Characterization of Inosine triphosphate pyrophosphatase, an important protein involved in purine metabolism

Björklund, Sam

January 2015

The enzyme inosine triphosphate pyrophosphatase (ITPase) is responsible for controlling the levels of the by-products guanosine monophosphate (GMP) and adenosine monophosphate (AMP) through their precursor inosine monophosphate (IMP). ). Human ITPase consists of a 194-amino acid homodimer which relies upon either an Mg2+ ion or a Mn2+ ion for catalytic activity, and orthologs of this protein have been found in many different organisms. The purpose of this project was to try out methods learned throughout the education and to use this knowledge to gather new data about the human protein inosine triphosphate pyrophosphatase (ITPase). The protein was expressed in BL21/DE3 cells from a pre-made vector. Experiments performed during this project include secondary- and tertiary stability measurements, tryptophan fluorescence spectra, binding curve and thermic stability to ITPase with ANS and methotrexate. The Tm-value of human ITPase was examined with Trp-Fluorescence, ANS-fluorescence and Near-UV and Far-UV circular dichroism (CD). The stability of ITPase monitored by Near-UV as well as Far-UV coincides, indicating that secondary- and tertiary-unfolding occur simultaneously without any intermediates. The results of Trp-fluorescence showed that the tryptophans were already exposed and thus it did not yield a reliable result. The binding properties of ANS and MTX to ITPase were also examined.

Inosine triphosphate pyrophosphatase

acute lymfoblastic leukemia

circular dichroism

fluorescence

methotrexate

protein stability

Využití gelově-založených proteomových technik při analýze genové exprese u prokaryotních a eukaryotních modelů / Analysis og gene expression in prokaryotic and eukaryotic model organisms by proteomic gel-based separation tools

Petráčková, Denisa

January 2011

This PhD thesis showed the applicability of a gel-based proteomic separation tool, 2-D electrophoresis in three independent projects. Supplemented with results obtained using different techniques the proteomic studies enabled a global imaging of proteoms in the studied biological systems. Comparing total proteoms of E. coli 61 protein changes were identified and connected with the development of the bacterial population in the presence of an antibiotic compound, erythromycin. This classic proteomic approach included sample extraction, optimization of its 2D separation followed by 2D gel analysis and protein identification by MS methods. A disadvantage of this work was an enourmously large amount of data to be analyzed by computer analysis. For the study of membrane proteom of B. subtilis during a pH induced stress, on the other hand, a modification of isolation techniques for membrane and membrane associated proteins was required first to improve the subsequent protein separation by 2-D electrophoresis. The optimalization of protein extraction included changes in detergents used for protein solubilization and a prolongation of time periods in the protein solubilization protocol. 5 relevant protein changes were then described that play a role in the bacterial response to pH stress. The proteins were...

Prognóza akutní lymfoblastické leukémie u dětí v závislosti na nových klinicko-biologických faktorech / Prognosis of childhood acute lymphoblastic leukemia according to novel clinical and biological risk factors

Volejníková, Jana

January 2013

Great progress has been achieved in the diagnostics and therapy of childhood acute lymphoblastic leukemia (ALL) during the last few decades and the permanent cure rate for children and adolescents has risen to nearly 90%. The basic principle of ALL treatment is to split patients into several groups receiving treatment of different intensity according to exactly defined prognostic features. This is aimed at reducing both the risk of relapse and toxic complications of treatment. The development of new diagnostic methods, especially in the field of molecular genetics and flow cytometry, allowed further improvements in the risk stratification - the minimal residual disease (MRD) has become a crucial prognostic factor in modern treatment protocols for pediatric ALL as a sensitive marker of both response to therapy and subclinical leukemic involvement of various tissues of the organism. Nevertheless, there is still an intensive search for new markers that would enable even more precise characterization of the leukemic clone, and treatment strategies reflecting the biology of leukemic cells are being optimized. The first part of our study describes the monitoring and prognostic impact of MRD in peripheral blood of children with ALL with emphasis on very early time points of treatment. MRD was examined by the...