Identification, cloning and sequence of the Aspergillus niger areA wide domain regulatory gene controlling nitrogen utilisation

The gene encoding the positive-acting regulator of nitrogen metabolite repression (AREA) has been cloned and characterised from the industrially important filamentous fungus Aspergillus niger. The deduced amino acid sequence has an overall level of identity with its homologues from other fungal species which varies between 32 and 72%. This gene (areAnig) complements the A. nidulans areAr-18 loss-of-function mutation. Sequences upstream of the structural gene contain several putative GATA-type zinc finger protein-binding motifs. Northern analysis indicates the synthesis of multiple transcripts, the major species being approximately 2.95 kb and 3.1 kb. Maximal expression of areAnig is observed under conditions of nitrogen starvation and is mainly due to an increase in the level of the shorter transcript.

CD4 T lymphocytes from patients with chronic fatigue syndrome have decreased interferon-gamma production and increased sensitivity to dexamethasone

A disturbed hypothalamus-pituitary-adrenal gland axis and alterations at the immune system level have been observed in patients with chronic fatigue syndrome (CFS). Glucocorticoids are known to modulate T cell responses; therefore, purified CD4 T cells from CFS patients were studied to determine whether they have an altered sensitivity to dexamethasone (DEX). CD4 T cells from CFS patients produced less interferon-gamma than did cells from controls; by contrast, interleukin-4 production and cell proliferation were comparable. With CD4 T cells from CFS patients (compared with cells from controls), a 10- to 20-fold lower DEX concentration was needed to achieve 50% inhibition of interleukin-4 production and proliferation, indicating an increased sensitivity to DEX in CFS patients. Surprisingly, interferon-gamma production in patients and controls was equally sensitive to DEX. A differential sensitivity of cytokines or CD4 T cell subsets to glucocorticoids might explain an altered immunologic function in CFS patients.

pgaE encodes a fourth member of the endopolygalacturonase gene family from Aspergillus niger

In the present study, the molecular and basic biochemical characterization of endopolygalacturonase E, the fourth Aspergillus niger N400 endopolygalacturonase, is reported. The entire endopolygalacturonase E gene consists of 1293 bp interrupted by three short introns (50, 50, and 59 bp, respectively) as concluded from the cDNA sequence. The deduced amino acid sequence comprises 378 residues that include 39 N-terminal amino acids of the prepropeptide. The calculated Mr and pI of the mature protein are 35,584 and 3.6, respectively. Compared with other endopolygalacturonases from A. niger N400, the mature protein endopolygalacturonase E has the highest sequence identity with endopolygalacturonase C (77.6%) followed by endopolygalacturonase I (57.6%) and endopolygalacturonase II (54.3%). For overproduction of endopolygalacturonase E, an A. niger multicopy strain was used that was transformed with a promoter gene fusion construct that directs expression from the glycolytic A. niger pyruvate kinase promoter. The enzyme was purified and characterized as an endopolygalacturonase based on product analysis after polygalacturonate hydrolysis and on bond cleavage frequencies of oligogalacturonates of different degree of polymerisation (n = 2-7). The pH optimum was 3.8. The Km and Vmax for polygalacturonate hydrolysis were 2.5 +/- 0.4 mg x ml(-1) and 1.3 +/- 0.2 microkat x mg(-1), respectively. A subsite map was calculated by the combination of the methods of Suganuma et al. [Suganuma, T., Matsuno, R., Ohnishi, M. & Hiromi, K. (1978) J. Biochem. (Tokyo) 84, 293-316] and Nitta et al. [Nitta, Y., Mizushima, M., Hiromi, K. & Ono, S. (1971) J. Biochem. (Tokyo) 69, 567-576]. This indicated that the enzyme was composed of at least five subsites.

aguA, the gene encoding an extracellular alpha-glucuronidase from Aspergillus tubingensis, is specifically induced on xylose and not on glucuronic acid

An extracellular alpha-glucuronidase was purified and characterized from a commercial Aspergillus preparation and from culture filtrate of Aspergillus tubingensis. The enzyme has a molecular mass of 107 kDa as determined by sodium dodecyl sulfate-polyacrylamide gel electrophoresis and 112 kDa as determined by mass spectrometry, has a determined pI just below 5.2, and is stable at pH 6.0 for prolonged times. The pH optimum for the enzyme is between 4.5 and 6.0, and the temperature optimum is 70 degrees C. The alpha-glucuronidase is active mainly on small substituted xylo-oligomers but is also able to release a small amount of 4-O-methylglucuronic acid from birchwood xylan. The enzyme acts synergistically with endoxylanases and beta-xylosidase in the hydrolysis of xylan. The enzyme is N glycosylated and contains 14 putative N-glycosylation sites. The gene encoding this alpha-glucuronidase (aguA) was cloned from A. tubingensis. It consists of an open reading frame of 2,523 bp and contains no introns. The gene codes for a protein of 841 amino acids, containing a eukaryotic signal sequence of 20 amino acids. The mature protein has a predicted molecular mass of 91,790 Da and a calculated pI of 5.13. Multiple copies of the gene were introduced in A. tubingensis, and expression was studied in a highly overproducing transformant. The aguA gene was expressed on xylose, xylobiose, and xylan, similarly to genes encoding endoxylanases, suggesting a coordinate regulation of expression of xylanases and alpha-glucuronidase. Glucuronic acid did not induce the expression of aguA and also did not modulate the expression on xylose. Addition of glucose prevented expression of aguA on xylan but only reduced the expression on xylose.

The tree-dimensional structure of aspergillus niger pectin lyase B at 1.7-A resolution

The three-dimensional structure of Aspergillus niger pectin lyase B (PLB) has been determined by crystallographic techniques at a resolution of 1.7 A. The model, with all 359 amino acids and 339 water molecules, refines to a final crystallographic R factor of 16.5%. The polypeptide backbone folds into a large right-handed cylinder, termed a parallel beta helix. Loops of various sizes and conformations protrude from the central helix and probably confer function. The largest loop of 53 residues folds into a small domain consisting of three antiparallel beta strands, one turn of an alpha helix, and one turn of a 3(10) helix. By comparison with the structure of Erwinia chrysanthemi pectate lyase C (PelC), the primary sequence alignment between the pectate and pectin lyase subfamilies has been corrected and the active site region for the pectin lyases deduced. The substrate-binding site in PLB is considerably less hydrophilic than the comparable PelC region and consists of an extensive network of highly conserved Trp and His residues. The PLB structure provides an atomic explanation for the lack of a catalytic requirement for Ca2+ in the pectin lyase family, in contrast to that found in the pectate lyase enzymes. Surprisingly, however, the PLB site analogous to the Ca2+ site in PelC is filled with a positive charge provided by a conserved Arg in the pectin lyases. The significance of the finding with regard to the enzymatic mechanism is discussed.

Isolation and analysis of xlnR, encoding a transcriptional activator co-ordinating xylanolytic expression in Aspergillus niger

Complementation by transformation of an Aspergillus niger mutant lacking xylanolytic activity led to the isolation of the xlnR gene. The xlnR gene encodes a polypeptide of 875 amino acids capable of forming a zinc binuclear cluster domain with similarity to the zinc clusters of the GAL4 superfamily of transcription factors. The XlnR-binding site 5'-GGCTAAA-3' was deduced after electrophoretic mobility shift assays, DNase I footprinting and comparison of various xylanolytic promoters. The importance of the second G within the presumed XlnR binding site 5'-GGCTAAA-3' was confirmed in vitro and in vivo. The 5'-GGCTAAA-3' consensus sequence is found within several xylanolytic promoters of various Aspergillus species and Penicillium chrysogenum. Therefore, this sequence may be an important and conserved cis-acting element in induction of xylanolytic genes in filamentous fungi. Our results indicate that XlnR is a transcriptional activator of the xylanolytic system in A. niger.

Influence of ferulic acid on the production of feruloyl esterases by Aspergillus niger

Extracellular feruloyl esterases from the filamentous fungus Aspergillus niger are induced by growth on oat spelt xylan (OSX), which contains no detectable esterified ferulic acid. FAE-III accounted for most of the feruloyl esterase activity. Addition of free ferulic acid to OSX at the start of the culture induced FAE-III secretion a further 2.3-fold, and also induced other feruloyl esterases which could not be ascribed to FAE-III. Wheat bran-(WB)-grown cultures, containing 1% (m/v) esterlinked ferulic acid, gave almost identical FAE-III and total feruloyl esterase activities as the cultures grown on OSX plus ferulic acid. De-esterification of WB yielded less total feruloyl esterase, and 2.4-fold less FAE-III, compared to untreated WB. A slightly modified form of FAE-III was produced on de-esterified WB. These results show that production of FAE-III does not absolutely require ferulic acid. However, production is stimulated by the presence of free ferulic acid through increased expression, and is reduced by the removal of esterified ferulic acid from the growth substrate.

Purification and characterization of an alpha-L-rhamnosidase from Aspergillus niger

An enzyme with alpha-L-rhamnosidase activity was purified by anion exchange chromatography from an Aspergillus niger commercial preparation. The alpha-L-rhamnosidase was shown to be N-glycosylated, and had a molecular mass of 85 kD on sodium dodecylsulfate-polyacrylamide gel electrophoresis of which approximately 12% was contributed by carbohydrate. The enzyme was optimally active at pH 4.5 and 65 degrees C. When tested towards p-nitrophenyl-alpha-L-rhamnopyranoside it showed Km and Vmax values of 2.9 mM and 20.6 U mg-1, respectively whereas it was inhibited competitively by L-rhamnose (Ki 3.5 mM). Substrate specificity studies showed alpha-L-rhamnosidase to be active both on alpha-1,2 and alpha-1,6 linkages to beta-D-glucose. Moreover, the enzyme was able to release L-rhamnose from geranyl-beta-D-rutinoside and 2-phenylethyl-beta-D-rutinoside.

The faeA genes from Aspergillus niger and Aspergillus tubingensis encode ferulic acid esterases involved in degradation of complex cell wall polysaccharides

We report the cloning and characterization of a gene encoding a ferulic acid esterase, faeA, from Aspergillus niger and Aspergillus tubingensis. The A. niger and A. tubingensis genes have a high degree of sequence identity and contain one conserved intron. The gene product, FAEA, was overexpressed in wild-type A. tubingensis and a protease-deficient A. niger mutant. Overexpression of both genes in wild-type A. tubingensis and an A. niger protease-deficient mutant showed that the A. tubingensis gene product is more sensitive to degradation than the equivalent gene product from A. niger. FAEA from A. niger was identical to A. niger FAE-III (C. B. Faulds and G. Williamson, Microbiology 140:779-787, 1994), as assessed by molecular mass, pH and temperature optima, pI, N-terminal sequence, and activity on methyl ferulate. The faeA gene was induced by growth on wheat arabinoxylan and sugar beet pectin, and its gene product (FAEA) released ferulic acid from wheat arabinoxylan. The rate of release was enhanced by the presence of a xylanase. FAEA also hydrolyzed smaller amounts of ferulic acid from sugar beet pectin, but the rate was hardly affected by addition of an endo-pectin lyase.

Differentiation between naproxen, naproxen-protein conjugates, and naproxen-lysine in plasma via micellar electrokinetic capillary chromatography--a new approach in the bioanalysis of drug targeting preparations

Pharmacotherapy through the targeting of drugs is a promising new approach that requires adequate analytical methods capable of differentiating between the free drug, the drug carrier, and metabolites. Using micellar electrokinetic capillary chromatography (MECC), we report the separation of naproxen (NAP) from NAP covalently coupled to human serum albumin or to mannosylated serum albumin and the metabolite naproxen-lysine. An assay for selective analysis of the different forms of NAP by direct plasma injection was developed with salicylate as internal standard and solute detection by laser-induced fluorescence. Compared with previously applied techniques, including HPLC and total plasma fluorescence, MECC offers the advantage that free and covalently bound NAP can be differentiated in one run and can be accurately monitored in microliter quantities of plasma. Summation of all NAP equivalents determined by MECC revealed data that compare well with those produced by total plasma fluorescence and HPLC.

Mice lacking a functional chk gene have no apparent defects in the hematopoietic system

Non-receptor tyrosine kinase Chk has been implicated in hematopoietic development. To study the function of Chk in vivo, we have generated chk-deficient mice using gene targeting. Overall development of mice homozygous for this mutation was apparently normal. Blood counts, FACS analysis of hematopoietic cell populations, CFU-C and CAFC assays showed no significant difference between wild type and mutant animals. Thus, the dispensability of Chk for mouse development and hematopoiesis suggests that its function may be redundant in vivo, and most likely be compensated by activity of a closely related protein tyrosine kinase Csk.

Molecular characterization of the glnA gene encoding glutamine synthetase from the edible mushroom Agaricus bisporus

The gene encoding glutamine synthetase (glnA) was isolated from an Agaricus bisporus H39 recombinant lambda phage library. The deduced A. bisporus glutamine synthetase amino acid sequence contains 354 residues. The amino acid sequence is very similar to that derived from the gene coding for glutamine synthetase of the yeast Saccharomyces cerevisiae. The open reading frame is interrupted by four introns. Northern analysis revealed that transcription of the gene is repressed upon addition of ammonium to the culture but the repression was not as strong as that of the gene encoding NADP+ -dependent glutamate dehydrogenase (gdhA). Enzyme activities are low in the presence of ammonium, glutamine and albumin and do not correlate with the mRNA levels revealed by Northern analysis. This suggests that glutamine synthetase expression in A. bisporus is also post-transcriptionally regulated by the nitrogen source.

Disruption of three acid proteases in Aspergillus niger--effects on protease spectrum, intracellular proteolysis, and degradation of target proteins

Three acid protease genes encoding two extracellular proteases (PEPA and PEPB) and one intracellular protease (PEPE) were disrupted in Aspergillus niger. Northern-blot analysis showed the absence of wild-type protease mRNAs in the disruptants while western-blot analysis proved the absence of the encoded proteases. Characterization of the residual proteolytic spectra in the disruptants indicated that the extracellular protease activity was reduced to 16% and 94% for the delta pepA and the delta pepB disruptants, repectively. In the delta pepE disruptant, the total intracellular proteolytic activity was reduced to 32%. Apart from the reduced intracellular pepstatin-inhibitable aspartyl protease activity, serine protease and serine carboxypeptidase activities were also significantly reduced in the delta pepE strain. This may indicate the presence of a cascade activation mechanism for several vacuolar proteases, triggered by the PEPE protein, similar to the situation in Saccharomyces cerevisiae. Disruption of a single protease gene had no effects on the transcription of other non-disrupted protease genes in A. niger. In supernatants of the disruptants, reduced degradation of a proteolytically very susceptible tester protein (PELB) was observed. By recombination, we also constructed delta pepA delta pepB, delta pepB delta pepE and delta pepA delta pepE double disruptants as well as a delta pepA delta pepB delta pepE triple disruptant, lacking all three acid protease activities. The in vitro residual PELB activity was the highest in the triple disruptant and the delta pepA delta pepB recombinant.

Aspergillus as a host for heterologous protein production: the problem of proteases

Homologous and heterologous protein production by filamentous fungi is often limited by the expression of proteases at high levels. By eliminating specific protease activities, protein production in Aspergillus niger can be improved considerably. Both classical mutagenesis and gene disruption techniques have yielded strains with reduced protease expression. Combinations of these mutations and disruptions result in a further reduction of protease activity. The coupling of efficient promoters to target genes allows their expression under conditions that repress the expression of several proteases, which further improves product yields. The strategies used have led to the development of a set of tester strains from which the appropriate genetic background for production can be selected.

Production of the homologous pectin lyase B protein in six genetically defined protease-deficient Aspergillus niger mutant strains

An expression cassette has been transformed into six protease-deficient (prt) mutant strains of Aspergillus niger. Transformants were tested for improved production of the proteolytically susceptible PELB tester protein. In four complementation groups (prtA, B, D and F) distinct improvement of PELB yield was observed. These in vivo experiments in single prt mutants confirmed earlier in vitro PELB degradation data and demonstrated how the use of protease-deficient mutants can significantly improve protein production in A. niger. The strong effects of several prt alleles on the stability of the PELB tester protein have initiated a more detailed genetical and molecular characterization of the prt mutations. Mapping of the cloned protease genes pepA [I], B [II], C [IV], D [I], E [IV] and F [IV] indicated that none of the prt mutations represent alleles of the presently cloned protease (pep) genes from A. niger. Analysis of the expression of the pep genes in prt strains demonstrated that the strongly reduced protease activities observed in several prt mutants are not reflected by reduced transcription levels for a number of extracellular proteases. These results indicate that the mode of action of the prt genes constitute an interesting group of new genetic functions which severely affect protease production, and as such improve protein production, in A. niger.

Cloning and characterization of two rhamnogalacturonan hydrolase genes from Aspergillus niger

A rhamnogalacturonan hydrolase gene of Aspergillus aculeatus was used as a probe for the cloning of two rhamnogalacturonan hydrolase genes of Aspergillus niger. The corresponding proteins, rhamnogalacturonan hydrolases A and B, are 78 and 72% identical, respectively, with the A. aculeatus enzyme. In A. niger cultures which were shifted from growth on sucrose to growth on apple pectin as a carbon source, the expression of the rhamnogalacturonan hydrolase A gene (rhgA) was transiently induced after 3 h of growth on apple pectin. The rhamnogalacturonan hydrolase B gene was not induced by apple pectin, but the rhgB gene was derepressed after 18 h of growth on either apple pectin or sucrose. Gene fusions of the A. niger rhgA and rhgB coding regions with the strong and inducible Aspergillus awamori exlA promoter were used to obtain high-producing A. awamori transformants which were then used for the purification of the two A. niger rhamnogalacturonan hydrolases. High-performance anion-exchange chromatography of oligomeric degradation products showed that optimal degradation of an isolated highly branched pectin fraction by A. niger rhamnogalacturonan hydrolases A and B occurred at pH 3.6 and 4.1, respectively. The specific activities of rhamnogalacturonan hydrolases A and B were then 0.9 and 0.4 U/mg, respectively, which is significantly lower than the specific activity of A. aculeatus rhamnogalacturonan hydrolase (2.5 U/mg at an optimal pH of 4.5). Compared to the A enzymes, the A. niger B enzyme appears to have a different substrate specificity, since additional oligomers are formed.

Carbon repression in Aspergilli

Many microorganisms prefer easily metabolizable carbon sources over alternative, less readily metabolized carbon sources. One of the mechanisms to achieve this is repression of the synthesis of enzymes related to catabolism of the alternative carbon sources, i.e. carbon repression. It is now clear that in Aspergillus nidulans and Aspergillus niger the repressor protein CREA plays a major role in carbon repression. CREA inhibits transcription of many target genes by binding to specific sequences in the promoter of these genes. Unfortunately there is little information on other components of the signalling pathway that triggers repression by CREA. In this review we summarize the current understanding of carbon repression in Aspergilli.

Bioanalysis of captopril: two sensitive high-performance liquid chromatographic methods with pre- or postcolumn fluorescent labeling

This study describes the development and comparison of two HPLC methods for the analysis of the antihypertensive drug captopril. The first method is based on a precolumn derivatization of captopril with the fluorescent label monobromobimane (MBB). The second method is based on a postcolumn reaction with the fluorescent reagent o-phthaldialdehyde (OPA). Since the disulfide metabolites of captopril can be reconverted to the active drug in vivo, the bioanalysis of captopril should involve both the determination of its free thiol form (free captopril) and the total amount of free thiol and reducible disulfides (total captopril). For total captopril analysis, disulfides were reduced with tributylphosphine (TBP) prior to protein precipitation. Since the reducing agent interfered with the MBB derivatization reaction, this method was not suitable for total captopril analysis. Both methods were validated for the bioanalysis of free captopril in human plasma. After removal of plasma proteins, samples were analyzed without an additional extraction procedure. The limit of quantitation in plasma was 12.5 ng/ml for the MBB method (limit of detection 30 pg) and 25 ng/ml for the OPA method (limit of detection 50 pg). The OPA method was also validated for total captopril analysis in human plasma and urine. The limit of quantitation was 25 ng/ml in plasma and 250 ng/ml in urine (limit of detection 50 pg). We conclude that for the analysis of free captopril the precolumn MBB method is superior to the OPA method since only the derivatization reaction has to be carried out immediately. The postcolumn OPA method is especially suitable for the analysis of total captopril since reducing reagents and high concentrations of endogenous thiols do not interfere with the derivatization reaction.

Two crystal structures of pectin lyase A from Aspergillus reveal a pH driven conformational change and striking divergence in the substrate-binding clefts of pectin and pectate lyases

BACKGROUND

Microbial pectin and pectate lyases are virulence factors that degrade the pectic components of the plant cell wall. The homogalacturan backbone of pectin varies in its degree of methylation from the highly methylated and relatively hydrophobic form known as pectin, to the fully demethylated and highly charged form known as pectate. Methylated and demethylated regions of pectin are cleaved by pectin lyase and calcium-dependent pectate lyases, respectively. Protein engineering of lyases specific for particular patterns of methylation, will yield modified pectins of high value to the food and pharmaceutical industries.

RESULTS

The crystal structures of pectin lyase A from two strains of Aspergillus niger, N400 and 4M-147, have been determined at pH 6.5 (2.4 A resolution) and pH 8.5 (1.93 A resolution), respectively. The structures were determined by a combination of molecular replacement, multiple isomorphous replacement and intercrystal averaging. Pectin lyase A folds into a parallel beta helix and shares many of the structural features of pectate lyases, despite no more than 17% sequence identity after pairwise structure-based alignment. These shared structural features include amino acid stacks and the asparagine ladder. However, the differences in the substrate-binding clefts of these two enzymes are striking. In pectin lyase A, the cleft is dominated by aromatic residues and is enveloped by negative electrostatic potential. In pectate lyases, this cleft is rich in charged residues and contains an elongated ribbon of positive potential when Ca2+ is bound. The major difference between the two pectin lyase A structures from the two strains is in the conformation of the loop formed by residues 182-187. These observed differences are due to the different pH values of crystallization.

CONCLUSIONS

The substrate-binding clefts and catalytic machinery of pectin and pectate lyases have diverged significantly. Specificity is dictated by both the nature of the protein-carbohydrate interaction and long-range electrostatic forces. Three potential catalytic residues have been identified in pectin lyase, two of these are common to pectate lyases. Pectin lyase A does not bind Ca2+ but an arginine residue is found in an equivalent position to the Ca2+ ion in pectate lyase, suggesting a similar role in catalysis. The activity of pectin lyase A is pH -dependent with an optimum activity at pH 5.5. The activity drops above pH 7.0 due to a conformational change at the binding cleft, triggered by the proximity of two buried aspartate residues.

beta-Xylosidase activity, encoded by xlnD, is essential for complete hydrolysis of xylan by Aspergillus niger but not for induction of the xylanolytic enzyme spectrum

Two proteins exhibiting beta-D-xylosidase activity were identified upon fractionation and purification of a culture filtrate of an arabinoxylan-grown Aspergillus niger. A single band of 110 kDa by SDS/PAGE was obtained in both cases and these were active on xylo-oligosaccharides and on xylan. Partial xlnD cDNA clones were immunochemically identified and isolated from a lambda cDNA expression library. Sequence analysis showed that all cDNA clones correspond to a single gene. A genomic clone was isolated and overexpressed in A. niger and A. nidulans. The xlnD gene has an ORF of 2412 nucleotides, encodes a protein of 804 amino acids and contains a potential signal peptide of 26 amino acids. This results in a mature protein of 778 amino acids with a predicted molecular mass of 85 kDa and an isoelectric point of 4.5. The protein is N-glycosylated and contains 15 potential N-glycosylation sites. Sequence similarity is found with beta-D-glucosidases both of bacterial and fungal origin. Both beta-xylosidase proteins purified have high activity on the artificial substrate p-nitrophenyl beta-D-xylopyranoside (XylNp) and a side activity on p-nitrophenyl alpha-L-arabinofuranoside and p-nitrophenyl beta-D-glucopyranoside. A niger strains in which the xlnD gene was disrupted accumulate mainly xylobiose and xylotriose when grown on xylan and have no significant beta-xylosidase activity in the culture medium, indicating that this gene encodes the major extracellular beta-xylosidase.

Overexpression of phosphofructokinase and pyruvate kinase in citric acid-producing Aspergillus niger

Phosphofructokinase and pyruvate kinase were overexpressed in the filamentous fungus Aspergillus niger. Moderate overexpression of these glycolytic enzymes in A. niger N400 (3-5-fold the wild-type level), either individually or simultaneously, did not increase citric acid production by the fungus significantly. Thus, phosphofructokinase and pyruvate kinase do not seem to contribute in a major way to flux control of the metabolism involved in the conversion of glucose to citric acid. Overexpression of phosphofructokinase and pyruvate kinase did not influence the activities of other enzymes in the pathway, nor did it change intermediary metabolite levels. However, in strains overexpressing phosphofructokinase, the level of fructose 2,6-bisphosphate, a positive allosteric effector of phosphofructokinase, was reduced almost 2-fold compared to the wild-type strain. Measurements with purified phosphofructokinase, using substrate, product and effector concentrations found intracellularly, showed that such a reduction in the fructose-2,6-bisphosphate level could decrease the specific activity of phosphofructokinase in the cell significantly. Thus, the fungus seems to adapt to overexpression of phosphofructokinase by decreasing the specific activity of the enzyme through a reduction in the level of fructose 2,6-bisphosphate.

[A quarter of a century of computer-assisted anticoagulant treatment]

Twenty-five years ago the computer was introduced to assist the dosage calculation in the Dutch anticoagulation services. Many of the laboratory findings in patients treated by anticoagulants can be quantitated and may be used to construct a computer dosage algorithm.

The Agaricus bisporus pruA gene encodes a cytosolic delta 1-pyrroline-5-carboxylate dehydrogenase which is expressed in fruit bodies but not in gill tissue

A fortuitously cloned 3'-truncated cDNA encoding the Agaricus bisporus delta 1-pyrroline-5-carboxylate dehydrogenase was used to characterize the complete gene. The gene would encode a cytosolic polypeptide of 546 amino acids, and the basidiomycetous gene was evenly expressed in various parts of the mushroom except for the gills. No expression was detected in compost-grown mycelium. The steady-state mRNA level of the gene in the vegetative phase was determined on simple synthetic media and was two- to threefold higher with ammonium or proline as the sole nitrogen source compared to glutamate as the sole nitrogen source. Moreover, the steady-state mRNA level was not markedly influenced by addition of ammonium phosphate to proline- or glutamate-utilizing cultures. The results suggest that ammonium and the amino acids proline and glutamate are equally preferred nitrogen sources in this organism and are consistent with previous observations of H. M Kalisz, D.A. Wood, and D. Moore (Trans. Br. Mycol. Soc. 88:221-227, 1987) that A. bisporus continues to degrade protein and secrete ammonium even if ammonium and glucose are present in the culture medium.