Areas of Activity#

Here you will find all fields of scholarship for this section.

• agonists stimulation of lipid hydrolysis to release both diacylglycerol and inositol trisphosphate (IP3).

• Apoptosis Go to

• apoptosis Go to

• Applications in structural and functional genomics Go to

• applied biochemistry Go to

• ATP-dependent proteases in mitochondria Go to

• bacterial pathogenesis Go to

• bacterial-plant symbiosis Go to

• bacterial restriction and modification systems Go to

• base excision repair Go to

• biochemistry Go to

• biochemistry Go to

• biochemistry Go to

• Biochemistry Go to

• Biochemistry Go to

• biochemistry Go to

• Biochemistry Go to

• biochemistry Go to

• biochemistry & molecular biology Go to

• biochemistry & molecular biology Go to

• biochemistry & molecular biology Go to

• Bioenergetics Go to

• Bio-genesis of mitochondria Go to

• bioinformatics Go to

• bioinorganic chemistry Go to

• biological chemistry Go to

• biological & medical sciences Go to

• biophysics Go to

• biophysics Go to

• biosynthetic pathways Go to

• biotechnology Go to

• Caenorhabditis elegans Go to

• cancer biology Go to

• cancer genetics Go to

• cancer genetics Go to

• cancer molecular biology Go to

• cancerous development of cells Go to

• cancer research Go to

• Cancer research Go to

• cell and tissue architecture Go to

• Cell Biology Go to

• cell biology Go to

• cell cycle control Go to

• cell-cycle Go to

• cell cycle Go to

• cell cycle Go to

• cell death/cancer Go to

• cell membrane proteins Go to

• cell signaling and DNA repair Go to

• celluar signalling Go to

• cellular biology Go to

• Cellular resistance to carcinogens Go to

• chemistry Go to

• Chemistry of Biological Processes Go to

• Cholesterol metabolism Go to

• chromatin dynamics Go to

• chromatin dynamics Go to

• chromatin Go to

• chromatin Go to

• chromatin organization/modification Go to

• chromatin structure and function Go to

• chromatin structure & function Go to

• control of cell division Go to

• Control of endoreduplication cycles, targeted proteolysis by the anaphase promoting complex APC-CCS52 ubiquitin ligase enzyme complexes Go to

• Crystallisation of membrane proteins Go to

• Crystallographic electron microscopy Go to

• Crystallography Go to

• Cyanobacteria Go to

• Cys-loop receptors Go to

• developmental biology Go to

• development Go to

• development Go to

• Development of nuclear magnetic resonance techniques Go to

• DNA damage and repair Go to

• DNA methylation Go to

• DNA repair Go to

• DNA repair Go to

• DNA repair pathways Go to

• drug discovery Go to

• Endosymbiotic theory Go to

• enzyme and gene regulation Go to

• Enzymology Go to

• epigenetics Go to

• epigenetics Go to

• epigenetics of cell proliferation Go to

• Experimental Medicine Go to

• Fast ionic reactions Go to

• Folding and assembly of proteins Go to

• functional genomics Go to

• Function and regulation of bacterial and plant genes controlling nodule development Go to

• function of ABC-transporters in mammals, focusing on drug transporters Go to

• Function of symbiotic antimicrobial plant peptides Go to

• gene expression Go to

• gene positioning in differentiation and degenerative disease Go to

• gene structure and molecular genetics Go to

• Genetic regulation of organ development Go to

• genetics & developmental biology Go to

• genetics Go to

• genetics & molecular biology Go to

• genetics & molecular biology Go to

• genetics, molecular biology Go to

• Glycogen metabolism and its disorders Go to

• growth factors Go to

• GTPase Mechanisms Go to

• GTP-binding proteins Go to

• hematology Go to

• Heritable gene repression in yeast Go to

• horizontal gene transfer Go to

• human biochemical genetics Go to

• human DNA helicases Go to

• human genetics Go to

• human molecular genetics Go to

• hypoxia response Go to

• Identification Go to

• immunogenic proteins and antigenic determinants Go to

• immunology Go to

• Immunology Go to

• immunology Go to

• Insulin and glucagon Go to

• integrin regulation and studies on their intercellular adhesion molecule ligands (ICAM) Go to

• Intracellular protein traffic Go to

• intracellular proteolysis Go to

• involvement of genetic and epigenetic gene switches in a wide range of biological processes including Type II diabetes, polycystic kidney disease Go to

• isolation and characterization of constituents of the DNA transcription machineries Go to

• live fluorescence microscopy Go to

• Lysosome and peroxisome Go to

• MAP kinases – Molecular bases of Angiogenesis – Nutrient sensors (O2, glucose) – Hypoxia signaling – Tumor microenvironment – Go to

• Mdm2 Go to

• Mechanism of oxidative phosphorylation Go to

• Mechanism of protein transport into mitochondria Go to

• mechanisms for control and catalysis in biologically important molecules. Go to

• mechanisms of drug resistance in cancer cells Go to

• membrane biogenesis Go to

• membrane traffic Go to

• metabolism and cancer Go to

• methodologies for gene therapy Go to

• microbial genetics Go to

• microbial genetics Go to

• Microbial genetics Go to

• Microbial metabolism, with special emphasis on study of mechanisms of carbohydrate transport and their regulation Go to

• microbiology & biotechnology Go to

• mismatch repair Go to

• Mitochondrial diseases Go to

• Mitochondrial genomics and proteomics Go to

• mitochondrial physiology Go to

• mitochondrial proteome Go to

• mobile genetic elements Go to

• Modern theory of molecular biology Go to

• molecular and cell biology of cancer and inflammation Go to

• Molecular and Cellular Biology Go to

• molecular biology Go to

• Molecular biology Go to

• Molecular Biology Go to

• molecular biology Go to

• Molecular biology Go to

• molecular biology Go to

• molecular biology Go to

• molecular biology Go to

• molecular biology of tumor viruses Go to

• molecular biophysics Go to

• molecular carcinogenesis Go to

• molecular cell biology Go to

• molecular & cell biology Go to

• Molecular chaperones Go to

• molecular & developmental biology Go to

• molecular genetics Go to

• molecular genetics Go to

• molecular genetics Go to

• Molecular genetics Go to

• Molecular genetics Go to

• molecular mechanisms of biological evolution Go to

• Molecular Medicine Go to

• molecular oncology Go to

• molecular oncology Go to

• molecular parasitology (gene expression in trypanosomes and Leishmania species) Go to

• molecular virology Go to

• molecular virology Go to

• Molecular virology Go to

• morphogenesis/development/Drosophila/cytoskeleton/innate immunity Go to

• Morphology, fusion and fission of mitochondria Go to

• Motility and inheritance of mitochondria Go to

• mouse models of cancer Go to

• Na+-H+ antiporters Go to

• nitrogen fixation Go to

• nuclear envelope Go to

• nuclear organization Go to

• nuclear pore complex Go to

• nucleic acid chemistry Go to

• nucleic acid stereochemistry Go to

• nucleocytoplasmic transport Go to

• nucleolus, sumoylation Go to

• nucleosome Go to

• Origin of life Go to

• p53 Go to

• pathology of collagene Go to

• pharmaceuticals Go to

• pH control Go to

• physical biochemistry Go to

• phytopathology Go to

• plant-bacterium interactions Go to

• plant-based recombinant vaccines Go to

• plant biochemistry Go to

• plant biotechnology Go to

• Plant cell cycle regulation Go to

• Plant controlled differentiation of bacteria Go to

• Plant-microbe interactions Go to

• plant molecular biology Go to

• plant molecular biology Go to

• plant molecular biology Go to

• plant natural products Go to

• protein crystallography Go to

• protein ultrastructure Go to

• Public discussion on biofuels Go to

• purification and characterization of mammalian pre-mRNA splicing factors Go to

• rapid reaction techniques, spectroscopy of macromolecules, biochemical modifications, thermodynamics and structural biology of proteins Go to

• ras oncogenes Go to

• Rational drug design and cancer treatment Go to

• Receptors and signal transduction Go to

• recombinant proteins - design and biotechnology Go to

• RecQ helicases Go to

• regulation of gene expression by epigenetic principles Go to//

• regulation of human DNA replication at the molecular level Go to

• regulatory regions of messenger RNA Go to

• replication checkpoint kinases Go to

• replication Go to

• ribosome biogenesis and export nuclear envelope organization Go to

• signal transduction Go to

• signal transduction Go to

• site-specific recombination Go to

• Sound absorption Go to

• spatiotemporal aspects of calcium signalling with particular emphasis on neural signalling, cardiac contractility and cell proliferation Go to Go to

• stem cell biology Go to

• structural biochemistry Go to

• structural biology and bioinformatics Go to

• structural biology Go to

• structural biology Go to

• structural biophysics and bioinformatics of RNA molecules Go to

• structural virology Go to

• Structure and action of transfer DNA (deoxyribonucleic acid) Go to

• Structure and biogenesis of cell organelles, in particular of mitochondria Go to

• Structure and function of membrane proteins Go to

• Structure and function of proteins and nucleic acids Go to

• structure, function, folding and evolution of proteins, with particular attention for metalloproteins involved in the transport and activation of molecular oxygen, in electron transfer and energy transduction Go to

• Symbiotic nitrogen fixation Go to

• symbiotic nitrogen fixation Go to

• systems biology Go to

• Systems Biology Go to

• telomeres Go to

• the development of organs such as the heart and liver Go to

• the molecular interactions that lead to eukaryotic gene activation Go to

• Theory of electrolytes Go to

• Thermal conductivity Go to

• Thermodynamic properties of water and aqueous solutions Go to

• the role of calcium (Ca2+) in the mode of action of hormones and neurotransmitters Go to

• the role of inositol lipids in the action of calcium-mobilizing hormones Go to

• thrombin receptor signaling Go to

• transcription-coupled mRNA export Go to

• transcription factors Go to

• Transformation products of arachidonic acid Go to

• tumor-stroma interactions Go to

• tumor suppressors Go to

• tumour biology Go to

• ubiquination, transcription Go to

• ubiquitin Go to

• ubiquitin Go to

• ubiquitin Go to

• understanding the molecular mechanism of how ATP is made Go to

• unusual nucleotides in DNA (Base J, a new base in DNA of kinetoplastid flagellates, discovered in Amsterdam) Go to

• X-ray crystallography Go to