| Abstract: | Dimethylsulphoniopropionate (DMSP) is a compound produced in several classes of algae and higher plants that live in the marine environment. Considering its generally high intracellular concentrations, DMSP has a function in the osmotic protection of algal cells. Due to the relatively slow adaptation of its intracellular concentrations upon salinity shifts, DMSP should, however, not be considered as an osmoticum in the strict sense of being responsible for osmotic balance, but rather as a constitutive compatible solute. Besides salinity, other factors also appear to affect cellular DMSP quotas, but the exact regulatory mechanisms are still unclear. In this review, a brief discussion is given of the three pathways of DMSP biosynthesis that are currently distinguished. This is followed by an overview of the factors that affect DMSP biosynthesis (light, salinity, temperature and nitrogen limitation) in relation to its physiological functions. A new hypothesis is presented in which DMSP production is described as an overflow mechanism for excess reduced compounds and for energy excess. Finally, the possible functionality of the enzymatic cleavage of DMSP is discussed in the context of an overflow mechanism. |
