N-acyl-L-homoserine lactone-mediated regulation of the lip secretion system in Serratia liquefaciens MG1

The analysis of Serratia liquefaciens MG1 'luxAB insertion mutants that are responsive to N-butanoyl-L-homoserine lactone revealed that expression of lipB is controlled by the swr quorum-sensing system. LipB is part of the Lip exporter, a type I secretion system, which is responsible for the secretion of extracellular lipase, metalloprotease, and S-layer protein.

Measurements of nitrogen dioxide in Greenland using Palmes diffusion tubes

Measurements of nitrogen dioxide using the Palmes diffusion tubes in Uummannaq, Aasiaat, and Nuuk. all located along the west-coast of Greenland, have demonstrated that the levels of pollution at the most heavily impacted sites are comparable to levels in much larger towns in Denmark. The highest concentrations were, in general, observed near sites influenced by car traffic (peak concentrations of up to 16 ppbv), medium concentrations were observed in the residential areas (2 6 ppbv), and very low levels were found at the background locations in the town outskirts (1-2 ppbv). Observations of nitrogen dioxide concentrations less than 0.1 ppbv at a remote site, Akia, 25 km from Nuuk, indicate that, compared to local sources, long-range transport of nitrogen dioxide is not important in western Greenland.

Diagnostic strategy, genetic diagnosis and identification of new mutations in intermittent porphyria by denaturing gradient gel electrophoresis

Acute intermittent porphyria (AIP) is an autosomal dominant inherited disease of heme metabolism caused by mutations in the hydroxymethylbilane synthase gene. Diagnosing AIP during an acute attack using traditional biochemical markers is unproblematic, but it can be difficult to obtain a definite diagnosis in asymptomatic carriers. These limitations may, however, be solved through a genetic approach for diagnosing AIP carrier status. A mutation screening assay based on the denaturing gradient gel electrophoresis (DGGE) principle was established in a setup that allows within 24 hr to pinpoint which of the 15 exons of the hydroxymethylbilane synthase gene carries the underlying mutation, and thereby reduces subsequent sequencing, needed to determine the specific mutation, to this particular gene region. To evaluate sensitivity and specificity of the DGGE assay, samples from 22 AIP patients with known mutations and six healthy controls were examined in a blinded design. Following unblinding, it was revealed that in all 22 AIP samples the correct mutation carrying region had been pointed out. In two samples containing a previously undescribed polymorphism, this additional region was also pointed out. All controls were correctly characterized as normal in the DGGE assay. Subsequently, to evaluate the assay in the clinical setting, samples from six previously uncharacterized Danish AIP probands were examined and the underlying mutation detected in all six. In conclusion, a simple and sensitive mutation screening assay based on the DGGE principle allows genetic diagnosis of AIP in a routine setting and may be used as an additional tool in genetic counseling of AIP families.

Interactions between proteolytic and non-proteolytic Pseudomonas fluorescens affect protein degradation in a model community

The metabolic interactions between proteinase-producing bacteria and other members of bacterial communities are poorly investigated, although they are important for the understanding of structure-function relationships in complex ecosystems. We constructed simple model communities consisting of proteolytic and non-proteolytic Pseudomonas fluorescens strains to identify relevant interactions and to assess their specific significance during the mobilization of protein for growth. The proteolytic or non-proteolytic model communities were established by co-inoculating proteolytic or proteinase-deficient Tn5-mutants of P. fluorescens strain ON2 with the non-proteolytic reporter strain DF57-N3 that expresses bioluminescence in response to nitrogen limitation. The growth medium was composed such that growth would be nitrogen limited in the absence of proteolytic activity. In the proteolytic communities data on growth and nitrogen availability showed that the protein hydrolysates were available to both the proteolytic and the non-proteolytic strain. Competition between these strains profoundly affected both growth and proteinase production. Hence, the mobilization of protein was closely coupled to the competitive success of the proteolytic strain. These findings provide new insight into the metabolic interactions that occur when protein is degraded in mixed bacterial communities.

Mutation screening of the LDLR gene and ApoB gene in patients with a phenotype of familial hypercholesterolemia and normal values in a functional LDL receptor/apolipoprotein B assay

Mutations in the LDL receptor (LDLR) or the apolipoprotein B-100 genes causing familial hypercholesterolemia (FH) and familial defective apolipoprotein B-100 (FDB), two of the most frequent inherited diseases, are the underlying genetic defects in a small proportion of patients suffering from premature atherosclerotic heart disease. Consequently, secure diagnostic tools for these conditions allowing early preventive measures are needed. Since clinical and biochemical diagnosis often is inaccurate, assays analyzing patient LDLR function and LDL affinity have been established. These assays are, however, not able clearly to differentiate between suspected FH/FDB samples and normal controls. To evaluate if this may be caused by other hitherto undescribed genetic defects or to failure of the functional assays, we undertook denaturing gradient gel electrophoresis based mutation screening of the LDLR gene and the codon 3456 3553 region of the apolipoprotein B gene in six French FH/FDB patients with normal outcomes on functional assays. In all six patients, pathogenic LDLR mutations were found, including three previously undescribed mutations, suggesting that failure of the functional assays explains the normal results found in some phenotypic FH/FDB patients and illustrating the need for DNA based screening techniques for routine genetic diagnosis in FH/FDB.

Evaluation of a clinically applicable mutation screening technique for genetic diagnosis of familial hypercholesterolemia and familial defective apolipoprotein B

We have recently developed a simple mutation screening assay based on the denaturing gradient gel electrophoresis (DGGE) technique for detection of mutations in the coding and regulatory regions of the low density lipoprotein receptor (LDLR) gene and the codon 3500 region of the apolipoprotein (apo) B-100 gene leading to familial hypercholesterolemia (FH) and familial defective apo B-100 (FDB), respectively. To evaluate the assay, 14 Danish families suspected of FH were studied. In ten families, the DGGE assay detected seven different point mutations, including mutations undescribed prior to establishing the assay. In addition, in one of these ten families and in one of the remaining four families, Southern blotting detected the FH-DK3 exon 5 deletion. Based on segregation analysis and clinical data, the FH diagnosis was dubious in the remaining three families without DGGE or Southern blotting detectable mutations. In conclusion, a simple DGGE based mutation screening assay may detect underlying mutations in most FH/FDB families, thus allowing its routine use in genetic counselling of FH-families.

Vitamin D receptor alleles do not predict bone mineral density or bone loss in Danish perimenopausal women

A BsmI restriction enzyme polymorphism in the vitamin D receptor (VDR) gene has been reported to be associated with bone mineral density (BMD) and bone turnover. However, findings in other studies suggest the presence of considerable interaction by race, body size, and environmental factors. Therefore, we VDR BsmI genotyped 200 healthy perimenopausal Danish white women (mean age 50.8 years, mean calcium intake 900 mg/day) in a comprehensive, longitudinal, community-based population study. Bone loss was assessed by dual-energy X-ray absorptiometry (DXA) using cross-calibrated Hologic QDR-1000W and QDR-2000 densitometers, with a mean follow-up period of 4 years (range 1-5 years). Despite a distribution of genotypes similar to that of other white populations (28% bb, 49% Bb, 23% BB), VDR genotypes were not associated with lumbar or femoral baseline BMD, subsequent bone loss rates, or biochemical markers of bone metabolism (bone-specific alkaline phosphatase, urinary hydroxyproline, and serum osteocalcin). Controlling for body size, calcium intake, and serum levels of 25-hydroxyvitamin D3 [25(OH)D3] did not alter this finding. The possible existence of a threshold effect was subsequently investigated by restricting analysis to women with low serum 25(OH)D3 levels or low calcium intake. VDR BsmI genotypes showed no significant impact on bone density or bone loss in healthy Danish early postmenopausal women, even when allowance was made for calcium intake, serum 25(OH)D3, and body size.

A dual label oligonucleotide ligation assay for detection of the CYP2C19*1, CYP2C19*2, and CYP2C19*3 alleles involving time-resolved fluorometry

CYP2C19 (S-mephenytoin hydroxylase) is a polymorphically expressed enzyme. Currently, two defective alleles are known--CYP2C19*2 and CYP2C19*3. The authors have developed an oligonucleotide ligation assay to detect these two alleles. This assay combines the hybridization of one common, biotinylated capture probe and two allele-specific probes to the target DNA, with the ability of a DNA ligase to distinguish mismatched nucleotides. The probes are only ligated if they are base paired correctly to the target strand. The biotin is bound to streptavidin, and all DNA not covalently bound to the biotin-labeled capture probe, is removed in a washing procedure. The allele-specific probes are labeled with either europium or samarium, and their emission can be measured simultaneously. The ratio between the emission separates the genotypes. This method was applied on DNA from 19 whites and 21 Vietnamese living in Denmark. All genotypes determined by the assay were consistent with the results from restriction enzyme cleavage. There were 12 poor metabolizers; 10 homozygous CYP2C19*2/CYP2C19*2, one heterozygous CYP2C19*2/CYP2C19*3, and one heterozygous CYP2C19*1/CYP2C19*2. The authors conclude that this assay is well-suited for a high throughput of samples in a routine laboratory. The finding of an apparently heterozygous CYP2C19*1/CYP2C19*2 poor metabolizer, confirms that there are still unknown mutations in CYP2C19.

A fast and robust dual-label nonradioactive oligonucleotide ligation assay for detection of factor V Leiden

Activated protein C resistance is in almost all cases caused by the factor V Leiden mutation (FV:R506Q). Due to the high prevalence and clinical significance of the mutation reliable methods suited for processing large sets of samples are in demand. We here present the oligonucleotide ligation assay (OLA) with lanthanide labeled oligonucleotides for the detection of FV Leiden. The assay is based on time resolved fluorescence measurement of lanthanide labeled oligonucleotides (DELFIA: Delayed Enhanced Lanthanide Fluorescence Immuno Assay) and on the specificity of T-4 DNA Ligase to join two adjacent oligonucleotides only when the two are complementary to the PCR template at the ligation junction. The Europium/Samarium fluorescence pattern is specific for each of the three genotypes (G/G, G/A, A/A) and clearly separates the three genotypes. By using a wildtype probe (Samarium labeled) and a mutant-specific probe (Europium labeled) simultaneously an internal control of the assay is included in each reaction. The assay is simple to perform, can be partly automated and is ideal for processing large sets of samples.

Detection and characterization of a novel splice mutation in the LDL receptor intron 12 resulting in two different mutant mRNA variants

Using a simple, standardized denaturing gradient gel electrophoresis (DGGE) based mutation screening technique, a novel G-to-A mutation in the last base of the intron 12 splice acceptor site of the LDL receptor gene was found in 2 Danish families with familial hypercholesterolemia (FH). The mutation is shown to result in 2 mRNA splice variants, both leading to truncated LDLR proteins, containing only the first 594 of the normal 839 amino acids. In one of the FH-families harbouring the mutation, a striking difference in the clinical picture amongst biochemically diagnosed FH patients was clarified when genetic analysis showed that 2 hypercholesterolemic family members, who despite advanced age had no atherosclerotic disease, had not inherited the family LDLR mutation. DGGE analyses of the LDLR exons, LDLR promoter, and apolipoprotein B codon 3456-3553 as well as Southern blotting of the LDLR gene were without signs of other mutations in the non-atherosclerotic hypercholesterolemics of the family. Availability of the clinically applicable mutation screening assay for FH may thus aid in defining reasons for phenotypic differences in FH families and potentially supply information allowing a more differentiated therapeutic approach to individual members of FH families.

Imipramine metabolism in relation to the sparteine oxidation polymorphism--a family study

The relationship between genetic polymorphism and imipramine metabolism has never been studied in a family study. A sparteine/mephenytoin test was carried out in 31 parents and 20 siblings of 18 Danish poor metabolizers of sparteine (PMs). One week later, each subject took 25 mg imipramine followed by urine collection for 24 h. The urinary content of imipramine, desipramine, 2-hydroxy-imipramine and 2-hydroxy-desipramine was assayed by HPLC. There were 10 PMs (20%; 9.8-33%, 95% confidence interval) and 41 extensive metabolizers of sparteine (EMs) among parents and siblings. In 26 of the 28 PMs among probands and relatives, there were concordance between phenotype and genotype: D6-A/D6-D (n = 2), D6-A/D6-B (n = 5), D6-B/(n = 15) or D6-B/D6-D (n = 4). Two PMs were apparently heterozygous (EMs), D6-wt/D6-B. Accordingly, based on the present sample of 28 PMs the specificity of the genotype test was 100% and the sensitivity was 92.9%. Two EMs were homozygous dominant D6-wt/and 39 were heterozygous EMs; D6-wt/D6-D (n = 5), D6-wt/D6-B (n = 27), D6-wt/D6-A (n = 6), D6-wt/D6-wt* (unknown mutation) (n = 1). As previously reported in a population study the hydroxylation ratios (i.e. 2-hydroxymetabolite over parent compound) of imipramine were much lower in PMs than in EMs. This and the pedigrees confirmed the co-segregation of sparteine oxidation, imipramine 2-hydroxylation and the CYP2D6 genotype. None of the hydroxylation ratios could separate EMs and PMs completely, mainly because the 2-hydroxylation of imipramine also depends on P450s other than CYP2D6.

Unusual xanthomas in a young patient with heterozygous familial hypercholesterolemia and type III hyperlipoproteinemia

We report on a 20-year-old man with the combination of two independent familial lipoprotein disorders: heterozygous familial hypercholesterolemia (FH) and type III hyperlipoproteinemia (HLP). Familial hypercholesterolemia was diagnosed by elevated total and low density lipoprotein cholesterol levels and family history. By denaturing gradient gel electrophoresis, DNA sequencing and restriction fragment length polymorphism analysis, a G --> A splice donor mutation in intron 3 of the proband's low density lipoprotein receptor gene was identified as the underlying molecular defect. This mutation was described previously as a receptor-negative founder mutation in Norway (FH-Elverum) and subsequently in 6 unrelated heterozygous English patients, creating a severe phenotype of familial hypercholesterolemia. Type III HLP was confirmed by homozygosity for apolipoprotein (apo) E2 and an elevated ratio of very low density lipoprotein cholesterol to serum triglycerides (0.40; normal ratio about 0.20). The patient has unusual flat xanthomas in the interdigital webs of the hands which are normally not found in either disease. These dermatological findings might therefore be indicative of the rare combination of both disorders of lipoprotein metabolism in one individual.

The phosphorylated ribosomal protein S7 in Tetrahymena is homologous with mammalian S4 and the phosphorylated residues are located in the C-terminal region. Structural characterization of proteins separated by two-dimensional polyacrylamide gel electrophoresis

A single basic ribosomal protein, protein S7, can be multiply phosphorylated in the ciliated protozoan Tetrahymena. Induction of phosphorylation is highly regulated, and the phosphorylation proceeds in a strictly sequential manner. The first site to be phosphorylated is a serine residue and the second a threonine. In this paper we report the complete primary structure of Tetrahymena thermophila ribosomal protein S7 including identification of the phosphorylated serine and threonine residues. Most of the sequence information was obtained from peptides generated by in situ digestion of S7 in two-dimensional gels using an approach that combined traditional protein chemistry with mass spectrometry. T. thermophila ribosomal protein S7 has a molecular mass of 29,459 Da and contains 259 amino acid residues. Phosphorylation takes place on Ser258 and Thr248 in the C-terminal region of the protein. Alignment of T. thermophila ribosomal protein S7 with known ribosomal proteins yielded the surprising result that T. thermophila S7 is homologous, not with mammalian ribosomal protein S6, but with mammalian ribosomal protein S4. These findings clearly distinguish the pattern of phosphorylation of ribosomal proteins in Tetrahymena from all other eukaryotes analyzed to date.

Robust nonradioactive oligonucleotide ligation assay to detect a common point mutation in the CYP2D6 gene causing abnormal drug metabolism

A new nonradioactive oligonucleotide ligation assay for the detection of a common point mutation in the CYP2D6 gene is presented. The assay takes advantage of simultaneous time-resolved fluorescence measurements of lanthanide-labeled probes and the specificity of T4-DNA ligase in combination with the polymerase chain reaction. This strategy makes it possible to perform the assay using both the wild-type-specific and mutant-specific probes simultaneously, securing an internal control in each reaction. We show that the allele-specific ligation part of the assay can be performed with great accuracy over a wide range of temperatures, salt concentrations, and T4-DNA ligase concentrations. This eliminates the risk of false-positive or false-negative reactions due to variations in these factors. Because the assay is simple to perform, is very reliable, and can be partly automated, we conclude that it is well-suited for analysis in a routine laboratory.

Robust nonradioactive oligonucleotide ligation assay to detect a common point mutation in the CYP2D6 gene causing abnormal drug metabolism

A new nonradioactive oligonucleotide ligation assay for the detection of a common point mutation in the CYP2D6 gene is presented. The assay takes advantage of simultaneous time-resolved fluorescence measurements of lanthanide-labeled probes and the specificity of T4-DNA ligase in combination with the polymerase chain reaction. This strategy makes it possible to perform the assay using both the wild-type-specific and mutant-specific probes simultaneously, securing an internal control in each reaction. We show that the allele-specific ligation part of the assay can be performed with great accuracy over a wide range of temperatures, salt concentrations, and T4-DNA ligase concentrations. This eliminates the risk of false-positive or false-negative reactions due to variations in these factors. Because the assay is simple to perform, is very reliable, and can be partly automated, we conclude that it is well-suited for analysis in a routine laboratory.

High-frequency air conduction audiometry. Testing of a new low impedance circumaural transducer system in normal young persons

A new circumaural transducer was tested in the frequency range 125 Hz to 20 kHz. The new transducer has a low acoustic impedance and loads the ear closely to free-field conditions, thus ensuring that sensitivity to different positions of the transducer around the ear is reduced compared to conventional audiometric headphones. The transducer was tested on 57 individuals (114 ears) in the age range 10 to 20 (median age 17.0 years). The results, showing a fairly good accordance with the ISO standard free-field thresholds values, seem to confirm that the new transducer system loads the ears similarly to free-field conditions. The results were also compared with the threshold values from other high-frequency investigations using different transducer systems. In order to verify the reliability of the system, a test-retest was carried out on 12 inexperienced normal individuals (24 ears) (median age 26.5 years; range values from 22 to 44 years). The standard deviations of the test-retest ranged from 2.8dB to 6.6dB. A comparison of these values with the results from other high-frequency test-retests is of dubious value, as such retests have often been performed and estimated in different ways. International standards for high-frequency audiometry threshold and international standards for test-retest procedure are needed. The increasing administration of cytotoxic drugs in the treatment of malignant diseases will increase the need for reliable high-frequency audiometry equipment.

Tetrahymena thermophila acidic ribosomal protein L37 contains an archaebacterial type of C-terminus

We have cloned and characterized a Tetrahymena thermophila macronuclear gene (L37) encoding the acidic ribosomal protein (A-protein) L37. The gene contains a single intron located in the 3'-part of the coding region. Two major and three minor transcription start points (tsp) were mapped 39 to 63 nucleotides upstream from the translational start codon. The uppermost tsp mapped to the first T in a putative T. thermophila RNA polymerase II initiator element, TATAA. The coding region of L37 predicts a protein of 109 amino acid (aa) residues. A substantial part of the deduced aa sequence was verified by protein sequencing. The T. thermophila L37 clearly belongs to the P1-type family of eukaryotic A-proteins, but the C-terminal region has the hallmarks of archaebacterial A-proteins.