Search for dissertations about: "Myr1"

Found 3 swedish dissertations containing the word Myr1.

  2. 1. Membrane Stress and the Role of GYF Domain Proteins

    Author : Alexander Georgiev; Åke Wieslander; Hana Sychrova; Stockholms universitet; []
    Keywords : NATURVETENSKAP; NATURAL SCIENCES; SYH1; SMY2; YPT6; RIC1; MYR1; processing bodies; vesicular trafficking; lipid bilayer; budding yeast; GYF; membrane stress; mRNA decay; Saccharomyces cerevisiae; Biochemistry; Biokemi; biokemi; Biochemistry;

    Abstract : Intracellular membrane trafficking is regulated by a large number of protein complexes and lipids. Blocking of trafficking disrupts normal membrane dynamics and causes membrane stress. READ MORE

  4. 2. Functional studies of nuclear envelope-associated proteins in Saccharomyces cerevisiae

    Author : Ida Olsson; Ann Mutvei; Valérie Doye; Stockholms universitet; []
    Keywords : NATURVETENSKAP; NATURAL SCIENCES; Nucleus; nuclear envelope; nuclear pore complexes; vesicular traffic; arginine methylation; Rmt2; Cwh43; Myr1; Biochemistry; Biokemi; biokemi; Biochemistry;

    Abstract : Proteins of the nuclear envelope play important roles in a variety of cellular processes e.g. transport of proteins between the nucleus and cytoplasm, co-ordination of nuclear and cytoplasmic events, anchoring of chromatin to the nuclear periphery and regulation of transcription. READ MORE

  5. 3. Property-controlling Enzymes at the Membrane Interface

    Author : Changrong Ge; Åke Wieslander; Marcelo E. Guerin; Stockholms universitet; []
    Keywords : NATURVETENSKAP; NATURAL SCIENCES; monotopic membrane protein; lipid-protein interaction; membrane curvature; glycosyltransferase; Rossmann fold; Biochemistry; Biokemi; biokemi; Biochemistry;

    Abstract : Monotopic proteins represent a specialized group of membrane proteins in that they are engaged in biochemical events taking place at the membrane interface. In particular, the monotopic lipid-synthesizing enzymes are able to synthesize amphiphilic lipid products by catalyzing two biochemically distinct molecules (substrates) at the membrane interface. READ MORE