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Query: UMLS:C1832526 (
PCC
)
5,967
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
We have established overexpression systems and purification protocols for NucA and NuiA, a sugar non-specific nuclease and its protein inhibitor from Anabaena sp. strain
PCC
7120, in order to characterize these proteins in detail. CD spectroscopy revealed that NucA has a similar secondary-structure composition, 13% alpha helix and 20% beta sheet, to the related Serratia nuclease, while NuiA represents a protein with a higher alpha-helical (29%) and beta-sheet (24%) content than NucA. Denaturation experiments showed that the stabilities of NucA and NuiA are in the typical range for proteins of mesophilic organisms, NuiA with deltaG0H2O = 63.4 J x mol(-1)residue, being slightly more stable than its target NucA with delta deltaG0H2O = 46.3 J x mol(-1)residue. The nuclease requires divalent metal ions as cofactors, the optimum concentration being around 5 mM for Mn2+ or Mg2+. The order of effectiveness of various divalent cations to function as cofactors for the hydrolytic activity of NucA is Mn2+ = Co2+ > Mg2+ > or =
Ni2+
>> or Ca2+ = Cd2+ at a concentration of 5 mM. Nuclease activity decreases with increasing concentration of monovalent salt. The activity of NucA shows a pH optimum at pH 5.5-7.5. The temperature optimum is around 35 degrees C, the activation energy was calculated to be 53 kJ mol(-1). The specific activity of the nuclease towards high molecular-mass DNA is 8.4 x 10(6) Kunitz-units x mg(-1), which means that NucA is one of the most active nucleases known. Kinetic constants for the cleavage of various DNA and RNA substrates by NucA are all in the range Km < or = 0.1 mg x ml(-1) and k(cat) approximately 1000 s(-1). As other non-specific nucleases, NucA exhibits sequence preferences, similar to the related Serratia nuclease, NucA avoids cleavage of d(A) x d(T) tracts. The nucleolytic activity of NucA is completely inhibited at equimolar concentrations of nuclease and inhibitor. An ultracentrifugation analysis showed that NucA and NuiA form a 1:1 complex. The interaction of NucA with NuiA was also investigated by CD spectroscopy and revealed no major conformational changes upon complex formation of the two proteins.
...
PMID:Biochemical characterization of Anabaena sp. strain PCC 7120 non-specific nuclease NucA and its inhibitor NuiA. 949 69
The genome of the unicellular cyanobacterium Synechocystis sp. strain
PCC
6803 comprises many open reading frames (ORFs) which putatively encode eukaryotic-type protein kinase and protein phosphatase. Based on gene disruption analysis, a region of the hypothetical ORF sll1575, which retained a part of the protein kinase motif, was found to be required for normal motility in the original isolate of strain
PCC
6803. Sequence determination revealed that in this strain sll1575 was part of a gene (designated spkA) which harbored an entire eukaryotic-type Ser/Thr protein kinase motif. Strain ATCC 27184 and a glucose-tolerant strain derived from the same isolate as the
PCC
strain had a frameshift mutation dividing spkA into ORFs sll1574 and sll1575. The structural integrity of spkA agreed well with the motility phenotype, determined by colony morphology on agar plates. The spkA gene was expressed in Escherichia coli as a His-tagged protein, which was purified by
Ni2+
affinity chromatography. With [gamma-32P]ATP, SpkA was autophosphorylated and transferred the phosphate group to casein, myelin basic protein, and histone. SpkA also phosphorylated several proteins in the membrane fraction of Synechocystis cells. These results suggest that SpkA is a eukaryotic-type Ser/Thr protein kinase and regulates cellular motility via phosphorylation of the membrane proteins in Synechocystis.
...
PMID:A eukaryotic-type protein kinase, SpkA, is required for normal motility of the unicellular Cyanobacterium synechocystis sp. strain PCC 6803. 1116 79
The cph1 gene from the unicellular cyanobacterium Synechoycstis sp.
PCC
6803 encodes a protein with the characteristics of plant phytochromes and histidine kinases of two-component phospho-relay systems. Spectral and biochemical properties of Cph1 have been intensely studied in vitro using protein from recombinant systems, but virtually nothing is known about the situation in the natural host. In the present study, His6-tagged Cph1 was isolated from Synechocystis cells. The cph1-his gene was expressed either under the control of the natural cph1 promoter or over-expressed using the strong promoter of the psbA2 gene. Upon purification with
nickel
affinity chromatography, the presence of Cph1 in extracts was confirmed by immunoblotting and Zn2+-induced fluorescence. The Cph1 extracts exhibited a red/far-red photoactivity characteristic of phytochromes. Difference spectra were identical with those of the phycocyanobilin adduct of recombinant Cph1, implying that phycocyanobilin is the chromophore of Cph1 in Synechocystis.
...
PMID:Characterization of the Cph1 holo-phytochrome from Synechocystis sp. PCC 6803. 1127 28
In vitro mutagenesis was used to produce two photosystem I mutants of the cyanobacterium Synechocystis sp.
PCC
6803. The mutant HK and HL contained hexahistidyl tags at the C-termini of the PsaK1 and PsaL subunits, respectively. The HK mutant contained wild-type amounts of trimeric PS I complexes, but the level of hexahistidine-tagged PsaK1 was found only ten per cent in the PS I complexes and membranes of the wild type level. Therefore, attachment of a tag at the C-terminus interferes with the expression or assembly of PsaK1. In contrast, the HL mutant contained a similar level of tagged PsaL as that in the wild type. However, trimeric PS I complexes could not be obtained from this strain, indicating that the C-terminus of PsaL is involved in the formation of PS I trimers. Hexahistidine-tagged complexes of the HL and HK strains could not be purified with
Nickel
-affinity chromatography, unless photosystem I was denatured with urea, demonstrating that tagged C-termini of PsaK1 and PsaL were embedded inside of the PS I complex. Protection of the C-terminus from trypsin cleavage further supported this conclusion. Thus, histidine tagging allowed us to demonstrate role of C-termini of two proteins of photosystem I.
...
PMID:Addition of C-terminal histidyl tags to PsaL and PsaK1 proteins of cyanobacterial photosystem I. 1135 30
The transcription of structural genes encoding two hydrogenases in N(2)-fixing cultures of the cyanobacteria Nostoc muscorum and Nostoc sp. strain
PCC
73102 were examined by reverse transcription-PCR. A low level of oxygen and addition of
nickel
induce higher transcript levels of both hydrogenases, whereas molecular hydrogen has a positive effect on the transcription of the genes encoding only the uptake hydrogenase.
...
PMID:Transcriptional regulation of Nostoc hydrogenases: effects of oxygen, hydrogen, and nickel. 1177 61
In the cyanobacterium Synechocystis sp.
PCC
6803, genes for
Ni2+
, Co2+, and Zn2+ resistance are grouped in a 12 kb gene cluster. The nrsBACD operon is composed of four genes, which encode proteins involved in
Ni2+
resistance. Upstream from nrsBACD, and in opposite orientation, a transcription unit formed by the two genes rppA and rppB has been reported previously to encode a two-component signal transduction system involved in redox sensing. In this report, we demonstrate that rppA and rppB (here redesigned nrsR and nrsS respectively) control the
Ni2+
-dependent induction of the nrsBACD operon and are involved in
Ni2+
sensing. Thus, expression of the nrsBACD operon was not induced by
Ni2+
in a nrsRS mutant strain. Furthermore, nrsRS mutant cells showed reduced tolerance to
Ni2+
. Whereas the nrsBACD operon is transcribed from two different promoters, one constitutive and the other dependent on the presence of
Ni2+
in the medium, the nrsRS operon is transcribed from a single
Ni2+
-inducible promoter. The nrsRS promoter is silent in a nrsRS mutant background suggesting that the system is autoregulated. Purified full length NrsR protein is unable to bind to the nrsBACD-nrsRS intergenic region; however, an amino-terminal truncated protein that contains the DNA binding domain of NrsR binds specifically to this region. Our nrsRS mutant, which carries a deletion of most of the nrsR gene and part of the nrsS gene, does not show redox imbalance or photosynthetic gene mis-expression, contrasting with the previously reported nrsR mutant.
...
PMID:A two-component signal transduction system involved in nickel sensing in the cyanobacterium Synechocystis sp. PCC 6803. 1184 52
NmtR from Mycobacterium tuberculosis is a new member of the ArsR-SmtB family of metal sensor transcriptional repressors. NmtR binds to the operator-promoter of a gene encoding a P(1) type ATPase (NmtA), repressing transcription in vivo except in medium supplemented with
nickel
or, to some extent, cobalt. In a cyanobacterial host, Synechococcus
PCC
7942 strain R2-PIM8(smt), NmtR-mediated repression is alleviated by cobalt but not
nickel
or zinc addition, while the related sensor SmtB responds exclusively to zinc. Quantification of the number of atoms of
nickel
per cell shows that NmtR
nickel
sensitivity correlates with cytosolic
nickel
contents. Differential metal discrimination in a common cytosol by SmtB (zinc) and NmtR (cobalt) is not simply explained by affinities at equilibrium; although NmtR does bind
nickel
substantially more tightly than SmtB, it has a higher affinity for zinc than for cobalt and binds cobalt more weakly than SmtB. SmtB is known to bind and sense zinc at interhelical four-coordinate, tetrahedral sites across the C-terminal alpha 5 helices, while absorption spectroscopy of Co(II)- and Ni(II)-substituted NmtR reveals five- and six-coordinate metal complexes. Site-directed mutagenesis identifies six potential cobalt/
nickel
ligands that are obligatory for inducer recognition but not repression by NmtR, four of which (Asp(91), His(93), His(104), His(107)) align with alpha 5 ligands of SmtB with two additional His provided by a carboxyl-terminal "extension" (designated alpha 5C). Gel retardation assays reveal that zinc does not allosterically regulate NmtR-DNA binding at concentrations where lower affinity cobalt does. These data suggest that two additional ligands form hexacoordinate metal complexes and are crucial for driving allosteric regulation of DNA binding by NmtR, thereby allowing NmtR to preferentially sense metals that favor higher coordination numbers relative to SmtB.
...
PMID:A nickel-cobalt-sensing ArsR-SmtB family repressor. Contributions of cytosol and effector binding sites to metal selectivity. 1216 8
NDH (NADH-quinone oxidoreductase)-1 complexes in cyanobacteria have specific functions in respiration and cyclic electron flow as well as in active CO2 uptake. In order to isolate NDH-1 complexes and to study complex-complex interactions, several strains of Thermosynechococcus elongatus were constructed by adding a His-tag (histidine tag) to different subunits of NDH-1. Two strains with His-tag on CupA and NdhL were successfully used to isolate NDH-1 complexes by one-step
Ni2+
column chromatography. BN (blue-native)/SDS/PAGE analysis of the proteins eluted from the
Ni2+
column revealed the presence of three complexes with molecular masses of about 450, 300 and 190 kDa, which were identified by MS to be NDH-1L, NDH-1M and NDH-1S respectively, previously found in Synechocystis sp.
PCC
6803. A larger complex of about 490 kDa was also isolated from the NdhL-His strain. This complex, designated 'NDH-1MS', was composed of NDH-1M and NDH-1S. NDH-1L complex was recovered from WT (wild-type) cells of T. elongatus by
Ni2+
column chromatography. NdhF1 subunit present only in NDH-1L has a sequence of -HHDHHSHH- internally, which appears to have an affinity for the
Ni2+
column. NDH-1S or NDH-1M was not recovered from WT cells by chromatography of this kind. The BN/SDS/PAGE analysis of membranes solubilized by a low concentration of detergent indicated the presence of abundant NDH-1MS, but not NDH-1M or NDH-1S. These results clearly demonstrated that NDH-1S is associated with NDH-1M in vivo.
...
PMID:Isolation, subunit composition and interaction of the NDH-1 complexes from Thermosynechococcus elongatus BP-1. 1591 Feb 82
Covalent attachment of phycocyanobilin (PCB) to the alpha-subunit of C-phycocyanin, CpcA, is catalysed by the heterodimeric PCB : CpcA lyase, CpcE/F [Fairchild CD, Zhao J, Zhou J, Colson SE, Bryant DA & Glazer AN (1992) Proc Natl Acad Sci USA89, 7017-7021]. CpcE and CpcF of the cyanobacterium, Mastigocladus laminosus
PCC
7603, form a 1 : 1 complex. Lyase-mutants were constructed to probe functional domains. When in CpcE (276 residues) the N terminus was truncated beyond the R33YYAAWWL motif, or the C terminus beyond amino acid 237, the enzyme became inactive. Activity decreases to 20% when C-terminal truncations went beyond L275, which is a key residue: the K(m) of CpcE(L275D) and (L276D) increased by 61% and 700%, k(cat)/K(m) decreased 3- and 83-fold, respectively. The enzyme also lost activity when in CpcF (213 residues) the 20 N-terminal amino acids were truncated; truncation of 53 C-terminal amino acids inhibited complex formation with CpcE, possibly due to misfolding. According to chemical modifications, one accessible arginine and one accessible tryptophan are essential for CpcE activity, and one carboxylate for CpcF. Both subunits bind PCB, as assayed by
Ni2+
affinity chromatography, SDS/PAGE and Zn2+-induced fluorescence. The bound PCB could be transferred to CpcA to yield alpha-CPC. The PCB transfer capacity correlates with the activity of the lyase, indicating that PCB bound to CpcE/F is an intermediate of the enzymatic reaction. A catalytic mechanism is proposed, in which a CpcE/F complex binds PCB and adjusts via a salt bridge the conformation of PCB, which is then transferred to CpcA.
...
PMID:Chromophore attachment in phycocyanin. Functional amino acids of phycocyanobilin--alpha-phycocyanin lyase and evidence for chromophore binding. 1651 90
Genes homologous to hydrogenase accessory genes are scattered over the whole genome in the cyanobacterium Synechocystis sp.
PCC
6803. Deletion and insertion mutants of hypA1 (slr1675), hypB1 (sll1432), hypC, hypD, hypE and hypF were constructed and showed no hydrogenase activity. Involvement of the respective genes in maturation of the enzyme was confirmed by complementation. Deletion of the additional homologues hypA2 (sll1078) and hypB2 (sll1079) had no effect on hydrogenase activity. Thus, hypA1 and hypB1 are specific for hydrogenase maturation. We suggest that hypA2 and hypB2 are involved in a different metal insertion process. The hydrogenase activity of DeltahypA1 and DeltahypB1 could be increased by the addition of
nickel
, suggesting that HypA1 and HypB1 are involved in the insertion of
nickel
into the active site of the enzyme. The urease activity of all the hypA and hypB single- and double-mutants was the same as in wild-type cells. Therefore, there seems to be no common function for these two hyp genes in hydrogenase and urease maturation in Synechocystis. Similarity searches in the whole genome yielded Slr1876 as the best candidate for the hydrogenase-specific protease. The respective deletion mutant had no hydrogenase activity. Deletion of hupE had no effect on hydrogenase activity but resulted in a mutant unable to grow in a medium containing the metal chelator nitrilotriacetate. Growth was resumed upon the addition of cobalt or methionine. Because the latter is synthesized by a cobalt-requiring enzyme in Synechocystis, HupE is a good candidate for a cobalt transporter in cyanobacteria.
...
PMID:Mutagenesis of hydrogenase accessory genes of Synechocystis sp. PCC 6803. Additional homologues of hypA and hypB are not active in hydrogenase maturation. 1697 39
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