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Cytb Gene (cytb + gene)
Selected AbstractsForced cytochrome B gene mutation expression induces mitochondrial proliferation and prevents apoptosis in human uroepithelial SV-HUC-1 cells,,INTERNATIONAL JOURNAL OF CANCER, Issue 12 2009Santanu Dasgupta Abstract Mitochondria encoded Cytochrome B (CYTB) gene mutations were reported in tumors of different anatomic origin but the functional significance of these mutations are not well studied. Earlier, we found a 7-amino acid deletion mutation in the CYTB gene in a primary bladder cancer patient. In the present study, we overexpressed this 7-amino acid deletion mutation of CYTB gene in SV-40 transformed human uroepithelial HUC-1 cells. The nuclear transcribed mitochondrial CYTB (mtCYTB) was targeted into the mitochondria and generated increased copies of mitochondria and mitochondrial COX-I protein in the transfected HUC-1 cells. The proapoptotic protein Bax largely remained confined to the cytoplasm of the mtCYTB transfected HUC-1 cells without release of Cytochrome C. The downstream apoptotic proteins PARP also remained uncleaved along with increased Lamin B1 in the mtCYTB transfected cells. Our results demonstrate that forced overexpression of mtCYTB in transformed human uroepithelial HUC-1 cells triggered mitochondrial proliferation and induction of an antiapoptotic signaling cascade favoring sustained cellular growth. Coding mitochondrial DNA mutations appear to have significant functional contribution in tumor progression. Published 2009 UICC. [source] Possible Emergence of Drug-Resistant Variants of Babesia gibsoni in Clinical Cases Treated with Atovaquone and AzithromycinJOURNAL OF VETERINARY INTERNAL MEDICINE, Issue 3 2009M. Sakuma Background: There is no well-established treatment strategy for Babesia gibsoni infection. A new therapeutic protocol using atovaquone (ATV) and azithromycin (AZM) has been proposed, but there is concern about the possible induction of relapse and the emergence of ATV-resistant variants after treatment. Objective: To evaluate the clinical use of combination therapy with ATV and AZM as a first-line treatment of clinical B. gibsoni infection in dogs, and to investigate the emergence of ATV-resistant variants. Animals: Eight B. gibsoni naturally infected dogs showing signs of acute onset of disease. Methods: Retrospective case study. Eight clinical cases received combination therapy with ATV and AZM at Kagoshima University Veterinary Teaching Hospital during 2007,2008, and their clinical courses and clinicopathological parameters were evaluated. In addition, alterations in the cytochrome b (CYTb) gene of B. gibsoni were analyzed by polymerase chain reaction and DNA sequencing techniques. Results: All of the dogs responded well to the treatment, with rapid improvement in their clinical condition and hematological parameters. However, 5 of the 8 dogs relapsed after treatment. Analysis of the CYTb gene strongly suggested the emergence of ATV-resistant variants after treatment. Conclusions and Clinical Importance: The combination of ATV and AZM can be used as a first-line treatment for dogs with babesiosis, but relapses occur. Attention should be paid to the possible in vivo selection of drug-resistant variants. [source] Molecular phylogeny and biogeography of Honey-buzzards (genera Pernis and Henicopernis)JOURNAL OF ZOOLOGICAL SYSTEMATICS AND EVOLUTIONARY RESEARCH, Issue 2 2004A. Gamauf Abstract A partial sequence of the cytb gene (382 bp) was amplified and sequenced from 35 individuals (mainly museum specimens) of the genus Pernis representing all valid taxa (10) and two taxa (P. p. gurneyi, P. p. japonicus) with questionable validity as well as representatives of the Old World Perninae, namely Henicopernis and Aviceda, to assess their relationships to the genus Pernis. Furthermore, Gypaetus barbatus, Neophron percnopterus, and Buteo buteo were included as outgroup taxa. In the trees derived from the sequence data, Aviceda represents the sister group of the genus Pernis. The genus Henicopernis and the Old World vultures Gypaetus andNeophron appear rather distantly related to Pernis. Within the genus Pernis, two of the described species (Pernis apivorus, Pernis ptilorhyncus) form monophyletic groups, whereas the relationships of the two clades representing three subspecies of Pernis celebensis are still uncertain. Although this study is based on comparatively short DNA-sections, the trees deduced from these sequences can be considered as a first approach for inferring the phylogenetic relationships of the genus Pernis and related genera and for addressing questions concerning the evolutionary history, biogeography, and systematics of this group. Zusammenfassung Eine Teilsequenz des Cytochrom b Gens (382 bp) wurde von 35 Individuen (hauptsächlich Museumsmaterial) der Gattung Pernis amplifiziert und sequenziert. Inkludiert wurden alle validen Taxa (10) und zwei weitere (P.p. gurneyi, P. p. japonicus) mit zweifelhaftem taxonomischen Status. Weiters wurden die übrigen Vertreter der altweltlichen Perninae (Henicopernis, Aviceda) untersucht, um deren Verwandtschaft zum Genus Pernis festzustellen. Als Außengruppen-Taxa wurden Bartgeier Gypaetus barbatus, Schmutzgeier Neophron percnopterus und Mäusebussard Buteo buteo verwendet. In den aus den Sequenzen errechneten Bäumen stellt Aviceda die Schwestergruppe der Gattung Pernis dar. Die Gattungen, Henicopernis und die Altweltgeier Gypaetus und Neophron erscheinen mit der Gattung Pernis nur entfernt verwandt. Innerhalb der Gattung Pernis formen zwei der beschriebenen Arten (P. apivorus, P. ptilorhyncus) eine monophyletische Gruppe, die Verwandtschaftsverhältnisse der beiden anderen Clades, welche die drei Unterarten von P. celebensis repräsentieren, können jedoch auf der Basis dieser Sequenz nicht eindeutig geklärt werden. Obwohl diese Analyse auf relativ kurzen DNA-Abschnitten basiert, können die aus den Sequenzen abgeleiteten Stammbäume als erster Versuch angesehen werden, die Phylogenie der Wespenbussard-Gattung Pernis und verwandter Genera mittels molekularer Methoden und unter Berücksichtigung evolutionsbiologischer, biogeographischer und systematischer Aspekte darzustellen. [source] Mitochondrial gene diversity in the common vole Microtus arvalis shaped by historical divergence and local adaptationsMOLECULAR ECOLOGY, Issue 11 2004SABINE FINK Abstract The phylogeography of the common vole (Microtus arvalis) was examined by analysing mitochondrial DNA (mtDNA) sequence variation in 1044 base pairs (bp) of the cytochrome b (cytb) gene and in 322 bp of the control region (ctr) among 106 individuals from 58 locations. The geographical distribution of four previously recognized cytb evolutionary lineages in Europe was refined and a new lineage was found in southern Germany. All lineages were distributed allopatrically, except in one sample that was probably located in a contact zone. The occurrence of several lineages in the Alps is in keeping with their recent recolonization from distinct sources. The translation of 84 cytb DNA sequences produced 33 distinct proteins with relationships that differed from those of the DNA haplotypes, suggesting that the mtDNA lineages did not diverge in response to selection. In comparison with M. agrestis, a neutrality test detected no overall evidence for selection in the cytb gene, but a closer examination of a structural model showed that evolutionarily conserved and functionally important positions were often affected. A new phylogeographical test of random accumulation of nonsynonymous mutations generated significant results in three lineages. We therefore conclude that the molecular diversity of cytb in M. arvalis is overall the result of the demographic history of the populations, but that there have been several episodes of local adaptation to peculiar environments. [source] Monophyletic origin of domestic bactrian camel (Camelus bactrianus) and its evolutionary relationship with the extant wild camel (Camelus bactrianus ferus)ANIMAL GENETICS, Issue 4 2009R. Ji Summary The evolutionary relationship between the domestic bactrian camel and the extant wild two-humped camel and the factual origin of the domestic bactrian camel remain elusive. We determined the sequence of mitochondrial cytb gene from 21 camel samples, including 18 domestic camels (three Camelus bactrianus xinjiang, three Camelus bactrianus sunite, three Camelus bactrianus alashan, three Camelus bactrianus red, three Camelus bactrianus brown and three Camelus bactrianus normal) and three wild camels (Camelus bactrianus ferus). Our phylogenetic analyses revealed that the extant wild two-humped camel may not share a common ancestor with the domestic bactrian camel and they are not the same subspecies at least in their maternal origins. Molecular clock analysis based on complete mitochondrial genome sequences indicated that the sub-speciation of the two lineages had begun in the early Pleistocene, about 0.7 million years ago. According to the archaeological dating of the earliest known two-humped camel domestication (5000,6000 years ago), we could conclude that the extant wild camel is a separate lineage but not the direct progenitor of the domestic bactrian camel. Further phylogenetic analysis suggested that the bactrian camel appeared monophyletic in evolutionary origin and that the domestic bactrian camel could originate from a single wild population. The data presented here show how conservation strategies should be implemented to protect the critically endangered wild camel, as it is the last extant form of the wild tribe Camelina. [source] |