose transport in Chlorella vulgarisFEBS Letters, 1973
- The membrane potential as the driving force for the accumulation of lysine by Staphylococcus aureusFEBS Letters, 1973