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Expression and characterisation of homologs of human glutamate carboxypeptidase II
Bäumlová, Adriana ; Konvalinka, Jan (advisor) ; Vaněk, Ondřej (referee)
English abstract Glutamate carboxypeptidase II (GCPII, EC 3.4.17.21) is a membrane bound glycoprotein that belongs to the metallopeptidase M28 family. Two physiological substrates were found for GCPII. The first one, N-acetyl-aspartylglutamate (NAAG), serves as a neurotransmiter in the brain and GCPII hydrolyzes it to yield free glutamate in the synaptic cleft. Excess glutamate might be cytotoxic and eventually lead to excitoxic nerve cells death. Inhibition of NAAG hydrolyzing activity has been shown to be neuroprotective. Therefore, GCPII inhibition was suggested as a therapeutic target in treatment of neurological disorders where excess glutamate is involved. The second substrate, polyglutamyl folate, is a precursor of folic acid which is required for cell growth and development. GCPII cleaves off glutamate from dietary folates and thus facilitates their absorption in small intestine. Although GCPII biological relevance is known only in the brain and the small intestine, its role in the prostate is also important. GCPII has been described as a prostate cancer marker as it is expressed on the membrane of prostate cancer cells. Since GCPII is type II transmembrane protein, it is enzymatically active and undergoes internalization, it has been suggested as a promising tool for specific anticancer-drug...
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Biogeography, diversity and substrate specificity of aeroterrestrial green algal genus Klebsormidium (Streptophyta)
Ryšánek, David ; Škaloud, Pavel (advisor) ; Mareš, Jan (referee)
Filamentous aeroterestrial green algae genus Klebsormidium occurs in a very wide range of freshwater and terrestrial habitats. Recent results of molecular investigations led to the finding that the diversity within this genus is far greater than expected on the basis of the morphological features, and that the traditional phenotypic species concept is insufficient. I tried to differentiate phylogenetic lineages within the genus Klebsormidium by thein different biogeographical distribution and environmental preferences. Since no study dealing with the biogeographic pattern of aeroterrestrial algae was so far undertaken, another aim of this work was to test validity of the protist ubiquity model in aeroterrestrial habitats. I studied this issues based on the chloroplast rbcL molecular marker. Based on the obtained data I found that the geographic definition of particular Klebsormidium lineages turns out to be unusable because of the cosmopolitan occurrence of almost all genotypes. However, the data obtained from the substrate specificity study shows that clear ecological preferences exist within the genus Klebsormidium and could be simply used to define different lineages within the genus.
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The role of microhabitats in spatio-temporal differentiation of phytoplankton flagellates
Pusztai, Martin ; Němcová, Yvonne (advisor) ; Bílý, Michal (referee)
This thesis deals with factors structuring phytoplankton flagellates. The aim of the thesis was to investigate the role of microhabitats in spatio-temporal differentiation of lentic communities of these flagellates, which has not been rigorously examined to date. The study was conducted during 2010-2013 in the shallow littoral sites of Horní rybník, Rybníčky u Podbořánek Nature Reserve. Phytoplankton flagellates showed cyclic seasonal dynamics, which was reflected by significantly different community structure and species richness during the season. In contrast, silica-scaled chrysophytes showed a non- cyclic seasonal dynamics. The impact of the season was strongly correlated with the impact of fluctuating environmental factors - pH, conductivity and temperature. Gradient of interrelated environmental factors between the northern and southern shore together with microhabitat - substrate type played the major role and accounted for 64.4 - 75.8 % variability in the data. Microhabitat type (plankton, metaphyton, epipelon) significantly affected species richness and community structure also in the course of the season. A large number of species was assessed to prefer a certain type of microhabitat. These preferences were observed at both species and generic levels, and even at the level of the main taxonomic...
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Substrate specifity of epiphytic communities of diatoms (Bacillariophyceae) and desmids (Desmidiales)
Mutinová, Petra ; Neustupa, Jiří (advisor) ; Šímová, Irena (referee)
Substrate specificity of epiphytic communities of diatoms (Bacillariophyceae) and desmids (Desmidiales) Bc. Petra Mutinová Master's thesis, Prague, 2015 Abstract It has been always assumed, and frequently reported, that host plants, as biologically active substrates, should have a direct influence on associated epiphyton. However, some studies favoured the neutral substrate hypothesis. Thus the relationship between host plant and epiphytic community remained unresolved. This Master's thesis focused on the basal question that numerous previous studies overlooked. Is there any significant influence of host plant on freshwater algal epiphyton in comparison to the influence of other factors, e.g. site and environmental conditions? In addition, substrate specificity of individual algal taxa was investigated. The research concerned several types of natural plant substrates at several water bodies in the Czech Republic, which provided a more accurate and general insight in the ecology of microphytobenthos. The results have demonstrated that site was the main factor affecting epiphytic community structure, followed by mild, but still noticeable, effect of environmental conditions (pH and conductivity). In contrary, host plant had almost no influence and very few algal species were found to be host specific....
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Biogeography, diversity and substrate specificity of aeroterrestrial green algal genus Klebsormidium (Streptophyta)
Ryšánek, David ; Škaloud, Pavel (advisor) ; Mareš, Jan (referee)
Filamentous aeroterestrial green algae genus Klebsormidium occurs in a very wide range of freshwater and terrestrial habitats. Recent results of molecular investigations led to the finding that the diversity within this genus is far greater than expected on the basis of the morphological features, and that the traditional phenotypic species concept is insufficient. I tried to differentiate phylogenetic lineages within the genus Klebsormidium by thein different biogeographical distribution and environmental preferences. Since no study dealing with the biogeographic pattern of aeroterrestrial algae was so far undertaken, another aim of this work was to test validity of the protist ubiquity model in aeroterrestrial habitats. I studied this issues based on the chloroplast rbcL molecular marker. Based on the obtained data I found that the geographic definition of particular Klebsormidium lineages turns out to be unusable because of the cosmopolitan occurrence of almost all genotypes. However, the data obtained from the substrate specificity study shows that clear ecological preferences exist within the genus Klebsormidium and could be simply used to define different lineages within the genus.
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Expression and characterisation of homologs of human glutamate carboxypeptidase II
Bäumlová, Adriana ; Konvalinka, Jan (advisor) ; Vaněk, Ondřej (referee)
English abstract Glutamate carboxypeptidase II (GCPII, EC 3.4.17.21) is a membrane bound glycoprotein that belongs to the metallopeptidase M28 family. Two physiological substrates were found for GCPII. The first one, N-acetyl-aspartylglutamate (NAAG), serves as a neurotransmiter in the brain and GCPII hydrolyzes it to yield free glutamate in the synaptic cleft. Excess glutamate might be cytotoxic and eventually lead to excitoxic nerve cells death. Inhibition of NAAG hydrolyzing activity has been shown to be neuroprotective. Therefore, GCPII inhibition was suggested as a therapeutic target in treatment of neurological disorders where excess glutamate is involved. The second substrate, polyglutamyl folate, is a precursor of folic acid which is required for cell growth and development. GCPII cleaves off glutamate from dietary folates and thus facilitates their absorption in small intestine. Although GCPII biological relevance is known only in the brain and the small intestine, its role in the prostate is also important. GCPII has been described as a prostate cancer marker as it is expressed on the membrane of prostate cancer cells. Since GCPII is type II transmembrane protein, it is enzymatically active and undergoes internalization, it has been suggested as a promising tool for specific anticancer-drug...
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