Characterization of the Cullin7 E3 ubiquitin ligase--heterodimerization of cullin substrate receptors as a novel mechanism to regulate cullin E3 ligase activity

Cul1 and Cul7 are cullin E3 ubiquitin ligase scaffold proteins. Cul1 is known to form a complex with the RING domain protein Rbx1 and one of approximately 70 different F-box proteins. F-box proteins function as substrate receptor subunits and recruit numerous substrates for poly-ubiquitination. Similarly to Cul1, Cul7 interacts with Rbx1, however, only one F-box protein, Fbxw8, has been shown to bind to Cul7. To date only few Cul7 E3 ubiquitin ligase substrates, including cyclin D1, IRS-1 and GRASP65, have been reported, and using Fbxw8 affinity purification, we were unable to identify additional substrate proteins. Here we provide evidence for a model in which Cul7-Rbx1 can promote the ubiquitination of Cul1 substrates by forming high order complexes with Cul1-Rbx1. Binding of Cul1-Rbx1 to Cul7-Rbx1 is mediated via heterodimerization of Fbxw8 with other F-box proteins which function to recruit substrates into the E3 ligase complex. The formation of this high order complex is likely to increase polyubiquitination efficiency.     

Effects of 60 Hz electric and magnetic fields on maturation of the rat neopallium

This study was undertaken to determine the effects of extremely low frequency (ELF; 60 Hz) electromagnetic (EM) fields on somatic growth and cortical development, as well as biochemical and morphological maturation, of the rat neopallium. On the fifth day of pregnancy, female rats were put in pairs into plastic cages that were housed in a specially constructed apparatus for irradiation under three separate sets of combination and intensity: 1) 1 kV/m and 10 gauss; 2) 100 kV/m and 1 gauss; and 3) 100 kV/m and 10 gauss. The dams were exposed for 23 h daily, from days 5 through 19 postconception after which they were returned to cages outside the exposure apparatus until they littered. The neonates were culled to eight pups per litter. At 0 (birth), 5, 12, and 19 days postnatally, they were killed for biochemical and morphological studies. Another group of pregnant rats was sham-exposed in an identical apparatus, which was not energized, and the pups were used as controls. The irradiated rats exhibited no physical abnormalities, nor did they show brain deformities such as swelling or herniation following exposure to ELF-EM fields. There was no difference in somatic growth between control and exposed rats, but a small reduction in cortical weight was observed in rats exposed at 1 kV/m and 10 gauss, and 100 kV/m and 1 gauss, respectively. Biochemical measurements of DNA. RNA, protein, and cerebroside concentrations indicated that among the three separate exposures, only the neopallium of rats exposed at 1 kV/m and 10 gauss showed a small reduction in DNA level, as well as small reductions in RNA and protein levels. No changes were noticed in cerebroside levels in any exposed animals, and there were no differences in protein/DNA and cerebroside/DNA ratios between control and exposed rats. Morphological observations did not reveal any detectable alterations in the irradiated rats. These results indicate that exposure to ELF-EM fields caused minimal or no changes in somatic growth and cerebral development of the rat. © 1993 Wiley-Liss, Inc.     

Shifts in allochthonous input and autochthonous production in streams along an agricultural land-use gradient

Relative contributions of allochthonous inputs and autochthonous production vary depending on terrestrial land use and biome. Terrestrially derived organic matter and in-stream primary production were measured in 12 headwater streams along an agricultural land-use gradient. Streams were examined to see how carbon (C) supply shifts from forested streams receiving primarily terrestrially derived C to agricultural streams, which may rely primarily on C derived from algal productivity. We measured allochthonous input, chlorophyll a concentration, and periphyton biomass in each stream, and whole-stream metabolism in six streams. Our results suggest a threshold between moderate- and heavy-agriculture land uses in which terrestrially derived C is replaced by in-stream algal productivity as the primary C source for aquatic consumers. A shift from allochthonous to autochthonous production was not evident in all heavy-agriculture streams, and only occurred in heavy-agriculture streams not impacted by livestock grazing. We then compared our findings to rates of allochthonous input and GPP in streams with minimal human influences in multiple biomes to assess how land-use practices influence C sources to stream ecosystems. The proportion of C derived from allochthonous versus autochthonous sources to heavy-agriculture streams was most similar to grassland and desert streams, while C sources to forested, light-, and moderate-agriculture streams were more similar to deciduous and montane coniferous forest streams. We show that C source to streams is dependent on land use, terrestrial biome, and degradation of in-stream conditions. Further, we suggest that within a biome there seems to be a compensation such that total C input is nearly equal whether it is from allochthonous or autochthonous sources.     

253 Novel polymorphic microsatellites for the saltwater crocodile (Crocodylus porosus)

Genomic elucidation and mapping of novel organisms requires the generation of large genetic resources. In this study, 253 novel and polymorphic microsatellite loci were isolated and characterized for the saltwater crocodile (Crocodylus porosus) by constructing libraries enriched for microsatellite DNA. All markers were evaluated on animals obtained from Darwin Crocodile Farm in the Northern Territory, Australia, and are intended for future use in the construction of a genetic-linkage map for the saltwater crocodile. The 253 loci yielded an average of 4.12 alleles per locus, and those selected for mapping had an average polymorphic information content (PIC) of 0.425.     

Crystal structures of an oxygen-binding cytochrome c from Rhodobacter sphaeroides

The photosynthetic bacterium Rhodobacter sphaeroides produces a heme protein (SHP), which is an unusual c-type cytochrome capable of transiently binding oxygen during autooxidation. Similar proteins have not only been observed in other photosynthetic bacteria but also in the obligate methylotroph Methylophilus methylotrophus and the metal reducing bacterium Shewanella putrefaciens. A three-dimensional structure of SHP was derived using the multiple isomorphous replacement phasing method. Besides a model for the oxidized state (to 1.82 A resolution), models for the reduced state (2.1 A resolution), the oxidized molecule liganded with cyanide (1. 90 A resolution), and the reduced molecule liganded with nitric oxide (2.20 A resolution) could be derived. The SHP structure represents a new variation of the class I cytochrome c fold. The oxidized state reveals a novel sixth heme ligand, Asn(88), which moves away from the iron upon reduction or when small molecules bind. The distal side of the heme has a striking resemblance to other heme proteins that bind gaseous compounds. In SHP the liberated amide group of Asn(88) stabilizes solvent-shielded ligands through a hydrogen bond.     

Size heterogeneity of the largest subunit of nuclear RNA polymerase II. An immunological analysis

Antibodies raised against the 180-kDa subunit of cauliflower RNA polymerase II bind selectively to the largest subunit of RNA polymerase II purified from a variety of plant species. The selective binding of this antibody to the largest RNA polymerase II subunit has allowed us to probe for the size of this subunit in crude cell extracts, in fractions containing partially purified RNA polymerase II, and in isolated nuclei. Fractions containing RNA polymerase II were subjected to electrophoresis in the presence of sodium dodecyl sulfate, blotted onto nitrocellulose, and blots were probed with antibody. Immunoglobulin complexes were revealed with 125I-Protein A. Published purification procedures result in rapid conversion of a 220-kDa subunit to a 180-kDa polypeptide, but purification at high pH (pH 9.0) retards this proteolysis. RNA polymerase II associated with isolated nuclei is largely protected from proteolytic degradation, and a 240-kDa polypeptide as well as a 220-kDa polypeptide can be detected. These results suggest that the 180-kDa subunit of RNA polymerase II arises artificially during cell lysis and enzyme purification, and that even the 220-kDa polypeptide may be a degradation product of a 240-kDa polypeptide in plants.     

The influence of flanking sequence on the O-glycosylation of threonine in vitro.

To investigate the influence of flanking amino acid sequence on the O-glycosylation of a single threonine residue in vitro, we have examined a series of 52 related peptides. The substrates were based upon a sequence from human von Willebrand factor which is known to be glycosylated in vivo (-6PHMAQVTVGPGL+5). Each residue of the parent peptide was substituted, in turn, with isoleucine, alanine, proline, glutamic acid, or arginine. Peptides were glycosylated using a UDP-GalNAc:polypeptide N-acetylgalactosaminyltransferase purified 15,000-fold from bovine colostrum by chromatography on DEAE-Sephacel, SP-Sephadex, Sephacryl S-300, Affi-Gel Blue, and 5-mercuri-UDP-GalNAc thiopropyl-Sepharose. Single amino acid changes in the sequences flanking the threonine could profoundly alter the glycosylation of the substrate peptides. Substitution of any amino acid tested at positions +3, -3, and -2 markedly decreased O-glycosylation, as did the presence of a charged residue at position -1. The substitution of amino acids at the other positions of the peptide substrate had little effect on the incorporation of GalNAc. Statistical analysis of sequences flanking known glycosylated threonine and serine residues suggests that they should be glycosylated with equal efficiency in the same sequence context (O'Connell et al., 1991). However, the bovine colostrum transferase failed to glycosylate a peptide derived from human erythropoietin which contains a serine that is glycosylated in vivo (-5PPDAASAAPLR+5). When a threonine was substituted for the serine in this peptide (-5PPDAATAAPLR+5), the substrate proved to be an excellent acceptor of GalNAc. These observations indicate that although flanking amino acid sequence is important for the O-glycosylation of specific hydroxyamino acids, discrete threonine- and serine-specific transferases may exist.     

Mechanisms of induction and repair of DNA double-strand breaks by ionizing radiation: Some contradictions

The various aspects of formation and repair of radiation-induced double-strand breaks (DSB) are summarized. Concerning the structure of DSB found in irradiated cells, enzymatic and microdosimetric analysis hints at complex damage of the DNA structure at the position of a DSB. With increasing LET, the DSB damage may be more complex than that induced by low-LET irradiation. Most of the DSB are repaired in the irradiated cell; apparently the kinetics of DSB repair and the fraction of unrejoined DSB determine cell survival or cell death. We do not know the details of the complex machinery of DSB repair; certaintly recombination processes are involved, but there are still contradictions between our current knowledge about the mechanisms of recombinational DSB repair and the observed kinetics.Dedicated to Prof. W. Jacobi on the occasion of his 65th birthday     

Molecular cloning and characterization of the gene encoding rat submandibular gland apomucin,Mucsmg

Mucin glycoproteins are a major constituent of salivary secretions and play a primary role in the protection of the oral cavity. Rat submandibular glands (RSMG) synthesize and secrete a low molecular weight (114 kDa) mucin glycoprotein. We have isolated, partially sequenced, and characterized the gene which encodes the RSMG apomucin. The gene is encoded by three exons of 106 nt, 69 nt, and 991 nt, separated by introns of 921 nt and 12.5 kb. CAAT and TATA elements are present, at –68 and –26, respectively, in the 5 flanking sequence of the RSMG apomucin gene. The tandem repeat domain present in exon III consists of ten tandem repeats of 39 nt encoding the consensus sequence PTTDSTTPAPTTK. Sequence comparison and organization of the nucleic acid sequence encoding the tandem repeats of two alleles for this gene suggests that the apomucin gene has undergone recombinational events during its evolution. No significant sequence similarity was found with other mucin genes, or with other known salivary gland-specific genes. The gene was localized to rat chromosome 14 using somatic cell hybrids that segregate rat chromosomes. Since this, to our knowledge, represents the first RSMG mucin gene cloned, we have designated this geneMucsmg.Abbreviations RSMG rat submandibular gland - RSM rat salivary mucin - GRP glutamine-glutamic-acid rich protein - nt nucleotide - kb kilobase Sequences reported herein have been assigned GenBank accession numbers U33441 and U33442.