Repression of Hybrid Dysgenesis in Drosophila Melanogaster by Individual Naturally Occurring P Elements

Individual P elements that were genetically isolated from wild-type strains were tested for their abilities to repress two aspects of hybrid dysgenesis: gonadal dysgenesis and mutability of a double-P element-insertion allele of the singed locus (sn(w)). These elements were also characterized by Southern blotting, polymerase chain reaction amplification and DNA sequencing. Three of the elements were 1.1-kb KP elements, one was a 1.2-kb element called D50, and one was a 0.5-kb element called SP. These three types of elements could encode polypeptides of 207, 204, and 14 amino acids, respectively. Gonadal dysgenesis was repressed by two of the KP elements (denoted KP(1) and KP(6)) and by SP, but not by the third KP element (KP(D)), nor by D50. Repression of gonadal dysgenesis was mediated by a maternal effect, or by a combination of zygotic and maternal effects generated by the P elements themselves. The mutability of sn(w) was repressed by the KP(1) and KP(6) elements, by D50 and by SP, but not by KP(D); however, the SP element repressed sn(w) mutability only when the transposase came from complete P elements and the D50 element repressed it only when the transposase came from the modified P element known as Δ2-3. In all cases, repression of sn(w) mutability appeared to be mediated by a zygotic effect of the isolated P element. Each of the isolated elements was also tested for its ability to suppress the phenotype of a P-insertion mutation of the vestigial locus (vg(21-3)). D50 was a moderate suppressor whereas SP and the three KP elements had little or no effect. These results indicate that each isolated P element had its own profile of repression and suppression abilities. It is suggested that these abilities may be mediated by P-encoded polypeptides or by antisense P RNAs initiated from external genomic promoters.     

The purification and immunocharacterisation of N-methylputrescine oxidase from transformed root cultures of Nicotiana tabacum L. cv SC58

The enzyme N-methylputrescine oxidase which catalyses the conversion of N-methylputrescine to N-methylpyrrolinium salt has been purified to homogeneity from transformed roots of Nicotiana tabacum L. cv SC58. The enzyme has an apparent sub-unit molecular weight of 53 kDa by sodium dodecyl sulphate-polyacrylamide gel electrophoresis with gel-filtration studies, indicating that the native form is a dimer. The K _m of the enzyme for N-methylputrescine has been estimated to be 0.1 mM. Polyclonal antibodies raised to the purified protein recognise one product in an immunoblot of a crude extract of transformed root tissue and will immunoprecipitate N-methylputrescine oxidase activity from such an extract. The antibodies also show a high degree of specificity in immunoblots of crude extracts of transformed root cultures from a range of other solanaceous and non-solanaceous species but do not cross-react with a partially purified preparation of pea-seedling diamine oxidase.Abbreviations MPO N-methylputrescine oxidase - PVDF polyvinylidene difluoride - SDS-PAGE sodium dodecyl sulphate-polyacrylamide gel electrophoresis We would like to thank members of the Plant Cell Biotechnology Group, Institute of Food Research, Norwich Laboratory, for their helpful discussions during the preparation of this paper.     

Sequential1H-NMR assignments of neurotoxin III from the sea anemoneHeteractis macrodactylus and structural comparison with related toxins

The complete sequence-specific assignment of resonances in the¹H-NMR spectrum of the polypeptide neurotoxin III (Hm III) from the sea anemoneHeteractis macrodactylus is described. Comparison of the chemical shifts and pattern of NOEs for Hm III with those for the related toxin Hp III fromHeteractis paumotensis, which differs only in the substitution of Asn for Tyr at position 11, shows that the overall secondary and tertiary structures are conserved. The largest differences in chemical shift caused by the substitution at position 11 are observed for the NH resonances of Arg-13, Thr-14, Ala-15, Leu-17, and Cys-26. The CH resonances influenced most are those of ASP-6, Gly-9, Leu-17, and Glu-42, while the most affected CH resonances are from Leu-17, Glu-28, and Lys-32. The absence of long-range NOEs to the aromatic ring of Tyr-11 as well as the lack of significant chemical shift effects on residues outside the loop comprising residues 7–16 confirm that this part of the loop makes no long-lived contacts with the rest of the molecule. The deviations from random coil shifts of Hm III are compared with those of the related anemone toxins Hp II, Hp III, and toxin I fromStichodactyla helianthus (Sh I). The similarity in deviations in chemical shift as a function of sequence position for these four toxins emphasizes the overall structural homology among these polypeptides.     

Synthetic glycosylation of peptides using unprotected saccharide β-glycosylamines

Glycopeptides can be valuable tools in determining the influence of carbohydrate moieties on the intrinsic properties of glycoproteins. However, glycopeptides of sufficient quantity and purity are as yet not readily available from biological sources. The chemical coupling of a -glycosylamino group of an unprotected carbohydrate with an activated aspartic acid residue of an unprotected peptide is a simple method for synthesizing asparagine-linked glycopeptides. In this report we demonstrate that the use of this method is not restricted to -glycosylamines of simple monosaccharides or short aspartic acid-containing pentapeptides. This is illustrated by the syntheses of several glycopentapeptides containingN,N-diacetylchitobiose, a glutamine-linked glycopentapeptide containing a biantennary complex oligosaccharide, and glycosylated variants of two analogs of a polypeptide hormone, atriopeptin, containingN,N-diacetylchitobiose.Abbreviations Ac acetyl - Bzl benzyl - DMF dimethylformamide - Fmoc 9-fluorenylmethoxycarbonyl - Fuc fucose - Gal galactose - GlcNAc N-acetylglucosamine - HBTU O-benzotriazol-1-yl-N,N,N,N-tetramethyluroniumhexa-fluorophosphate - HOBt 1-hydroxybenzotriazole - Man mannose - m/z mass/charge - NMR nuclear magnetic resonance - Xyl xylose - Z benzyloxycarbonyl; unless otherwise specified, amino acids are abbreviated using their one-letter codes.     

RAD50 protein of S.cerevisiae exhibits ATP-dependent DNA binding.

RAD50 function of Saccharomyces cerevisiae is required during vegetative growth for recombinational repair of DNA double strand breaks, and during meiosis for initiation of meiotic recombination and formation of synaptonemal complex. RAD50 encodes a 153 kDa polypeptide which includes an amino-terminal ATP binding domain essential for function and two long heptad repeat regions. We show below that RAD50 protein purified from yeast exhibits ATP-dependent binding to double stranded DNA. Physical properties of the purified protein are also described. Models for RAD50 function in vivo are discussed.     

A single amino acid deletion in the α2(I) chain of type I collagen produces osteogenesis imperfecta type III

RNase A protection analysis was used in the search for the cause of a non-lethal osteogenesis imperfecta (OI) phenotype (Sillence type III). Cleavage of the hybrid formed between a normal 2(I) sequence and RNA isolated from the patient indicated the presence of a mismatch. The position of the mismatch was determined and the corresponding area of COL1A2 was amplified using the polymerase chain reaction. Sequencing of cloned amplified DNA revealed the deletion, which was not present in either parent, of the final three bases of exon 19 in one of the patient's two COL1A2 alleles. The deletion results in the loss of amino acid 255 (a valine encoded by the last codon of exon 19) of the triple helical region of half of the 2(I) collagen chains but does not disrupt the splicing of the heterogeneous nuclear RNA (hnRNA). This provides further evidence that OI type III may result from autosomal dominant mutations rather than only from autosomal recessive mutations as had previously been believed.     

EFFECTS OF FERTILIZATION ON EPICUTICULAR WAX MORPHOLOGY OF NEEDLE LEAVES OF DOUGLAS FIR,PSEUDOTSUGA MENZIESII (PINACEAE)

Fertilized stands of Pseudotsuga menziesii were found to have glaucous needles. We investigated the morphological and quantitative characteristics of the epicuticular waxes of needles of fertilized and control trees. Glaucousness was caused by ornate tubular epicuticular wax. Dipping needles in chloroform, which dissolves waxes, eliminated the glaucous appearance. Based on cryostage scanning electron microscopic observations, the epicuticular waxes in the nonstomatal region were much more ornate on the needles of the fertilized trees (experimental needles) than in unfertilized trees (control needles). The stomatal region in both experimental and control needles showed similarly ornate waxes. Quantities of waxes were similar in experimental and control needles. The glaucousness was not the result of greater quantities of wax; rather, fertilization altered wax morphology in the nonstomatal regions.     

PAEDOMORPHOSIS IN AMBYSTOMA TALPOIDEUM: MAINTENANCE OF POPULATION VARIATION AND ALTERNATIVE LIFE-HISTORY PATHWAYS

A “common garden” experiment using artifical ponds was performed to test if differences in frequency of paedomorphosis and metamorphosis among six natural populations of the salamander Ambystoma talpoideum resulted from the drying regime of the aquatic habitat acting as an agent of selection. Our experiment supports the hypothesis of genetic differentiation in the propensity to metamorphose among the populations, but gave mixed evidence that pond-drying regime is the selective force directing evolution of this trait. Some populations appear to have evolved phenotypic plasticity whereas others may have a genetic polymorphism in their propensity to metamorphose as ponds dry.