Symporter: Difference between revisions
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A type of coupled transporter that simultaneously transfer a second solute in the same direction as the first. The tight coupling transfer of the two solutes allows the coupled transporters to obtain energy stored in the [[electrochemical gradient|electrochemical gradient]] of the first solute to transfer the second one <ref>Alberts,B.,Johnson,A.,Lewis,J.,Raff,M.,Roberts,K.,Walter,P. (2008) 'Molecular Biology of The Cell' fifth ed.,Garland Science, New York, pp.656</ref>. The free energy released during the 'downhill' movement of one solute is used to power the 'uphill' movement of the other solute in the same direction. | |||
Sodium is usually the co-transported ion that provides the driving force for transporting the second molecule. | [[Sodium|Sodium]] is usually the co-transported ion that provides the driving force for transporting the second [[molecule|molecule]].<br> | ||
=== References === | |||
<references /> | <references /> | ||
Revision as of 01:44, 19 November 2012
A type of coupled transporter that simultaneously transfer a second solute in the same direction as the first. The tight coupling transfer of the two solutes allows the coupled transporters to obtain energy stored in the electrochemical gradient of the first solute to transfer the second one [1]. The free energy released during the 'downhill' movement of one solute is used to power the 'uphill' movement of the other solute in the same direction.
Sodium is usually the co-transported ion that provides the driving force for transporting the second molecule.
References
- ↑ Alberts,B.,Johnson,A.,Lewis,J.,Raff,M.,Roberts,K.,Walter,P. (2008) 'Molecular Biology of The Cell' fifth ed.,Garland Science, New York, pp.656