Morphological variation and genetic diversity of Triops cancriformis (Crustacea: Notostraca) and their potential for understanding the influence of postglacial distribution and habitat fragmentation

Zierold, Thorid

20 July 2009

Triops cancriformis (Crustacea: Notostraca) occurs in ephemeral habitats like rain pools or floodplain pools distributed over a large geographical range. The named habitats are disturbed by human impacts and, consequently, T. cancriformis is endangered throughout its distribution range. In the present thesis the populated habitats and threats are characterised and further morphological and genetic variations detected among and within European populations are reported. On the basis of recent investigations it is shown that T. cancriformis subspecies separation is hampered by an individual variability which points to the necessity of species revision. The analysis of mitochondrial gene sequence data suggests that the species has colonised most of Europe very recently. The advantage of a complex reproductive strategy in T. cancriformis in this process is discussed. The population structure resolved with nuclear DNA markers highlights that there is low allelic diversity among and within populations compared to other Branchiopoda (Daphnia). By means of the present study it can be shown that habitat conservation is most important to protect T. cancriformis.

Rückenschaler

Populationsgenetik

population genetics

phylogeography

microsatellite analysis

cytochrom c oxidase I analysis

16S rDNA analysis

habitat characteristic

ephemeral water bodies

tadpole shrimps

living fossil

ddc:590

rvk:WG 5650

Genetische Marker bei hausärztlichen Patienten mit oraler Antikoagulation / Genetic markers in patients taking phenprocoumon

Hess, Stephan

02 June 2004

No description available.

Medicine

Antikoagulation

Cytochrom P-450 CYP2C9 polymorphismen

Allgemeinmedizin

Genetische Marker

Phenprocoumon

610 Medizin

Gesundheit

anticoagulants

cytochrome P-450 CYP2C9 polymorphism

general practice

genetic markers

phenprocoumon

44.15

MED 400: Allgemeinmedizin

Metabolismus inhibitoru tyrosinkinas lenvatinibu jako protinádorového léčiva s cílenými účinky / Metabolism of an inhibitor of tyrosine kinase lenvatinib as the anticancer drug with targeting effects

Vavrová, Katarína

January 2018

Lenvatinib is an oral anticancer drug that belongs to a group of tyrosine kinases, which block signal pathway receptors for development and proliferation of various cancer diseases. Lenvatinib was approved in 2015 for a treatment of progressive, locally spread or metastatic, differentiated thyroid cancer refractory to radioiodine treatment. This thesis presents findings about the metabolism of lenvatinib and identification of enzymes responsible for biotransformation of this drug. Utilizing human and rat hepatic microsomes as well as recombinant cytochromes P450 (CYPs) expressed in SupersomesTM , the metabolism of lenvatinib was studied. Used rat microsomal systems were isolated from the liver of uninduced rats and from the liver of rats in which expression of individual CYPs was induced by CYP inducers. The lenvatinib metabolites were separated by HPLC and identified by mass spectroscopy. Using rat microsomal systems, O-desmethyllenvatinib and lenvatinib N-oxide were produced. The highest amount of these lenvatinib metabolites was produced by microsomes of rats pretreated with pregnenolone carbonitrile that is an inducer of CYP3A. Human hepatic microsomes oxidize lenvatinib to O-desmethyllenvatinib and N-descyklopropyllenvatinib. In the case of rat recombinant CYPs, O-desmethyllenvatinib was...

Teoretická studie enzymů spojených s procesem karcinogeneze: DNA polymerázy β a cytochromů P450 / Theoretical study of enzymes related to carcinogenesis: DNA polymerase β and cytochromes P450

Jeřábek, Petr

January 2012

Present doctoral thesis contributed to understanding of mechanistic principles of two enzymes participating in the process of carcinogenesis; DNA polymerase  (pol ) and cytochromes P450 (CYP). Pol  is part of the DNA base-excision repair mechanism (BER). The primary role of pol  in, the BER mechanism, is inserting a new nucleotide into a DNA strand according to Watson-Crick base pairing rules. Pol  plays an important role in the process of carcinogenesis, approximately 30 % of human tumors express pol  mutants. The ability of pol  to discriminate between "right" and "wrong" nucleotide during the insertion process is called fidelity. We employed computational methods to elucidate molecular basis of the fidelity of pol . First, the relative free energy calculation method LRA was employed to compare differences in free energies between the "right" and "wrong" nucleotide during its insertion into DNA. The results indicated a better stabilization of transition-state of the nucleophilic substitution catalyzed by pol  in the case of the "right" versus "wrong" nucleotide. This difference resulted in an 80-fold contribution to its fidelity. Further, computational methods FEP and LIE were used to examine how mutations effect fidelity of pol . Results were than correlated with experimental data...

Úloha metabolitů kyseliny arachidonové v regulaci krevního tlaku u experimentálních modelů ANGII-dependentní formy hypertenze / The role of arachidonic acid metabolites in regulation of blood pressure in experimental models of angiotensin II- dependent hypertension

Jíchová, Šárka

January 2020

Introduction: Two major product groups originate from the arachidonic acid metabolic pathway of cytochromes P450: epoxyeicosatrienoic acid (EETs) and 19 and 20-hydroxyeicosatetraenoic acid (19- and 20-HETE). These metabolites play an important role in the regulation of blood pressure, inflammatory responses, regulation of sodium excretion and other crucial physiological processes. Hypothesis: Our studies were based on the hypothesis that abnormalities in the production and function of these cytochrome P450 metabolites significantly contribute to the pathophysiology of hypertension development, in particular in the angiotensin II-dependent models. Objective: To investigate if the increased bioavailability of the above-mentioned metabolites in the kidney tissue will result in blood pressure reduction in the ANG II - dependent rat model of hypertension. Methods: The two methods to increase the concentration of EETs was chosen. In the first part of the study, we administered a soluble epoxide hydrolase inhibitor cAUCB [cis-4- [4- (3-adamantan-1-yl- ureido) cyclohexyloxy] benzoic acid, at a dose of 26 mg.l-1 administered in drinking water], an enzyme responsible for inactivation of biologically active forms of EETs. In the second series of the experiments we applied a synthetic EET analogue, called...

Morphological variation and genetic diversity of Triops cancriformis (Crustacea: Notostraca) and their potential for understanding the influence of postglacial distribution and habitat fragmentation

Zierold, Thorid

06 July 2006

Triops cancriformis (Crustacea: Notostraca) occurs in ephemeral habitats like rain pools or floodplain pools distributed over a large geographical range. The named habitats are disturbed by human impacts and, consequently, T. cancriformis is endangered throughout its distribution range. In the present thesis the populated habitats and threats are characterised and further morphological and genetic variations detected among and within European populations are reported. On the basis of recent investigations it is shown that T. cancriformis subspecies separation is hampered by an individual variability which points to the necessity of species revision. The analysis of mitochondrial gene sequence data suggests that the species has colonised most of Europe very recently. The advantage of a complex reproductive strategy in T. cancriformis in this process is discussed. The population structure resolved with nuclear DNA markers highlights that there is low allelic diversity among and within populations compared to other Branchiopoda (Daphnia). By means of the present study it can be shown that habitat conservation is most important to protect T. cancriformis.

info:eu-repo/classification/ddc/590

ddc:590

Isoflavonsynthasa: přítomnost a aktivita v bobovitých a nebobovitých rostlinách / Isoflavonsynthasa: přítomnost a aktivita v bobovitých a nebobovitých rostlinách

Pičmanová, Martina

January 2010

Isoflavone synthase (IFS; CYP93C) plays a key role in the biosynthesis of the plant secondary metabolites, isoflavonoids. These phenolic compounds, which are well-known for their multiple biological effects, are produced mostly in leguminous plants (family Fabaceae). However, at least 225 of them have also been described in 59 other families, without any knowledge of orthologues to hitherto known IFS genes from legumes (with the single exception of sugar beet - Beta vulgaris, from the family Chenopodiaceae). In view of these facts, this masters thesis has focused on two main objectives: (1) to identify isoflavone synthase genes in selected leguminous and non-leguminous plants exploiting the PCR strategy with degenerate and non-degenerate primers, and (2) to find a system for the verification of the correct function of these genes. Our methodology for the identification of IFS orthologues was successfully demonstrated in the case of two examined legumes - Phaseolus vulgaris L. and Pachyrhizus tuberosus (Lam.) Spreng, in the genomic DNA of which the complete IFS sequences have been newly identified. To design a procedure for ascertaining the correct function of these genes and others once they have been completely described, a pilot study with IFS from Pisum sativum L. (CYP93C18; GenBank number...

Regulace a poruchy savčí cytochrom c oxidázy. / Regulation and Disorders of Mammalian Cytochrome c Oxidase

Kovářová, Nikola

January 2016

Cytochrome c oxidase (COX) represents the terminal enzyme complex of respiratory chain metabolic pathway and it occurs as monomer, dimer or as a part of respiratory supercomplexes in the inner mitochondrial membrane. COX assembly process is complicated, highly regulated and depends on many ancillary proteins. Mutations in COX subunits, which are encoded by mitochondrial and nuclear DNA, or in genes encoding its assembly proteins are frequent cause of very severe mitochondrial disorders. SURF1 assembly protein participates in the first steps of COX assembly, but its exact function is not yet clarified. In humans, mutations of SURF1 gene lead to severe COX defect and fatal neurodegenerative disorder, Leigh syndrome. Knockout of SURF1 gene in mouse causes isolated COX defect as well, but less pronounced and without involvement of CNS. The aim of the thesis was detailed analysis of disturbed COX biogenesis in a condition of SURF1 gene mutations or SURF1 gene knockout, from assembly of COX monomer to interaction of COX into supercomplexes, and to the impact of isolated COX defect on other OXPHOS complexes. Mutations of SURF1 gene in patient's fibroblasts led to marked accumulation of COX assembly intermediates and to a defect in formation of functional COX monomer, which was preferentially built into an...

Regulace a poruchy savčí cytochrom c oxidázy. / Regulation and Disorders of Mammalian Cytochrome c Oxidase

Kovářová, Nikola

January 2016

Cytochrome c oxidase (COX) represents the terminal enzyme complex of respiratory chain metabolic pathway and it occurs as monomer, dimer or as a part of respiratory supercomplexes in the inner mitochondrial membrane. COX assembly process is complicated, highly regulated and depends on many ancillary proteins. Mutations in COX subunits, which are encoded by mitochondrial and nuclear DNA, or in genes encoding its assembly proteins are frequent cause of very severe mitochondrial disorders. SURF1 assembly protein participates in the first steps of COX assembly, but its exact function is not yet clarified. In humans, mutations of SURF1 gene lead to severe COX defect and fatal neurodegenerative disorder, Leigh syndrome. Knockout of SURF1 gene in mouse causes isolated COX defect as well, but less pronounced and without involvement of CNS. The aim of the thesis was detailed analysis of disturbed COX biogenesis in a condition of SURF1 gene mutations or SURF1 gene knockout, from assembly of COX monomer to interaction of COX into supercomplexes, and to the impact of isolated COX defect on other OXPHOS complexes. Mutations of SURF1 gene in patient's fibroblasts led to marked accumulation of COX assembly intermediates and to a defect in formation of functional COX monomer, which was preferentially built into an...

Yeast mitochondrial copper metabolism: topology and role of Cox11p

Khalimonchuk, Oleh

15 February 2006

Cytochrome c oxidase (COX) is one of two known Cu-containing enzymes in mitochondria. Delivery and insertion of copper into COX are very complex processes that require multiple steps and involve a large number of assisting factors. One of the involved components is Cox11p, a copper binding protein in the inner mitochondrial membrane that is conserved from prokaryotes to eukaryotes. Cox11p is essential for respiratory growth and implicated in the assembly of the CuB site located in subunit Cox1p of COX. In the thesis the topology of Cox11p was determined and evidence for its association with the mitochondrial translation machinery is provided. The interaction of Cox11p with mitoribosomes is mediated by its single evolutionary conserved transmembrane segment and appears to be indirect and mediated by another conserved membrane protein(s). A model is proposed in which the CuB site is co-translationally formed by a transient interaction between Cox11p and the nascent Cox1p in the mitochondrial intermembrane space. In addition the genetic and biochemical characterization of S. pombe Cox11p homologue was performed. Two versions of cox11+ gene are detected in a haploid S. pombe genome. Cells lacking either of the cox11+ copies remain respiratory competent, whereas deletion of both S. pombe cox11+ alleles appears to result in either spore lethality or in severe decrease of spores viability. Thus, both versions of SpCox11p are functional and important. In S. pombe Cox11p exists as a tandem with the mitoribosomal protein Rsm22p. This precursor protein is cleaved during mitochondrial import into two mature protein species corresponding to Rsm22p- and Cox11p-like moieties.

info:eu-repo/classification/ddc/570

ddc:570