Gene/Protein
Disease
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Drug
Enzyme
Compound
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Target Concepts:
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Query: UMLS:C1832526 (
PCC
)
5,967
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Two
cAMP
receptor proteins (CRPs), Sycrp1 (encoded by
sll1371
) and Sycrp2 (encoded by
sll1924
), exist in the cyanobacterium
Synechocystis
sp. strain
PCC
6803. Previous studies have demonstrated that Sycrp1 has binding affinity for
cAMP
and is involved in motility by regulating the formation of pili. However, the function of Sycrp2 remains unknown. Here, we report that
sycrp2
disruption results in the loss of motility of
Synechocystis
sp.
PCC
6803, and that the phenotype can be recovered by reintroducing the
sycrp2
gene into the genome of
sycrp2
-disrupted mutants. Electron microscopy showed that the
sycrp2
-disrupted mutant lost the pilus apparatus on the cell surface, resulting in a lack of cell motility. Furthermore, the transcript level of the
pilA9-pilA11
operon (essential for cell motility and regulated by the
cAMP
receptor protein Sycrp1) was markedly decreased in
sycrp2
-disrupted mutants compared with the wild-type strain. Moreover, yeast two-hybrid analysis and a pulldown assay demonstrated that Sycrp2 interacted with Sycrp1 to form a heterodimer and that Sycrp1 and Sycrp2 interacted with themselves to form homodimers. Gel mobility shift assays revealed that Sycrp1 specifically binds to the upstream region of
pilA9
Together, these findings indicate that in
Synechocystis
sp.
PCC
6803, Sycrp2 regulates the formation of pili and cell motility by interacting with Sycrp1.
IMPORTANCE
cAMP
receptor proteins (CRPs) are widely distributed in cyanobacteria and play important roles in regulating gene expression. Although many cyanobacterial species have two
cAMP
receptor-like proteins, the functional links between them are unknown. Here, we found that Sycrp2 in the cyanobacterium
Synechocystis
sp. strain
PCC
6803 is essential for twitching motility and that it interacts with Sycrp1, a known
cAMP
receptor protein involved with twitching motility. Our findings indicate that the two
cAMP
receptor-like proteins in cyanobacteria do not have functional redundancy but rather work together.
...
PMID:Sycrp2 Is Essential for Twitching Motility in the Cyanobacterium Synechocystis sp. Strain PCC 6803. 3010 38
Carbon/nitrogen (C/N) balance sensing is a key requirement for the maintenance of cellular homeostasis. Therefore, cyanobacteria have evolved a sophisticated signal transduction network targeting the metabolite 2-oxoglutarate (2-OG), the carbon skeleton for nitrogen assimilation. It serves as a status reporter for the cellular C/N balance that is sensed by transcription factors NtcA and NdhR and the versatile PII-signaling protein. The PII protein acts as a multitasking signal-integrating regulator, combining the 2-OG signal with the energy state of the cell through adenyl-nucleotide binding. Depending on these integrated signals, PII orchestrates metabolic activities in response to environmental changes through binding to various targets. In addition to 2-OG, other status reporter metabolites have recently been discovered, mainly indicating the carbon status of the cells. One of them is
cAMP
, which is sensed by the PII-like protein SbtB. The present review focuses, with a main emphasis on unicellular model strains Synechoccus elongatus and Synechocystis sp.
PCC
6803, on the physiological framework of these complex regulatory loops, the tight linkage to metabolism and the molecular mechanisms governing the signaling processes.
...
PMID:Carbon/nitrogen homeostasis control in cyanobacteria. 3161 86
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