Amino acid sequence of toxin VII,A β-toxin from the venom of the scorpton Tityus serrulatus

The sequence of the 61 amino acids of toxin VII, a β-toxin from the venom of the South American scorpion Tityus serrulatus, has been determined by automatic sequencing of the reduced and S-[¹⁴C] car?ymethylated protein and of tryptic peptides obtained before or after citraconylation of this protein. This toxin, the most active β-toxin from this venom, is the first Tityus toxin to be fully sequenced. The results clearly show that toxin VII belongs to the structural group of scorpion toxins originating from Central and North America.     

Region-specific rates of molecular evolution: A fourfold reduction in the rate of accumulation of “Silent” mutations in transcribed versus nontranscribed regions of homologous DNA fragments derived from two closely related mouse species

Summary We have sequenced homologous DNA fragments of 2.7 and 2.8 kbp derived from the closely related mouse speciesMus musculus domesticus (M. domesticus) andMus musculus musculus (M. musculus), respectively. These two species diverged approximately 1 million years ago. Each DNA fragment contains 1.35 kbp of the 3′ end of the constitutively expressed 2.2-kbpaprt (adenine phosphoribosyltransferase) gene and a similarly sized nontranscribed region downstream of theaprt gene. Theaprt gene region contains protein coding sequences (0.35 kbp), intronic sequences (0.75 kbp), and a 3′ nontranslated sequence (0.25 kbp). Both theM. domesticus andM. musculus downstream regions share three partial copies of the B1 repetitive element with theM. musculus downstream region containing an additional complete copy of this element. A comparison of the 2.7-and 2.8-kbp DNA fragments revealed a total of 63 molecular alterations (i.e., mutations) that were approximately fourfold more abundant in the nontranscribed downstream region than in the transcribedaprt gene. Of the 11 mutations observed in the transcribed region, 7 were found in introns, 3 in the 3′ untranslated sequence, and 1 was a synonymous change in an exon. A comparison of the human andM. domesticus aprt genes has previously revealed no homology in either the intronic or 3′ nontranslated regions with the exception of a 26-bp sequence in intron 3 and sequences at the exon/intron boundaries necessary for correct mRNA splicing (Broderick et al.,Proc. Natl. Acad. Sci. USA, 84:3349, 1987). Therefore, there does not appear to be selective pressure for sequences within these regions. We conclude that there is a lower rate of accumulation of “silent” mutations in the transcribed mouseaprt gene than in a contiguous nontranscribed downstream region. A possible molecular mechanism involving preferential DNA repair for the transcribed region is discussed.     

Inheritance of the 2μm DNA Plasmid from Saccharomyces

A variety of Saccharomyces strains were examined for the presence of 2micro DNA and, if present, for the pattern of fragments produced by its digestion with site-specific (restriction) endonucleases. Two strains were found that did not contain detectable levels of 2micro DNA, and two strains contained 2micro DNA molecules having only one EcoRI restriction endonuclease recognition site rather than the usual two.-A haploid containing 2micro DNA with one EcoRI restriction site was mated with a haploid containing 2micro DNA with two EcoRI restriction sites and the resulting diploid maintained both types during vegetative growth. Sporulation of the diploid produced four spores, and the clones from these spores contained both types.-A haploid lacking 2micro DNA was mated with a haploid containing 2micro DNA and the resulting diploid contained 2micro DNA. The four clones derived from the haploid spores after sporulation of this diploid all contained 2micro DNA. A rho(-) strain without 2micro DNA was mated to a rho(+) strain with 2micro DNA, and heteroplasmons were selected that had received the nucleus from the strain without 2micro DNA and the mitochondria from the strain with 2micro DNA. Twelve of twenty-four such clones contained 2micro DNA.-I conclude that: (1) the different types of 2micro DNA identified in these strains do not restrict one another, (2) the different types are inherited extrachromosomally, (3) lack of 2micro DNA in two strains is not due to the absence of genes needed for maintenance and (4) the approximately 100 copies of 2micro DNA contained within a single cell are probably clustered within one or a few cytoplasmic organelles.     

DNA Damage Regulates Translation through β-TRCP Targeting of CReP

The Skp1-Cul1-F box complex (SCF) associates with any one of a number of F box proteins, which serve as substrate binding adaptors. The human F box protein βTRCP directs the conjugation of ubiquitin to a variety of substrate proteins, leading to the destruction of the substrate by the proteasome. To identify βTRCP substrates, we employed a recently-developed technique, called Ligase Trapping, wherein a ubiquitin ligase is fused to a ubiquitin-binding domain to “trap” ubiquitinated substrates. 88% of the candidate substrates that we examined were bona fide substrates, comprising twelve previously validated substrates, eleven new substrates and three false positives. One βTRCP substrate, CReP, is a Protein Phosphatase 1 (PP1) specificity subunit that targets the translation initiation factor eIF2α to promote the removal of a stress-induced inhibitory phosphorylation and increase cap-dependent translation. We found that CReP is targeted by βTRCP for degradation upon DNA damage. Using a stable CReP allele, we show that depletion of CReP is required for the full induction of eIF2α phosphorylation upon DNA damage, and contributes to keeping the levels of translation low as cells recover from DNA damage.     

Isolation of DNA from the Uncultured “Candidatus Liberobacter” Species Associated with Citrus Huanglongbing by RAPD

“Candidatus Liberobacter,” the uncultured bacterium associated with citrus Huanglongbing (HLB) disease, is an α-Proteobacteria, and two species, “Candidatus L. africanum” and “Candidatus L. asiaticum,” have been characterized by sequence analysis of the 16S rDNA and β operon (rplKAJL-rpoBC) genes. These genes were isolated by PCR and random cloning of DNA from infected plants. However, this strategy is laborious and allowed selection of only three Liberobacter DNA fragments. In this paper, we described isolation of additional genes using Random Amplified Polymorphic DNA (RAPD). In total, 102 random 10-mer primers were used in PCR reactions on healthy and Liberobacter-infected plant DNA. Eight DNA bands amplified from infected plant DNA were cloned and analyzed. Six of them were found to be part of the Liberobacter genome by sequence and hybridization experiments. On these DNA fragments, four genes were identified: nusG, pgm, omp, and a hypothetical protein gene. These results indicate that RAPD can be used to clone DNA of uncultured organisms. Received: 14 September 1998 / Accepted: 6 October 1998     

Chromosome-specific α-satellite DNA from the centromere of chimpanzee chromosome 4

The centromeric regions of human and primate chromosomes are characterized by diverged subsets of tandemly repeated α-satellite DNA. Comparison of the α-satellites on known homologous chromosomes in human and chimpanzee provides insight into the very rapid evolution of satellite DNA sequences and the mechanisms that shape complex genomes. By using oligonucleotide primers specific for a conserved region of human α-satellite DNA, we have amplified a chromosome-specific α-satellite subset from the chimpanzee genome by the polymerase chain reaction. Fluorescence in situ hybridization showed that clones pαPTR4N and pαPTR4H are homologous to sequences at the centromere of the chimpanzee chromosome 4. This α-satellite subset is organized as a series of pentameric (higher-order) repeats, operationally defined by digestion of genomic DNA with HaeIII, MboI, RsaI, SstI, and XbaI. The lengths of four independent centromeric arrays measured by pulsed-field gel electrophoresis varied between 800 and 3,500 kb (mean = 1,850 kb, SD = 1,000 kb). Nucleotide sequence analysis demonstrated that chimpanzee chromosome 4 α-satellite is most closely related to the suprachromosomal subfamily II, which is evolutionarily different from the subfamily I to which the α-satellite on the homologous human chromosome 5 belongs. This implies that the human-chimpanzee sequence divergence has not arisen from a common ancestral α-satellite repeat(s) but instead represents concerted evolution of distinct repeats on homologous chromosomes. Received: 21 February 1997; in revised form: 26 February 1997 / Accepted: 27 February 1997     

Removal of “Podon” polyphemoides from the genus podon

Summary It is argued that Podon polyphemoides does not belong in the genus Podon, since the only similarity with the other species in this genus is the body outline, a characteristic of minor importance in generic distinction in the Polyphemoidea. The new name Pleopis polyphemoides is proposed.

---

Resumen Se argumenta que Podon polyphemoides no debe colocarse más en el genero Podon, ya que solamente tiene similitud con las otras especies de este género en la configuración del cuerpo, una caracteristica de menor importancia en la distinción del Orden Polyphemoidea. Se propone el nombre nuevo Pleopis polyphemoides.

---

---

Based on part of a dissertation, titled The Cladocera of the North Atlantic and the North Sea: Biological and Ecological Studies, and submitted in partial fulfillment of the requirements for the Ph.D. degree at McGill University, Montreal, Canada.     

Elimination of DNA Multimerization Arising from Isothermal Amplification in the Presence of Bst Exo– DNA Polymerase

Russian Journal of Bioorganic Chemistry - In recent years, methods of isothermal amplification of nucleic acids using polymerases with a strand-displacement activity have become widespread for...     

The protection of DNA in blood leukocytes from damaging action of ultraviolet radiation using the “Useful Sun” strategy

The damaging effects of light that was emitted by a DRSh250-3 mercury lamp on the DNA of mouse blood leukocytes was studied in vitro. It was shown that the main DNA damage is due to the action of UVB radiation (280–320 nm). Under the combined effects of the UV radiation and the orange–red fluorescent component it was found that the additional fluorescent light with the spectral maximum at 625 nm from nanoluminophore materials (quantum dots that are based on CdSe/ZnS, CdSe/CdS/ZnS) protected the cellular DNA from the damaging effect of UV radiation. Using nanomolar concentrations of hydrogen peroxide, the hypothesis of the role of reactive oxygen species in the protective effects of the red–orange light was tested in vitro. It was shown for the first time that the mechanisms of the protective effects are associated with the induction of an adaptive response by nanomolar concentrations of hydrogen peroxide that are induced by the orange–red light.     

On the heterogeneity of the slow reassociating (“unique”) DNA

Summary The slow reassociating fraction of mouse DNA (unique DNA), when allowed to reassociate in 0.14 m sodium phosphate buffer at 50 °C showed a biphasic melting curve with a transition at 78–80 °C. On the basis of this feature, the slow reassociating DNA was separated preparatively into two fractions: unique DNA I and II. Their duplexes showed differences with respect to thermal stability, S1 nuclease resistance and rate of reassociation. About one third of the sequences in each fraction were fraction-specific. The conclusion was drawn that for unique DNA I these should be the low repetitive or single copy related sequences (multigene families) and for unique DNA II—the unrelated single copy sequences or recent families of low repetitive not yet diverged sequences.     

Do all of the neurologic diseases in patients with DNA repair gene mutations result from the accumulation of DNA damage?

The classic model for neurodegeneration due to mutations in DNA repair genes holds that DNA damage accumulates in the absence of repair, resulting in the death of neurons. This model was originally put forth to explain the dramatic loss of neurons observed in patients with xeroderma pigmentosum neurologic disease, and is likely to be valid for other neurodegenerative diseases due to mutations in DNA repair genes. However, in trichiothiodystrophy (TTD), Aicardi-Goutières syndrome (AGS), and Cockayne syndrome (CS), abnormal myelin is the most prominent neuropathological feature. Myelin is synthesized by specific types of glial cells called oligodendrocytes. In this review, we focus on new studies that illustrate two disease mechanisms for myelin defects resulting from mutations in DNA repair genes, both of which are fundamentally different than the classic model described above. First, studies using the TTD mouse model indicate that TFIIH acts as a co-activator for thyroid hormone-dependent gene expression in the brain, and that a causative XPD mutation in TTD results in reduction of this co-activator function and a dysregulation of myelin-related gene expression. Second, in AGS, which is caused by mutations in either TREX1 or RNASEH2, recent evidence indicates that failure to degrade nucleic acids produced during S-phase triggers activation of the innate immune system, resulting in myelin defects and calcification of the brain. Strikingly, both myelin defects and brain calcification are both prominent features of CS neurologic disease. The similar neuropathology in CS and AGS seems unlikely to be due to the loss of a common DNA repair function, and based on the evidence in the literature, we propose that vascular abnormalities may be part of the mechanism that is common to both diseases. In summary, while the classic DNA damage accumulation model is applicable to the neuronal death due to defective DNA repair, the myelination defects and brain calcification seem to be better explained by quite different mechanisms. We discuss the implications of these different disease mechanisms for the rational development of treatments and therapies.     

Modeling of the structure of protein–DNA complexes using the data from FRET and footprinting experiments

We discuss the question of constructing three-dimensional models of DNA in complex with proteins using computer modeling and indirect methods of studying the conformation of macromolecules. We consider the methods of interpreting the experimental data obtained by indirect methods of studying the three-dimensional structure of biomolecules. We discuss some aspects of integrating such data into the process of constructing the molecular models of DNA–protein complexes based on the geometric characteristics of DNA. We propose an algorithm for estimating conformations of such complexes based on the information about the local flexibility of DNA and on the experimental data obtained by Forster resonance energy transfer (FRET) and hydroxyl footprinting. Finally, we use this algorithm to predict the hypothetical configuration of DNA in a nucleosome bound with histone H1.     

Chitosomes from the wall-less “slime” mutant of Neurospora crassa

Cell-free extracts from the wall-less slime mutant of Neurospora crassa and the mycelium of wild type exhibit similar chitin synthetase properties in specific activity, zymogenicity and a preferential intracellular localization of chitosomes. The yield of chitosomal chitin synthetase from sline cells was essentially the same irrespective of cell breakage procedure (osmotic lysis or ballistic disruption) —an indication that chitosomes are not fragments of larger membranes produced by harsh (ballistic) disruption procedures. The plasma membrane fraction, isolated from slime cells treated with concanavalin A, contained only a minute portion of the total chitin synthetase of the fungus. Most of the activity was in the cytoplasmic fraction; isopycnic sedimentation of this fraction on a sucrose gradient yielded a sharp band of chitosomes with a buoyant density=1.125 g/ cm³. Approximately 76% of the total chitin synthetase activity of the slime mutant was recovered in the chitosome band. Because of their low density, chitosomes could be cleanly separated from the rest of the membranous organelles of the fungus. Apparently, the lack of a cell wall in the slime mutant is not due to the absence of either chitosomes or zymogenic chitin synthetase.Abbreviations Con A concanavalin A - d buoyant density in g/cm³ - GlcNAc N-acetyl-D-glucosamine - MES 2-[N-morpholino]ethanesulfonic acid - UDP-GlcNAc uridine diphosphate N-acetyl-D-glucosamine     

Phylogeny of Ptychostomum （Bryaceae,Musci） inferred from sequences of nuclear ribosomal DNA internal transcribed spacer （ITS） and chloroplast rps4

The phylogeny of Ptychostomum was first spacer （ITS） region of the nuclear ribosomal （nr） DNA DNA rps4 sequences. Maximum parsimony, maximum undertaken based on analysis of the internal transcribed and by combining data from nrDNA ITS and chloroplast likelihood, and Bayesian analyses all support the conclusion that the reinstated genus Ptychostomum is not monophyletic. Ptychostomum funkii （Schwagr.） J. R. Spence （≡ Bryum funkii Schwaigr.） is placed within a clade containing the type species of Bryum, B. argenteum Hedw. The remaining members of Ptychostomum investigated in the present study constitute another well-supported clade. The results are congruent with previous molecular analyses. On the basis of phylogenetic evidence, we agree with transferring B. amblyodon Mull. Hal. （≡ B. inclinatum （Brid.） Turton≡ Bryum archangelicum Bruch ＆ Schimp.）, Bryum lonchocaulon Mull. Hal., Bryum pallescens Schleich. ex Schwaigr., and Bryum pallens Sw. to Ptychostomum.     

Effect of spermine on interaction of DNA polymerase α from the loach (Misgurnus fossilis) eggs with DNA

Polyamines (putrescine, spermidine and spermine) cause a marked increase in the activity of the loach Misgurnus fossilis DNA polymerase α on activated (gapped) DNA. The stimulatory effect increases in the order: putrescine, spermidine, spermine. Kinetic analysis shows that spermine does not change the affinity of the polymerase for dTTP, but it decreases the enzyme affinity for DNA. The apparent K_m of the polymerase for activated DNA progressively increases from 14 to 1200 μM (nucleotide), if the concentration of spermine rises up to 2 mM, while V_max reaches a maximum at 0.5 mM spermine and then drops at higher polyamine concentrations. Native calf thymus DNA and especially single-stranded DNA from phage M13 appear to be inhibitors of α-polymerase activity on gapped DNA. Dixon plots suggest simple competitive inhibition of the polymerase activity by single- or double-stranded DNA and absence of cooperativity in the interaction of the polymerase with DNA. Hill-plot analysis is compatible with the interpretation that there is only one DNA binding site on each DNA polymerase α molecule. Spermine, even at low concentrations, decreases sharply the affinity of the enzyme for double-stranded DNA, while the enzyme affinity for single-stranded DNA changes insignificantly. Another result of spermine action is the destabilization of the polymerase-DNA complex. The ratio of the ‘static affinity’ of the enzyme to its ‘kinetic affinity’ decreases 2.2-fold in the presence of 0.5 mM spermine. As a result, the sensitivity of DNA synthesis to 3′-deoxy-3′-aminothymidine 5′-triphosphate and to 1-β-d-arabinofuranosylcytidine 5′-triphosphate decreases in the presence of the polyamine. Both spermine effects, the decrease in the ‘nonproductive binding’ of the polymerase to double-stranded regions in DNA and the destabilization of the polymerase-DNA complex, presumably account for the increase in the activity of the loach α-polymerase on activated DNA.     

Genetic Differentiation of Three Sympatric Charr Species from the Genus SalvelinusInferred from PCR–RFLP Analysis of Mitochondrial DNA

We examined differentiation of three sympatric charr species Dolly Varden charr Salvelinus malmaWalbaum, white-spotted charrS.leucomaenisPallas, and Levanidov charrS. levanidovi Chereshnev, Scopetz, Gudkov. Using restriction fragment length polymorphism analysis (RFLP), three mitochondrial DNA fragments (ND1/ND2, ND5/ND6, and Cytb/D-loop) amplified in PCR were compared. The divergence of mtDNA nucleotide sequences betweenS. levanidovi and S. leucomaenis was about 9.7%, between S. levanidovi and S. malma, 8.7%, and between S. malma andS. laecomaenis, 7.5%. These results indicate genetic isolation of the species examined and support the earlier suggestion on closeness of Levanidov charr to the common ancestor of the genus Salvelinus.     

“Maturation” of DNA duplexes

Reassociation of typical single-copy DNAs, like E. coli DNA, even when performed at relatively low temperatures, results in the formation of perfect duplexes with thermal stability very close to that of the native DNA. In contrast, duplexes of mouse repeated DNA as well as duplexes of Streptomyces DNA prepared under the same conditions, show a low thermal stability and undergo post-reassociation changes upon prolonged incubation. These changes, called maturation of the DNA duplexes, result in increasing of their thermal stability. Some of the factors affecting the rate of maturation are studied. The implication of the maturation process in reassociation analysis and in characterization of the heterogeneity of DNA is discussed.