Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:1.9.3.1 (cytochrome oxidase)
 8,822 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The mitochondrial respiratory system is absent in slender bloodstream forms of Trypanosoma brucei, incomplete in stumpy bloodstream forms, and complete in procyclic (insect) forms. The steady-state abundance of transcripts of some mitochondrially encoded components of the respiratory system correlates with its differential expression in different life cycle stages. Recently, it was reported that uridines which are not encoded in the genome are added to cytochrome b and cytochrome oxidase II transcripts. We now report that the (U)+ transcripts of both genes are found in procyclic forms and to some degree in stumpy forms but are absent in slender forms. The uridine additions to cytochrome oxidase II correct a frameshift in the gene and presumably allow production of a full-length protein, whereas those added to cytochrome b create an in-frame AUG which extends the N terminus of the predicted protein by 20 amino acids. The stage specificity of uridine additions to these transcripts thus reflects the life cycle stage during which the protein products would be used. Transcripts of MURF2, a gene of unknown function, have additional uridines in both slender and procyclic forms which create two in-frame AUGs. MURF2 transcripts additionally differ from the DNA sequence in ways which cannot be explained by uridine addition alone, implying that other processes alter these transcripts.
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PMID:Developmental aspects of uridine addition within mitochondrial transcripts of Trypanosoma brucei. 245 74

Mitochondrial respiratory activities in the protozoan parasite Trypanosoma brucei are developmentally regulated. The trypanosomes in the mammalian bloodstream derive ATP entirely from glycolysis. The trypanosomes found in the midgut of the insect vector or in culture at 26 degrees C have fully functional mitochondria with cytochrome-mediated respiration. In this paper, we show that the steady state levels of the 9 S and 12 S mitochondrial ribosomal RNAs (rRNAs) are 30-fold lower in an early developmental stage in the mammal, the slender forms, relative to the levels in the stumpy trypanosomes, a later developmental stage in the mammalian infection. Transcripts from three other mitochondrial genes, cytochrome b and subunits I and II of cytochrome oxidase, are undetectable in the slender trypanosomes and increase in the stumpy trypanosomes to levels approaching those in trypanosomes from 26 degrees C cultures. Transcription of other mitochondrial genes, including NADH-dehydrogenase subunit 5, is unregulated during trypanosome development. These results show that the level of some mitochondrial transcripts is developmentally regulated in bloodstream trypanosomes and suggest that the stumpy bloodstream trypanosomes accumulate mitochondrial transcripts prior to development of a functional mitochondrion. These results also show that the developmental activation of mitochondrial activities at 26 degrees C is not controlled at the level of mitochondrial transcription.
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PMID:Developmental regulation of trypanosome mitochondrial gene expression. 287 36

The highly regulated intracellular concentration of calcium (Ca2+) is a well-described regulator of diverse cellular events, including cell cycle control. In the present study we have addressed the regulation of cytosolic Ca2+ in differentiation events in the life cycle of the protozoan parasite Trypanosoma brucei. Bloodstream form (BSF) trypanosomes include the mitotically active long slender forms (LS) which differentiate to two nondividing stages--intermediate (INT) which transform into short stumpy (SS) forms. An axenic in vitro culture system was used to cultivate LS to a density greater than 1.0 x 10(6) cells/ml/day. Populations of the intermediate BSF (INT) and SS were derived from cultured LS by treatment with difluoromethyl ornithine (DFMO, 100 microM) for 2 and 4 days, respectively. A semiquantitative reverse transcriptase-coupled polymerase chain reaction protocol (SQ-RT-PCR) was developed to objectively distinguish the three BSF by monitoring the relative levels of stage-specific mRNAs--cytochrome oxidase II (COXII), variant surface glycoprotein, and procyclin during the differentiation of LS to SS, showing an increase in COXII and procyclin mRNA expression during this process of differentiation. Basal cytosolic Ca2+ levels [Ca2+]i of populations of LS, INT, and SS were studied using Indo-1 dual emission fluorometry. [Ca2+]i was maximal in dividing LS cells and was shown to decrease coincidentally with early events in the process of differentiation to INT and SS. Thapsigargin (1 microM), reported to cause the release of Ca2+ from the endoplasmic reticulum, elevated [Ca2+]i by about 30-60 nM in all BSF; however, the total thapsigargin-releasable stores decreased in parallel with the decrease in basal [Ca2+]i. Control treatments verified that elevations in [Ca2+]i in response to thapsigargin were intracellular in origin. These results may reflect the cessation of cytosolic Ca2+ transients involved in the regulation of mitosis as the parasite exits from the cell cycle and differentiates from rapidly dividing LS to the nondividing SS.
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PMID:Trypanosoma brucei: analysis of cytoplasmic Ca2+ during differentiation of bloodstream stages in vitro. 865 42

Life cycle differentiation of African trypanosomes entails developmental regulation of mitochondrial activity. This requires regulation of the nuclear genome and the kinetoplast, the trypanosome's unusual mitochondrial genome. To investigate the potential cross talk between the nuclear and mitochondrial genome during the events of differentiation, we have 1) disrupted expression of a nuclear-encoded component of the cytochrome oxidase (COX) complex; and 2) generated dyskinetoplastid cells, which lack a mitochondrial genome. Using RNA interference (RNAi) and by disrupting the nuclear COX VI gene, we demonstrate independent regulation of COX component mRNAs encoded in the nucleus and kinetoplast. However, two independent approaches (acriflavine treatment and RNA interference ablation of mitochondrial topoisomerase II) failed to establish clonal lines of dyskinetoplastid bloodstream forms. Nevertheless, dyskinetoplastid forms generated in vivo could undergo two life cycle differentiation events: transition from bloodstream slender to stumpy forms and the initiation of transformation to procyclic forms. However, they subsequently arrested at a specific point in this developmental program before cell cycle reentry. These results provide strong evidence for a requirement for kinetoplast DNA in the bloodstream and for a kinetoplast-dependent control point during differentiation to procyclic forms.
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PMID:Mitochondrial development during life cycle differentiation of African trypanosomes: evidence for a kinetoplast-dependent differentiation control point. 1238 71