Hexahydroindanone derivatives of steroids formed by Rhodococcus equi

Summary A mutant strain of Rhodococcus equi accumulates three metabolites from the androst-4-ene-3,17-dione or from its degradation intermediate, 3a-H-4(3'-propionic acid)-7a-methylhexahydro-1,5-indanedione (MEPHIP). These three metabolites are: 3a-H-4a(3'-propionic acid)-5-hydroxy-7a-methylhexahydro-1-indanone--lactone (HIL); 3a-H-4(3'-trans acrylic acid)-5-hydroxy-7a-methylhexahydro-1-indanone (^2'-5-hydroxy-MEPHIP); and 3a-H-4(3'-hydroxy-3'-propionic acid)-5-hydroxy-7a-methylhexahydro-1-indanone (3'-hydroxy-HIL). The behaviour of this mutant allows us to propose a pathway for degradation of the intermediates, methylperhydroindanone propionates. However, during this degradation, the side-chain propionate was eliminated by a-oxidation mechanism. Offprint requests to: A. Miclo     

Transformation of 16-dehydroprogesterone and 17α-hydroxyprogesterone by Mucor piriformis

Mucor piriformis was used to study the mode of transformation of 16-dehydroprogesterone (I, pregna-4, 16-diene-3, 20-dione) and 17-hydroxyprogesterone (II, 17-hydroxypregn-4-ene-3, 20-dione). Biotransformation products formed from I were 14-hydroxypregna-4, 16-diene-3, 20-dione (Ia), 7, 14-dihydroxypregna-4, 16-diene-3, 20-dione (Ib), 3, 7, 14-trihydroxy-5-pregn-16-en-20-one (Ic), and 3, 7, 14-trihydroxy-5-pregn-16-en-20-one (Id). Metabolites Ic and Id appear to be hitherto unknown. Time-course studies suggested that the transformation is initiated by hydroxylation at the 14-position (Ia) followed by hydroxylation at the 7-position (Ib). Microsomes (105,000 g sediment) prepared from 16-dehydroprogesterone-induced cells hydroxylate I to its 14-hydroxy derivative (Ia) in the presence of NADPH. Incubation of Ia with the organism resulted in the formation of Ib, Ic and Id. Biotransformation products formed from compound II were 17, 20-dihydroxypregn-4-en-3-one (IIa), 7, 17-dihydroxypregn-4-ene-3, 20-dione (IIb), 6, 17, 20-trihydroxypregn-4-en-3-one (IIc) and 11, 17, 20-trihydroxypregn-4-en-3-one (IId). Time-course studies indicated that IIa is the initial product formed, which is further hydroxylated either at the 6 or 11 position. Incubation of IIa with the organism resulted in the formation of IIc and IId. Reduction of the 4-en-3-one system and 20-keto group has not been observed before in organisms of the order Mucorales. In addition, M. piriformis has been shown to carry out hydroxylation at the C-6, C-7, C-11 and C-14 positions in the steroid molecules tested.     

Specific in vitro phosphorylation of plant eIF2α by eukaryotic eIF2α kinases

Phosphorylation of the subunit of eukaryotic initiation factor 2 (eIF2) is known to be an important translational control mechanism in all eukaryotes with the major exception of plants. Regulation of mammalian and yeast eIF2 activity is directly governed by specific phosphorylation on Ser-51. We now demonstrate that recombinant wheat wild-type (51S) but not mutant 51-Ala (51A) protein is phosphorylated by human PKR and yeast GCN2, which are defined eIF2 kinases. Further, only wheat wild-type eIF2 is a substrate for plant-encoded, double-stranded RNA-dependent kinase (pPKR) activity. Plant PKR and GCN2 phosphorylate recombinant yeast eIF2 51S but not the 51A mutant demonstrating that pPKR has recognition site capability similar to established eIF2 kinases. A truncated version of wild-type wheat eIF2 containing 51S but not the KGYID motif is not phosphorylated by either hPKR or pPKR suggesting that this putative eIF2 kinase docking domain is essential for phosphorylation. Taken together, these results demonstrate the homology among eukaryotic eIF2 species and eIF2 kinases and support the presence of a plant eIF2 phosphorylation pathway.     

The effect of monoterpenes on astaxanthin production by a mutant ofPhaffia rhodozyma

Summary The total pigment and astaxanthin content ofPhaffia rhodozyma increased with increasing concentrations -pinene up to 500 l -pinene/l. Above this concentration the total pigment and astaxanthin content as well as the biomass production decreased. The addition of 500 l -pinene/l increased the total pigment content from 1652 g/g to 2201 g/g and the astaxanthin content from 1554 g/g to 1883 g/g. A sharp decrease in maximum specific growth rate occurred above 150 l -pinene/l.     

Characterization of Na,K-ATPase genes in Atlantic salmon (<Emphasis Type="Italic">Salmo salar</Emphasis>) and comparative genomic organization with rainbow trout (<Emphasis Type="Italic">Oncorhynchus mykiss</Emphasis>)

A combination of molecular and in silico approaches was employed to assemble a survey of Na, K-ATPase genes contained in the ancestrally tetraploid genome of the Atlantic salmon (Salmo salar). Molecular characterization of genomic clones coding for the subunit revealed two single genes (1a and 2) and two pairs of presumably homeologous genes (1b/i-ii and 1c/i-ii). Each of the six genes showed high sequence similarity to isoforms previously isolated from rainbow trout and extensive structural differences relative to putative orthologs in the human genome. In silico analysis of expressed sequence tag (EST) collections indicated that at least five (1a, 1b, 1c, 2, and 3) and four (1a, 1b, 2, and 3b) subunit isoforms are expressed in Atlantic salmon. Meiotic linkage analysis further showed that Na, K-ATPase genes are dispersed throughout the salmon genome, with the exception of two multigene clusters on linkage groups AS-22 and AS-28. Duplicate gene copies for the isoform 1b were assigned to linkage groups with multiple homeologous anchors (AS-22 and AS-23), while 2 duplicates suggested a new homeologous affinity between AS-05 and AS-28. In addition, the comparison of linkage arrangements with rainbow trout also showed that the genomic organization of Na, K-ATPase genes is consistent with the evolutionary conservation of syntenic chromosome regions between these species.Electronic Supplementary Material Supplementary material is available for this article at .     

Production of N-glycolylneuraminic acid derived from chemically modifiedE. coli Kl bacterial polysaccharide by membrane enclosed enzymatic catalysis

Summary N-Glycolylneuraminic acid (Neu5Gc) has been prepared by enzymatic hydrolysis of its -(28) linked homopolymer. The rate of hydrolysis of the natural poly -(28)-(Neu5Ac) and the semi-synthetic poly -(28)-(Neu5Gc) were compared with the neuraminidases fromClostridium perfringens andVibrio cholerae. The natural Neu5Ac polysaccharide was a better substrate for both enzymes. For comparison, acid hydrolysis of the two polysaccharides showed extensive degradation.     

Identification and characterization of the functional alpha origin of DNA replication of the R6K plasmid and its relatedness to the R6K beta and gamma origins

Summary The functional R6K origin is composed of two DNA elements, one of 580 bp carrying the origin sequences and the other of 277 bp containing the seven 22 bp direct repeats previosly identified as also required for and origin activity. These two genetic elements are separated by approximately 3,000 bp of R6K sequences which are dispensable for origin activity. The function of the origin depends on the presence in cis of the 580 bp and the 277 bp fragments and requires that they be oriented as in the intact R6K. Activation of the origin depends on the R6K replication initiation protein .Within the 580 bp of the origin, there is a sequence of 98 bp which appears as an inverted repeat of 96 bp in the replicon. Deletion of the 96 bp or 98 bp results in inactivation of the and the origins respectively. These long repeats are palindromic and it is suggested that these may serve as the recognition signals for initiation of DNA replication in the and the origins of R6K. DNA homology analysis performed on , and origin sequences, also reveals 10–23 bp sequences in the and the origins that are related to the family of 22 bp direct repeats in the origin which were shown previously to be binding sites for the protein.     

Some observations on cyclodextrin-mediated boosting of secreted amylolytic enzymes byLactobacillus amylovorus

The amounts of a 160-kDa amylase and a 140-kDa -amylase (A. Burgess-Cassler and S. H. Imam, Curr. Microbiol. 23:207–213, 1991) secreted into culture medium by the starchutilizingLactobacillus amylovorus were enhanced by the use of cyclodextrin (CD) as the carbon source. The levels of total extracellular -amylase obtained with glucose as the carbon source could be boosted severalfold by use of CD. The best enhancer was -CD, and the rank order of best to least effective was -CD>-CD=-CD>glucose.Another amylase, a 65-kDa -amylase, which degraded para-nitrophenyl-(1,4)-d-glucopyranoside, was also detected in this study. The most effective enhancer in this case was -CD, and the rank order was -CD>-CD>-CD glucose. Despite its ability to degradep-nitrophenylated glucose, this enzyme did not convert maltose to glucose. It showed a cleared zone on starch zymograms and did degrade short maltodextrins to maltose. Neither this new -amylase nor the 140-kDa -amylase exhibited any detectable ring-decyclizing (cyclodextrinase) activity against -or -CD.Other extracellular amylases (not characterized here) appeared to be similarly enhanced by CDs. Although the precise mechanism by which this effect is accomplished remains undefined, CDs can be useful inducing agents, boosting the expression and/or secretion of otherwise low-level enzymes, either as additives to growth media or as sole carbon source.     

Primary structure of alpha-globin chains from river buffalo (Bubalus bubalis L.) hemoglobins

Primary structure analysis of the four river buffalo -globin chains showed that haplotypes A and B differ from each other by a substitution at codon 64 that may encode Ala or Asn. The A haplotype encodes two -globin chains, ^I1 and ^II3, which differ at positions 129 and 131: ^I1 has 64 Ala, 129 Phe, 131 Asn; ^II3 has 64 Ala, 129 Leu, 131 Ser. The B haplotype encodes two -globin chains, ^I2 and ^II4, which differ at positions 10 and 11: ^I2 has 10 Ile, 11 Gln, 64 Asn; ^II4 has 10 Val, 11 Lys, 64 Asn. Apart from the Ala/Asn polymorphism at position 64, amino acid substitutions in allelic and nonallelic -globin chains seem to have arisen by single point mutations. Detection of electrophoretically silent mutations due to neutral amino acid substitutions and their influence on the isoelectric point are discussed. Furthermore, primary structures of river buffalo -globin chains are compared to other species of the Bovidae family to suggest evolutionary events that have characterized the amino acid substitutions of river buffalo hemoglobin.     

Microphotometric determination of enzyme activities in type-grouped fibres of reinnervated rat muscle

Summary Activities of succinate dehydrogenase (SDH), glycerolphosphate oxidase (GP-OX), cytochrome oxidase (CYT-OX) and lactate dehydrogenase (LDH) were determined microphotometrically in single, actomyosin-ATPase typed (Guth and Samaha 1970) fibres within cross-sections of normal and reinnervated rat tibialis anterior muscles. SDH and GP-OX activities displayed pronounced scattering and large overlaps existed between -, -, and -fibres of normal muscle. Coefficients of variation were in the range of 16–40% for GP-OX and SDH in the different fibre populations. Enzyme activity determinations in typegrouped -, -, and -fibres of reinnervated muscle showed much less scattering than in normally distributed -, -, and -fibres of control muscles. Coefficients of variation were in the range of 10–13% for SDH, GP-OX, CYT-OX and LDH. The experimental error of the kinetic microphotometric measurement of enzyme activities in situ is in the range of 10% (Reichmann and Pette 1982). Our results therefore suggest a high degree of metabolic similarity or homogeneity of typed-grouped muscle fibres and thus support the assumption that type-groped fibres are homogeneous and correspond to regularly assembled motor units.     

Analysis of crossover type in the α-3·7 haplotype among sickle cell anemia patients from various parts of Africa

Summary The frequency of ⁺-thalassmia has been determined in African populations carrying ^s-chromosomes of different origins. All these ⁺ thalassemias result from a right-ward deletion. Restriction mapping of the ^-3·7/haplotype with the enzyme ApI only showed the presence of a type I crossover. RsaI polymorphism at the 5 end of Z₂ is largely represented in the normal population (gene frequency 23%) but, in our series, never associated with the ^-3·7/haplotype.     

ααααanti-3.7 type II: a new α-globin gene rearrangement suggesting that the α-globin gene duplication could be caused by intrachromosomal recombination

Summary We report here a new human -globin gene rearrangement carrying the two normal, 2 and 1, and two hybrid, 1/2, globin genes in the order 5-2-1/2-1/2-1-3. Both the hybrid genes, subtyped with ApaI and RsaI restriction enzymes, were found to be of the uncommon anti 3.7 type II. The hybrid genes were expressed at the biosynthetic level and their interaction with the -thalassaemia IVS 1 nt 1 GA mutation caused thalassaemia intermedia. We also report a case of an -globin gene rearrangement in the twin of one of the -globin gene carriers; the duplicated gene was of the anti 4.2 type and was associated with the absence of RsaI polymorphism. The singular finding of an -anti 3.7 cluster with two identical rare hybrid genes suggests that the reciprocal unequal recombination causing the -globin gene rearrangements could be of the intra-chromosomal rather than the interchromosomal type.     

Transglycosylation reactions by exoglycosidases from the termite Macrotermes subhyalinus

The ability of four exoglycosidases (-galactosidase, -glucosidase, -glucosidase and invertase) from the termite Macrotermes subhyalinus to catalyse tranglycosylation reactions was tested using lactose, cellobiose, maltose and sucrose as glycosyl donors and 2-phenylethanol as glycosyl acceptor. The experimental conditions were optimized in relation to the time course of the reaction, pH and concentrations of glycosyl donor and acceptor. Whereas the hydrolytic activity was largely predominant over the transferase activity with -galactosidase and -glucosidase, the transglycosylation activity represented 68% with -glucosidase. In addition, as demonstrated by the transglycosylation product formed, the hydrolysis of sucrose was catalysed by -glucosidase and not by invertase. On the basis of this work, -glucosidase from M. subhyalinus appears to be a valuable tool for the preparation of neoglycoconjugates.     

Syntheses of α-D-glucosyl-D-fructoses by use of a reversed hydrolysis activity of α-glucosidase

Summary -D-Glucosyl-D-fructoses were synthesized by use of a reversed hydrolysis activity of -glucosidase fromSaccharomyces sp. Although -D-glucosyl-(1–1)-D-fructose was synthesized predominantly by the incubation of D-glucose solution in the presence of -glucosidase (batch method reaction), -(1–4)-linked disaccharide was a major product in a procedure by use of an immobilized -glucosidase column and an activated carbon column (column method reaction).     

Identification of surface exposed amino acids of isolated and membrane-bound CF1 by protease accessibility

In order to compare surface-exposed amino acids in isolated and membrane-bound CF₁ the technique of limited proteolysis was employed. The cleavage sites of several proteases were identified by sequence analysis of the resulting peptides after isolation by SDS-PAGE. In isolated CF₁ the N-terminal region of the subunit was found to be highy sensitive to proteases; the accessible peptide bonds included E17-G18, R21-E22, E22-V23, and K24-V25. Additional protease-attacked bonds in subunit were S86-S87, xE125-S126. and R127-L128. In the subunit of isolated CF₁ the bonds L14-E15 and V76-A77 were identified as being accessible. All identified protease accessible amino acids are located at the protein surface according to a molecular model of CF₁ computed after the crystal structure of mitochondrial F₁ by S. Engelbrecht (1997). In membrane bound CF₁ the primarily accessible peptide bond of the N-terminal domain of is R21-E22. After this bond is cleaved by trypsin, the K24-V25 becomes accessible to further trypsin attack. Moreover, the peptide bonds R14O-S141 and G16O-R161 are cleaved. According to the Engelbrecht model G16O is almost completely shielded and actually this amino acid was hardly accessible to protease in isolated CF₁. The subunit in general is much more sensitive to proteolysis in membrane-bound than in solubilized CF₁. In the subunit of membrane-bound CF₁ a papain-sensitive bond G102-G103 was identified. The results indicate major structural alterations when CF₁ is extracted from the CF₀CF₁ complex. Thiol modulation, i.e. reduction of the regulatory disulfide bond between C199 and C205 of y subunit, enhances the accesibility of a number of peptide bonds, in particular G160-R161, to proteolytic attack by papain. In contrast, thylakoid membrane energization results in masking of this peptide bond.     

Characterization of a new Bacillus stearothermophilus isolate: a highly thermostable α-amylase-producing strain

A novel strain of Bacillus stearothermophilus was isolated from samples of a potato-processing industry. Compared to known -amylases from other B. stearothermophilus strains, the isolate was found to produce a highly thermostable -amylase. The half-time of inactivation of this -amylase was 5.1 h at 80°C and 2.4 h at 90°C. The temperature optimum for activity of the -amylase was 70°C; the pH optimum for activity was relatively low, in the range 5.5–6.0. -Amylase synthesis was regulated by induction and repression mechanisms. An inverse relationship was found between growth rate and -amylase production. Low starch concentrations and low growth temperatures were favourable for enzyme production by the organism. At the optimal temperature for growth, 65°C, the -amylase was a growth-associated enzyme. The optimal temperature for -amylase production, however, was 40°C, with -amylase increasing from 3.9 units (U)/ml to 143 U/ml when lowering the growth temperature from 65°C to 40°C. Maximal -amylase production in a batch fermentor run at 65°C was 102 U/ml, which was 26-fold higher than in erlenmeyer flasks at 65°C. The dissolved O₂ concentration was found to be a critical factor in production of the -amylase.     

γ-Glutamylamine cyclotransferase

Summary -Glutamylamine cyclotransferase, an enzyme found in a number of animal tissues and cells, catalyzes the conversion of -(L--glutamyl)-L-lysine to free lysine and 5-oxo-L-proline as well as the release of free amines and the formation of 5-oxo-L-proline from a variety of other L--glutamylamines. Among its substrates are both the mono- and di--glutamyl derivatives of putrescine, spermidine and spermine, and a derivative of -(L--glutamyl)-L-lysine in which both the -amino group and the carboxyl group of the lysine moiety are blocked. The enzyme does not act on most -glutamyl--amino acids, nor is it active toward the -lysyl derivatives of L-aspartic acid or D-glutamic acid. Derivatives of -(L--glutamyl)-L-lysine in which the -amino or the -carboxyl function of the glutamyl moiety is blocked also do not serve as substrates. The specificity of -glutamylamine cyclotransferase is in accordance with the proposal that it functions biologically in the latter stages of the catabolism of products of the action of transglutaminases. Some suggestions as to the manner in which -glutamylamine cyclotransferase serves this function are made based on present knowledge of protein degradation.     

Tumor necrosis factor α modifies resistance to interferon α in vivo: First clinical data

Summary Patients with Philadelphia-positive chronic-phase chronic myelogenous leukemia (CML) resistant to interferon (IFN) were treated in a phase I/II study with recombinant human tumor necrosis factor to overcome IFN resistance. Doses of 40, 80, 120 or 160 µg/m² TNF were given as 2-h infusions on 5 consecutive days every 3 weeks. IFN (4 × 10⁶ IU/m² s.c., daily) treatment was continued. Six patients were treated, completing 1–24 (median, 12) treatment cycles. Five of the six patients achieved partial hematological remission, while the remaining patient had to stop treatment because of WHO grade 4 thrombocytopenia following the first TNF cycle. No complete hematologic remission or cytogenetic improvement was seen. Side-effects were similar to those described for both substances alone. Maximum tolerable TNF doses usually varied between 80 µg/m² and 160 µg/m². To examine possible pathways of TNF activity in these patients, interferon receptor status and (2–5)-oligoadenylate synthetase levels were examined in peripheral blood mononuclear cells. Both parameters remained unchanged during TNF treatment. These preliminary data point to significant clinical efficacy of additionally applyed TNF in IFN-resistant CML patients.     

Site-specific lipophilic modification of interferon-alpha

Interferon- (IFN),⁴ a cytokine with modulatory activities on many cell types, is useful for treating many types of cancer and infectious diseases. This study investigates whether modification of a protein, using IFN as an example, with a lipophilic group can alter its distribution and kinetic properties in the body. Ser163 of IFN2a was mutated to Cys to generate a free sulfhydryl group for site-specific chemical modification. IFN2a(S163C) was conjugated by iodoacetamide derivatives of varying lengths, and the modified IFN2a was purified by gel filtration chromatography. The biological activities of IFN2a(S163C) and lipophilized IFN2a(S163C) were similar to that of IFN2a, as evidenced by their inhibitory effects on the growth of Daudi cells and on the replication of vesicular stomatitis virus in Madin-Darby bovine kidney cells. Lipophilized IFN2a(S163C) bound to human serum albumin and cell membranes more readily than did IFN2a. Future experiments will investigate whether lipophilized IFN2a(S163C) has improved pharmacokinetic properties.