On the Mechanism of Action of <Emphasis Type="Italic">lac</Emphasis> Repressor

Chen et al. have proved conclusively that lac repressor and RNA polymerase bind independently to wild type lac DNA in vitro. To explain the lacp ^s mutation, which causes competitive binding between repressor and polymerase, they suggest that a new promoter site has been created near the lac operator.     

In silico characterization and transcriptomic analysis of nif family genes from <Emphasis Type="Italic">Anabaena</Emphasis> sp. PCC7120

In silico approaches in conjunction with morphology, nitrogenase activity, and qRT-PCR explore the impact of selected abiotic stressor such as arsenic, salt, cadmium, copper, and butachlor on nitrogen fixing (nif family) genes of diazotrophic cyanobacterium Anabaena sp. PCC7120. A total of 19 nif genes are present within the Anabaena genome that is involved in the process of nitrogen fixation. Docking studies revealed the interaction between these nif gene-encoded proteins and the selected abiotic stressors which were further validated through decreased heterocyst frequency, fragmentation of filaments, and downregulation of nitrogenase activity under these stresses indicating towards their toxic impact on nitrogen fixation potential of filamentous cyanobacterium Anabaena sp. PCC7120. Another appealing finding of this study is even though having similar binding energy and similar interacting residues between arsenic/salt and copper/cadmium to nif-encoded proteins, arsenic and cadmium are more toxic than salt and copper for nitrogenase activity of Anabaena which is crucial for growth and yield of rice paddy and soil reclamation.     

The effects of gibberellins and mepiquat chloride on nitrogenase activity in <Emphasis Type="Italic">Bradyrhizobium japonicum</Emphasis>

Application of plant growth regulators (PGRs) to soybean plants is known to induce changes in nitrogenase activity in root nodules, and this led us to hypothesize that PGRs would affect nitrogenase activity in free-living rhizobia cultures. Little is known about the molecular basis of the effects of PGRs on nitrogenase activity in free-living rhizobia cultures. Therefore, a comparative study was conducted on the effects of gibberellins (GA₃) and mepiquat chloride (PIX), which regulate plant growth, on the nitrogenase activity of the nitrogen-fixing bacterium Bradyrhizobium japonicum. Fix and nif gene regulation and protein expression in free-living cultures of B. japonicum were investigated using real-time PCR and two-dimensional electrophoresis after treatment with GA₃ or PIX. GA₃ treatment decreased nitrogenase activity and the relative expression of nifA, nifH, and fixA genes, but these effects were reversed by PIX treatment. As expected, several proteins involved in nitrogenase synthesis were down-regulated in the GA₃-treated group. Conversely, several proteins involved in nitrogenase synthesis were up-regulated in the PIX-treated group, including bifunctional ornithine acetyltransferase/N-acetylglutamate synthase, transaldolase, ubiquinol-cytochrome C reductase iron-sulfur subunit, electron transfer flavoprotein subunit beta, and acyl-CoA dehydrogenase. Two-pot experiments were conducted to evaluate the effects of GA₃ and PIX on nodulation and nitrogenase activity in Rhizobium-treated legumes. Interestingly, GA₃ treatment increased nodulation and depressed nitrogenase activity, but PIX treatment decreased nodulation and enhanced nitrogenase activity. Our data show that the nif and fix genes, as well as several proteins involved in nitrogenase synthesis, are up-regulated by PIX and down-regulated by GA₃, respectively, in B. japonicum.     

Quinacrine Fluorescence Patterns and Terminal DNA Labelling of Human <Emphasis Type="Italic">C</Emphasis> Group Chromosomes

THE human C group chromosomes have been difficult to study because they have rather similar morphology. Application of the quinacrine fluorescent staining technique developed by Caspersson et al.¹ now allows the identification of individual chromosomes and of the chromosome segments involved in translocations because the fluorescent patterns are not altered by the translocation^2–4. We have reported the value of this technique in analysing abnormalities of the D⁴ and G³ groups. We report here a variety of structural changes of C group chromosomes which have been characterized in this way, as well as the terminal DNA replication pattern of the C group chromosomes.     

Serology and Genetics of a New Blood Type Bm

TYPE Am, a variation of the A blood type, was discovered by Weiner et al.¹ and further studied by Salmon et al.² and HrubiSko et al.^3,4. Ikemoto et al.⁶ conducted family surveys on type Bm ⁵ in Japanese subjects. Although there have been genetic surveys and studies of the antigenicity of red cells, nobody has yet quantified the immune globulins in serum, the effect of the B and O decomposing enzymes on the Bm red cells, the genetic polymorphism of the plasma or the antigenicity of hairs and cells in the oral mucosa. Recently we surveyed a family, F, of type Bm which included monozygotic twins. We report now further surveys on some of the members of that family and discuss their antigenic relationships and Furuhata's⁷ triple allelomorph theory, that blood type antibodies are genetically determined.     

The effects of condensed tannins derived from senescing <Emphasis Type="Italic">Rhizophora mangle</Emphasis> leaves on carbon,nitrogen and phosphorus mineralization in a <Emphasis Type="Italic">Distichlis spicata</Emphasis> salt marsh soil

Background and aims

Low nitrogen negatively affects soil fertility and plant productivity. Glucose-6-phosphate dehydrogenase (G6PDH) and Epichloë gansuensis endophytes are two factors that are associated with tolerance of Achnatherum inebrians to abiotic stress. However, the possibility that E. gansuensis interacts with G6PDH in enhancing low nitrogen tolerance of host grasses has not been examined.

Methods

A. inebrians plants with (E+) and without E. gansuensis (E?) were subjected to different nitrogen concentration treatments (0.1, 1, and 7.5 mM). After 90 days, physiological studies were carried out to investigate the participation of G6PDH in the adaption of host plants to low nitrogen availability.

Results

Low nitrogen retarded the growth of A. inebrians. E+ plants had higher total dry weight, chlorophyll a and b contents, net photosynthesis rate, G6PDH activity, and GSH content, while having lower plasma membrane (PM) NADPH oxidase activity, NADPH/NADP⁺ ratios, and MDA and H₂O₂ than in E? A. inebrians plants under low nitrogen concentration.

Conclusions

The presence of E. gansuensis played a key role in maintaining the growth of the A. inebrians plants under low nitrogen concentration by regulating G6PDH activity and the NADPH/NADP⁺ ratio and improving net photosynthesis rate.

     

Effect of 6-(<Emphasis Type="Italic">p</Emphasis>-Hydroxyphenyl)-azouracil on <Emphasis Type="Italic">B. subtilis</Emphasis> DNA Polymerases

DNA replication in Bacillus subtilis^1,2 and other Gram-positive organisms³ is specifically inhibited by 6-(p-hydroxyphenyl)-azouracil (HPUra). The site of action of this compound has not so far been identified, but important progress was made by Brown et al.⁴, who studied the effect of HPUra on DNA synthesis in B. subtilis cells made permeable to externally supplied deoxynucleoside triphosphates by treatment with toluene. In this in vitro system, HPUra had no inhibitory effect when added alone, but in the presence of NADPH or dithiothreitol (DTT) the drug was reduced to a colourless form which specifically inhibited DNA synthesis.     

Transneuronal Degeneration as Basic Mechanism of Muscular Atrophy of Central Origin (Reply)

WE wish to report some findings which are relevant to the recent work of McComas et al.¹. Although our EMG examination was not so appropriate as that of McComas et al., Calcaianu and I² concluded that in some cases of central atrophy (especially those occurring with parietal tumours), spinal motoneurons released from the control of the parietal trophic centre may be disturbed.     

<Emphasis Type="Italic">Ochrobactrum intermedium</Emphasis> ANKI,a nitrogen-fixing bacterium able to decolorize azobenzene

Morphological and biochemical properties of the nitrogen-fixing strain Ochrobactrum intermedium ANKI, intensely growing on media with azo compounds, and its resistance to various common xenobiotics were investigated. The kinetics of azobenzene transformation by O. intermedium ANKI was studied. Under cometabolism conditions, up to 40 mg of azobenzene per liter of medium were decolorized within one week. It was shown that the strain possessed molybdenum-dependent nitrogenase activity, and its nitrogenase system was sensitive to oxygen and fixed nitrogen in the medium.     

Imide Products from Photo-oxidation of Bilirubin and Mesobilirubin

IN 1958 Cremer et al.¹ observed that the concentration of bilirubin (la) in the plasma could be reduced by exposing newborn infants to fluorescent light. Since that time phototherapy has come into wide use to lower elevated bilirubin levels associated with neonatal jaundice (hyperbilirubin-aemia)^{2, 3}. This condition in the newborn has been associated with retarded motor development, irreversible brain damage or even death. Phototherapy lowers bilirubin levels (by conversion of this lipid-soluble pigment to water-soluble products)⁴ and therefore presumably helps to prevent brain damage. But there are two possible dangers in this treatment: light may have other deleterious effects on the newborn and the photo-products of bilirubin may themselves be toxic. At present neither the structures of the bilirubin photo-products nor their toxicities have been established. Although the photo-destruction of bilirubin has been studied in vivo and in vitro by Ostrow^5–7, Schmid^{4, 7} and others^{8, 9}, these authors investigated principally the visible-ultraviolet spectral changes during the course of bilirubin photo-oxidation and recorded paper chromatographic separations of the photo-products for comparison with the bile or urine of the congenitally jaundiced Gunn rat. More recently McDonagh has shown that singlet oxygen is involved in the self-sensitized photo-oxidation of bilirubin¹⁰. In view of the paucity of structural.information on the bilirubin photo-products, we wish to report preliminary findings on the in vitro photo-oxidation products from bilirubin IXa (1a), mesobilirubin IXa (1b) and 5′-oxo-3′,4,4′-triethyl-3,5-dimethyl-l′,5′-dihydro-(2.2′)-dipyrrylmethene (2). We synthesized and carried out our initial studies on 2, which serves as a simplified model for rings I and II of 1a and 1b because it lacks the vinyl group of 1a and the propionic acid β-substituent of 1a and 1b. The visible-ultraviolet spectrum of 2 is quite similar to that of either 1a or 1b^11–13.     

Response to Darting Primates: Steps toward Procedural and Reporting Standards

The safety of primates which are captured and released in the wild is a topic of concern for many field primatologists. Our article and the recent commentary by Fernandez-Duque et al. contribute to the discussion. Although Fernandez-Duque et al. found a slightly higher rate of fatalities (2.5 %) than Cunningham et al. (2.0 %), their combined rate of fatal and serious injuries was lower (4.0 % vs 5.0 %). The differences in rate are not substantial, given limitations of the data. However, as Fernandez-Duque et al. highlight the need for standardizing methods of analysis, we believe the methods they suggest merit careful consideration. We agree that variation in size, habitat, and the experience of the darting team are important factors. Cunningham et al. reported the influence of these factors on injury and fatality rates. There are, however, some important differences in the methods of Cunningham et al. and Fernandez-Duque et al. We believe it is important to 1) acknowledge possible bias in the data, 2) report results of serious complications that arise during capture, 3) report results of capturing medically compromised primates, and 4) report rates of primates falling to the ground.     

The nitrite reductase activity of horse heart carboxymethylated-cytochrome <Emphasis Type="Italic">c</Emphasis> is modulated by cardiolipin

Horse heart carboxymethylated cytc (CM-cytc) displays myoglobin-like properties. Here, the effect of cardiolipin (CL) liposomes on the nitrite reductase activity of ferrous CM-cytc [CM-cytc-Fe(II)], in the presence of sodium dithionite, is reported between pH 5.5 and 7.6, at 20.0 °C. Cytc-Fe(II) displays a very low value of the apparent second-order rate constant for the NO₂ ^?-mediated conversion of cytc-Fe(II) to cytc-Fe(II)-NO [k _on = (7.3 ± 0.7) × 10^?2 M^?1 s^?1; at pH 7.4], whereas the value of k _on for NO₂ ^? reduction by CM-cytc-Fe(II) is 1.1 ± 0.2 M^?1 s^?1 (at pH 7.4). CL facilitates the NO₂ ^?-mediated nitrosylation of CM-cytc-Fe(II) in a dose-dependent manner, the value of k _on for the NO₂ ^?-mediated conversion of CL–CM-cytc-Fe(II) to CL–CM-cytc-Fe(II)-NO (5.6 ± 0.6 M^?1 s^?1; at pH 7.4) being slightly higher than that for the NO₂ ^?-mediated conversion of CL–cytc-Fe(II) to CL–cytc-Fe(II)-NO (2.6 ± 0.3 M^?1 s^?1; at pH 7.4). The apparent affinity of CL for CM-cytc-Fe(II) is essentially pH independent, the average value of B being (1.3 ± 0.3) × 10^?6 M. In the absence and presence of CL liposomes, the nitrite reductase activity of CM-cytc-Fe(II) increases linearly on lowering pH and the values of the slope of the linear fittings of Log k _on versus pH are ?1.05 ± 0.07 and ?1.03 ± 0.03, respectively, reflecting the involvement of one proton for the formation of the transient ferric form, NO, and OH^?. These results indicate that Met80 carboxymethylation and CL binding cooperate in the stabilization of the highly reactive heme-Fe atom of CL–CM-cytc.     

Regulatory Properties of Intergeneric Hybrids of Aspartate Transcarbamylase

THE regulatory enzyme aspartate transcarbamylase (ATCase) from Escherichia coli contains two non-identical protein sub-units, one the catalytic subunit which provides the active sites of the enzyme and the other the regulatory subunit which provides the binding sites for nucleotide inhibitors and activators^1,2. The catalytic subunit is a trimer of “C” polypeptide chains, associated by three heterologous c: c domains of bonding (terminology given by Monod et al.³ and Cohlberg et al.⁴). The regulatory subunit is a dimer of “R” chains, associated by an isologous r: r domain. Two catalytic and three regulatory subunits interact specifically across six r: c domains of inter-subunit bonding to complete the quaternary structure of the ATCase molecule.     

Carbenicillin as Inhibitor of β-Lactamase from <Emphasis Type="Italic">Pseudomonas aeruginosa</Emphasis>

CARBENICILLIN was produced as a new, semi-synthetic penicillin with antibacterial activity against Pseudomonas aeruginosa and some other microorganisms¹, but this compound was known to be destroyed by staphylococcal penicillinase². Newsom et al.³ described the substrate profile of a constitutive β-lactamase from one strain of Pseudomonas aeruginosa and reported the hydrolysis of carbenicillin at a rate higher than benzylpenicillin. When compared with the inducible enzyme described by Sabath et al.⁴, it differed both in the substrate profile and the ability to hydrolyse carbenicillin. Lack of activity of the inducible enzyme on carbenicillin was also reported by Garber and Friedman⁵ when studying eight strains of Pseudomonas aeruginosa. Sykes and Richmond⁶ were able to identify three types of β-lactamases among fifty-six strains of Pseudomonas aeruginosa according to induci-bility, substrate profile and activity on carbenicillin. Type I (Sabath et al.⁴) was inducible, highly active on cephaloridine and showed no activity on carbenicillin. Types II (Sykes and Richmond⁷) and III (Newsom et al.³) were constitutive and inactivated carbenicillin at different rates. Only the constitutive enzymes conferred resistance towards carbenicillin. We have investigated the activity on carbenicillin of β-lactamases from strains of Pseudomonas aeruginosa isolated from clinical specimens. Activity on benzylpenicillin and cephaloridine was also studied.     

Reactive oxygen and nitrogen species’ effect on <Emphasis Type="Italic">lux</Emphasis>-biosensors based on <Emphasis Type="Italic">Escherichia coli</Emphasis> and <Emphasis Type="Italic">Salmonella typhimurium</Emphasis>

The effect of reactive oxygen and nitrogen species on lux-biosensors based on the Escherichia coli K12 MG1655 and Salmonella typhimurium LT2 host strains was investigated. The bioactivity of exogenous free radicals to the constitutively luminescent E. coli strain with plasmid pXen7 decreased in the order H₂O₂ > OCl^– > NO^? > RОO^? > ONOO^–> O₂^?- while the bioluminescence of S. typhimurium strain transformed with this plasmid decreased in the order NO^? > H₂O₂ > ONOO^– > RОO^? > OCl^– > O₂^?- The cross-reactivity of induced lux-biosensors to reactive oxygen and nitrogen species, the threshold sensitivity and the luminescence amplitude dependences from the plasmid specificity and the host strain were indicated. The biosensors with plasmid pSoxS′::lux possessed a wider range of sensitivity, including H₂O₂ and OCl^–, along with O₂^?- and NO^?. Among the used reactive oxygen and nitrogen species, H₂O₂ showed the highest induction activity concerning to the plasmids pKatG′::lux, pSoxS′::lux and pRecA′::lux. The inducible lux-biosensors based on S. typhimurium host strain possessed a higher sensitivity to the reactive oxygen and nitrogen species in comparison with the E. coli lux-biosensors.     

Mutant tRNA<Superscript>His</Superscript> Ineffective in Repression and Lacking Two Pseudouridine Modifications

TRANSFER RNA has been implicated in the regulation of a number of amino-acid biosynthetic operons^1–4. Histidyl-tRNA^His has been shown to be involved in regulation of the histidine operon by analysis of six genes (hisO, hisR, hisS, hisT, hisU, hisW), mutation of which causes derepression of the enzymes of the histidine biosynthetic pathway in Salmonella typhimurium^5–7. A class of derepressed mutants (hisR) has only about 55% as much tRNA^His as the wild type⁴ and in the one example sequenced, contains tRNA^HIS with a structure identical to that of the wild type⁸. Studies of mutants of the gene for histidyl-tRNA synthetase (hisS) indicated that the derepressed phenotype was associated with defects in the charging of tRNA^HISin vitro². The amounts of charged and uncharged tRNA^His present in vivo during physiological derepression of the wild type and in the six classes of regulatory mutants, have been determined⁹. This work has shown that repression of the histidine operon is correlated directly with the concentration of charged histidyl-tRNA^Hisin vivo and not with the ratio of charged to uncharged or the absolute amount of uncharged tRNA^His. The derepression observed in mutants, of hisS (the gene for histidyl-tRNA synthetase), hisR (the presumed structural gene for the single species of tRNA^His) and hisU and hisW (genes presumably involved in tRNA modification) may be explained by the lower cellular concentration of charged tRNA^His which these mutants contain.     

Biological fixation of nitrogen and growth of bacteria of the genus <Emphasis Type="Italic">Azotobacter</Emphasis> in liquid media in the presence of perfluorocarbons

The addition of perfluorocarbons (perfluorodecalin, carbogal, and perfluoromethyldecalin) to nitrogen-free liquid media during the submerged cultivation of bacteria of the genus Azotobacter was followed by (1) increases in biomass accumulation and nitrogenase activity and (2) fixation of molecular nitrogen. Addition of perfluorodecalin (5 vol %) to the culture medium of A. chroococcum ACB 121 contributed to increases in biomass accumulation, cell concentration (of more than by five times), nitrogenase activity (of 3.4 times), and total nitrogen content in the medium (of 4.5 times).     

Molecular characterization and expression analysis of the Na<Superscript>+</Superscript>/H<Superscript>+</Superscript> exchanger gene family in <Emphasis Type="Italic">Medicago truncatula</Emphasis>

One important mechanism plants use to cope with salinity is keeping the cytosolic Na⁺ concentration low by sequestering Na⁺ in vacuoles, a process facilitated by Na⁺/H⁺ exchangers (NHX). There are eight NHX genes (NHX1 through NHX8) identified and characterized in Arabidopsis thaliana. Bioinformatics analyses of the known Arabidopsis genes enabled us to identify six Medicago truncatula NHX genes (MtNHX1, MtNHX2, MtNHX3, MtNHX4, MtNHX6, and MtNHX7). Twelve transmembrane domains and an amiloride binding site were conserved in five out of six MtNHX proteins. Phylogenetic analysis involving A. thaliana, Glycine max, Phaseolus vulgaris, and M. truncatula revealed that each individual MtNHX class (class I: MtNHX1 through 4; class II: MtNHX6; class III: MtNHX7) falls under a separate clade. In a salinity-stress experiment, M. truncatula exhibited ~?20% reduction in biomass. In the salinity treatment, sodium contents increased by 178 and 75% in leaves and roots, respectively, and Cl^? contents increased by 152 and 162%, respectively. Na⁺ exclusion may be responsible for the relatively smaller increase in Na⁺ concentration in roots under salt stress as compared to Cl^?. Decline in tissue K⁺ concentration under salinity was not surprising as some antiporters play an important role in transporting both Na⁺ and K ⁺ . MtNHX1, MtNHX6, and MtNHX7 display high expression in roots and leaves. MtNHX3, MtNHX6, and MtNHX7 were induced in roots under salinity stress. Expression analysis results indicate that sequestering Na⁺ into vacuoles may not be the principal component trait of the salt tolerance mechanism in M. truncatula and other component traits may be pivotal.     

Polymorphism of <Emphasis Type="Italic">yellow</Emphasis> locus in <Emphasis Type="Italic">Drosophila melanogaster</Emphasis> mutants from natural populations

We have studied the molecular characteristics of the yellow locus (y; 1–0.0), which determines the body color of phenotypically wild-type and mutant alleles isolated in different years from geographically distant populations of Drosophila melanogaster. According to the Southern blot, data restriction maps of the yellow locus of all examined strains differ from one another, as well as from Oregon stock. FISH analysis shows that, in the neighborhood of the yellow locus in the X chromosome, neither P nor hobo elements are found in y^1–775 stock, while only hobo is found in these region in y^1–859 and y^1–866 stocks, only the P element is found in y⁺sn⁸⁴⁹ stock, and both elements are found in y^1–719 stock. Thus, all yellow mutants studied are of independent origin. Locus yellow located on the end of X chromosome (region 1A5–8 on the cytologic map) carries significantly more transposon than retrotransposon induced mutations compared to the white locus (region 3C2). It is possible that, at the ends of Drosophila melanogaster chromosomes, transposons are more active than retrotransposons.