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1.
Gene ; 611: 38-46, 2017 May 05.
Article in English | MEDLINE | ID: mdl-28219780

ABSTRACT

To characterize genetic diversity and gene flow among Daphnia galeata populations, the complete nucleotide (nt) sequences of the mitochondrial (mt) DNAs of D. galeata clones isolated from five lakes in Japan (Lakes Shirakaba, Suwa, Kizaki, Kasumigaura, and Biwa) were determined. Comparison of non-synonymous (amino acid altering) substitution rates with synonymous substitution rates of D. galeata mt protein-coding genes demonstrated that ATPase8 and COI genes were the most and least susceptible, respectively, to the evolutional forces selecting the aa substitutions. Several non-synonymous substitutions were found in ATPase8 and ATPase6 even in the comparison that no synonymous substitution was found. Comparison of the total number of nt variations among the mt DNAs suggested the phylogenetic relationship ((((Shirakaba/Suwa, Kizaki), Kasumigaura), Biwa), D. pulex). Maximum-likelihood analysis using the total nt sequences of mt protein-coding genes confirmed this relationship with bootstrap values higher than 98%. All the mtDNAs of the analyzed Japanese D. galeata clones contained a control region of essentially the same structure that is distinct from those of the previously reported European Daphnia species of the D. longispina complex. The two control regions of different structures spread among mtDNAs of the Japanese and European Daphnia species, respectively, probably after the divergence of the Japanese D. galeata under different selection pressures associated with their habitats.


Subject(s)
DNA, Mitochondrial/genetics , Daphnia/genetics , Genetic Variation , Genome, Mitochondrial/genetics , Animals , Arthropod Proteins/genetics , Base Sequence , DNA, Mitochondrial/chemistry , Daphnia/classification , Gene Order , Genes, Mitochondrial/genetics , Japan , Lakes/parasitology , Mitochondrial Proteins/genetics , Phylogeny , Sequence Analysis, DNA , Sequence Homology, Nucleic Acid , Species Specificity
2.
Dev Genes Evol ; 220(11-12): 337-45, 2011 Mar.
Article in English | MEDLINE | ID: mdl-21327957

ABSTRACT

Daphnids are small crustaceans ubiquitous in fresh water; they have been a subject of study in ecology, evolution, and environmental sciences for decades. To understand data accumulated in daphnid biology at the molecular level, expressed sequence tags and a genome sequence have been determined. However, these discoveries lead to the problem of how to understand the functions of newly discovered genes. Double-stranded RNA (dsRNA)-mediated RNA interference (RNAi) is a useful tool to achieve specific gene silencing in nontransformable species. Hence, we established a technique to inject exogenous materials into ovulated eggs and developed a dsRNA-based RNAi method for Daphnia magna. Eggs were collected just after ovulation and injected with dsRNA specific to the Distal-less (Dll) gene, which functions in appendage development in invertebrates and vertebrates. We found that the dsRNA successfully triggered the degradation of Dll mRNAs, which induced the truncation of the second antenna in a dose-dependent manner. This effect was sequence specific in that: (1) an unrelated dsRNA did not induce any morphological abnormalities and (2) two non-overlapping Dll dsRNAs generated the same phenotype. This is the first report of an RNAi technique in D. magna and, together with the emerging genome sequences, will be useful for advancing knowledge of the molecular biology of daphnids.


Subject(s)
Daphnia/genetics , RNA Interference , Amino Acid Sequence , Animals , Base Sequence , Cloning, Molecular , Molecular Sequence Data , RNA, Double-Stranded/genetics , Sequence Alignment
3.
Mutagenesis ; 26(2): 303-8, 2011 Mar.
Article in English | MEDLINE | ID: mdl-21059809

ABSTRACT

Thermus thermophilus is an extremely thermophilic eubacterium that grows optimally at 70-75°C. It does not have a gene encoding O(6)-alkylguanine-DNA alkyltransferase (AGT) for the repair of O(6)-methylguanine (O(6)-meG), but it has a homologous gene atl encoding alkyltransferase-like (ATL) proteins in which the cysteine residue in the active site of the PCHR motif conserved in AGT is replaced by alanine (i.e. lack of methyltransferase activity). To investigate the role of ATL protein in the repair of O(6)-meG, we isolated atl deletion mutants and measured specific G:C→A:T transition mutations induced by N-methyl-N'-nitro-N-nitrosoguanidine (MNNG) by a His(+) reversion system at the hisD3110 locus. MNNG caused an increased mutation frequency in the atl-deficient mutant but a significantly higher frequency increase in a uvrA mutant, which is deficient in nucleotide excision repair (NER), indicating that both ATL protein and NER played an important role in preventing G:C→A:T transitions. We observed no difference in MNNG sensitivity between the uvrA atl double mutant and the parent uvrA strain. Our results support a recently proposed repair model in which ATL protein acts as a sensor of O(6)-meG damage and recruits UvrA protein to repair the lesion via an NER system. In addition, the finding that the uvrA atl strain mutated with greater frequency than the single atl strain suggests that O(6)-meG is repaired by NER in the absence of ATL protein. We also discuss the possible association of a transcription-repair coupling factor in a transcription-coupled repair pathway and of MutS protein in a mismatch repair pathway with ATL/NER-mediated repair of O(6)-meG.


Subject(s)
Alkyl and Aryl Transferases/genetics , Alkyl and Aryl Transferases/metabolism , DNA Methylation , DNA Repair , Thermus thermophilus/enzymology , Thermus thermophilus/genetics , DNA Damage/drug effects , Genetic Vectors/genetics , Guanine/analogs & derivatives , Guanine/metabolism , Methylnitronitrosoguanidine/toxicity , Mutagens/toxicity , Mutation/drug effects , Restriction Mapping
4.
DNA Repair (Amst) ; 7(4): 663-9, 2008 Apr 02.
Article in English | MEDLINE | ID: mdl-18296128

ABSTRACT

Thermus thermophilus is an extremely thermophilic, aerobic, and gram-negative eubacterium that grows optimally at 70-75 degrees C, pH 7.5. In extremely high temperature environment, DNA damages in cells occur at a much higher frequency in thermophiles than mesophiles such as E. coli. When temperature rises, the deamination of cytosine residues in double-strand DNA is expected to increase greatly. T. thermophilus HB27 has two putative uracil-DNA glycosylase genes (udgA and udgB). Expression level of udgA gene was 2-3 times higher than that of udgB at 70, 74, and 78 degrees C when it was monitored by beta-glucosidase reporter assay. We developed hisD(3110), hisD(3113), hisD(3115), and hisD(174) marker allele that can specifically detect G:C-->A:T, C:G-->A:T, T:A-->A:T, and A:T-->G:C base-substitutions, respectively, by His(+) reverse mutations. We then disrupted udgA and udgB by thermostable kanamycin-resistant gene (htk) or pyrE gene insertion in each hisD background, and their spontaneous His(+) reversion frequencies were compared. A udgA,B double mutant showed a pronounced increase in G:C-->A:T reversion frequency compared with each single udg mutant, udgA or udgB. Estimated mutation rates of the udgA,B mutant cultured at 60, 70, and 78 degrees C were about 2, 12, and 117 His(+)/10(8)/generation, respectively. At 70 degrees C culture, increased ratio of the mutation rate compared with the udg(+) strain was 12-fold in udgA, 3-fold in udgB, and 56-fold in udgA,B mutant. On the other hand, no difference was observed in other mutations of C:G-->A:T, T:A-->A:T, and A:T-->G:C between udgA,B double mutant and the parent udg(+) strain. The present results indicated that gene products of udgB as well as udgA functioned in vivo to remove uracil in DNA and prevent G:C-->A:T transition mutations.


Subject(s)
Bacterial Proteins/metabolism , Mutagenesis , Mutation Rate , Thermus thermophilus/genetics , Uracil-DNA Glycosidase/metabolism , Bacterial Proteins/genetics , Thermus thermophilus/enzymology , Uracil-DNA Glycosidase/genetics
5.
Mutagenesis ; 21(4): 255-60, 2006 Jul.
Article in English | MEDLINE | ID: mdl-16777922

ABSTRACT

Thermus thermophilus is an extremely thermophilic eubacterium that grows optimally at 70-75 degrees C. Because the frequency of DNA damage, such as deamination, depurination and single-strand breaks, increases as the temperature rises, the regulation of expression as well as the specificities and activities of T.thermophilus DNA repair systems are of particular interest. To study those systems, we developed a gene expression vector using the T.thermophilus beta-glucosidase gene (bgl) with host strain JOS9 (Deltabgl) derived from the T.thermophilus wild-type strain HB27. Since HB27 has two putative beta-galactosidase genes, the use of a single bgl gene as a reporter in combination with a Deltabgl host strain permits the study of gene expression against a low background level. We assayed Bgl activity with 2-nitrophenyl-beta-d-glucopyranoside as the substrate at 80 degrees C. We measured the expression of seven genes involved in DNA repair--three nucleotide excision repair genes (uvrA, uvrB and uvrC) and four recombinational repair genes (recA, ruvA, ruvB and ruvC). Expression levels of uvrA and uvrB were about three times those of uvrC, while those of ruvA, ruvB and ruvC were almost equal. Both ruvA and ruvC formed an operon with their adjacent 5'-upstream gene paaG and ftsQAZ, respectively. recA was transcribed as an operon of four genes, amt-cinA-ligT-recA. All seven DNA repair genes were expressed constitutively, and the DNA damaging agent mitomycin C did not increase their expression.


Subject(s)
DNA Repair , Gene Expression Profiling/methods , Gene Expression Regulation , Thermus thermophilus/genetics , beta-Glucosidase/genetics , DNA Damage , Dose-Response Relationship, Drug , Genotype , Glucosides/chemistry , Mitomycin/pharmacology , Models, Genetic , Mutation , Plasmids/metabolism , Recombination, Genetic , Temperature , beta-Glucosidase/metabolism
6.
Gene ; 376(2): 231-9, 2006 Jul 19.
Article in English | MEDLINE | ID: mdl-16766139

ABSTRACT

cDNAs encoding a Daphnia magna homolog of aryl hydrocarbon receptor nuclear translocator (ARNT) were isolated and the structural and functional features as well as the expression pattern of their product, DmagARNT, were analyzed. Among the known bHLH-PAS proteins, the deduced amino acid sequences of DmagARNT showed the highest degree of identity to that of Drosophila ARNT (TGO). Expression of DmagARNT in ARNT-lacking mouse Hepa-c4 cells resulted in the compensation for the loss of hypoxia response, suggesting the formation of a dimer with mouse HIF-1alpha and that the resulting heterodimer binds to the hypoxia-responsive elements (HRE), leading to transcription of the downstream luciferase gene. Expression of D. magna ARNT was evident at the middle to late stages of embryonic development (about 25 h to 48 h after ovulation) in several tissues, including a pair of the 1st antenna, 2nd antenna, 2nd maxilla, five pairs of the thoracic limbs, the central nerve system, anus, dorsal organ, maxillary gland, and carapace. As observed in other species, the D. magna ARNT is likely to function broadly as an expressed dimerization partner in developmental processes. In contrast, expression of ARNT in adult D. magna was limited to the epipodites of thoracic limbs, suggesting that ARNT plays a role solely in hypoxia response in adult Daphnia.


Subject(s)
Basic Helix-Loop-Helix Transcription Factors/analysis , Basic Helix-Loop-Helix Transcription Factors/metabolism , Daphnia/embryology , Hypoxia-Inducible Factor 1/metabolism , Insect Proteins/metabolism , Amino Acid Sequence , Animals , Aryl Hydrocarbon Receptor Nuclear Translocator/genetics , Aryl Hydrocarbon Receptor Nuclear Translocator/metabolism , Base Pairing , Basic Helix-Loop-Helix Transcription Factors/chemistry , Basic Helix-Loop-Helix Transcription Factors/genetics , Carcinoma, Hepatocellular/pathology , Cell Line, Tumor , Conserved Sequence , DNA, Complementary/genetics , DNA, Complementary/isolation & purification , Dimerization , Drosophila Proteins/genetics , Drosophila Proteins/metabolism , Embryo, Nonmammalian , Genes, Reporter , Hypoxia-Inducible Factor 1/genetics , Insect Proteins/analysis , Insect Proteins/genetics , Liver Neoplasms/pathology , Luciferases/metabolism , Molecular Sequence Data , Phylogeny , Protein Structure, Tertiary , Sequence Homology, Amino Acid , Tissue Distribution
7.
Biochem Biophys Res Commun ; 345(1): 362-70, 2006 Jun 23.
Article in English | MEDLINE | ID: mdl-16681994

ABSTRACT

Two Daphnia magna vitellogenin (VTG) genes in neighboring but opposite orientations were identified. One was the gene for DmagVTG1, a previously characterized VTG polypeptide with a superoxide dismutase (SOD)-like domain at its NH(2)-terminus [Kato et al., Gene 334 (2004) 157-165]. Both genes had a 17-exon and 16-intron structure in the same configuration. DmagVTG2, a polypeptide encoded by the other gene, also had a SOD-like domain at its NH(2)-terminus. The amino acid sequences of the two VTG domains were highly homologous (95.5% identity), while those of the SOD-like domains were less homologous (62.4% identity). The VTG domains are phylogenetically related to insect VTGs while the SOD-like domains are related to viral and bacterial SODs. The intergenic region of 2.6kb between the two genes contains sequences resembling known juvenile hormone (JH)-responsive and ecdysone-responsive elements. JH agonists, pyriproxyfen and fenoxycarb, strongly repressed the expression of VTG genes in neonate daphnids.


Subject(s)
Daphnia/genetics , Daphnia/metabolism , Juvenile Hormones/pharmacology , Multigene Family/genetics , Vitellogenins/chemistry , Vitellogenins/genetics , Amino Acid Sequence , Animals , Daphnia/drug effects , Evolution, Molecular , Molecular Sequence Data , Multigene Family/drug effects , Sequence Homology, Amino Acid , Vitellogenins/metabolism
8.
Gene ; 334: 157-65, 2004 Jun 09.
Article in English | MEDLINE | ID: mdl-15256265

ABSTRACT

A cDNA encoding vitellogenin (VTG), a precursor of a major yolk protein, vitellin (VTN), was isolated from cladoceran crustacean Daphnia magna. The deduced amino acid sequence of DmagVTG1, the polypeptide encoded by the cDNA, contained a possible signal peptide sequence of 16 amino acid (aa) residues. The possible mature form of DmagVTG1 consists of 1985 aa residues with a calculated molecular mass of 223,070 Da. The large lipid transfer (LLT) module and a part of the von Willebrand factor D (VWD) module found in the aa sequences of VTGs of many other organisms are well conserved in DmagVTG1. Phylogenetic analysis suggested that the LLT module of DmagVTG1 is more closely related to those of insect VTGs than those of decapodan crustaceans. A unique feature of DmagVTG1 is that it has a superoxide dismutase (SOD)-like domain at its NH(2)-terminus. Antisera against the SOD-like domain, the NH(2)-terminal part of the VTG domain and the COOH-terminal part of the VTG domain, respectively, were prepared and used for analysis of D. magna yolk proteins. Six species (I to VI) of major protein complexes were found in D. magna parthenogenetic eggs isolated immediately after ovulation. Complexes IV and V were the most abundant. DmagVTG1 was a component of Complexes III, IV and V, and the most abundant polypeptide in D. magna eggs. The protein complexes underwent gradual proteolysis during development. One of the primary sites of cleavage was between the two successive Arg residues located at the 1454th and 1455th positions of DmagVTG1.


Subject(s)
Daphnia/genetics , Vitellogenins/genetics , Amino Acid Sequence , Animals , Conserved Sequence/genetics , DNA, Complementary/chemistry , DNA, Complementary/genetics , Egg Proteins/genetics , Egg Proteins/metabolism , Electrophoresis, Polyacrylamide Gel , Female , Molecular Sequence Data , Ovum/growth & development , Ovum/metabolism , Phylogeny , Sequence Alignment , Sequence Analysis, DNA , Sequence Homology, Amino Acid , Superoxide Dismutase/genetics , Vitellogenins/metabolism
9.
Mutagenesis ; 17(4): 313-6, 2002 Jul.
Article in English | MEDLINE | ID: mdl-12110627

ABSTRACT

The Escherichia coli strain WP2uvrA is widely used in general mutagenicity screening tests because of its high sensitivity to many kinds of mutagens and it serves as a supplement to the standard Salmonella typhimurium tester strains. In contrast to Salmonella His(+) revertants, E.coli Trp(+) revertants have not been characterized at the molecular level. In this study we found that in the trpE65 allele of WP2uvrA the triplet that codes for the fourth amino acid from the N-terminus of anthranilate synthetase was an ochre stop codon (TAA) instead of a glutamine codon (CAA). In spontaneous Trp(+) revertants the ochre codon had been changed to glutamine (CAA), lysine (AAA), glutamic acid (GAA), leucine (TTA), serine (TCA) or tyrosine (TAC, TAT). Since tryptophan prototrophy could also be restored by ochre suppressor mutations at the anticodon sites in the genes for tRNA(Glu) (glnU), tRNA(Lys) (lysT) and tRNA(Tyr) (tyrT, tyrU), the Trp(+) reversion system with E.coli WP2uvrA detected five types of base substitutions, A.T-->T.A, A.T-->C.G, A.T-->G.C, G.C-->A.T and G.C-->T.A. About 30-50% of Trp(+) revertants induced by N-ethyl-N'-nitro-N-nitrosoguanidine, captan and angelicin plus UVA irradiation were attributable to reversion at the trpE65 ochre locus; the others were attributable to suppressor mutations. In contrast, almost all revertants induced by N-methyl-N'-nitro-N-nitrosoguanidine, 3-chloro-4-(dichloromethyl)-5-hydroxy-2(5H)-furanone and furylfuramide were caused by suppressor mutations. Thus, the high mutagen sensitivity of WP2uvrA is due to several target sites consisting of A.T base pairs (trpE65, lysT) and G.C base pairs (glnU, tyrT, tyrU).


Subject(s)
Escherichia coli/genetics , Mutation , Tryptophan , Adenosine Triphosphatases/genetics , Amino Acid Sequence , Anthranilate Synthase/genetics , Base Pairing , Base Sequence , Captan/pharmacology , Codon, Terminator , DNA-Binding Proteins/genetics , Escherichia coli/drug effects , Escherichia coli Proteins/drug effects , Escherichia coli Proteins/genetics , Furans/pharmacology , Methylnitronitrosoguanidine/pharmacology , Molecular Sequence Data , Mutagens/toxicity , RNA, Transfer, Glu/genetics , RNA, Transfer, Lys/genetics , RNA, Transfer, Tyr/genetics , Suppression, Genetic
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