Control of liver tyrosine aminotransferase expression: Enzyme regulatory studies on inbred strains and mutant mice

Studies on the genetic mechanisms in control of mouse liver tyrosine aminotransferase expression were of three general types: (1) studies on strain variance in endogenous enzyme activity and of various factors affecting the basal enzyme level, (2) purification of the enzyme and studies of its properties, and (3) studies of strain variance in enzyme regulation dealing primarily with glucocorticoid induction and with the starvation-induced enzyme adaptation. Tyrosine aminotransferase (l-tyrosine: 2-oxoglutarate aminotransferase, E.C. 2.6.1.5) was purified 400 to 600-fold from livers of C57BL/6J and DBA/2J inbred mice. Several of the properties of the mouse liver enzyme were similar to those known for the rat liver enzyme although the apparent K _m (l-tyrosine) was lower, calculated at 6.25×10^–4 M. Disc gel electrophoresis of the enzyme from 105,000 g supernatant fluid after induction by hydrocortisone indicated three bands of enzyme activity with strain variance in electrophoretic mobility between the C57BL/6J and DBA/2J mice. The administration of glucose to fasting C57BL/6J mice repressed the starvation-induced increase in enzyme activity, but did not prevent the hydrocortisone induction of enzyme activity. DEAE-cellulose chromatography of purified enzyme from fasting DBA/2J and C57BL/6J mice which had been labeled in vivo with C ¹⁴ -l-leucine revealed strain differences in the elution patterns for both enzyme activity and radioactivity. Two peaks of enzyme activity were detected in the enzyme preparations from fasting mice. The marked strain variance in the enzyme activity and the quantity of radioactivity associated with the first enzyme peak may indicate differential rates of protein turnover for different isozymic forms of tyrosine aminotransferase. Flumethasone, a potent difluoro synthetic glucocorticoid, was used in studies on the hormonal regulation of tyrosine aminotransferase in obese mutant mice of the C57BL/6J-ob strain. The obese mice are relatively insensitive to the action of adrenal glucocorticoids to cause liver enzyme induction.This paper was presented at a symposium entitled Genetic Control of Mammalian Metabolism held at The Jackson Laboratory, Bar Harbor, Maine, June 30–July 2, 1969. The symposium was supported in part by an allocation from NIH General Research Support Grant FR 05545 from the Division of Research Resources to The Jackson Laboratory.This investigation was supported in part by an allocation from the NIH General Research Support Grant FR 05545 from the Division of Research Resources to The Jackson Laboratory and in part by Institutional Grant IN-19 from the American Cancer Society to The Jackson Laboratory.     

Murine catalase phenotypes

An examination of three inbred strains of mice differing with respect to liver and kidney catalase activity reveals two distinct genetic factors controlling the level of liver catalase activity. The first genetic factor controls the catalytic activity of the enzyme. Specific activity of purified enzyme from C57BL/6 and C57BL/Ha strains is 60% of that of the DBA/2 strain. The second factor controls the content of liver catalase. Liver catalase of C57BL/Ha is degraded in vivo at a rate one half that of liver catalase of DBA/2 and C57BL/6, resulting in the accumulation of twice as many catalase molecules in C57BL/Ha. The factor affecting turnover of catalase is apparently specific for catalase of liver since no differences exist in kidney catalase levels between C57BL/Ha and C57BL/6. Furthermore, this factor does not appear to alter the metabolism of total liver protein since no substantial difference in the turnover rate of liver protein is observed among the strains. It is particularly significant that the genetic factor affecting the amount of liver catalase does so by altering the rate of catalase degradation rather than the rate of synthesis, confirming the previously published report of Rechcigl and Heston (1967). Thus, these studies emphasize that the quantity of an enzyme in animal cells is a balance between the rate of synthesis and the rate of degradation of the enzyme.This paper was presented at a symposium entitled Genetic Control of Mammalian Metabolism held at The Jackson Laboratory, Bar Harbor, Maine, June 30–July 2, 1969. The symposium was supported in part by an allocation from NIH General Research Support Grant FR 05545 from the Division of Research Resources to The Jackson Laboratory.This investigation was supported by USPHS Research Grant GM 14931 from the Division of General Medical Sciences, and Grants PF-373 and P-427 from the American Cancer Society.     

Rates of sterol synthesis and hydroxymethylglutaryl coenzyme a reductase levels,and the effects of cholest-4-en-3-one on these parameters,in the livers of inbred strains of mice

Hereditary factors in inbred mouse strains affected the rate of sterol synthesis from acetate and the level of hydroxymethylglutaryl coenzyme A reductase in liver in two ways. During the forenoon, rates of sterol synthesis and levels of HMG-CoA reductase activity were two- to five-fold higher in C57L/J and DBA/2J mice than in mice of strains A/HeJ or SWR/J. Due to an apparent difference in the circadian cycle of the two strains, these differences between C57BL/6J and A/HeJ strains were not as great at 4:30 pm, and in some cases the relative order of the values was reversed at this time. Low doses of dietary cholest-4-en-3-one inhibited sterol synthesis and HMG-CoA reductase in livers of all strains tested, whereas high doses or prolonged feeding of the steroid caused a relatively rapid elevation of both sterol synthesis and enzyme activity to above normal levels in several mouse strains including C57L/J. Sterol synthesis and enzyme activity in strain A/HeJ mice were depressed by dietary cholest-4-en-3-one under all conditions tested except when the steroid was fed at a low level for a prolonged period. LAF₁ offspring of the cross C57L/J×A/HeJ responded to dietary cholest-4-en-3-one as did the A/HeJ parental strain. Analysis of the effects of cholest-4-en-3-one upon sterol synthesis in backcross offspring of the mating LAF₁/J×C57L/J did not permit precise estimation of the number of genes that determine the difference in response to the dietary steroid but did suggest that the number may be relatively small.This paper was presented at a symposium entitled Genetic Control of Mammalian Metabolism held at The Jackson Laboratory, Bar Harbor, Maine, June 30–July 2, 1969. The symposium was supported in part by an allocation from NIH General Research Support Grant FR 05545 from the Division of Research Resources to The Jackson Laboratory.Supported in part by NIH Research Grant CA 02758 and NIH Training Grant Tol CA 05013, both from the National Cancer Institute. Some of this work was presented by R.M.P. in partial fulfillment of the requirement for a M.S. degree.     

Purification and characterization of anl-amino-acid oxidase fromChlamydomonas reinhardtii

Anl-amino-acid oxidase (EC 1.4.3.1) that catalyzes the oxidative deamination of twelvel-amino acids has been purified 21-fold and with 14% yield to electrophoretic homogeneity fromChlamydomonas reinhardtii cells by ammonium-sulfate fractionation, gel filtration through Sephacryl and Superose, anion-exchange chromatography and preparative electrophoresis in polyacrylamide gels. The native enzyme is a protein of 470 kDa and consists of eight identical or similarsized subunits of 60 kDa each. Optimum pH and temperature were 8.2 and 55° C, respectively, with a Q₁₀ (45–55° C) of 1.7 and an activation energy of 45 kJ · mol^–1. Its absorption spectrum showed, in the visible region, maxima at 360 and 444 nm, characteristic of a flavoprotein with a calculated flavin content of 7.7 mol FAD per mol of native enzyme. ApparentK _m values of the twelvel-amino acids which can act as substrates ofl-amino-acid oxidase ranged between 31 M for phenylalanine and 176 M for methionine. The effect of several specific group reagents, chelating agents and bivalent cations on enzyme activity has also been studied.This work was supported by Grant 780-CO2-01 from CICYT, Spain. The skillful secretarial assistance of C. Santos and I. Molina is gratefully acknowledged.     

Cytochrome c oxidase activity in T/t 6 (balanced lethal) mutant mice

R-1 (1450g) and R-2 (25,000g) liver fractions from T/t ⁶ and B6CBAF1 hybrid mice were analyzed for their protein content, mitochondria concentrations, and activities of three respiratory-chain enzymes of the mitochondrial inner membrane: cytochrome c oxidase (ferrocytochrome c: oxygen oxidoreductase, E.C. 1.9.3.1), -glycerophosphate dehydrogenase [l-glycerol-3-phosphate: (acceptor) oxidoreductase, E.C. 1.1.99.5], and succinate-cytochrome c reductase. Only cytochrome c oxidase activity, calculated as units per 1010 mitochondria, was significantly lower in both R-1 and R-2 fractions of T/t ⁶ mice. Cytochrome c oxidase activity varied greatly among T/t ⁶ mice, as did their liver mitochondria concentrations and body weights. Cytochrome c oxidase activity in the R-1 fraction of T/t ⁶ mice, calculated as units per 1010 mitochondria per gram of body weight, averaged about 40% lower than in B6CBAF1 mice. -Glycerophosphate dehydrogenase activity was often elevated in T/t ⁶ mice, particularly in the R-2 fraction. The T/t locus, a complex genetic locus on chromosome 17, may contain genes important to the function and biogenesis of mitochondria.This investigation was supported by institutional funds from the Jackson Laboratory and by an allocation from NIH Biomedical Research Support Grant (RR-05545). The Jackson Laboratory is fully accredited by the American Association for Accreditation of Laboratory Animal Care.     

Uptake of acetyl-l-carnitine in the brain

Analysis in mouse brain slices of the uptake of acetyl-l-[N-methyl-¹⁴C]carnitine with time showed it to be concentrative, and kinetic analysis gave aK _m of 1.92 mM and aV _max of 1.96 mol/min per ml, indicating the presence of a low-affinity carrier system. The uptake was energy-requiring and sodium-dependent, being inhibited in the presence of nitrogen (absence of O₂), sodium cyanide, low temperature (4°C), and ouabain, and in the absence of Na⁺. The uptake of acetyl-l-carnitine was not strictly substrate-specific; -butyrobetaine,l-carnitine,l-DABA, and GABA were potent inhibitors, hypotaurine andl-glutamate were moderate inhibitors, and glycine and -alanine were only weakly inhibitory. In vivo, acetyl-l-carnitine transport across the blood-brain barrier had a brain uptake index of 2.4±0.2, which was similar to that of GABA. These results indicate an affinity of acetyl-l-carnitine to the GABA transport system.     

l-Fucose residues on cellulose-based dialysis membranes: Quantification of membrane-associatedl-fucose and analysis of specific lectin binding

Contact of mononuclear human leukocytes with cellulose dialysis membranes may result in complement-independent cell activation, i.e. enhanced synthesis of cytokines, prostaglandins and an increase in 2-microglobulin synthesis. Cellular contact activation is specifically inhibited by the monosaccharidel-fucose suggesting that dialysis membrane associatedl-fucose residues are involved in leukocyte activation. In this study we have detected and quantitatedl-fucose on commercially-available cellulose dialysis membranes using two approaches. A sensitive enzymatic fluorescence assay detectedl-fucose after acid hydrolysis of flat sheet membranes. Values ranged from 79.3±3.6 to 90.2±5.0 pmol cm^–2 for Hemophan® or Cuprophan® respectively. Enzymatic cleavage of terminal -l-fucopyranoses with -l-fucosidase yielded 7.7±3.3 pmoll-fucose per cm² for Cuprophan. Enzymatic hydrolysis of the synthetic polymer membranes AN-69 and PC-PE did not yield detectable amounts ofl-fucose. In a second approach, binding of the fucose specific lectins ofLotus tetragonolobus andUlex europaeus (UEAI) demonstrated the presence of biologically accessiblel-fucose on the surface of cellulose membranes. Specific binding was observed with Cuprophan®, and up to 2.6±0.3 pmoll-fucose per cm² was calculated to be present from Langmuir-type adsorption isotherms. The data presented are in line with the hypothesis that surface-associatedl-fucose residues on cellulose dialysis membranes participate in leukocyte contact activation.     

Variation in alpha-L-fucosidase properties among 28 inbred mouse strains: Six strains have high enzyme activity and heat-stabile enzyme with a variant pH-activity curve; twenty-two strains have low activity and heat-labile enzyme

Alpha-L-fucosidase in tissues of 28 inbred mouse strains varied with respect to three properties: high or low heat stability, a pH-activity curve with high or low relative activity at pH 2.8, and high or low activity. Alpha-L-fucosidase from six strains (A/J, BDP/J, LP/J, P/J, SEA/GNJ, and 129/J) had high heat stability, high pH 2.8 relative activity, and high activity, whereas the other 22 strains all had low heat stability, low pH 2.8 relative activity, and low activity. The heat-stability difference was seen in all organs tested (brain, liver, kidney, spleen, heart, skeletal muscle, lung, and testis) for two heat-stabile strains (P/J and 129/J) and four heat-labile strains (C57 BL/6J, C3H/HeJ, DBA/2J, and BALB/cJ) studied in detail. The findings suggested that two structural variants of alpha-L-fucosidase, probably genetically determined, exist in these 28 inbred mouse strains, although the presence of linkage disequilibrium between alleles of tightly linked structural and regulatory genes could not be excluded.This work was supported by grants from the National Institutes of Health (NS-15281 and NS-11766), the Muscular Dystrophy Association (H. Houston Merritt Clinical Center for Muscular Dystrophy and Related Diseases), the March of Dimes Birth Defects Foundation, and a generous gift from the Alexander Rapaport Foundation.     

Biochemical and genetic characterization of l-glutamate transport and utilization in Salmonella typhimurium LT-2 mutants

Two systems for l-glutamate transport were found in Salmonella typhimurium LT-2 GltU⁺ (glutamate utilization) mutants. The first one is similar to the glt system previously described in Escherichia coli; by transductional analysis the structural gene, gltS, coding for the transport protein was located at minute 80 of the chromosome as part of the operon gltC-gltS, and its regulator, the gltR gene, near minute 90; the gltS gene product transports both l-glutamate and l-aspartate, is sodium independent, and is -hydroxyaspartate sensitive. The second transport system, whose structural gene was called gltF and is located at minute 0, was l-glutamate specific, sodium independent, and -methylglutamate sensitive. Two aspartase activities occurred in S. typhimurium LT-2: the first one was present only in the GltU⁺ mutants, had a pH 6.4 optimum, was essential for both l-glutamate and l-aspartate metabolism, and mapped at minute 94, close to the ampC gene. The second one had a pH 7.2 optimum, could be induced by several amino acids, and thus may have a general role in nitrogen metabolism.     

Formation of d(-)-1,2-propanediol and d(-)-lactate from glucose by Clostridium sphenoides under phosphate limitation

Clostridium sphenoides was grown on glucose in a phosphate-limited medium. Below 80 M phosphate two new products were formed in addition to ethanol, acetate, H₂ and CO₂: d(-)-1,2-propanediol and d(-)-lactate. These compounds were apparently synthesized via the methylglyoxal by-pass. The activity of the enzymes involvedmethylglyoxal synthase, methylglyoxal reductase, 1,2-propanediol dehydrogenase and glyoxalase-could be demonstrated in cell extracts of C. sphenoides. The formation of 1,2-propanediol from methylglyoxal proceeded via lactaldehyde. The enzyme methylgloxal synthase was inhibited by phosphate. Clostridium glycolicum, C. nexile, C. cellobioparum, C. oroticum and C. indolis did not produce propanediol under the condition of phosphate limitation. The latter two species, however, formed d(-)-lactate.Dedicated to Prof. Dr. G. Drews on the occasion of his 60th birthday     

Living cell reaction process forl-isoleucine andl-valine production

Summary A new process (Living Cell Reaction Process) forl-isoleucine production using viable, non-growing cells ofBrevibacterium flavum AB-07 was optimised using ethanol as the energy source and -ketobutyric acid (-KB) as precursor.l-valine also could be produced from glucose at high yield by this process. This process differs from the usual fermentation method in that non-growing cells are used, and the production ofl-isoleucine andl-valine were carried out under conditions of repressed cell division and growth. Minimal medium missing the essential growth factor, biotin was employed as the reaction mixture for the production ofl-isoleucine andl-valine. The productivity ofl-isoleucine andl-valine were 200 mmol·l^–1 · day^–1 (molecular yield to -KB: 95%) and 300 mmol · l^–1 · day^–1 (molecular yield to glucose: 80%) respectively. The content ofl-isoleucine andl-valine in total amino acids produced in the each mixture were 97% and 96% respectively.     

Expression of α-d-mannosidase in man-hamster somatic cell hybrids

Two types of -d-mannosidase isozymes are present in human white blood cells, human diploid fibroblasts, and HeLa cells. One of these (the S isozyme) constitutes the major -d-mannosidase of the human cells, has a pH optimum of 4.4, and is associated with lysosomes. The other (the F isozyme) is most active at pH 6, is acid labile, and is located in the soluble portion of the cytoplasm. The expression of human lysosomal -d-mannosidase was examined in man-hamster hybrid clones, and was found to be concordant with that of phosphohexose isomerase in 54 of 55 primary clones. A locus specifying human lysosomal -d-mannosidase has therefore been assigned to chromosome 19.This work was supported by NIH Grants HD 04807-07 and HD 06285-04 and by a research grant (5 PO 1 HB 06276-04) to the Mental Retardation Research Center of the Children's Hospital Medical Center, Boston, Massachusetts, from the NIH.     

The X-chromosome and the enzymes controlling muscle glycogen: Phosphorylase kinase

The genetic locus for alleles (+k and k) that determine the presence and absence of the muscle enzyme, phosphorylase kinase, has been located on the X chromosome of the mouse. The inheritance of glycogen content in resting skeletal muscle follows the Mendelian pattern, and the genes which determine it must also be sex-linked. Evidence is presented which strongly suggests that one of the major determinants of glycogen concentration is phosphorylase kinase; inverse correlations of the enzyme and glycogen were found during neonatal development and among hybrid females, where content of phosphorylase kinase in muscle is highly variable. This variability in kinase content also determines the degree of the epinephrine effect (formation of phosphorylase a) in these hybrid females. The hybrid mice (F₁, F₂, and first backcross) were obtained from crosses of I/FnLn and C57BL/FnLn mice. Adult mice of the I strain completely lack phosphorylase kinase in skeletal muscle and have a high glycogen content.This paper was presented at a symposium entitled Genetic Control of Mammalian Metabolism held at The Jackson Laboratory, Bar Harbor, Maine, June 30–July 2, 1969. The symposium was supported in part by an allocation from NIH General Research Support Grant FR 05545 from the Division of Research Resources to The Jackson Laboratory.This research was supported by grants (AM 03524 and GM-K3-4120) from the National Institutes of Health. Contribution No. 931 from the Division of Basic Health Sciences.     

StereoselectiveO-glycosylation oftrans-4-hydroxy-l-proline derivatives promoted by silver zeolite

Trans-4-hydroxy-l-proline has been converted to four imino- and carboxyl-blocked derivatives which are suitable for the synthesis of 4-O-glycosyl conjugates. Reaction of these derivatives with 2,3,5-tri-O-benzyl--l-arabinofuranosyl chloride in the presence of a silver zeolite promoter yielded the blocked -furanosyl amino-acid conjugates. Deprotection gavetrans-4-(-l-arabinofuranosyloxy)-l-proline which was characterised as its crystalline isopropyl ester.¹³C-NMR Data are presented for the compounds described.     

Induction of extracellular arabinases on monomeric substrates in Aspergillus niger

The induction of extracellular arabinases by pentose sugars and polyols generated by the metabolic pathway of l-arabinose and d-xylose catabolism in Aspergillus niger was investigated. Induction occurred with l-arabinose and l-arabitol but not with d-xylose or xylitol. l-arabitol in particular was found to be a good inducer for -l-arabinofuranosidase and endo-arabinase activities. Western blotting analysis showed both -l-arabinofuranosidase A and B to be present. No induction was observed using d-arabitol. Unlike the wild type A. niger N402 strain, the A. niger xylulose kinase negative mutant N572 also showed induction of -l-arabinofuranosidases A and B and endo-arabinase activity on d-xylose and xylitol. This is due to metabolic conversion of these compounds leading to the accumulation of both xylitol and l-arabitol in this mutant, the latter of which then acts as inducer. The induction of the two -l-arabinofuranosidases and endo-arabinase is under the control of two regulatory systems namely pathway specific induction and carbon catabolite repression. Under derepressing conditions in the wild type only -l-arabinofuranosidase B could be detected by Western blotting analysis. This indicates that -l-arabinofuranosidase B is of importance in the initiation of specific induction of the various arabinose activities in A. niger grown on arabinose containing structural polysaccharides.Abbreviations PNA p-nitrophenyl--l-arabinofuranoside     

Metabolic properties of erythrocytes of normal and genetically anemic mice

The murine hemolytic anemias microcytosis (gene symbol mk), normoblastosis (nb), spherocytosis (sph), and hemolytic (ha) are inherited as autosomal recessive diseases and resemble the human hereditary hemolytic anemias caused by defective enzyme activities in erythrocytes. The activities of 14 different enzymes of the glycolytic and pentose phosphate pathways were compared in erythrocytes from normal and anemic mice, but no quantitative differences suggesting enzyme deficiency were found. There were no major changes in reduced glutathione, NAD, NADP, or methemoglobin content. The rate of entry of glucose into the glycolytic and hexose monophosphate shunt pathways of intact erythrocytes was higher in mk/mk erythrocytes than predicted. Interpretation of studies of erythrocytes from anemic mice is generally complicated by the extremely high reticulocyte and nucleated cell counts in ha/ha, sph/sph, and nb/nb mice.Investigations in Kentucky (Dr. Hutton) were supported by Research Career Development Award 1-K4-AM-70, 186-01 and NIH Research Grant AM 16013-01 from the National Institute of Arthritis and Metabolic Diseases, and those at The Jackson Laboratory (Dr. Bernstein) by NIH Research Grant HD-00254 from the National Institute of Child Health and Human Development, by U.S. Atomic Energy Commission Contract AT(30-1)-1800, and in part by the George W. Perkins Memorial Fund and by income from the Endowment Funds of The Jackson Laboratory. The Jackson Laboratory is fully accredited by the American Association for Accreditation of Laboratory Animal Care.     

Strain distribution and linkage relationship of a mouse embryonic hemoglobin variant

Search for structural variants of three globin chains (x, y, z), synthesized only during mouse embryonic hematopoiesis, was carried out by electrophoretic analysis of blood from 12-day embryos, all with C57BL/6 mothers, and fathers from 115 inbred stocks selected for their diverse genetic origins. Structure of the -chains of adult hemoglobins differed among the tested strains, with 57 carrying the Hbb ^sallele, 56 the Hbb ^dallele, and two the Hbb ^pallele. The search revealed no x- or z-chain variants but confirmed and extended knowledge of a previously described y-chain variant. Blood of all embryos sired by males from the 57 Hbb ^sstrains contained only y¹-chains, while blood of all embryos sired by Hbb ^dor Hbb ^pmales contained y2-chains as well as the y¹-chains inherited from their C57 BL/6 mother. The locus controlling structure of the y-chain of mouse embryonic hemoglobins is thus extremely closely linked to the locus controlling structure of adult hemoglobin -chain, with maximum possible recombination frequency less than 0.019.This work was supported in part by Grants CA-01074 from the National Cancer Institute, USPHS, and GM 18684 from the National Institute of General Medical Sciences, in part by Grant ACS-VC58 from The American Cancer Society, in part by grants to the Jackson Laboratory from the Bushrod H. Campbell and Adah F. Hall Charity Fund and the Robert Sterling Clark Foundation, and in part by the Jackson Laboratory Endowment Fund. The Jackson Laboratory is fully accredited by the American Association for Accreditation of Laboratory Animal Care.     

Assimilation of γ-butyrobetaine,and d-and l-carnitine by resting cell suspensions of Acinetobacter calcoaceticus and Pseudomonas putida

The metabolic pattern of utilization of [1,2,3,4-¹⁴C, methyl-³H] -butyrobetaine and d-and l-[1-¹⁴C, methyl-³H]carnitine has been examined with variously grown resting cell suspensions of Acinetobacter calcoaceticus and Pseudomonas putida. Ps. putida grown on d, l-carnitine as the sole source of carbon, degraded only l-carnitine with stoichiometric accumulation of glycinebetaine. Alternatively, when grown on -butyrobetaine, Ps. putida rapidly metabolized -butyrobetaine, and to a lesser but significant extent, both d-and l-carnitine with equivalent formation of trimethylamine and degradation of the betaine carbon skeleton. Ac. calcoaceticus grown on either d,l-carnitine or -butyrobetaine, effectively utilized all three betaines at nearly the same rates. Disappearance of each of these quarternary ammonium compounds was accompanied by stoichiometric formation of trimethylamine and degradation of the carbon backbone. Utilization of the betaines and corresponding formation of trimethylamine by resting cell suspensions of appropriately grown Ac. calcoaceticus and Ps. putida, was essentially abolished under conditions of anaerobiosis and severely impaired in the presence of sodium cyanide, sodium azide, 2,4-dinitrophenol or 2,2-bipyridine. The results of the present investigations with resting cell suspensions of both Ac. calcoaceticus and Ps. putida do not support an earlier suggestion that -butyrobetaine degradation in these organisms proceeds by its prior hydroxylation to l-carnitine. Indeed, disrupted cell-free preparations of Ac. calcoaceticus and Ps. putida grown on either d,l-carnitine or -butyrobetaine showed no detectable -butyrobetaine hydroxylase activity.     

Loss ofHindIII cleavage sites in thed-amino acid oxidase gene in some inbred strains of mice

Summary d-Amino acid oxidase cDNA was amplified by a polymerase chain reaction using RNA extracted from the mouse kidney. When digested withHindIII, the cDNAs of the BALB/c and ddY/DAO^– mice were cleaved into two fragments whereas the cDNA of the ddY/DAO⁺ mice was not. Sequencing revealed that nucleotide-471 of the cDNAs was G in the BALB/c and ddY/DAO^– mice whereas it was substituted for C in the ddY/DAO⁺ mice. This base substitution was the cause of the failure of the cleavage of the cDNA of the ddY/DAO⁺ mice.Examination of other strains of inbred mice showed thatd-amino-acid oxidase cDNAs of A/J, AKR, C57BL/6, CD-1, CF#1, ICR, DBA/2, NZB and NZW mice were cleaved withHindIII into two fragments whereas those of C3H/He, CBA/J and NC mice were not. Genomic DNAs extracted from the mice of these 15 strains were digested withHindIII and hybridized withd-amino-acid oxidase cDNA. A 18.2-kb fragment hybridized with the probe in the C3H/He, CBA/J, ddY/DAO⁺ and NC mice whereas two fragments of 12 kb and 6.2 kb hybridized in the other mice. These results are consistent with those of the cDNAs, confirming the loss of theHindIII cleavage site in the C3H/He, CBA/J, ddY/DAO⁺ and NC mice. The Southern hybridization revealed a loss of a differentHindIII cleavage site in the A/J, AKR, C57BL/6, DBA/2, ICR and NZB mice.The substitution at nucleotide-471 should cause a substitution of an amino acid residue. However, this substitution did not affect catalytic activity ofd-amino acid oxidase.     

Single gene control of resistance to cutaneous leishmaniasis in mice

A series of inbred, congenic resistant, and hybrid strains of mice were intradermally inoculated with 10⁶ promastigotes of Leishmania tropica. These mice were divided into susceptible and resistant groups using the criteria of lesion size, development of metastatic foci and skin-test reactivity. At 16 weeks of infection, resistant strains A/J, DBA/1J, AKR/J, CBA/J, C3H/HeJ, NZB/BINJ, C57BL/6J, C57BL/10Sn, B10.D2, B10.129(10M), and B10.CE(30NX) had completely resolved their lesions, while susceptible SWR/J and BALB/cJ mice demonstrated large, nonhealing cutaneous lesions. In addition, BALB/cJ developed metastatic lesions on the extremities which progressively increased in size. All BALB/cJ and SWR/J mice died by 7 1/2 months of infection. The BALB/cJ x C57BL/6JF₁ hybrid behaved in an intermediate fashion showing a slower expansion of cutaneous ulcers and a delayed development of metastatic foci, however, the infection ultimately proved fatal. The F₂ generation could be separated into three distinct groups: resistant, intermediate, and susceptible mice with a lesion size distribution pattern in conformity with a 1:2:1 ratio. Male/female susceptibility differences were not noted. These data indicated that development of acquired resistance may be under the control of a single, autosomal gene. The gene did not appear to be H-2-, Ir-2-, or H-11-linked as is seen with Leishmania donovani infections.