Characterization of three strains of Capnocytophaga canis isolated from patients with sepsis

Capnocytophaga canimorsus and Capnocytophaga cynodegmi, both commensal bacteria in the oral cavities of dogs and cats, are zoonotic pathogens. In particular, C. canimorsus causes sepsis and fatal septic shock. Recently, a novel Capnocytophaga species, C. canis, was isolated from the oral cavities of healthy dogs. It is reportedly oxidase‐negative and therefore considered avirulent in humans. In the present study, three strains of C. canis were isolated from Japanese patients with sepsis. All three strains, HP20001, HP33001 and HP40001, were oxidase‐positive. Nucleotide sequence identities of the 16S rRNA gene of the three strains to the C. canimorsus type strain ATCC35979, C. cynodegmi type strain ATCC49044 and C. canis type strain LMG29146 were 96.9–97.0%, 96.9–97.0% and 99.7–99.8%, respectively. Multi‐locus sequence analysis based on seven house‐keeping genes, dnaJ, fumC, glyA, gyrB, murG, trpB and tuf, revealed that the oxidase‐positive C. canis strains isolated in Japan and oxidase‐negative strains of C. canis from canine oral cavities in Switzerland were clustered in different genetic subgroups. These results indicate that the virulence of C. canis strains in humans is associated with oxidase activity.

     

Identification of proteins that bind to the neuroprotective agent neoechinulin A

Neoechinulin A is an indole alkaloid with several biological activities. We previously reported that this compound protects neuronal PC12 cells from cytotoxicity induced by the peroxynitrite generator 3-morpholinosydnonimine (SIN-1), but the target proteins and precise mechanism of action of neoechinulin A were unclear. Here, we employed a phage display screen to identify proteins that bind directly with neoechinulin A. Our findings identified two proteins, chromogranin B and glutaredoxin 3, as candidate target binding partners for the alkaloid. QCM analyses revealed that neoechinulin A displays high affinity for both chromogranin B and glutaredoxin 3. RNA interference-mediated depletion of chromogranin B decreased the sensitivity of PC12 cells against SIN-1. Our results suggested chromogranin B is a plausible target of neoechinulin A.     

Metabolic pathway of 6-aminohexanoate in the nylon oligomer-degrading bacterium Arthrobacter sp. KI72: identification of the enzymes responsible for the conversion of 6-aminohexanoate to adipate

Arthrobacter sp. strain KI72 grows on a 6-aminohexanoate oligomer, which is a by-product of nylon-6 manufacturing, as a sole source of carbon and nitrogen. We cloned the two genes, nylD ₁ and nylE ₁ , responsible for 6-aminohexanoate metabolism on the basis of the draft genomic DNA sequence of strain KI72. We amplified the DNA fragments that encode these genes by polymerase chain reaction using a synthetic primer DNA homologous to the 4-aminobutyrate metabolic enzymes. We inserted the amplified DNA fragments into the expression vector pColdI in Escherichia coli, purified the His-tagged enzymes to homogeneity, and performed biochemical studies. We confirmed that 6-aminohexanoate aminotransferase (NylD₁) catalyzes the reaction of 6-aminohexanoate to adipate semialdehyde using α-ketoglutarate, pyruvate, and glyoxylate as amino acceptors, generating glutamate, alanine, and glycine, respectively. The reaction requires pyridoxal phosphate (PLP) as a cofactor. For further metabolism, adipate semialdehyde dehydrogenase (NylE₁) catalyzes the oxidative reaction of adipate semialdehyde to adipate using NADP⁺ as a cofactor. Phylogenic analysis revealed that NylD₁ should be placed in a branch of the PLP-dependent aminotransferase sub III, while NylE₁ should be in a branch of the aldehyde dehydrogenase superfamily. In addition, we established a NylD₁/NylE₁ coupled system to quantify the aminotransferase activity and to enable the conversion of 6-aminohexaoate to adipate via adipate semialdehyde with a yield of > 90%. In the present study, we demonstrate that 6-aminohexanoate produced from polymeric nylon-6 and nylon oligomers (i.e., a mixture of 6-aminohexaoate oligomers) by nylon hydrolase (NylC) and 6-aminohexanoate dimer hydrolase (NylB) reactions are sequentially converted to adipate by metabolic engineering technology.

     

Action Selection and Flexible Switching Controlled by the Intralaminar Thalamic Neurons

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Stabilization by GroEL, a Molecular Chaperone, and a Periplasmic Fraction, as Well as Refolding in the Presence of Dithiothreitol, of Acid-Unfolded Dimethyl Sulfoxide Reductase, a Periplasmic Protein of Rhodobacter sphaeroides f. sp. denitrificans

The mechanisms of folding of a periplasmic protein was studiedin vitro using dimethyl sulfoxide reductase (DMSOR), a periplasmicenzyme of Rhodobacter sphaeroides f. sp. denitrificans. WhenDMSOR was denatured by acidification to pH 2 at 30°C, themolybdenum cofactor was immediately released and unfolded formsof DMSOR appeared within 2 min. When the acid-unfolded DMSORhas been incubated in refolding buffer (pH 8.0) at 20°Cfor 2 h, it became almost undetectable after electrophoresison a non-denaturing gel. This result suggests that the acid-unfoldedDMSOR might have aggregated after incubation. The aggregationwas suppressed by incubation in the presence of commercial GroEL,a molecular chaperone. When reduced dithiothreitol (DTT) wasadded to the acid-unfolded forms in the presence of GroEL, someof the DMSOR was converted to the native form, which had thesame mobility on a non-denaturing gel as the active emzyme.Non-reducing SDS-polyacrylamide gel electrophoresis of the acid-unfoldedforms of DMSOR indicated that the unfolded forms were a mixtureof heterogeneously folded or misfolded forms and that theirforms were converted by DTT to the fully reduced form. The periplasmicfraction of the phototroph was also able to suppress the aggregationof the acid-unfolded DMSOR, and a protein(s) with a molecularmass of about 40 kDa in the periplasm was revealed to have stabilizingactivity. It appears that there exists a mechanism whereby theunfolded DMSOR that is secreted into the periplasm is maintainedin a non-aggregated and reduced form during folding to the nativeform. (Received November 4, 1995; Accepted February 8, 1996)     

A cytokinin-binding protein complex from tobacco leaves

A cytokinin binding protein complex (CBP130) has been purified from tobacco leaves (Nicotiana sylvestris). It contains two protein species of 57 and 36 kDa (CBP57 and CBP36). The cDNAs encoding CBP57 have been isolated from a tobacco cDNA library. Their predicted amino acid sequences showed significant homology between CBP57 and S-adenosyl-L-homocysteine (SAH) hydrolase, which catalyzes the reversible hydrolysis of SAH, a methyltransferase inhibitor. A combination of gel filtration an western blot analysis revealed that both CBP57 and benzyladenine (BA)-binding activity were eluted at a peak of 130 kDa. A purified CBP130 fraction contains SAH hydrolase activity. We discuss possible CBP57 as a cytokinin receptor subunit and its possible role as a regulator of methylation.     

Murine polo like kinase 1 gene is expressed in meiotic testicular germ cells and oocytes

To identify key molecules that regulate germ cell proliferation and differentiation, we have attempted to isolate protein kinase genes preferentially expressed in germ line cells. One such cDNA cloned from murine embryonic germ(EG) cells encodes a nonreceptor type serine/threonine kinase and is predominantly expressed in the testis, ovary, and spleen of adult mouse. The nucleotide sequence of the entire coding region shows that this clone, designated Plk1(polo like kinase 1), is identical with STPK13 previously cloned from murine erythroleukemia cells. The protein encoded by Plk1 is closely related to the product of Drosophila polo that plays a role in mitosis and meiosis. To define the role of Plk1 in germ cell development, we have examined its expression in murine gonads by in situ hybridization. Here we show that the PlK1 gene is specifically expressed in spermatocytes of diplotene and diakinesis stage, in secondary spermatocytes, and in round spermatids in testes. It is also expressed in growing oocytes and ovulated eggs. The pattern of expression of the Plk1 gene suggests that the gene product is involved in completion of meiotic division, and like the Drosophila polo protein, is a maternal factor active in embryos at the early cleavage stage. © 1995 Wiley-Liss, Inc.     

Use of species- and strain-specific PCR primers for identification of conifer root-associated Bacillus spp.

Abstract A polymerase chain reaction amplification of 23S rDNA was developed to identify Bacillus spp. recovered from roots, mycorrhizae, and rhizosphere soil of conifers. The polymerase chain reaction incorporated a conserved 23S rDNA forward primer in combination with a reverse primer designed to hybridize exclusively to nucleotide sequences of either B. polymyxa or B. mycoides . The amplification provided a rapid and simple means of identifying DNA from isolates of Bacillus , and could be used directly on whole Bacillus cells or mixed populations. The reaction was used to detect and differentiate these Gram-positive species from agar plates inoculated with samples from various conifer samples. A strain-specific primer was also synthesized and used to identify Bacillus which were established within conifer roots 4 weeks after inoculation.     

Transient expression of β-glucuronidase in plastids of various plant cells and tissues delivered by a pneumatic particle gun

Chloroplast expression plasmids pTRBCL-GUS (tobaccorbcL promoter-gusA-tobaccorbcL terminator) and pHHU3004 (spinach ‘x gene’ promoter-gusA-spinachrbcL terminator) and a control nuclear expression plasmid pBI221 (CaMV 35S promoter-gusA-NOS terminator) were introduced separately into cultured cells and tissues of tobacco andArabidopsis thaliana, as well as into cultured cells of the lower land plants liverwort and hornwort by a pneumatic particle gun. The pTRBCL-GUS and pHHU3004 plasmids produced many blue spots in the BY-2 cells and the roots ofArabidopsis thaliana, but not in any of the green cells or tissues. The results suggest that the pTRBCL-GUS and pHHU3004 plasmids are expressed more in proplastids and amyloplasts than in chloroplasts. GUS activities of the BY-2 cells bombarded with pTRBCL-GUS and pHHU3004 were insensitive to α-amanitin treatment (10 and 50 μg/ml), while that of the cells with pBI221 greatly decreased by the same treatment. Hence, it is likely that the pTRBCL-GUS and pHHU3004 plasmids were substantially expressed in the proplastids.     

Effects of selective α1A-adrenoceptor antagonists on reperfusion arrhythmias in isolated rat hearts

Stimulation of ₁-adrenoceptors (AR) during ischaemia in the rat heart by exogenous phenylephrine exacerbates reperfusion arrhythmias, an effect apparently mediated by the _1A-AR subtype. We tested whether _1A-AR stimulation byendogenous catecholamines, released during ischaemia, could modulate reperfusion arrhythmias, using as pharmacological tools the selective _1A-AR antagonists abanoquil (UK52046) and WB4101. Isolated rat hearts (n=12/group) were subjected to dual coronary perfusion. After 15 min of aerobic perfusion of both coronary beds, abanoquil or WB4101 was infused selectively into the left coronary bed (LCB) for 5 min. The LCB was then subjected to 10 min of zero-flow ischaemia and 5 min of reperfusion. Effects on PR interval, width of the ventricular complex (QRST₉₀) and reperfusion arrhythmias were assessed. Abanoquil at concentrations of 0.03, 0.1 and 0.3 M tended to reduce the incidence of reperfusion-induced ventricular fibrillation (VF) in a dose-dependent manner from 75% in controls to 58, 33 and 25%, but this effects did not achieve statistical significance. Similarly, WB4101 at 0.1, 0.3 and 1 M also tended to reduce VF incidence from 67% in controls to 67, 42% and 33% (NS). The incidence of ventricular tachycardia (VT) was 100% in all groups and ECG parameters were not altered significantly by either drug. These results suggest that, in this denervated isolated heart preparation, _1A-AR stimulation during ischaemia by endogenous catecholamines does not significantly modulate reperfusion arrhythmias.