The long QT syndrome (LQTS) is a monogenic disorder characterized by prolongation of the QT interval on electrocardiogram and syncope or sudden death caused by polymorphic ventricular tachycardia (torsades de pointes). In general, mutations in cardiac ion channel genes (KCNQ1, KCNH2, SCN5A, KCNE1, KCNE2) have been identified as a cause for LQTS. About 50-60 % of LQTS patients have an identifiable LQTS causing mutation in one of mentioned genes. In a group of 12 LQTS patients with no identified mutations in these genes we have tested a hypothesis that other candidate genes could be involved in LQTS pathophysiology. SCN1B and KCND3 genes encode ion channel proteins, ANK2 gene encodes cytoskeletal protein interacting with ion channels. To screen coding regions of genes SCN1B, KCND3, and 10 exons of ANK2 following methods were used: PCR, SSCP, and DNA sequencing. Five polymorphisms were found in screened candid ate genes, 2 polymorphisms in KCND3 and 3 in SCN1B. None of found polymorphisms has coding effect nor is located close to splice sites or has any similarity to known splicing enhancer motifs. Polymorphism G246T in SCN1B is a novel one. No mutation directly causing LQTS was found. Molecular mechanism of LQTS genesis in these patients remains unclear., M. Raudenská, A. Bittnerová, T. Novotný, A. Floriánová, K. Chroust, R. Gaillyová, B. Semrád, J. Kadlecová, M. Šišáková, O. Toman, J. Špinar., and Obsahuje bibliografii a bibliografické odkazy
[Pracovní seminář Národ a národnost 1918-1919 (Mezi biologií, historií a politikou). Praha, 16. května 2002] and Some Aspects of Evaluation of Nationality and Race in Josef Velenovský's Work Entitled Natural Philosophy.
Moravské zemské muzeum v Brně bylo vždy nositelem Mendelova badatelského odkazu, a to prostřednictvím bývalé vědecké akademie pro Moravu a Slezsko, tzv. Hospodářské společnosti (Ackerbaugesellschaft) a jejího Přírodozpytného spolku (Naturforschender Verein). Jako druhou největší a nejstarší muzejní instituci jej založila Moravskoslezská hospodářská společnost, jejímž členem se roku 1854 stal i Gregor Johann Mendel (1822-1884). Zapojil se nejen do organizační práce ve většině sekcí společnosti, ale také do výzkumu. Byl tedy v přímém kontaktu s počátečním vývojem současného Moravského zemského muzea. and Jiří Sekerák, Eva Matalová, Michal V. Šimůnek.
Disorders of ATP synthase, the key enzyme of mitochondrial energy provision belong to the most severe metabolic diseases presenting as early- onset mitochondrial encephalo- cardiomyopathies. Up to now, mutations in four nuclear genes were associated with isolated deficiency of ATP synthase. Two of them, ATP5A1 and ATP5E encode enzyme’s st ructural subunits α and ε , respectively, while the other two ATPAF2 and TMEM70 encode specific ancillary factors that facilitate the biogenesis of ATP synthase. All these defects share a similar biochemical phenotype with pronounced decrease in the content of fully assembled and functional ATP synthase complex. However, substantial differences can be found in their frequency, molecular mechanism of pathogenesis, clinical manifestation as well as the course of the disease progression. While for TMEM70 the number of reported patients as well as spectrum of the mutations is steadily increasing, mutations in ATP5A1, ATP5E and ATPAF2 genes are very rare. Apparently, TMEM70 gene is highly prone to mutagenesis and this type of a rare mitochondrial disease has a rather frequent incidence. Here we present overview of individual reported cases of nuclear mutations in ATP synthase and discuss, how their analysis can improve our understanding of the enzyme biogenesis., K. Hejzlarová ... [et al.]., and Obsahuje bibliografii a bibliografické odkazy