Peripheral blood flow changes in response to postexercise cold water immersion

This study compared the effect of postexercise water immersion (WI) at different temperatures on common femoral artery blood flow (CFA), muscle (total haemoglobin; tHb) and skin perfusion (cutaneous vascular conductance; CVC), assessed by Doppler ultrasound, near-infrared spectroscopy (NIRS) and laser Doppler flowmetry, respectively. Given that heat stress may influence the vascular response during cooling, nine men cycled for 25 min at the first ventilatory threshold followed by intermittent 30-s cycling at 90% peak power until exhaustion at 32·8 ± 0·4°C and 32 ± 5% RH. They then received 5-min WI at 8·6 ± 0·2°C (WI₉ ), 14·6 ± 0·3°C (WI₁₅ ), 35·0 ± 0·4°C (WI₃₅ ) or passive rest (CON) in a randomized, crossover manner. Heart rate (HR), mean arterial pressure (MAP), muscle (T_mu ), thigh skin (T_thigh ), rectal (T_re ) and mean body (T_body ) temperatures were assessed. At 60 min postimmersion, decreases in T_re after WI₃₅ (-0·6 ± 0·3°C) and CON (-0·6 ± 0·3°C) were different from WI₁₅ (-1·0 ± 0·3°C; P<0·05), but not from WI₉ (-1·0 ± 0·3°C; P = 0·074-0·092). WI₉ and WI₁₅ had reduced T_body , T_thigh and T_mu compared with WI₃₅ and CON (P <0·05). CFA, tHb and CVC were lower in WI₉ and WI₁₅ compared with CON (P<0·05). tHb following WI₉ remained lower than CON (P = 0·044) at 30 min postimmersion. CVC correlated with tHb during non-cooling (WI₃₅ and CON) (r²  = 0·532; P<0·001) and cooling recovery (WI₉ and WI₁₅ ) (r²  = 0·19; P = 0·035). WI₉ resulted in prolonged reduction in muscle perfusion. This suggests that CWI below 10°C should not be used for short-term (i.e. <60 min) recovery after exercise.

Proteomic analysis of the molecular response of Raji cells to maslinic acid treatment

Maslinic acid, a natural pentacyclic triterpene has been shown to inhibit growth and induce apoptosis in some tumour cell lines. We studied the molecular response of Raji cells towards maslinic acid treatment. A proteomics approach was employed to identify the target proteins. Seventeen differentially expressed proteins including those involved in DNA replication, microtubule filament assembly, nucleo-cytoplasmic trafficking, cell signaling, energy metabolism and cytoskeletal organization were identified by MALDI TOF-TOF MS. The down-regulation of stathmin, Ran GTPase activating protein-1 (RanBP1), and microtubule associated protein RP/EB family member 1 (EB1) were confirmed by Western blotting. The study of the effect of maslinic acid on Raji cell cycle regulation showed that it induced a G1 cell cycle arrest. The differential proteomic changes in maslinic acid-treated Raji cells demonstrated that it also inhibited expression of dUTPase and stathmin which are known to induce early S and G2 cell cycle arrests. The mechanism of maslinic acid-induced cell cycle arrest may be mediated by inhibiting cyclin D1 expression and enhancing the levels of cell cycle-dependent kinase (CDK) inhibitor p21 protein. Maslinic acid suppressed nuclear factor-kappa B (NF-κB) activity which is known to stimulate expression of anti-apoptotic and cell cycle regulatory gene products. These results suggest that maslinic acid affects multiple signaling molecules and inhibits fundamental pathways regulating cell growth and survival in Raji cells.

Identification of amino acid residues essential for catalytic activity of gentisate 1,2-dioxygenase from Pseudomonas alcaligenes NCIB 9867

Gentisate 1,2-dioxygenase (GDO, EC 1.13.11.4) is a ring cleavage enzyme that utilizes gentisate as a substrate yielding maleylpyruvate as the ring fission product. Mutant GDOs were generated by both random mutagenesis and site-directed mutagenesis of the gene cloned from Pseudomonas alcaligenes NCIB 9867. Alignment of known GDO sequences indicated the presence of a conserved central core region. Mutations generated within this central core resulted in the complete loss of enzyme activity whereas mutations in the flanking regions yielded GDOs with enzyme activities that were reduced by up to 78%. Site-directed mutagenesis was also performed on a pair of highly conserved HRH and HXH motifs found within this core region. Conversion of these His residues to Asp resulted in the complete loss of catalytic activity. Mutagenesis within the core region could have affected quaternary structure formation as well as cofactor binding. A mutant enzyme with increased catalytic activities was also characterized.

Identification of amino acid residues essential for catalytic activity of gentisate 1,2-dioxygenase from Pseudomonas alcaligenes NCIB 9867

Gentisate 1,2-dioxygenase (GDO, EC 1.13.11.4) is a ring cleavage enzyme that utilizes gentisate as a substrate yielding maleylpyruvate as the ring fission product. Mutant GDOs were generated by both random mutagenesis and site-directed mutagenesis of the gene cloned from Pseudomonas alcaligenes NCIB 9867. Alignment of known GDO sequences indicated the presence of a conserved central core region. Mutations generated within this central core resulted in the complete loss of enzyme activity whereas mutations in the flanking regions yielded GDOs with enzyme activities that were reduced by up to 78%. Site-directed mutagenesis was also performed on a pair of highly conserved HRH and HXH motifs found within this core region. Conversion of these His residues to Asp resulted in the complete loss of catalytic activity. Mutagenesis within the core region could have affected quaternary structure formation as well as cofactor binding. A mutant enzyme with increased catalytic activities was also characterized.

Molecular analysis of the pRA2 partitioning region: ParB autoregulates parAB transcription and forms a nucleoprotein complex with the plasmid partition site, parS

The partitioning locus (par) of plasmid pRA2 belongs to a recently discovered subgroup of plasmid partitioning systems that are evolutionarily distinct from the P1, F and R1/NR1 prototypes. The pRA2 par region was effective in stabilizing both pRA2 and F mini-replicons. Analysis of the nucleotide sequence revealed three potential coding regions that were designated parA, parB and parC. Through mutagenesis, parA and parB were found to be essential for partitioning function, whereas parC did not appear to be required. Using transcriptional reporter systems, it was demonstrated in vivo that ParB repressed par promoter activity by 60-fold and that ParA had little effect on transcriptional activity. Primer extension analysis revealed that the par transcriptional start point was located 47 nucleotides upstream of the parA translational start codon. Based on this information, putative -10 and -35 transcriptional signals were identified, and their subsequent deletion resulted in a dramatic reduction in promoter activity. The par promoter region was also demonstrated to exert incompatibility towards a plasmid with an active pRA2 par system. Nested deletions in this region allowed the incompatibility determinant, designated parS, to be localized. Recombinant ParA and ParB proteins were overexpressed and purified by affinity chromatography. Through in vitro binding experiments, purified ParB was shown to interact specifically with the par promoter region. DNase I footprinting revealed that ParB not only binds to the conserved sequence 5'-TCA AA(T/C) (G/C)CT CAA (A/T)A, which is present in three copies in the par promoter region, but also binds to the pRA2 partitioning site, parS. It appears that ParB has a dual role in pRA2 partitioning, being responsible for both the regulation of par transcription and the formation of a partition nucleoprotein complex at parS.

Isolation and characterization of group II introns from Pseudomonas alcaligenes and Pseudomonas putida

Group II introns isolated from Pseudomonas alcaligenes NCIB 9867, Pseudomonas putida NCIB 9869, and P. putida KT2440 were closely related with nucleotide sequence identities of between 87 and 96%. The genome of P. alcaligenes also harbored a truncated group II intron of 682 bp that lacks the gene for the intron-encoded protein (IEP). Unlike most bacterial group II introns, the Pseudomonas introns were found to lack the Zn domains in their IEPs, did not appear to interrupt any genes, and were located downstream of open reading frames which were adjacent to hairpin loop structures that resemble rho-independent terminators. These structures also contain the intron binding sites 1 and 2 (IBS1 and IBS2 sequences) that were required for intron target site recognition in transposition. One of the group II introns found in P. alcaligenes, Xln3, was shown to have transposed from the chromosome to the endogenous pRA2 plasmid at a site adjacent to IBS1- and IBS2-like sequences.

Characterization of the endogenous plasmid from Pseudomonas alcaligenes NCIB 9867: DNA sequence and mechanism of transfer

The endogenous plasmid pRA2 from Pseudomonas alcaligenes NCIB 9867 was determined to have 32,743 bp with a G+C content of 59.8%. Sequence analysis predicted a total of 29 open reading frames, with approximately half of them contributing towards the functions of plasmid replication, mobilization, and stability. The Pac25I restriction-modification system and two mobile elements, Tn5563 and IS1633, were physically localized. An additional eight open reading frames with unknown functions were also detected. pRA2 was genetically tagged with the OmegaStr(r)/Spc(r) gene cassette by homologous recombination. Intrastrain transfer of pRA2-encoded genetic markers between isogenic mutants of P. alcaligenes NCIB 9867 were observed at high frequencies (2.4 x 10(-4) per donor). This transfer was determined to be mediated by a natural transformation process that required cell-cell contact and was completely sensitive to DNase I (1 mg/ml). Efficient transformation was also observed when pRA2 DNA was applied directly onto the cells, while transformation with foreign plasmid DNAs was not observed. pRA2 could be conjugally transferred into Pseudomonas putida RA713 and KT2440 recipients only when plasmid RK2/RP4 transfer functions were provided in trans. Plasmid stability analysis demonstrated that pRA2 could be stably maintained in its original host, P. alcaligenes NCIB 9867, as well as in P. putida RA713 after 100 generations of nonselective growth. Disruption of the pRA2 pac25I restriction endonuclease gene did not alter plasmid stability, while the pRA2 minireplicon exhibited only partial stability. This indicates that other pRA2-encoded determinants could have significant roles in influencing plasmid stability.

Characterization of the Pac25I restriction-modification genes isolated from the endogenous pRA2 plasmid of Pseudomonas alcaligenes NCIB 9867

Genes for the class II Pseudomonas alcaligenes NCIB 9867 restriction-modification (R-M) system, Pac25I, have been cloned from its 33-kb endogenous plasmid, pRA2. The Pac25I endonuclease and methylase genes were found to be aligned in a head-to-tail orientation with the methylase gene preceding and overlapping the endonuclease gene by 1 bp. The deduced amino acid sequence of the Pac25I methylase revealed significant similarity with the XcyI, XmaI, Cfr9I, and SmaI methylases. High sequence similarity was displayed between the Pac25I endonuclease and the XcyI, XmaI, and Cfr9I endonucleases which cleave between the external cytosines of the recognition sequence (i.e., 5'-C CCGGG-3') and are thus perfect isoschizomers. However, no sequence similarity was detected between the Pac25I endonuclease and the SmaI endonuclease which cleaves between the internal CpG of the recognition sequence (i.e., 5'-CCCGGG-3'). Both the Pac25I methylase and endonuclease were expressed in Escherichia coli. An open reading frame encoding a protein which shows significant similarity to invertases and resolvases was located immediately upstream of the Pac25I R-M operon. In addition, a transposon designated Tn5563 was located 1531 bp downstream of the R-M genes. The location on a self-transmissible plasmid as well as the close association with genes involved in DNA mobility suggests horizontal transfer as a possible mode of distribution of this family of R-M genes in various bacteria.

Tn5563, a transposon encoding putative mercuric ion transport proteins located on plasmid pRA2 of Pseudomonas alcaligenes

Sequence analysis of pRA2, an endogenous 33-kb plasmid from Pseudomonas alcaligenes NCIB 9867 (strain P25X), revealed the presence of a 6256-bp transposon of the Tn3 family, designated Tn5563. Tn5563, which is flanked by two 39-bp inverted repeats, encodes a transposase, a resolvase, and two open reading frames which share amino acid sequence similarities with the mercuric ion transport proteins MerT and MerP encoded by several mer operons. However, no other mer operon genes were found on Tn5563. Sequencing of a RP4::XIn hybrid plasmid indicates possible interactions between pRA2 and the P25X chromosome mediated by Tn5563.

IS1491 from Pseudomonas alcaligenes NCIB 9867: characterization and distribution among Pseudomonas species

A new insertion sequence, IS1491, has been cloned and sequenced. The 2489-bp IS1491 was isolated from a Pseudomonas alcaligenes NCIB 9867 (strain P25X) 4.8-kb PstI chromosomal fragment. IS1491 is flanked by an imperfect inverted repeat of 23 bp and carries two overlapping open reading frames, ORF1 and ORF2. Both ORF1 and ORF2 displayed homology to the IstA-like and IstB-like transposases encoded by the IS21 family of insertion sequences, which include two IS elements previously isolated from P. alcaligenes P25X, IS1474, and IS1475 (Yeo, C. C., and Poh, C. L. (1997). FEMS Microbiol. Lett. 149, 257-263). Transposition assays showed that IS1491 transposed at a frequency of approximately 1.4 x 10(-6). Transposition of IS1491 into the target pRK415 replicon was observed but when ORF2 was disrupted, a fusion between the donor and target replicons was detected. IS1491-like sequences were detected in total DNA of Pseudomonas putida NCIB 9869 (strain P35X), Pseudomonas aeruginosa, Pseudomonas stutzeri, Pseudomonas syringae, Pseudomonas mendocina, Comomonas acidovorans, and Comomonas testosteroni by hybridization with IS1491 DNA.

Sequence analysis of plasmid pRA2 from Pseudomonas alcaligenes NCIB 9867 (P25X) reveals a novel replication region

The replication region of plasmid pRA2 from Pseudomonas alcaligenes NCIB 9867 (strain P25X) was localized within a 5.9-kbp DNA fragment and its sequence was determined. An interesting feature of the sequence is the presence of a 1.3-kbp region containing seven, highly conserved, direct repeats of 72 bp in length. The pRA2 replication region has two open reading frames (ORFs). ORF1 appeared to be essential for replication and had the potential to encode a novel 30-kDa protein with a predicted helix-turn-helix motif located at the C-terminal end. ORF2 was not essential for replication and may encode for a 37-kDa protein which shares 41% and 27% amino acid sequence identity to the KfrA proteins from plasmids RK2 and R751, respectively. The essential region of replication was narrowed down to 2819 nucleotides and included four of the seven 72-bp direct repeats, a potential DnaA-binding site and ORF1.

Characterization of IS1474, an insertion sequence of the IS21 family isolated from Pseudomonas alcaligenes NCIB 9867

A new insertion sequence (IS) designated IS1474 was isolated from Pseudomonas alcaligenes NCIB 9867 (P25X). IS1474 is a 2632 bp element which showed a characteristic IS structure with 12 bp inverted repeats (IRs) flanking a 2608 bp central region. IS1474 contained four open reading frames (ORF1-ORF4), two in each orientation. Similarities were detected between ORF1 and ORF2 and the putative transposases of the IS21 family. Sequences upstream from IS1474 were found to display up to 89% homology with IS53 from Pseudomonas syringae suggesting that IS1474 had inserted into another related IS element designated IS1475. An open reading frame, ORF5, located at the junction of IS1474 and IS1475, showed similarities with the IstB protein of IS21 and could possibly be the transposase subunit of IS1475. Transposition assays showed that IS1474 transposed at a relatively low frequency leading to cointegration with target plasmids. Hybridization studies showed that IS1474 is present in at least 13 copies in the chromosome of P25X and one copy on its endogenous plasmid.

IS1394 from Pseudomonas alcaligenes N.C.I.B. 9867: identification and characterization of a member of the IS30 family of insertion elements

A new insertion sequence designated IS1394 was isolated from Pseudomonas alcaligenes NCIB 9867 (P25X) by entrapment in plasmid pUCD800 which carries the Bacillus subtilis sacB and sacR genes. The 1100-bp sequence contains 27-bp inverted repeats with 4 bp mismatch and has one long open reading frame, spanning 92.1% of the entire IS. The deduced 338 amino-acid sequence demonstrated homology (varying from 65% to 78% similarity and 36-67% identity) to transposases encoded by the IS30 family of IS elements. Comparison of four different IS-sacB junction sequences showed that IS1394 generated 3-bp direct repeats of target DNA upon insertion. IS1394 is present in at least 10 copies in the P25X genome but none was detected in its endogenous plasmid pRA2. Hybridization experiments revealed that the distribution of IS1394 is limited to closely related strains, being present in three copies in Pseudomonas putida NCIB 9869 (P35X) and two copies in Pseudomonas alcaligenes ATCC type strain (ATCC 14904).

Genome fingerprinting by pulsed-field gel electrophoresis and ribotyping to differentiate Pseudomonas aeruginosa serotype O11 strains

The performance of ribotyping and pulsed-field gel electrophoresis was compared in the differentiation of a collection of 44 Pseudomonas aeruginosa serotype O11 strains isolated in seven hospitals in Singapore. Digestion of genomic DNA by EcoRI and SacI followed by Southern hybridization with the Pseudomonas aeruginosa 16S and 23S rRNA gene revealed seven distinct ribotypes. Ribotyping using a combination of both enzymes revealed 11 ribotypes. In contrast, electrophoretic analysis differentiated 41 different strain types among the 44 clinical isolates using either SpeI or DraI. Pulsed-field gel electrophoresis demonstrated greater sensitivity than ribotyping in the differentiation of Pseudomonas aeruginosa strains of the same ribotype and could thus be used alone in epidemiological investigations of hospital outbreaks of Pseudomonas aeruginosa serotype O11 infection.