Functions of the white and topaz loci of Lucilia cuprina in the production of the eye pigment xanthommatin

The white and topaz eye color mutants of L. cuprina are defective in the production of the brown screening pigment xanthommatin. Both white and topaz mutants were found to be unable to accumulate xanthommatin precursors in the larval malpighian tubules, correlating with their reduced early pupal level of this metabolite. In addition, white mutants showed reduced rates of accumulation of kynurenine and 3-hydroxykynurenine in the adult eyes. Another mutant strain, grape, was also defective in its ability to accumulate these xanthommatin precursors in the eyes, although accumulation was normal in the larval tubules. In contrast, the topaz mutants were found to be normal in eye accumulation, although tubule accumulation was markedly abnormal. These properties of the white and topaz mutants of L. cuprina are compared with those of the white and scarlet mutants of D. melanogaster, and it seems likely that in the two species these genes are involved with the uptake or storage of xanthommatin precursors in specific tissues.This work was supported by Grant D2 75/15248 from the Australian Research Grants Committee.     

Phenotypic Characterization of Adenovirus Type 12 Temperature-Sensitive Mutants in Productive Infection and Transformation

Eleven temperature-sensitive mutants of adenovirus type 12, capable of forming plaques in human cells at 33 C but not at 39.5 C, were isolated from a stock of a wild-type strain after treatment with either nitrous acid or hydroxyl-amine. Complementation tests in doubly infected human cells permitted a tentative assignment of eight of these mutants to six complementation groups. Temperature-shift experiments revealed that one mutant is affected early and most of the other mutants are affected late. Only the early mutant, H12ts505, was temperature sensitive in viral DNA replication. Infectious virions of all the mutants except H12ts505 and two of the late mutants produced at 33 C, appeared to be more heat labile than those of the wild type. Only H12ts505 was temperature sensitive for the establishment of transformation of rat 3Y1 cells. One of the late mutants (H12ts504) had an increased transforming ability at the permissive temperature. Results of temperature-shift transformation experiments suggest that a viral function affected in H12ts505 is required for “initiation” of transformation. Some of the growth properties of H12ts505-transformed cells were also temperature dependent, suggesting that a functional expression of a gene mutated in H12ts505 is required to maintain at least some aspects of the transformed state.     

Interactions of membrane excitability mutations affecting potassium and sodium currents in the flight and giant fiber escape systems of Drosophila

Summary We have studied the influence of the K⁺-current mutations eag and Sh and the Na⁺-current mutation nap ^ts upon two well-defined neural circuits that underlie flight and an escape response in Drosophila, recording from dorsal longitudinal and tergotrochanteral muscles. Mutations of Sh and eag affected refractory period and following frequency, but not latency, of the jump-and-flight escape response. The nap ^ts mutation altered these 3 physiological parameters of the jump (TTM), but not the flight (DLM), branch, suggesting differences in the vulnerability of different circuit components to the mutation. In contrast to their interaction in some other systems, nap ^ts did not counteract the effects of eag and Sh upon these physiological parameters in eag Sh; nap triple mutants.In eag Sh double mutants, in which multiple K⁺ currents may be diminished, flight muscles showed abnormal rhythmic activity not associated with flight, and some flies also had an abnormal wings-down posture. The low-frequency spikes probably originated in the flight muscle motoneurons, but the coordination between muscle fibers during this non-flight activity was distinct from flight. Nevertheless, in spite of the presence of this non-flight activity in resting eag Sh flies, those animals with normal wing posture were also able to fly, with a normal pattern of muscle activity. This suggests that in these mutants, the DLM motoneuron circuit is able to switch between two patterns of output, non-flight activity and flight. In eag Sh; nap triple mutants, the non-flight activity and abnormal wing posture were absent, indicating that a reduction of Na⁺ current counteracts the hyperexcitable influence of the K⁺-current mutations in this circuit.Abbreviations CGF cervical giant fiber - DLM dorsal longitudinal muscle - eag ether à go-go - FF ₅₀ following frequency with 50% response - nap ^ts no action potential — temperature sensitive para paralytic - PSI peripherally synapsing interneuron - Sh Shaker TTM tergotrochanteral muscle     

Ribosome structure, maturation of ribosomal RNA and drug sensitivity in temperature-sensitive mutants of Saccharomyces cerevisiae

Summary Selected strains of Saccharomyces cerevisiae were mutagenised with nitrosoguanidine and temperature-sensitive mutants isolated. These mutants were screened by twodimensional gel-electrophoresis for the presence of ribosomal proteins with altered mobility relative to parental preparations. Electrophoretic changes were detected in three mutants designated ts205, ts212 and ts417, with the alterations apparently the same in the three cases. All three mutants were more sensitive than were their parents to the antibiotics G418, hygromycin B and MDMP. Mutant ts212 has an abnormal distribution of native ribosomal subunits and appears to be defective in its assembly of the smaller subparticle.     

Differential regulation of choline acetyltransferase expression in adult Drosophila melanogaster brain

Choline acetyltransferase (ChAT, E.C.2.3.1.6) catalyzes the synthesis of acetylcholine, and is considered to be a phenotypic marker specific for cholinergic neurons. In situ hybridization using a nonradioactive cRNA probe identified a large number of cell bodies expressing ChAT mRNA in the cortices of wild-type Drosophila melanogaster brain. Strong labeling is remarkable in the cortical regions associated with the lamina and antennal lobe, and also in the median neurosecretory (MNS) cells within pars intercerebralis, suggesting that some of the lamina monopolar neurons, antennal interneurons, and MNS cells are cholinergic. In two temperature-sensitive mutant alleles, Cha^ts1 and Cha^ts2, most hybridization signal disappears after exposure to a restrictive temperature (30°C). Loss of signal is especially evident in the optic lobes. Some centrally located neurons, however, continue to express ChAT mRNA and are thus likely to have expression controlled in a different way than the majority of cholinergic neurons. Immunocytochemistry, using a ChAT specific monoclonal antibody, identified two sets of paired neurons located in the posterior cortex of the brain. These neurons persist in ChAT immunoreactivity even in the Cha^ts mutants exposed to restrictive temperature. ChAT mRNA is also detectable in the corresponding cell bodies when Cha^ts mutants are held at restrictive temperature. Our findings demonstrate some specific cholinergic neurons in Drosophila brain, and indicate that ChAT expression is differentially regulated in particular sets of cholinergic neurons. © 1996 John Wiley & Sons, Inc.     

The temperature-sensitive mutation vir ts(virilizer) identifies a new gene involved in sex determination of Drosophila

Summary When XX animals homozygous for the temperature-sensitive mutation vir ^tsof virilizer (2–103.9) are raised at the restrictive temperature of 29° C, they are transformed into sterile intersexes with a morphology comparable to XX flies mutant at the sex-determining gene doublesex (dsx). The gonads of the vir ^tsintersexes are ovaries in which the germ cells undergo abortive oogenesis. At the permissive temperature of 25° C or below, XX vir ^tsanimals develop into marginally fertile females. The temperature-sensitive period of vir ^tsis within the third larval instar. XY males are not affected by the mutation. Animals that are homozygous for vir ^tsand either transformer (tra) or tra2 develop as pseudomales; on the other hand, constitutive expression of a female-specific tra product rescues XX animals from the effect of vir ^ts, but these females are sterile. The data show that tra and tra2 are epistatic to vir. Animals with only one wildtype copy of either tra or tra2 and mutant for vir ^tsare already transformed into intersexes at 25° C. Conversely, the presence of three copies of the tra ⁺ gene largely prevents the effect of vir ^tsat 29° C; such flies are practically female, but sterile. Animals homozygous for vir ^tsand heterozygous for dsx ^D/+, raised at 29° C, are transformed into severely masculinized intersexes or almost pseudomales. The observations suggest that vir acts above and via tra and tra2 to achieve proper female-specific expression of the dsx gene in XX zygotes. Offprint requests to: R. Nöthiger     

Terminal synthesis of xanthommatin in Drosophila melanogaster. I. Roles of phenol oxidase and substrate availability

Eye color mutants of Drosophila melanogaster are known which block the conversion of 3-hydroxykynurenine to xanthommatin. It has been proposed that this reaction depends on the presence of 3-hydroxykynurenine and a redox system maintained by phenol oxidase activity. The mutants st and ltd lack throughout development detectable amounts of 3-hydroxykynurenine or its metabolic derivatives. When the substrate is fed or injected, these mutants fail to form xanthommatin even though phenol oxidase activity is normal. The mutant cd accummulates excessive amounts of 3-hydroxykynurenine, has normal phenol oxidase activity, but is also deficient in xanthommatin formation. Mutants are also known which lack phenol oxidase activity but nevertheless form xanthommatin. It is concluded that the proposed relationship between 3-hydroxy-kynurenine and phenol oxidase activity is not sufficient to explain the in vivo synthesis and regulation of synthesis of xanthommatin in Drosophila. The bearing of these findings on the actual mode of synthesis is discussed.Supported by PHS 1029 and NSF GB-4539.     

Isolation and characterization of immunity temperature sensitive mutants of Enterobacter cloacae harbouring the cloacinogenic factor DF13

Summary Enterobacter cloacae cells, harbouring the cloacinogenic factor DF13 (Clo DF13) are immune to the cloacin they produce. We describe the isolation of eleven Enterobacter cloacae (Clo DF13) mutants, which are immune at 30°C, but lose their immunity at 42°C. The temperature sensitive immunity (Imm^ts) of these mutants appeared not to be transferable together with the Clo DF13 factor to non-cloacinogenic acceptor strains. Apparently host mutations are involved in the Imm^ts phenotype. Two different groups of Imm^ts mutants could be identified. Imm^tsC6 and Imm^tsC8, representatives of each group, have been compared with the parent strain. Imm^tsC6 as well as Imm^tsC8 is sensitive to crude cloacin at 42°C. Imm^ts mutants appeared to be also sensitive to cell components other than cloacin, indicating that the Imm^ts mutations may result in pleiotropic changes of cell properties.The Imm^tsC6 mutant is sensitive to deoxycholate and osmotic shock at 42°C. Spheroplasts of Imm^tsC6 cells incubated at 42°C are sensitive to DOC at 42°C and 30°C. The pleiotrophic changes of the Imm^tsC6 mutant may be attributed to a defect in the cell membrane.The Imm^tsC8, incubated at 42°C, is sensitive to deoxycholate, osmotic shock, ethylene-diaminetetraacetic acid, dyes, drugs and UV. Furthermore they form filaments. Imm^tsC8 spheroplasts are as sensitive to deoxycholate as the parent strain at 42°C. The pleiotropic changes in the phenotype of Imm^tsC8 are considered to be the result of a defect in the outer layers of the cell envelope, most likely the lipopolysaccharide layer.The possible relationship between the observed structural defects in the cell envelope of Imm^ts mutants and the phenomenon of immunity have been discussed.     

Responses ofArabidopsis roots to auxin studied with high temporal resolution: Comparison of wild type and auxin-response mutants

We modified a video digitizer system to allow short-term high-resolution measurements of root elongation in intact seedlings ofArabidopsis thaliana (L.) Heynh. We used the system to measure the kinetics of promotion and inhibition of root elongation by applied auxin and to determine the dose-response relationship for auxin action on elongation in roots of wild-type seedlings and seedlings of mutants (axr1,aux1, andaxr2) with altered auxin responsiveness. Roots of the mutants showed less inhibition in the presence of inhibitory concentrations of auxin than did roots of the wild type. The latent period preceding the change in elongation rate after auxin application was the same foraxr1 andaxr2 as for the wild type whereas the latent period foraux1 was about twice as long as for the wild type. Low concentrations (ca. 10^–11 M) of auxin induced substantial promotion of root elongation in the wild type and inaxr2.We thank Linda Young and Roger Hangarter for helping to develop the system for mountingArabidopsis seedlings and Wendy Hankie, Julia Hufford, and Ruperto Villella for doing some of the experiments. We thank Roger Hangarter for valuable discussions of the data. This work was supported by National Science Foundation Grant No. DCB-9105807 and by National Aeronautics and Space Administration Grant No. NAG10-0084     

Genetic studies on Rhizobiophage 16-3

Summary A number of temperature-sensitive (ts) and lysis-deficient mutants were isolated from a bacteriophage of Rhizobium meliloti. The ts mutants were grouped by complementation. Functions were classified in relation to the eclipse and latent period. A genetic map of about 40 units was derived from crosses. The genes on the chromosome of the phage are arranged in the order of their presumed functions during the phage growth. They are located on the chromosome in sequence: immunity-early-late-lysis genes.Abbreviations Ant altered antigene - C immunity gene - h host range - K velocity constant of antiphage serum - L lysis gene - m.o.i. multiplicity of infection - NTG N-methyl-N-nitro-Nnitrosoguanidine - P.F.U. plaque forming unit - Rh.41 Rhizobium meliloti strain 41 - ti thermo-inducible - ts temperature-sensitive     

Physiological suppression of the temperature-sensitive sporulation defect in a Bacillus subtilis RNA polymerase mutant

Summary Five hundred putative RNA polymerase mutants of Bacillus subtilis were isolated by selecting for resistance to the RNA polymerase inhibitors rifampin (Rif^r), streptovaricin (Str^r) or streptolydigan (Std^r). This collection was screened for mutants that were unable to sporulate at the non-permissive temperature of 46°C, yet which sporulated well at 37°C and had normal vegetative growth (Spo^ts phenotype). Nearly one half of the Rif^r and one quarter of the Stv^r mutants were Spo^ts, whereas none of the Std^r mutants had this phenotype.The streptovaricin resistant strain stv84 was studied in detail. The stv84 mutation maps between cysA14 and strA39 on the B. subtilis chromosome, and the Stv^r and Spo^ts phenotypes cotransform at a frequency of 100%. The Spo^ts phenotype of stv84 could be physiologically corrected by supplementing the growth medium with inhibitors of RNA synthesis such as rifampin or azauracil, with carbohydrates such as ribose, mannose or glycerol, or with lipids such as Tween 40 or fatty acids native to Bacillus subtilis membranes. A Spo^ts phenotype resembling that of stv84 was produced in wild type B. subtilis by adding cerulenin, an inhibitor of fatty acid biosynthesis, to the growth medium. This cerulenin-induced sporulation defect was reversed by the same treatments that correct the temperature-sensitive genetic defect of stv84. These data indicate that the Spo^ts phenotype of strain stv84 is not due to an intrinsic inability of the mutant RNA polymerase to transcribe developmentally-specific genes at the nonpermissive temperature. Rather, the data suggest that the stv84 lesion causes a physiological imbalance which disrupts membrane structure or function in sporulating cells.     

Temperature-sensitive mutants of Corynebacterium ammoniagenes ATCC 6872 with a defective large subunit of the manganese-containing ribonucleotide reductase

Chemical mutagenesis of the nucleotide-producing strain Corynebacterium ammoniagenes ATCC 6872 with N-methyl-N-nitro-N-nitrosoguanidine followed by an enrichment protocol yielded 46 temperature-sensitive (ts) clones. A rapid assay for the allosterically regulated Mn-ribonucleotide reductase (RRase) was developed with nucleotide-permeable cells of C. ammoniagenes in order to screen for possible defects in DNA precursor biosynthesis at elevated temperature. Three mutants (CH 31, CH 32, and CH 33) grew well at 30° C but did not proliferate at 40° C because they did not reduce ribonucleotides to 2′-deoxyribonucleotides. They were designated nrd ^ts (nucleotide reduction defective). When the cultures were shifted from 30 to 40° C, the nrd ^ts mutants immediately ceased to incorporate radiolabeled nucleic acid precursors into the DNA fraction, while DNA chain elongation was barely affected. Thus, exhaustion of the deoxyribonucleotide pool ultimately inhibited cell division, leading to a filamentous growth morphology. In contrast to the wild-type, all three nrd ^ts mutants displayed a distinctly enhanced sensitivity of ribonucleotide reduction towards hydroxyurea (in permeabilized cells and in vitro) at 30° C. The results from assays for biochemical complementation of heat-inactivated (2 min, 37° C) mutant enzyme with either the small or the large subunit of wild-type Mn-RRase located the mutational defect on the large subunit. Received: 28 December 1995 / Revision received: 22 January 1997 / Accepted: 29 January 1997     

Electrophoretic and heat-stability polymorphism at the phosphoglucomutase (Pgm) locus in natural populations of Drosophila melanogaster

Genetic polymorphism for electrophoretic and heat-sensitive alleles is known at the phosphoglucomutase (Pgm) locus in Drosophila melanogaster. Analysis of the distribution of electrophoretic and thermosensitive (ts) alleles was carried out in natural populations from Canada and West Africa and compared with already known data on Italian populations [Trippa, G., Loverre, A., and Catamo, A. (1976). Nature 260:42]. The data show the existence of five common alleles, Pgm ^1.00,tr, Pgm ^1,00,ts, Pgm ^0.70,ts, Pgm ^1.20,ts, and Pgm ^1.50,tr, and two rare alleles, Pgm ^0.55,ts and Pgm ^1.20,tr. The most frequent allele is always Pgm ^1.00,tr; the second most common allele is always of the ts type. The cumulated frequencies of ts alleles in the populations varies between 11 and 32%. The heat stability polymorphism is present in all populations examined and shows again the uniform geographic pattern that has been found for electrophoretic variation at this locus.This research was partially supported by an operating grant (to G.R.C.) from the Canadian National Science and Engineering Research Council (NSERC).     

Characterization of vaccinia virus DNA replication mutants with lesions in the D5 gene

The vaccinia virus D5 gene encodes a 90 kDa early protein that is essential for viral DNA replication. In this report we map and explore the phenotypes of the temperature sensitive mutants bearing lesions in this gene:ts17,ts24,ts69, (WR strain) andts6389 (IHD strain). Viral DNA synthesis was virtually undetectable during non-permissive infections performed withts17, and incorporation of³H-thymidine ceased rapidly when cultures were shifted to the non-permissive temperature in the midst of replication. The D5 protein may therefore be involved in DNA synthesis at the replication fork. The lesions of the four mutants were localized within the D5orf by marker rescue, and the single nucleotide changes responsible for thets phenotype of the three WR mutants were identified. Unexpectedly, the three alleles with N-terminal mutations were impaired in marker rescue when homologous recombination with small (<2 kb), intragenic DNA fragments at 39.5°C was required. This deficiency was not due to degradation of transfected DNA under non-permissive conditions. Efficient marker rescue could be restored by incubation at the permissive temperature for a brief period after transfection, suggesting a requirement for functional D5 in genome/plasmid recombination. Marker rescue under non-permissive conditions could alternatively be restored by co-transfection of unlinked but contiguous DNA sequences.     

A proposed biosynthesis pathway of drosopterins in Drosophila melanogaster

Some ommochrome-deficient mutants of Drosophila melanogaster (v, cn, cd, and st) the xanthine NAD-oxidoreductase-deficient mal mutant, and the double mutants mal v, mal cn, mal cd, and mal st, were analysed for their drosopterin content. Results indicate that xanthommatin and NAD⁺ are involved as cofactors in the transformation process of 7,8-dihydrobiopterin into sepiapterin. A metabolic pathway model for drosopterin biosynthesis that explains the different pterin contents of the mutants studied is now proposed.     

Elucidation of novel budding yeast separase mutants

The mitotic separase cleaves Scc1 in cohesin to allow sister chromatids to separate from each other upon anaphase onset. Separase is also required for DNA damage repair. Here, we isolated and characterized 10 temperature-sensitive (ts) mutants of separase ESP1 in the budding yeast Saccharomyces cerevisiae. All mutants were defective in sister chromatid separation at the restricted temperature. Some esp1-ts mutants were hypersensitive to the microtubule poison benomyl and/or the DNA-damaging agent bleomycin. Overexpression of securin alleviated the growth defect in some esp1-ts mutants, whereas it rather exacerbated it in others. The Drosophila Pumilio homolog MPT5 was isolated as a high-dosage suppressor of esp1-ts cells. We discuss various features of separase based on these findings.     

A biochemical study of the scarlet eye-color mutant of Drosophila melanogaster

3-Hydroxykynurenine is virtually absent from st larvae but accumulates during adult development in the puparium. Over the period of adult emergence, the accumulated 3-hydroxykynurenine is excreted so that st adults contain none. Larvae of st fed on tryptophan-C ¹⁴ medium produce labeled 3-hydroxykynurenine, at a reduced rate, perhaps, compared to wild type. Xanthurenic acid levels in st pupae are similar to those in wild type. Thus the failure of st larvae to accumulate 3-hydroxykynurenine does not seem to be due either to an inability to synthesize this compound or to an excessive rate of its conversion to xanthurenic acid. Rather, it appears that the mechanism of 3-hydroxykynurenine storage during larval life is defective, so that this compound is excreted at an abnormally high rate. The inability of the pigment cells of the eyes of st to synthesize xanthommatin may result from a similar defect in their ability to take up or store 3-hydroxykynurenine.     

Pigment patterns in mutants affecting the biosynthesis of pteridines and xanthommatin in Drosophila melanogaster

Eye-color mutants of Drosophila melanogaster have been analyzed for their pigment content and related metabolites. Xanthommatin and dihydroxanthommatin (pigments causing brown eye color) were measured after selective extraction in acidified butanol. Pteridines (pigments causing red eye color) were quantitated after separation of 28 spots by thin-layer chromatography, most of which are pteridines and a few of which are fluorescent metabolites from the xanthommatin pathway. Pigment patterns have been studied in 45 loci. The pteridine pathway ramifies into two double branches giving rise to isoxanthopterin, drosopterins, and biopterin as final products. The regulatory relationship among the branches and the metabolic blockage of the mutants are discussed. The Hn locus is proposed to regulate pteridine synthesis in a step between pyruvoyltetrahydropterin and dihydropterin. The results also indicate that the synthesis and accumulation of xanthommatin in the eyes might be related to the synthesis of pteridines.Support for this work was provided to J.F. in part by a grant from the Ministerio de Universidades e Investigación (Spain) and to F.J.S. by a grant from the Ministerio de Educación y Ciencia (Spain).     

Purine transport by Malpighian tubules of pteridine-deficient eye color mutants of Drosophila melanogaster

Uptakes of guanine into Malpighian tubules of wild-type Drosophila and the eye color mutants white (w), brown (bw), and pink-peach (p ^p) have been compared. Tubules for each of these mutants are unable to concentrate guanine intracellularly. The transport of xanthine and riboflavin is also deficient in w tubules. The transport of guanosine, adenine, hypoxanthine, and guanosine monophosphate is similar in wild-type and white Malpighian tubules. These data and other information about these mutants make it likely that these pteridine-deficient eye color mutants do not produce pigments because of the inability to transport a pteridine precursor. This view supports the hypothesis that mutants which lack both pteridine and ommochromes do so because precursors to both classes of pigments share a common transport system.This work was supported by Grant GM22366 from NIH.