Characterization of Aminopeptidase P from the Unicellular Cyanobacterium Synechocystis sp. PCC6803.

The PepP protein has been purified in vitro and characterized for the first time. It is encoded by the sll0136 gene of the unicellular cyanobacterium Synechocystis sp. PCC6803. It is established that the PepP protein is a Mn2+-dependent Xaa-Pro-specific aminopeptidase. The protein in the reaction of hydrolysis of the fluorescent peptide Lys(N-Abz)-Pro-Pro-pNA has a maximal activity at pH 7.6 and 32°C.

[A feedback between membrane fluidity and transcription of the desB gene for the omega3 fatty acid desaturase in the cyanobacterium Synechocystis].

Prokaryotic cells, including cyanobacteria, respond to a decrease in ambient temperature by activation of numerous cold shock genes. Low temperatures cause a decrease in membrane fluidity, which is maintained at some optimal level mainly by fatty acid (FA) desaturases. Here, temperature-dependent expression of the desB gene for the omega3-desaturase in Synechocystis, which synthesized polyunsaturated FAs, and in its mutant, desA-/desD-, which is defective in genes for delta12- and delta6-desaturases and is capable of synthesizing only monounsaturated FAs was studied. Low temperatures caused the increase in the amount of the desB mRNA in the wild-type cells with the maximum observed at 24 degrees C. In the double mutant desA-/desD- cells, the maximum amount of this mRNA was accumulated at 28-30 degrees C. Thus, our studies of the desB gene for the omega3-desaturase demonstrated that temperature-dependent expression of genes, which are responsible for the maintenance of the optimal membrane fluidity, depends on physical state of these membranes and is regulated by a feedback mode.