Studies on the phosphomannose isomerase of Amorphophallus konjac C. Koch I. Its isolation and some enzymic properties

A method is described for isolating phosphomannose isomerasefrom young konjak corms. The enzyme is believed to catalyzethe mannose forming reaction in growing corm tissues. The purifiedenzyme preparation was free from phosphoglucose isomerase activity,and was stable at pH 6–9. Maximum enzyme activity wasobserved at pH 6.5–7.0. The molecular weight of the enzymewas estimated as 45,000 using Sephadex gel filtration. The followingkinetic parameters were obtained: Km (mannose-6-P), 0.73 mM,K_eq (fructose-6-P/mannose-6-P), 1.06 at pH 6.5, and activationenergy, 11,600 cal/mole. The enzyme was inhibited by the metalbinding agents EDTA, o-phenanthroline, and a,a'-bipyridyl. Theinhibitory effect of these agents was markedly influenced bythe pH level of the incubation mixture, being more pronouncedat pH 6 than at pH 8. ¹ This paper constitutes part 3 of studies on konjak mannanbiosynthesis. (Received March 3, 1975; )     

High Cadmium Accumulation Among Humans and Primates: Comparison Across Various Mammalian Species—A Study from Japan

The majority of existing literature reports that cadmium (Cd) is toxic to humans and most living organisms. This paper reports the results of our study that measured Cd levels in the livers and kidneys of humans and other 50 mammalian species under normal conditions in Japan. The study tests the differences in the Cd concentrations across different mammalian species and sexes. Our results revealed that (1) there is a strong correlation between the Cd levels in the livers and kidneys across all examined species, (2) humans exhibit the highest Cd accumulation level in both organs, (3) primates also show a high Cd concentration at a level close to humans, (4) mice and rats show low Cd levels in both organs, indicating that humans accumulate about a few thousand times more Cd than mice and rats, and (5) the Cd concentration of female mammals is more than double of males for both organs. Our results indicate that these cross-sex as well as cross-species discrepancies cannot be explained by the difference in daily Cd intake. While further research is necessary to determine any potential role of Cd accumulation, we speculate that Cd plays some physiological function in the renal cortex of humans and primates.     

Characterization of O-trimethylsilyl derivatives of d-glucose,d-galactose,and d-mannose by gas-liquid chromatography-chemical-ionization mass spectrometry with ammonia as reagent gas

The per(trimethylsilyl) ethers of d-glucose, d-galactose, and d-mannose were analyzed by g.l.c.-c.i.m.s. with ammonia as the reagent gas. C.i.m.s. gave simple fragmentation and fragment ions of high intensity in the high-mass range where the QM⁺ ion is also detected. The β-d anomers gave ions at m/e 558 showing intensities 3–12 times those of the α-d anomers. The epimers could be distinguished by differences in the intensities of the ions and by the observation that d-glucose gave a base peak at m/e 198, d-galactose at m/e 468, and d-mannose at m/e 204. The pyranose and furanose structures could be distinguished by comparing the ion intensities at m/e 198, m/e 271, m/e 361, m/e 396, and m/e 451. A similar analysis was also performed with 2-methylpropane as the reagent gas.     

Temperature dependence of chlorophyll {alpha} fluorescence in lettuce and spinach chloroplasts at sub-zero temperatures

The temperature dependence of chlorophyll fluorescence wasmeasured in spinach and lettuce chloroplasts at sub-zero temperaturesin the presence of 50% ethylene glycol. In the presence of 5mM Mg²⁺, a fluorescence maximum appeared at –31?C in boththe spinach and lettuce chloroplasts, while in the presenceof only 5 mM Na⁺ as cations the maximum shifted to –20?Cin the spinach chloroplasts and to –11?C in the lettucechloroplasts. Since the occurrence of a maximum in the temperatureversus fluorescence curve is an indication for the transitionof the physical phase of thylakoid membrane lipids between theliquid crystalline and the phase-separation state (16, 18),these findings suggest that the (major) phase transition ofmembrane lipids occurs at these low temperatures in chloroplastsof higher plants and also that the phase transition temperatureis markedly lowered by the presence of divalent cations. Ethylene glycol at a concentration of 50% had almost no effecton the temperature dependence of chlorophyll fluorescence ina lamellar membrane preparation of Anabaena variabilis. In awater suspension of dimyristoylphosphatidylcholine, the additionof ethylene glycol to 50% did not alter the characteristic featureof the temperature dependence of fluorescence of 1-anilinonaphthalene-8-sulfonate.These findings suggest that 50% ethylene glycol does not affectthe temperature of the transition of the physical phase of membranelipids. ¹ C.I.W.-D.P.B. Publication No. 592. ² Present Address: Department of Biophysics and Biochemistry,Faculty of Science, University of Tokyo, Hongo 113, Tokyo, Japan. (Received June 22, 1977; )     

Molecular mechanisms of DNA damage induced by procarbazine in the presence of Cu(II)

Procarbazine [N-isopropyl-alpha-(2-methylhydrazino)-p-toluamide], a hydrazine derivative, which has been shown to have effective antineoplastic activity, induces cancer in some experimental animals and humans. To clarify a new mechanism for its carcinogenic effect, we examined DNA damage induced by procarbazine in the presence of metal ion, using 32P-5'-end-labeled DNA fragments obtained from the human p53 tumor suppressor gene and the c-Ha-ras-1 protooncogene. Procarbazine plus Cu(II) induced piperidine-labile and formamidopyrimidine-DNA glycosylase-sensitive lesions at the 5'-ACG-3' sequence, complementary to a hotspot of the p53 gene, and the 5'-TG-3' sequence. Catalase partially inhibited DNA damage, suggesting that not only H(2)O(2) but also other reactive species are involved. Procarbazine plus Cu(II) significantly increased the formation of 8-oxo-7,8-dihydro-2'-deoxyguanosine, which was completely inhibited by calatase. Electron spin resonance spin-trapping experiments revealed that methyl radicals were generated from procarbazine and Cu(II). On the basis of these findings, it is considered that procarbazine causes DNA damage through non-enzymatic formation of the Cu(I)-hydroperoxo complex and methyl radicals. In conclusion, in addition to alkylation, oxidative DNA damage may play important roles in not only antitumor effects but also mutagenesis and carcinogenesis induced by procarbazine.     

Proteasome activator PA28gamma-dependent nuclear retention and degradation of hepatitis C virus core protein

Hepatitis C virus (HCV) core protein plays an important role in the formation of the viral nucleocapsid and a regulatory protein involved in hepatocarcinogenesis. In this study, we have identified proteasome activator PA28gamma (11S regulator gamma) as an HCV core binding protein by using yeast two-hybrid system. This interaction was demonstrated not only in cell culture but also in the livers of HCV core transgenic mice. These findings are extended to human HCV infection by the observation of this interaction in liver specimens from a patient with chronic HCV infection. Neither the interaction of HCV core protein with other PA28 subtypes nor that of PA28gamma with other Flavivirus core proteins was detected. Deletion of the PA28gamma-binding region from the HCV core protein or knockout of the PA28gamma gene led to the export of the HCV core protein from the nucleus to the cytoplasm. Overexpression of PA28gamma enhanced the proteolysis of the HCV core protein. Thus, the nuclear retention and stability of the HCV core protein is regulated via a PA28gamma-dependent pathway through which HCV pathogenesis may be exerted.     

Target site specificity of the Tos17 retrotransposon shows a preference for insertion within genes and against insertion in retrotransposon-rich regions of the genome

Because retrotransposons are the major component of plant genomes, analysis of the target site selection of retrotransposons is important for understanding the structure and evolution of plant genomes. Here, we examined the target site specificity of the rice retrotransposon Tos17, which can be activated by tissue culture. We have produced 47,196 Tos17-induced insertion mutants of rice. This mutant population carries approximately 500,000 insertions. We analyzed >42,000 flanking sequences of newly transposed Tos17 copies from 4316 mutant lines. More than 20,000 unique loci were assigned on the rice genomic sequence. Analysis of these sequences showed that insertion events are three times more frequent in genic regions than in intergenic regions. Consistent with this result, Tos17 was shown to prefer gene-dense regions over centromeric heterochromatin regions. Analysis of insertion target sequences revealed a palindromic consensus sequence, ANGTT-TSD-AACNT, flanking the 5-bp target site duplication. Although insertion targets are distributed throughout the chromosomes, they tend to cluster, and 76% of the clusters are located in genic regions. The mechanisms of target site selection by Tos17, the utility of the mutant lines, and the knockout gene database are discussed. --The nucleotide sequence data were uploaded to the DDBJ, EMBL, and GenBank nucleotide sequence databases under accession numbers AG020727 to AG025611 and AG205093 to AG215049.     

Protein phylogeny of translation elongation factor EF-1α suggests microsporidians are extremely ancient eukaryotes

Partial regions of the mRNA encoding a major part of translation elongation factor 1 (EF-1) from a mitochondrion-lacking protozoan,Glugea plecoglossi, that belongs to microsporidians, were amplified by polymerase chain reaction (PCR) and their primary structures were analyzed. The deduced amino acid sequence was highly divergent from typical EF-1's of eukaryotes, although it clearly showed a eukaryotic feature when aligned with homologs of the three primary kingdoms. Maximum likelihood (ML) analyses on the basis of six different stochastic models of amino acid substitutions and a maximum parsimony (MP) analysis consistently suggest that among eukaryotic species being analyzed,G. plecoglossi is likely to represent the earliest offshoot of eukaryotes. Microsporidians might be the extremely ancient eukaryotes which have diverged before an occurrence of mitochondrial symbiosis. Sequence availability: The nucleotide sequence data reported here appear in the GSDB, DDBJ, EMBL, and NCBI databases with the accession number D32139     

Copper-dependent DNA damage induced by hydrazobenzene,an azobenzene metabolite

Hydrazobenzene is carcinogenic to rats and mice and azobenzene is carcinogenic to rats. Hydrazobenzene is a metabolic intermediate of azobenzene. To clarify the mechanism of carcinogenesis by azobenzene and hydrazobenzene, we investigated DNA damage induced by hydrazobenzene, using ³²P-5′-end-labeled DNA fragments obtained from the c-Ha-ras-1 proto-oncogene and the p53 tumor suppressor gene. Hydrazobenzene caused DNA damage in the presence of Cu(II). Piperidine treatment enhanced the DNA damage greatly, suggesting that hydrazobenzene caused base modification and liberation. However, azobenzene did not cause DNA damage even in the presence of Cu(II). Hydrazobenzene plus Cu(II) caused DNA damage frequently at thymine residues. Catalase and a Cu(I)-specific chelator inhibited Cu(II)-mediated DNA damage by hydrazobenzene. Typical ^·OH scavengers did not inhibit the DNA damage. The main active species is probably a metal oxygen complex, such as Cu(I)-OOH. Formation of 8-oxo-7, 8-dihydro-2′-deoxyguanosine was increased by hydrazobenzene in the presence of Cu(II). Oxygen consumption and UV-Visible spectroscopic measurements have shown that hydrazobenzene is autoxidized to azobenzene with H₂O₂ formation. It is considered that the metal-mediated DNA damage by hydrazobenzene through H₂O₂ generation may be relevant for the expression of carcinogenicity of azobenzene and hydrazobenzene.