CLONING AND EXPRESSION OF THE CRIMEAN-CONGO HEMORRHAGIC FEVERVIRUS GLYCOPROTEINS

Sliwa, Mariam

January 2009

Crimean-Congo Hemorrhagic Fever (CCHF) is a worldwide tick-borne disease that originally belongs to the Bunyaviridae family, the genus Nairovirus. In addition to infection from ticks, humans become infected if any contact with infected blood or tissue material occurs. To study the disease, several methods such as real-time Polymerase Chain Reaction, enzyme-linked immunosorbent assay and Immunofluorescence assay are used for detection of the virus. All viruses in Bunyaviridae consists of three single stranded RNA sequences, the small, the medium and the large segment, that encode for the nucleocapsid protein, the glycoproteins, GN and GC, and the RNA-dependent RNA polymerase, respectively. The main purpose of this study was to express the M RNA segment´s glycoproteins, GN and GC. By using the reverse transcription reaction, the cDNA was synthesized from vRNA and the M RNA sequence was amplified using Phusion DNA-polymerase. In the storage vector, pcDNA3.1/V5-His-TOPO, the insert was ligatured followed by transformation into Escherichia coli. Restriction digestion was made with specific enzymes that cut out the insert. In the second ligation and transformation two different expression vectors (pTM1/pI.18) was used. After observation of the gel analysis from the test-PCR, an insert in the expression vector was shown.

Bunyaviridae family

RNA sequences

M RNA segment

Phusion DNA-polymerase

Reverse transcription reaction

MEDICINE

MEDICIN

Vizualizace pH apoplastu v kořenech rostlin / Visualization of root apoplastic pH in plants

Wernerová, Daša

January 2020

Plant oriented movements, or tropisms allow the plant to actively respond to environmental stimuli to get more light, better access to nutrients and to grow roots deeper into the soil. Gravitropism drives the growth of roots along the gravity vector. Perception of gravity is triggered by the sedimentation of statoliths in columella root cap, but the exact signalling pathway behind this process is not known. Perception of gravity results in an unequal redistribution of the phytohormone auxin in the outer cell layers which leads to different rate of growth on the root's upper and lower side and bending of the root. The changes in auxin redistribution are accompanied by changes in apoplastic pH. Knowing an exact pattern of these pH changes could shed light on the mechanisms laying behind the gravitropic response pathway. While microelectrodes can be used to measure pH precisely, they are not suitable for the long-term imaging of growing roots. In the past few years, several pH sensitive dyes and genetically encoded sensors emerged. These can be used for long-term live in vivo imaging of pH changes in growing roots. In this thesis, I analysed the performance of several published pH sensitive genetically encoded sensors and available dyes in the roots of Arabidopsis thaliana. I observed that dyes varied...

Charakterizace PTEN domény vybraných forminů II. třídy Arabidopsis / Characterization of the PTEN domain of selected Arabidopsis class II formins

Přerostová, Sylva

January 2011

Formins are proteins facilitating formation of actin filaments. They affect structure of cytoskeleton and participate in cytokinesis and tip growth. There are 2 classes of formins in Arabidopsis thaliana, which include FH1 and FH2 (Formin Homology 1 and 2) domain. Formins of the class I have usually a transmembrane domain on N-terminus. Due to this fact they can interact with membranes. Some formins from the class II include PTEN domain (Phosphatase and Tensin Homolog) derived from sequences of PTEN proteins which has lost the function of phosphatase. It is assumed this domain can bind on a membrane via the phosphatase section or C2 domain. This thesis was focused on the formin AtFH13 from the class II in Arabidopsis thaliana and on its PTEN domain. There were analyzed differences between mutants and wild-types in length of roots in seedlings and in size of seeds and seed coats, and observed the effect of dexamethasone on the length of roots on AtFH13. PTEN domain of the formin was isolated from cDNA, cloned to a vector and fused with YFP. The tagged protein was visualized by the method of transient expression in epidermal cells in the leaves of Nicotiana benthamiana. No big differences were observed between plants mutant in the gene AtFH13 and wild-type in choice parameters. Dexamethasone did't influence...