Cytochrome C Oxidase Subunit (cytochrome + c_oxidase_subunit)

Distribution by Scientific Domains

Terms modified by Cytochrome C Oxidase Subunit

  • cytochrome c oxidase subunit i

  • Selected Abstracts


    Electrophoretic analysis of sequence variability in three mitochondrial DNA regions for ascaridoid parasites of human and animal health significance

    ELECTROPHORESIS, Issue 13 2008
    Ming-Wei Li
    Abstract Sequence variability in three mitochondrial DNA (mtDNA) regions, namely cytochrome c oxidase subunit 1 (cox1), NADH dehydrogenase subunits 1 and 4 (nad1 and nad4), among and within Toxocara canis, T. cati, T. malaysiensis, T. vitulorum and Toxascaris leonina from different geographical origins was examined by a mutation-scanning approach. A portion of the cox1 gene (pcox1), a portion of the nad1 and nad4 genes (pnad1 and pnad4) were amplified separately from individual ascaridoid nematodes by polymerase chain reaction and the amplicons analyzed by single-strand conformation polymorphism (SSCP). Representative samples displaying sequence variation in SSCP profiles were subjected to sequencing in order to define genetic markers for their specific identification and differentiation. While the intra-specific sequence variations within each of the five ascaridoid species were 0.2,3.7% for pcox1, 0,2.8% for pnad1 and 0,2.3% for pnad4, the inter-specific sequence differences were significantly higher, being 7.9,12.9% for pcox1, 10.7,21.1% for pnad1 and 12.9,21.7% for pnad4, respectively. Phylogenetic analyses based on the combined sequences of pcox1, pnad1 and pnad4 revealed that the recently described species T. malaysiensis was more closely related to T. cati than to T. canis. These findings provided mtDNA evidence for the validity of T. malaysiensis and also demonstrated clearly the usefulness and attributes of the mutation-scanning sequencing approach for studying the population genetic structures of these and other nematodes of socio-economic importance. [source]


    DNA barcodes show cryptic diversity and a potential physiological basis for host specificity among Diplostomoidea (Platyhelminthes: Digenea) parasitizing freshwater fishes in the St. Lawrence River, Canada

    MOLECULAR ECOLOGY, Issue 13 2010
    SEAN A. LOCKE
    Abstract Diplostomoid metacercariae parasitize freshwater fishes worldwide and cannot be identified to species based on morphology. In this study, sequences of the barcode region of cytochrome c oxidase subunit 1 (CO1) were used to discriminate species in 1088 diplostomoids, most of which were metacercariae from fish collected in the St. Lawrence River, Canada. Forty-seven diplostomoid species were detected, representing a large increase in known diversity. Most species suggested by CO1 sequences were supported by sequences of internal transcribed spacer (ITS) of rDNA and host and tissue specificity. Three lines of evidence indicate that physiological incompatibility between host and parasite is a more important determinant of host specificity than ecological separation of hosts and parasites in this important group of freshwater fish pathogens. First, nearly all diplostomoid species residing outside the lens of the eyes of fish are highly host specific, while all species that occur inside the lens are generalists. This can be plausibly explained by a physiological mechanism, namely the lack of an effective immune response in the lens. Second, the distribution of diplostomoid species among fish taxa reflected the phylogenetic relationships of host species rather than their ecological similarities. Third, the same patterns of host specificity were observed in separate, ecologically distinctive fish communities. [source]


    DNA BARCODING: Barcoding corals: limited by interspecific divergence, not intraspecific variation

    MOLECULAR ECOLOGY RESOURCES, Issue 2 2008
    T. L. SHEARER
    Abstract The expanding use of DNA barcoding as a tool to identify species and assess biodiversity has recently attracted much attention. An attractive aspect of a barcoding method to identify scleractinian species is that it can be utilized on any life stage (larva, juvenile or adult) and is not influenced by phenotypic plasticity unlike morphological methods of species identification. It has been unclear whether the standard DNA barcoding system, based on cytochrome c oxidase subunit 1 (COI), is suitable for species identification of scleractinian corals. Levels of intra- and interspecific genetic variation of the scleractinian COI gene were investigated to determine whether threshold values could be implemented to discriminate conspecifics from other taxa. Overlap between intraspecific variation and interspecific divergence due to low genetic divergence among species (0% in many cases), rather than high levels of intraspecific variation, resulted in the inability to establish appropriate threshold values specific for scleractinians; thus, it was impossible to discern most scleractinian species using this gene. [source]


    DNA barcoding of Neotropical bats: species identification and discovery within Guyana

    MOLECULAR ECOLOGY RESOURCES, Issue 2 2007
    ELIZABETH L. CLARE
    Abstract Sequence diversity in the cytochrome c oxidase subunit 1 gene has been shown to be an effective tool for species identification and discovery in various groups of animals, but has not been extensively tested in mammals. We address this gap by examining the performance of DNA barcodes in the discrimination of 87 species of bats from Guyana. Eighty-one of these species showed both low intraspecific variation (mean = 0.60%), and clear sequence divergence from their congeners (mean = 7.80%), while the other six showed deeply divergent intraspecific lineages suggesting that they represent species complexes. Although further work is needed to examine patterns of sequence diversity at a broader geographical scale, the present study validates the effectiveness of barcoding for the identification of regional bat assemblages, even highly diverse tropical faunas. [source]


    Identification of regulatory elements involved in expression and induction by sucrose and UV-B light of the Arabidopsis thaliana COX5b-2 gene, encoding an isoform of cytochrome c oxidase subunit 5b

    PHYSIOLOGIA PLANTARUM, Issue 3 2009
    Raśl N. Comelli
    The promoter sequences required for expression of the Arabidopsis thaliana COX5b-2 gene, encoding an isoform of cytochrome c oxidase subunit 5b, were analyzed using plants transformed with deleted and mutagenized forms of the promoter fused to gus. A 1000-bp promoter fragment produces expression in root and shoot meristems, leaf and cotyledon tips, and anthers. Deletion analysis indicated the presence of positive and negative regulatory elements. A regulatory element located between ,660 and ,620 from the translation start site was identified as a G-box by mutagenic analysis. Mutation of the G-box, that is present within the coding region of the preceding gene in the genome, increases expression of COX5b-2 in cotyledon and leaf lamina and abolishes induction by ultraviolet-B (UV-B) light, which presumably acts through the removal of an inhibitory factor. Identified positive regulatory elements include a site II element (TGGGCC), a related element with the sequence TGGGTC and four initiator elements (YTCANTYY) that completely abolish expression when mutated in combination. Site II elements are also involved in the response to sucrose. The results imply that the COX5b-2 gene has retained expression characteristics presented by most respiratory chain component genes, but its expression mechanisms have diverged from those employed by COX5b-1, the other gene encoding cytochrome c oxidase subunit 5b in Arabidopsis. [source]


    Analysis of mitochondrial DNA protein-coding region in the Yeso Sika deer (Cervus nippon yesoensis)

    ANIMAL SCIENCE JOURNAL, Issue 4 2004
    Kenta WADA
    ABSTRACT In the present study, mitochondrial DNA sequences of the Yeso Sika deer (Cervus nippon yesoensis) were studied. Specifically, protein-coding genes as mitochondrial NADH dehydrogenase subunits (ND1, ND2, ND3, ND4L, ND4, ND5 and ND6), cytochrome c oxidase subunits (CO I and CO III), ATP synthase subunits (ATPase8 and ATPase6) and cytochrome b. Also, phylogenetic analyses on eight mammalian species were performed, including the Muntjac deer (Muntiacus reevesi). The rate of amino-acid substitution was lowest (3.74%) between Yeso Sika deer and Muntjac deer, and the values between Yeso Sika deer and other species (sheep, cattle, horse, pig, mouse, human and chimpanzee) were 6.63%, 7.30%, 12.55%, 13.03%, 23.59%, 24.82% and 25.04%, respectively. Among them, the highest value of divergence was recognized in ATPase8, and the second structure of ATPase8 showed a difference between the Yeso Sika deer and Muntjac deer as a result of the substitution of 34His,Tyr and 49Thr,Ile. In addition, we identified a substitution of an amino-acid sequence (19Thr,Ala) between the Yeso Sika deer and Yakushima Sika deer (C. n. yakushimae). From these results, ATPase8 was also a variable region in Cervidae. [source]