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To clarify the transcriptional regulation by nutrient limitation of the gene encoding carboxypeptidase yscS in Saccharomyces cerevisiae (CPS1), we performed an analysis of its 5' noncoding region. In deletion experiments a sequence located between positions -644 and -591 was found to be responsible for transcriptional repression of the CPS1 gene in yeast cells grown on rich nitrogen sources. Furthermore, a 162 bp fragment spanning positions -644 to -482 of the promoter of the CPS1 gene repressed gene expression when placed 3' to the upstream activation sequence (UAS) of the heterologous gene CYC1. A fragment containing this putative upstream repression sequence (URS) was shown specifically to bind protein from a yeast extract as demonstrated by gel retardation experiments. Although a sequence mediating the control of gene expression by GCN4 was found within the URS element, the GCN4 gene product is not required for DNA-binding activity. In addition, at least three other upstream activation UASs responsible for the activation of CPS1 expression by glucose under nitrogen starvation conditions were found to be located between positions -673 and -644, -482 and -353, and -243 and -186, respectively. The putative mechanism of the nitrogen limitation-dependent regulation of CPS1 expression via these regulatory elements is discussed. Show less

A 280 kilobase (kb) contig was isolated from mouse genomic P1 and cosmid libraries, using as probes human cDNA and genomic DNA fragments that map in the interval between the second component of complement and tumor necrosis factor genes of the HLA complex. The clone contig demonstrates synteny of eleven mouse genes that are homologous to genes initially mapped within the human major histocompatibility complex. These include the mouse homologs of BAT2 (HLA-B-associated transcript 2) through BAT9 and also three HSP70-related genes. Five P1 clones form a contig of 240 kb that spans from BAT9 through BAT3. Twelve cosmid clones are arranged in three contigs that confirm most of the structure of the P1 contig and link the mouse BAT3 homolog to the BAT2 homolog approximately 15 kb farther telomeric. Polymorphic DNA markers within the cloned region were used to map the cleft palate susceptibility-1 (Cps-1) locus to the interval between Hsp70.1 and BAT6 (valyl-tRNA synthetase). This refines the location of the Cps-1 locus to a 45 kb region contained in the H2-124 P1 insert. Show less

Expression of the vacuolar carboxypeptidase S (CPS1) gene in Saccharomyces cerevisiae is regulated by the availability of nutrients. Enzyme production is sensitive to nitrogen catabolite repression; i.e. the presence of ammonium ions maintains expression of the gene at a low level. Transfer of ammonium-glucose pre-grown cells to a medium deprived of nitrogen causes a drastic increase in CPS1 RNA level provided that a readily usable carbon source, such as glucose or fructose, is available to the cells. Derepression of the gene by nitrogen limitation is cycloheximide-insensitive. Neither glycerol, ethanol, acetate nor galactose support derepression of CPS1 expression under nitrogen starvation conditions. Non-metabolizable sugar analogs (2-deoxyglucose, 6-methyl-glucose or glucosamine) do not allow derepression of CPS1, showing that the process is energy-dependent. Production of carboxypeptidase yscS also increases several-fold when ammonium-pregrown cells are transferred to media containing glucose and a non-readily metabolizable nitrogen source such as proline, leucine, valine or leucyl-glycine. Analysis of CPS1 expression in RAS2+ (high cAMP) and ras2 mutant (low cAMP) strains and in cells grown at low temperature (23 degrees C) and in heat-shocked cells (38 degrees C) shows that steady-state levels of CPS1 mRNA are not controlled by a low cAMP level-signalling pathway. Show less

The molecular basis for the photosynthetic defect in four nuclear mutants of maize was investigated. Mutants hcf7, cps1-1, cps1-2, and cps2 contained reduced levels of many chloroplast-encoded proteins without corresponding deficiencies in chloroplast mRNAs. Many chloroplast mRNAs were associated with abnormally few ribosomes, indicating that the protein deficiencies were due to global defects in chloroplast translation. These mutants were used to study the effects of reduced ribosome association on the metabolism of chloroplast RNAs. The level of the rbcL mRNA was reduced fourfold in each mutant, but was unaltered in other nonphotosynthetic mutants with normal chloroplast translation. These results suggest that the rbcL mRNA is destabilized as a consequence of its decreased association with ribosomes. The fact that many other chloroplast mRNAs accumulated to normal levels demonstrated that a decreased association with ribosomes does not significantly alter their stabilities or processing. hcf7 seedlings had a gross defect in the processing of the 16S rRNA: the primary lesion in this mutant may be a defect in 16S rRNA processing itself. Show less

Mutants supersensitive to the spindle poison, Isopropyl N-3-chlorophenyl carbamate (CIPC) of the fission yeast Schizosaccharomyces pombe were isolated and characterized genetically. Fourteen different recessive loci were assigned for the mutation (donated as cps1 to cps14) and two, cps1 and cps3, were mapped precisely on the chromosomes. Nine mutant strains were also supersensitive to phenothiazine derivatives, inhibitors of calcium-binding protein calmodulin. Four of nine strains were incapable of growing in the presence of 10 microM calcium ionophore A23187, at which the drug had no effect on cell growth in other strains. Fluorescence microscopy using the DAPI and Calcofluor staining methods showed two strains out of four to be defective in normal cell division; most stationary-phase cells of the cps6 mutant were seen to be bi- or tetra-nucleate, being partitioned with one or three septa, respectively. In the other mutant (cps8), enlarged cells were unequally partitioned with multisepta, and each compartment contained several daughter nuclei. The septa appeared aberrant in position within the cell, and situated diagonally but not vertically along the long cell axis. Show less

A Saccharomyces cerevisiae genomic DNA encoding vacuolar carboxypeptidase yscS was cloned from a yeast YEp13 library by complementation of the previously characterized mutation cps1-1 [(1981) J. Bacteriol. 147, 418-426], by means of staining carboxypeptidase activity in yeast colonies. The nucleotide sequence of the cloned gene was determined. The open reading frame of CPS1 consists of 576 codons and therefore encodes a protein of 64961 molecular weight. A stretch of 19 residues near the N-terminus of the deduced polypeptide sequence contains characteristics common to known hydrophobic leader sequences. CPS1 was determined by DNA blot analysis to be a single copy gene located on chromosome X. The cloned fragment was used to identify a 2.1 kb mRNA. A transcriptional activation of CPS1 occurs when cells grow on a substrate of carboxy-peptidase yscS as sole nitrogen source. Show less

A gene that affects susceptibility to cortisone-induced cleft palate maps between H-2S and H-2D on mouse chromosome 17. Congenic mouse strains that differ at this locus, designated Cps-1 (cleft palate susceptibility-1), have been tested for the presence of several closely linked markers. All data obtained so far are consistent with a gene order of H-2S-Cps-1-BAT-5-BAT-2-TNF-H-2D. The Cps-1 gene does not appear to affect the level of glucocorticoid receptors or the susceptibility of mice to phenytoin-induced cleft palate. Show less

The gene encoding carboxypeptidase yscS in Saccharomyces cerevisiae, CPS1, was cloned by complementation of the cps1-3 mutation. The cloned CPS1 gene, which again enabled a leucine auxotrophic cps1-3 mutant to grow on the modified dipeptide Cbz-Gly-Leu (Cbz, benzyloxycarbonyl) as sole leucine source, was sequenced and found to consist of an open reading frame of 1728 bp encoding a protein of 576 amino acids. The putative protein contains a hydrophobic stretch of 20 amino acids and a putative signal sequence cleavage site. Five putative N-glycosylation sites are also in the protein sequence. This data is consistent with the previous finding of carboxypeptidase yscS being a vacuolar peptidase. Chromosomal disruption of the CPS1 gene completely abolishes carboxypeptidase yscS activity. This protein is yet another member of the peptidases in S. cerevisiae involved in nitrogen metabolism. Show less

ADP-ribosylation factors (ARFs) are approximately 20-kDa guanine nucleotide-binding proteins that serve as GTP-dependent allosteric activators of cholera toxin ADP-ribosyltransferase activity. Four species of mammalian ARF, termed ARF 1-4, have been identified by cloning. Hybridization of a bovine ARF 2 cDNA under low stringency with mammalian poly(A)+ RNA resulted in multiple bands that were subsequently assigned to the known ARF genes using ARF-specific oligonucleotide probes. The relative signal intensities of some bands (e.g. the 3.8- and 1.3-kilobase (kb) mRNAs) that hybridized with the cDNA were not, however, consistent with the intensities observed with the individual ARF-specific oligonucleotide probes. These inconsistencies suggested that other ARF-like mRNAs were comigrating with known ARF mRNAs. To explore this possibility, a cyclic AMP-differentiated HL-60 Lambda ZAP library was screened using the bovine ARF 2 cDNA. Clones corresponding to known ARF genes (1, 3, and 4) were identified by hybridization of positive clones with oligonucleotide probes specific for each ARF species; ARF 2 cDNA-positive, oligonucleotide-negative clones were sequenced. Two new ARF-like genes, ARF 5 and 6, encoding proteins of 180 and 175 amino acids, respectively, were identified. Both proteins contain consensus sequences believed to be involved in guanine nucleotide binding and GTP hydrolysis. ARF 5 was most similar in deduced amino acid sequence to ARF 4, which also has 180 amino acids. ARF 6, whose deduced amino acid sequence is identical with that of a putative chicken pseudogene (CPS1) except for a serine/threonine substitution, was different from other ARF species in size and deduced amino acid sequence. With mammalian poly(A)+ RNA from a variety of tissues and cultured cells, ARF 5 preferentially hybridized with a 1.3-kb mRNA, whereas ARF 6 hybridized with 1.8- and 4.2-kb mRNAs. The fact that the sizes of these mRNAs are similar to those of other ARFs (ARF 1, 1.9 kb; ARF 2, 2.6 kb; ARF 3, approximately 3.8 and 1.3 kb; ARF 4, 1.8 kb) explain the previously observed inconsistencies between the cDNA and ARF-specific oligonucleotide hybridization patterns. All six ARF cDNAs are more similar to each other than to other approximately 20-kDa guanine nucleotide-binding proteins. Show less

We studied the genetic control of murine contact photosensitivity (CPS)1 to 3,3',4',5-tetrachlorosalicylanilide (TCSA) that was induced by subcutaneous injection of TCSA-photomodified epidermal cells (photoTCSA-EC) and spleen cells (photoTCSA-SC). With regard to the H-2 locus, sensitization with both types of photohaptenated cells showed the same pattern of CPS responses: H-2k and H-2b,d haplotypes were closely associated with low and high responders, respectively. On the other hand, the Igh locus affected the CPS reaction induced by photoTCSA-SC but not -EC; the Igh-1d allotype was related to low responsiveness, while high responders possessed Igh-1a,b. Thus, the photoTCSA-SC sensitization was controlled by H-2 and Igh in a codominant manner. The photoTCSA-SC-induced responses of H-2k but not Igh-1d mice were enhanced by CY pretreatment, suggesting that the mechanisms of low responsiveness in H-2k and Igh-1d mice were different. H-2 identity between donors of photoTCSA-EC and recipients was sufficient for effective sensitization, whereas both H-2 and Igh between donors of photoTCSA-SC and recipients should be identical to obtain maximum sensitization. This further confirmed the involvement of the Igh complex in the genetic control of CPS evoked by photoTCSA-SC. B cells as well as macrophages served as an effective presentation template for the photoTCSA-SC sensitization in the high responder Igh-1a mice, whereas B cells failed in inducing the CPS reaction in the low responder Igh-1d mice. These results suggest that B cells play an essential role in the Igh control phenomenon seen in the photoTCSA-SC sensitization. The present study demonstrated that CPS induced by photohapten-modified cells are differentially regulated by the H-2 and Igh gene loci depending on the cell type used for sensitization. Show less

Limited proteolysis of carboxypeptidase A from bovine pancreas with subtilisin Carlsberg generates a stable intermediate, carboxypeptidase S, whose esterase and peptidase activities are increased and decreased, respectively, under standard assay conditions. Carboxypeptidase S was isolated by affinity chromatography. Sequence analysis shows that it is cleaved solely at the Ala154-Gly155 bond. Its enzymatic properties were determined under stopped-flow conditions with Dns-Gly-Ala-Phe and its ester analogue Dns-Gly-Ala-OPhe. For both substrates, the Km values are increased 30-40-fold. The kcat value for peptide hydrolysis is virtually unaffected whereas that for ester hydrolysis is increased 10-fold. The magnitude of the Km effect is equivalent to a loss of 9 kJ/mol of binding energy and likely reflects a disruption of the network of hydrogen bonds that links Tyr-248 and Arg-145 to the backbone carbonyls of Ala-154 and Gly-155. The difference in kcat effects for the two substrate classes is related to differences in the chemical nature of the rate-determining step. Product release is rate determining for catalytic hydrolysis of ester substrates, and hence, the increase in kcat indicates that dissociation of products is facilitated as a result of the Ala154-Gly155 bond scission. The changes in enzymatic activity accompanying limited proteolysis are due to conformational alterations in the vicinity of the active center of the molecule. The affinity of a monoclonal antibody, mAb 100, directed toward the antigenic determinant located between residues 209 and 218 in carboxypeptidase A is diminished considerably for carboxypeptidase S.(ABSTRACT TRUNCATED AT 250 WORDS) Show less

Carbamyl phosphate synthetase I (CPS1) is an initial enzyme of urea synthetase system. It exists exclusively in liver cells and epithelial cells of the small intestine. By immunocytochemistry, 70.5% of 88 surgically resected gastric carcinomas (42 advanced and 46 early gastric carcinomas) was found to be CPS1 immunoreaction positive, whereas all other carcinomas (of the esophagus, colon, pancreas, lung, breast, ovary, kidney, prostate and urinary bladder) tested were negative. CPS1 expression in gastric carcinoma was closely related to the types of mucin secreted by the carcinoma cells. Most carcinomas secreting sialomucin were CPS1 positive, yet those secreting sulfomucin or neutral mucin did not express CPS1. The types of intestinal metaplasia adjacent to the carcinoma correlated neither with CPS1 expression nor with the histological types of carcinoma. Owing to the fact that gastric carcinomas with CPS1 expression possess the characteristics of small intestinal epithelium, it is very likely that CPS1 can be used as a novel marker for gastric carcinoma originating from complete type intestinal metaplasia. Show less

With cDNA fragments of CPS1, OCT and ACT as probes, dot and Northern blot analyses of poly(A)+-RNA from rat liver with different pathological lesions during carcinogenesis induced by diethylnitrosamine were conducted. It was shown that the level of mRNA of tissue-specific enzymes, CPSI and OCT decreased while that of the proliferating enzyme ACT mRNA increased, and the alteration was correlated with the degree of pathological changes in each case. The relative changes in the mRNA level of these enzymes during hepatocarcinogenesis were correlated with that of enzyme activities. Implication of these findings in the mechanism of carcinogenesis in terms of cell proliferation and differentiation was discussed. Show less

The ADP-ribosylation factor (ARF) is a 21-kDa GTP-binding protein that serves as the cofactor in the cholera toxin-catalyzed activation of the stimulatory guanine nucleotide-binding protein of adenylate cyclase (Gs). An oligonucleotide probe based on the partial amino acid sequence was used to clone ARF from a bovine adrenal chromaffin cDNA library. The yeast (Saccharomyces cerevisiae) ARF gene was then cloned from a YCp50 genomic library by cross-species hybridization by using the coding region of the bovine gene. RNA gel blots of poly(A)+ RNA indicate that only one ARF message size (900 and 2000 base pairs) is present in yeast and cows, respectively. Comparison of the cDNA-derived amino acid sequences of ARF to other GTP-binding proteins reveals a structural relationship between ARF and the ras family of proteins. A slightly better structural relationship is detected when ARF is compared to the alpha subunits of the trimeric GTP-binding proteins, including Gs alpha. All of the biochemical characteristics of the purified ARF, including the lack of GTPase activity and the posttranslational myristoylation, are consistent with the derived sequences. Comparison of the ARF sequences to that of the chicken processed pseudogene (CPS-1), previously reported as a ras homologue, reveals that CPS-1 is actually an ARF-derived gene. These results demonstrate that ARF is a GTP-binding protein with structural features of both the ras and the trimeric GTP-binding protein families. Show less

Nuclei from the normal mouse liver were partially digested with micrococcal nuclease, followed by DNA extraction, agarose gel electrophoresis and dot blot hybridization with 32P-labeled cDNA probes of CPS1 and ACT complex. It was clearly shown that the CPS1 genes were distributed on the monomer, dimer. and trimer of nucleosomes, while the genes coding for ACT complex were distributed on the condensed oligonucleosomes. An opposite manner of distribution of CPS1 and ACT complex genes was, however, noted in the case of ascites hepatoma cells, in which the specific activity of ACT was 13 times higher than that in the normal liver, while that of CPS1 was remarkably reduced. Similar patterns of change in mRNA level of CPS1 and ACT complex were observed in the normal mouse liver and ascites hepatoma cells, indicating a close relationship between chromatin structure and gene expression of these enzymes. Show less

cDNA coding for carbamyl phosphate synthetase I was cloned from recombinant plasmid with insert complementary to the mRNA for CPS1 followed by hybrid-selected translation screening. The length of the insert CPS1 cDNA was approximately 800 base pairs. Using this cDNA as a probe, it was found by dot-blot analysis of the total RNAs and poly(A)+-RNAs isolated from rat livers with different pathological lesions induced by diethylnitrosamine that the levels of CPS1 mRNA were decreased, the decrease being correlated with the malignancy of hepatocytes during carcinogenesis. Show less

The H-2 region of mouse chromosome 17 is known to include one or more genes that affect susceptibility to cortisone-induced cleft palate. We have now studied congenic strains that possess crossovers in the interval between H-2S and H-2D and have observed significant differences in susceptibility among recombinants that had been believed to possess the same H-2 haplotypes. Pregnant mice were injected on days 11 through 14 of gestation with 100 mg of cortisone per kg of body weight. The frequency of cleft palate in B10.A(2R) was significantly greater than in B10.A(1R), despite the fact that both have H-2a/H-2b crossovers in the interval between the S and D loci and have the same alleles at all loci that have been previously characterized. Both B10.BAR5 and B10.BAR12 were significantly more susceptible than B10.A(18R), although these strains also share the same alleles at all loci that have been previously characterized. All three of these strains have H-2b/H-2a recombinant chromosomes, with crossovers in the S/D interval. Genetic linkage between H-2 and the high-susceptibility gene of B10.BAR5 was confirmed by testing H-2 homozygotes derived by intercrossing backcross animals. These data therefore suggest that a gene coding for susceptibility, which we designate Cps-1, maps in the 350-kb interval between H-2S and H-2D, and the congenic strains that we have found to be different have different crossover points within this interval. Alleles at the Cps-1 locus have embryonic effects, but no demonstrable effects on the maternal environment. Show less

The steroidal 3 beta-oxirane (3S)-spiro[5 alpha-androstane-3,2'-oxiran]-17 beta-ol (1 beta) is an active site directed irreversible inhibitor of the 3-oxo-delta 5-steroid isomerase from Pseudomonas testosteroni. Two steroid-bound peptides (TPS1 and TPS2) were isolated by high-performance liquid chromatography (HPLC) from the trypsin digest of enzyme inactivated with 1 beta. The modified tryptic peptides (residues 14-45 of the enzyme) were further digested with chymotrypsin, each giving rise to a single steroid-containing product (CPS1 and CPS2, respectively) derived from residues 31 to 45 of the enzyme. The modified chymotryptic peptides were isolated by HPLC, and the peptide-steroid ester linkage was reduced with sodium hydroxyborohydride. Amino acid analysis of the reduced peptides gave ca. 0.5 residue of homoserine and one less residue of aspartic acid than the corresponding unreduced peptides. Sequence analysis of both reduced chymotryptic peptides revealed that homoserine was located at position 8 in the peptide sequence, corresponding to residue 38 of the enzyme. The finding that the steroidal 3 beta-oxirane, like the 17 beta-oxiranes, inactivates the isomerase via esterification of aspartic acid-38 is strong evidence that this enzyme binds steroids in at least two orientations. Show less

We describe the first polyA-containing processed pseudogene reported in the chicken. It includes a 0.52 kb open reading frame which could encode a 175 amino acid protein. The putative protein shows extensive homology to the ras oncogene superfamily, being most closely related to the yeast protein YP2. It is one of the two most divergent members of the ras superfamily yet described and is the most homologous of any ras-related protein to the G-protein alpha-transducin. The chicken genome contains at least one other gene highly homologous to CPS1; at least one member of the CPS1 family is active, but only early in chicken development. This pattern of expression, and the presence of mutations in regions known to activate human c-ras genes to oncogenicity, suggest that CPS1 may represent a new oncogene family. Show less

The sugar transport systems of Saccharomyces cerevisiae are irreversibly inactivated when protein synthesis is inhibited. This inactivation is responsible for the drastic decrease in fermentation observed in ammonium-starved yeast and is related to the occurrence of the Pasteur effect in these cells. Our study of the inactivation of the glucose transport system indicates that both the high-affinity and the low-affinity components of this system are inactivated. Inactivation of the high-affinity component evidently requires the utilization of a fermentable substrate by the cells, since inactivation did not occur during carbon starvation, when a fermentable sugar was added to starved cells, inactivation began, when the fermentation inhibitors iodoacetate or arsenate were added in addition to sugars, the inactivation was prevented, when a non-fermentable substrate was added instead of sugars, inactivation was also prevented. The inactivation of the low-affinity component appeared to show similar requirements. It is concluded that the glucose transport system in S. cerevisiae is regulated by a catabolite-inactivation process. Show less

The collagens of bovine vitreous-humour and nasal-septum cartilage have been extracted, fractionated and compared. Both tissues show the same heterogeneity of collagen types, consisting of type II, 1 alpha, 2 alpha, 3 alpha and C-PS collagens. The type II collagen of the vitreous humour was significantly more hydroxylated both in the lysine and proline residues than was that of cartilage. C-PS1 collagen, together with higher-Mr forms were present in the vitreous humour, but the higher-Mr forms were not seen in cartilage. Both C-PS1 and C-PS2 were present in vitreous humour and cartilage, but vitreous humour contained three times more of these collagens than did cartilage. Despite the difference in amount, the molar ratio C-PS1/C-PS2 was approx. 1 in both tissues, suggesting that they are components of a larger molecule. The 1 alpha, 2 alpha, 3 alpha collagens were present in the same concentration in both tissues. These three chains co-precipitated on dialysis against phosphate-buffered saline, pH 7.2, in a manner analogous to type V collagen. Show less

A new carboxypeptidase (carboxypeptidase S) was found in a Saccharomyces cerevisiae strain lacking carboxypeptidase Y (D. H. Wolf and U. Weiser, Eur. J. Biochem. 73:553-556, 1977). Mutants devoid of carboxypeptidase S activity were isolated from a mutant strain that was also deficient in carboxypeptidase Y. Four mutants were analyzed in detail and fell into one complementation group. The defect segregated 2:2 in meiotic tetrads. Gene dosage experiments indicated that the mutation might reside in the structural gene of carboxypeptidase S. The absence of both enzymes, carboxypeptidases Y and S, did not affect mitotic growth. Ascopore formation was only slightly affected by the absence of both carboxypeptidases. Protein degradation under conditions of nutrient deprivation and under sporulation conditions showed no obvious alteration in the absence of carboxypeptidases Y and S. When a proteinase B mutation, which led to the absence of proteinase B activity and resulted in the partial reduction of sporulation, was introduced into a mutant lacking both carboxypeptidases, the ability of diploid cells to sporulate was nearly completely lost. Mutants lacking both carboxypeptidases were unable to grow on the dipeptide benzyloxycarbonylglycyl-l-leucine as a sole nitrogen source, which indicates an additional function for carboxypeptidases Y and S in supplying nutrients from exogenous peptides. Catabolite inactivation of fructose-1,6-bisphosphatase, cytoplasmic malate dehydrogenase, and phosphoenolpyruvate carboxykinase and inactivation of nicotin-amide adenine dinucleotide phosphate-dependent, glutamate dehydrogenase, events which have been proposed to involve proteolysis in vivo, were not dependent on the presence of carboxypeptidase Y and S. In a mutant lacking both carboxypeptidases, four new proteolytic enzymes with carboxypeptidase activity were detected. Show less

The activity of urea cycle enzymes was assayed in duodenal biopsy specimens obtained from a female infant who presented with neonatal hyperammonaemia. All enzyme levels were normal except N-acetyl glutamate-dependent carbamyl phosphate synthetase 1 (CPS1) which was half the mean activity in normal control specimens. A similar deficiency of CPS1 was also shown in duodenal specimens from the patient's mother who became slightly symptomatic after relatively high protein meals and during pregnancy, and had spontaneously modified her diet to one with protein restriction. The patient is growing normally on a dietary regimen similar to that spontaneously adopted by her mother. Urea cycle enzyme activity in the duodenal biopsy material from the controls was similar to that found in the normal human liver and appears to have distinct advantages as a means of assaying for urea cycle defects in patients with hyperammonaemia and their relatives. Show less

Asparaginase II (L-asparagine amidohydrolase, EC 3.5.1.1) activity of cells from stationary phase cultures of Saccharomyces cerevisiae is very low. When these cells are inoculated into minimal medium, asparaginase II specific activity rises rapidly and reaches a maximum after 9-10 h. During the next 2.5-3 h, a rapid decrease in asparaginase II specific activity occurs. The enzyme does not appear to be secreted into the medium or to be reabsorbed into the cell. Addition of protease inhibitors at the time of maximum activity partially or totally prevents the loss of asparaginase II. L-1-Tosylamide-2-phenylethyl chloromethyl ketone decreases the rate of loss. The sulfhydryl reagents p-hydroxymercuribenzoate and iodoacetamide inhibit the loss of asparaginase II. However, addition of EDTA causes a further increase in activity. This increase is due to de novo protein synthesis. The effect of EDTA can be reversed by the addition of Zn2+. The most likely explanation for the rapid loss of asparaginase II is proteolytic degradation by a Zn2+-dependent, thiol protease or peptidase. Show less

Monochromatic targets presented at 30 degrees excentricity on orange, magenta and blue backgrouds are used. A small monochromatic light, 476 nm on orange, 551 nm on magenta and 621 nm on blue, is flashed at 3 cps-1 on the centre of the targets. The size of the targets is varied and their luminance adjusted using neutral filters until the flashing light is just not visible. This method allows the study of chromatic mechanism sensitivity and of retinal interactions (summation and inhibition). Some observations in normal as well as in pathological conditions are presented. Show less