Areas of Activity#

Here you will find all fields of scholarship for this section.
3
  • 3D Genome Organisation Go to
A
  • Aberrant pre-mRNA splicing in cancer – frequency and immunogenicity Go to
  • Adipocyte differentiation Go to
  • Advanced fluorescence microscopy of intact cells and of receptor signaling Go to
  • Ageing, longevity, health span Go to
  • Agonists stimulation of lipid hydrolysis to release both diacylglycerol and inositol trisphosphate (IP3).
  • Agricultural biotechnology Go to
  • Allosteric proteins Go to
  • Alternative splicing Go to
  • Alzheimer's and Parkinson's diseases Go to
  • Amino acid metabolism Go to
  • Analysis of structure and functions of genes Go to
  • Angiogenesis in physiology and pathology Go to
  • Animal models of ALS Go to
  • Animal models of Parkinson's disease Go to
  • Antibody Catalysis Go to
  • Antibody structure and function Go to
  • Antibody structure Go to
  • Anti-diabetic agents Go to
  • Antigenic variation Go to
  • Antiviral activity of nucleoside analogues Go to
  • Applications in structural and functional genomics Go to
  • applied biochemistry Go to
  • Arabidopsis thaliana Go to
  • Artificial photosynthesis research Go to
  • Aspects of the regulation of processes that occur during cell division Go to
  • Asymmetric cell division Go to
  • Asynchronous logical description of regulatory networks Go to
  • ATP-dependent proteases in mitochondria Go to
  • Axon guidance cues in vascular remodeling Go to
B
  • Bacteria and yeast ribosome structures Go to
  • Bacterial pathogenesis Go to
  • bacterial pathogenesis Go to
  • Bacterial-plant symbiosis Go to
  • Bacterial restriction and modification systems Go to
  • Bacterial secretion Go to
  • Base excision repair Go to
  • Biochemical analysis of protein synthesis Go to
  • Biochemical, molecular and cellular mechanisms of steroid hormone action Go to
  • Biochemical pathways and regulatory networks Go to
  • Biochemical Processing Go to
  • Biochemistry and function of toxins and immunotoxins Go to
  • Biochemistry and molecular biology Go to
  • biochemistry and neurochemistry Go to
  • Biochemistry, biophysics and physiology of thermal acclimation and temperature stress responses Go to
  • Biochemistry, cell and molecular biology Go to
  • biochemistry & molecular biology Go to
  • biochemistry molecular biology Go to
  • Biochemistry of nucleic acid-protein complexes Go to
  • Biochemistry of nucleic acids Go to
  • Bioenergy and biofuels Go to
  • Biogenesis and function of RNA Go to
  • Bio-genesis of mitochondria Go to
  • Biogenesis of Mitochondria: Protein Transport and Assembly Go to
  • bioinorganic chemistry Go to
  • Bioinorganic chemistry Go to
  • Bioinorganic chemistry Go to
  • Bioinspired chemistry Go to
  • biological chemistry Go to
  • Biological control of plant diseases Go to
  • Biological implications of quasispecies dynamics Go to
  • biological & medical sciences Go to
  • Biological membranes and transport Go to
  • Biological membranes Go to
  • Biological role of lipid unsaturation Go to
  • Biological sensors (biosensors) Go to
  • Biomedical ageing research Go to
  • biophysical chemistry Go to
  • Biophysical chemistry Go to
  • Biophysical studies Go to
  • Biophysical techniques Go to
  • Biophysical techniques Go to
  • Bioprocess Technology Go to
  • Biosynthesis of biologically active compounds from actinomycetes Go to
  • Biosynthesis of proteins Go to
  • Biosynthesis of the photosynthetic membrane and chloroplast biogenesis Go to
  • Biosynthetic pathways Go to
  • Biotechnology of barley and wheat improvement Go to
  • Boundary cap cells Go to
  • BRAF/NRAS oncogenes Go to
  • Breast and ovarian adenocarcinomas Go to
  • Brown and biege adipocytes Go to
  • Business development Go to
C
  • Caenorhabditis elegans Go to
  • Calcium-mediated signaling in legume nodulation Go to
  • Calcium signalling Go to
  • Calcium signalling in health and disease Go to
  • Cancer cell biology Go to
  • cancer epigenetics Go to
  • Cancer molecular biology Go to
  • Cancerous development of cells Go to
  • Cancer therapy modalities Go to
  • Carcinogenic bacterium Helicobacter pylori and related pathogens of the gastrointestinal tract Go to
  • Carotenoid biosynthesis and function Go to
  • Catalysis and biocatalysis Go to
  • Causes of chromosomal changes in tumor cells Go to
  • cCllular senescence Go to
  • Cell- and molecular biology Go to
  • Cell and tissue architecture Go to
  • Cell cycle and chromosome stability Go to
  • Cell cycle control Go to
  • Cell cycle control Go to
  • Cell differentiation and cancer Go to
  • Cell fate decisions Go to
  • Cell growth and death Go to
  • Cell membrane proteins Go to
  • Cell penetrating peptides Go to
  • Cell signaling and DNA repair Go to
  • celluar signalling Go to
  • Cellular aggregation Go to
  • Cellular and Molecular Neuroscience Go to
  • cellular biochemistry Go to
  • Cellular differentiation: genes for development genes (muscular and neuronal systems) Go to
  • Cellular mechanisms Go to
  • Cellular resistance to carcinogens Go to
  • Cellular senescence Go to
  • Cellular signal transduction Go to
  • Cellular structural biology Go to
  • Cellular structures Go to
  • Chaperone usher pathway Go to
  • Characterization of intracellular signal transduction pathways responsible for cell cycle regulation, DNA damage control and tumorigenesis Go to
  • Characterization of regulatory enzymes Go to
  • Chemical Immunology Go to
  • Chemical methods in molecular biology Go to
  • Chemistry of Biological Processes Go to
  • Cholesterol metabolism Go to
  • chromatin dynamics Go to
  • Chromatin dynamics Go to
  • Chromatin dynamics in development Go to
  • Chromatin folding and chromatin compaction Go to
  • Chromatin organization/modification Go to
  • chromatin profiling with transposon-reporters Go to
  • Chromatin structure and epigenetic modifications Go to
  • Chromatin structure and function Go to
  • chromatin structure & function Go to
  • Chromatin structure-function Go to
  • Chromatin structure Go to
  • Chromosome biology Go to
  • Chromosome pairing, mechanism of crossing-over and genome analysis Go to
  • Chromosome structure Go to
  • Circuits between tumor and stroma in cancer progression Go to
  • Clinical and Veterinary Neuroscience Go to
  • Coatomer and COPI-coated vesicles Go to
  • Co-discovery of the activity and substrate of the anthrax lethal factor Go to
  • Communication networks in biology Go to
  • Comparative Gene Expressionics Go to
  • Comparative Genomics Go to
  • Computational and Systems biology Go to
  • Computational biology Go to
  • Computational biology Go to
  • computational biology Go to
  • Computational modelling of the TGF-β/Smad pathway Go to
  • Computational RNA biology Go to
  • Consequences of de-regulation of RNA polymerase III transcription 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
  • Control of Gene Expression and Epigenetics Go to
  • Control of stress in cancer cells Go to
  • Coordination chemistry Go to
  • Critical transitions (crisis) and their prediction Go to
  • Cryo-electron microscopy Go to
  • Crystallisation of membrane proteins Go to
  • Crystallographic electron microscopy Go to
  • Crystallography and cryo-EM of macromolecule complexes Go to
  • Cullin-RING-H2 E3 ubiquitin ligases (CRL) Go to
  • Cys-loop receptors Go to
  • Cysteine cathepsins Go to
D
  • Deciphering the role of multi-protein complexes in the function of transcriptional enhancers Go to
  • Defense mechanisms against biotic and abiotic stresses Go to
  • Determination of the effects of these mutations on the development of the whole organism and in diseases Go to
  • Determination of three dimensional structures of human proteases associated with tumours Go to
  • developmental and cell biology Go to
  • Developmental Biology Go to
  • Developmental biology Go to
  • Developmental Biology Go to
  • Developmental enhancers Go to
  • Developmental neurobiology Go to
  • Development of deterministic and stochastic logical tools for the integration and modelling of biological systems Go to
  • Development of miRNA replacement therapy methods Go to
  • Development of nuclear magnetic resonance techniques Go to
  • Development of organs such as the heart and liver Go to
  • Development of proanthocyanidin-free barley (metabolic engineering) Go to
  • Development of theoretical basis of modern biotechnology Go to
  • Development of tools to faster generate complex mouse models Go to
  • Development of wheat compatible with celiac patients (Mutations by designer Transcription Activator-Like
  • Development/Study of strategies which inhibit proteolytic activity of tumour proteases Go to
  • Directed mutagenesis and phage displa Go to
  • Discovery of activity and targets of the clostridial neurotoxins Go to
  • Discovery of the enzyme polynucleotide phosphorylase (PNPase) Go to
  • Discovery of the mechanism of action of the vacuolating VacA cytotoxin and of the neutrophil-activating protein (HP-NAP) of H. pylori Go to
  • Diseases caused by defects of mitochondrial carrier genes, and role of the carriers in diabetes, cancer, etc. Go to
  • disordered proteins Go to
  • DNA damage and repair Go to
  • DNA damage response Go to
  • DNA damage response Go to
  • DNA damage response Go to
  • DNA methylation and CpG islands Go to
  • DNA-protein interaction and chromatin Go to
  • DNA repair pathways Go to
  • DNA replication and repair Go to
  • DNA strand break repair Go to
  • Drosophila melanogaster Go to
  • Drug abuse in sports Go to
  • Drug design: multi-target and network drugs Go to
E
  • Editing of mathematical algorithms able to predict fundamental aspects of protein aggregation in vitro and in vivo Go to
  • Effect of extracellular agents, such as glycosamynoglycans, on protein aggregation and associated toxicity Go to
  • Effect of membrane lipids, such as the GM1 ganglioside, on protein aggregation and associated toxicity Go to
  • Effectors and Targeting Induced Local Lesions in Genomes) Go to Go to
  • Electron and nuclear relaxation from both experimental and theoretical points of view Go to
  • Electron microscopy Go to
  • Electron tomography Go to
  • Embryonic development Go to
  • Endosymbiotic theory Go to
  • Environmental stress responses of plants, algae and cyanobacteria Go to
  • Enzyme and gene regulation Go to
  • Enzymes involved in RNA transactions Go to
  • Epigenetic changes in plants Go to
  • Epigenetic Mechanisms Controlling Immunoglobulin Allelic Exclusion Go to
  • Epigenetic reprogramming Go to
  • Epigenetics designer Transcription Activator-Like Effectors Go to
  • epigenetics of cell proliferation Go to
  • Epigenetics, stem cells, induced pluripotent stem (iPS) cells Go to
  • Establishment of basic principles of physiology and basic mechanisms of disease pathogenesis Go to
  • Estrogen Receptor as a Transcription Factor Go to
  • Evaluation of autoantibodies as biomarkers for response to therapy and early detection of cancer Go to
  • Evolutionary anthropology Go to
  • Evolutionary genetics Go to
  • Evolutionary Genomics Go to
  • Evolution of cooperation using spatial games Go to
  • Experimental biology Go to
  • Experimental biology Go to
  • Experimental genetics Go to
  • Experimental Medicine Go to
  • Experimental vaccines Go to
  • Expression, crystallization and structural analysis of membrane proteins in yeast Go to
F
  • Fast ionic reactions Go to
  • First cloning and expression of interferon Go to
  • Folding and assembly of proteins Go to
  • Free radicals and oxidative stress Go to
  • functional genomics Go to
  • Functional organization of chromosomes Go to
  • Functional role of combinations of regulatory patterns Go to
  • Function and regulation derived from allosteric rearrangements 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 chromatin modification Go to
  • Function of polycomb complexes Go to
  • Function of symbiotic antimicrobial plant peptides Go to
  • fungal biochem and biol control Go to
G
  • Gene positioning in differentiation and degenerative disease Go to
  • General management and managing drug development in spin-off companies and partnering with industry Go to
  • Generation of animal models of gain and loss of proteolytic function. Analysis of tumour progression susceptibility in the models generated Go to
  • Gene regulation in development and disease Go to
  • Gene regulation in influenza virus Go to
  • Gene regulatory networks Go to
  • Generic properties of feedback circuits and other regulatory motifs Go to
  • Gene structure and molecular genetics Go to
  • Genetical manipulation and change of genes in mice Go to
  • Genetic alteration Go to
  • Genetic and molecular basis of cellular and organismal energy homeostasis Go to
  • Genetic diagnostics Go to
  • Genetic engineering Go to
  • Genetic engineering Go to
  • Genetic engineering Go to
  • Genetic engineering Go to
  • Genetic engineering Go to
  • Genetic information Go to
  • Genetic regulation Go to
  • Genetic regulation of organ development Go to
  • Genetics and Molecular Medicine Go to
  • genetics & developmental biology Go to
  • Genetics/epigenetics Go to
  • genetics & molecular biology Go to
  • genetics, molecular biology Go to
  • Genetic variation of Helicobacter pylori in connection with human migration and the adaptation of the pathogen to its host Go to
  • Gene Transcription Go to
  • Genome functional annotation Go to
  • Genome organisation and function Go to
  • genome organisation Go to
  • Genome organization Go to
  • genome regulation, developmental genomics, developmental biology, transcriptional regulation Go to
  • Genomes for pharmaceutical targets Go to
  • Genome-wide analysis Go to
  • Genomic regulation of RNA polymerase III transcription Go to
  • Glycogen metabolism and its disorders Go to
  • Gram-negative bacteria Go to
  • Group of ribonucle oprotein particles (RNP) that function in the processing of messenger RNA precursors Go to
  • Growth factor signalling Go to
  • GTP-binding proteins Go to
H
  • Halophilic organisms Go to
  • Heart and lung diseases, cancer, and bone diseases Go to
  • Helicobacter hepaticus, infection and cancer Go to
  • Helicobacter pylori, clonal structure, genetic variability, evolution and population genetics Go to
  • Heritable gene repression in yeast Go to
  • Herpesvirus life cycle Go to
  • High resolution imaging Go to
  • High throughput protein expression for structural genomics projects on metalloproteins Go to
  • High throughput transposon insertional mutagenesis to identify components in signaling pathways relevant for cancer Go to
  • high throughput transposon mutagenesis Go to
  • Hindbrain segmentation Go to
  • Histone acetyl transferase (HAT) complexes Go to
  • Histone deacetylase complexes Go to
  • History of human genetics in Nazi Germany Go to
  • Horizontal gene transfer Go to
  • Horizontal gene transfer Go to
  • Host-bacterial interactions Go to
  • Host pathogen interactions Go to
  • HSV molecular biology Go to
  • Human biochemical genetics Go to
  • Human DNA helicases Go to
  • Human DNA Repair Diseases Go to
  • Human female infertility Go to
  • human genetics and genomics. molecular and cell biology Go to
  • human molecular genetics Go to
  • Human molecular genetics Go to
I
  • Identification and characterisation of tumour antigens Go to
  • Identification and characterization of mitochondrial carrier family members in man, Saccharomyces cerevisiae and Arabidopsis thaliana Go to
  • Identification and functional analysis of transcription factor, Ebf1, as a key determinant of B lymphopoiesis Go to
  • Identification of and enzymatic and functional characterization of proteases associated with tumour processes Go to
  • Identification of LEF1 and the demonstration that LEF1 acts both as an DNA-bending protein and nuclear mediator of Wnt signaling Go to
  • Identification of mRNA and miRNA signatures for cancer diagnosis Go to
  • Immunogenic proteins and antigenic determinants Go to
  • Immunoglobulin genes Go to
  • Import mechanism of nuclear-coded mitochondrial carriers into the inner mitochondrial membrane Go to
  • Infectious disease Go to
  • Infectious diseases – “anti-adhesion therapy” Go to
  • Infectious diseases Go to
  • Infectious Diseases Go to
  • Initiation of transcription Go to
  • Inositol phosphates Go to
  • In silico modeling of Photosystem II Go to
  • Insulin and glucagon Go to
  • Insulin sequencing Go to
  • Integrin regulation and studies on their intercellular adhesion molecule ligands (ICAM) Go to
  • Intestinal microbiota and bowel diseases Go to
  • Intracellular bacteria Go to
  • Intracellular protein traffic Go to
  • intracellular proteolysis Go to
  • Intracellular traffic - Go to
  • Intracellular transport of glycoproteins Go to
  • Investigation of molecular chaperones as inhibitors of the toxicity of protein oligomers 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
  • Ion transporters and channels Go to
  • Islets of Langerhans Go to
  • Isolation and characterization of constituents of the DNA transcription machineries Go to
K
L
  • Lectins - sugars and sugar-binding proteins Go to
  • Legume genetics and genomics Go to
  • Legume molecular genetics Go to
  • Leukocyte trafficking in immune surveillance and inflammation Go to
  • Libraries construction and screening Go to
  • Light stress in plants Go to
  • Link between the topology of regulatory networks and their dynamic properties Go to
  • Lipid biosynthesis and transport Go to
  • Lipids in membrane function and signal transduction Go to
  • Live fluorescence microscopy Go to
  • Long-range gene regulation - function of enhancers Go to
  • Luminescence of proteins Go to
  • Lysosome and peroxisome Go to
M
  • Macromolecular complex assembly pathways Go to
  • Macromolecular complexes Go to
  • MAP-kinase signaling Go to
  • MAP kinases – Molecular bases of Angiogenesis – Nutrient sensors (O2, glucose) – Hypoxia signaling – Tumor microenvironment – Go to
  • Mapping and Positional cloning of genes for human pathologies Go to
  • Mathematical modeling of genetic/biochemical phenomena Go to
  • Mathematical modelling in biology Go to
  • Mechanism and regulation of translation Go to
  • Mechanism of oxidative phosphorylation Go to
  • Mechanism of protein synthesis Go to
  • Mechanism of protein transport into mitochondria Go to
  • Mechanism of TGF-β signalling through the Smad pathway Go to
  • Mechanisms and Factors of Transcription Go to
  • Mechanisms for control and catalysis in biologically important molecules. Go to
  • Mechanisms of AHR-dependent regulation of cell pluripotency Go to
  • Mechanisms of drug resistance in cancer cells Go to
  • Mechanisms of gene expression in higher cells Go to
  • Mechanisms of genetic recombination Go to
  • Mechanistic biology Go to
  • Membrane and lipid biochemistry and biophysics Go to
  • Membrane biogenesis Go to
  • Membrane dependent transcriptional regulation of “stress defending genes” Go to
  • Membrane pore formation Go to
  • Membrane protein folding Go to
  • Membrane proteins structure-function Go to
  • Metabolic transformation Go to
  • Metabolism and cancer Go to
  • Metal in biological systems Go to
  • Metalloproteins and biological electron transfer Go to
  • Metazoan ribosome biogenesis Go to
  • Methodologies for gene therapy Go to
  • Methods for screening low-molecular-weight compounds 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
  • Microbial pathogens at a molecular level Go to
  • Microbian biochemestry Go to
  • Microbiology and immunology Go to
  • microbiology & biotechnology Go to
  • Microbiology of mRNA splicing and membrane trafficking Go to
  • Mitochondrial and neuro-degenerative diseases Go to
  • Mitochondrial bioenergetics Go to
  • Mitochondrial bioenergetics Go to
  • Mitochondrial diseases Go to
  • Mitochondrial diseases Go to
  • Mitochondrial electricity Go to
  • Mitochondrial genomics and proteomics Go to
  • mitochondrial physiology Go to
  • Mitochondrial proteome Go to
  • Mobile genetic elements Go to
  • Modelling and analysis of the dynamics of biological regulatory networks, in particular, immunological and gene networks Go to
  • Modelling cell differentiation, decision making and memory processes Go to
  • Modern theory of molecular biology Go to
  • Molecular analysis of bacterial pathogens Go to
  • Molecular and Cell Biology Go to
  • Molecular and cell biology of cancer and inflammation Go to
  • molecular and cell biology of lipids Go to
  • Molecular and Cellular Biology Go to
  • Molecular and cellular immunology Go to
  • Molecular and cellular mechanisms Go to
  • Molecular and cellular physiology and pathophysiology Go to
  • Molecular basis of lymphocyte differentiation and transcriptional responses to signaling pathways Go to
  • Molecular basis of virus extinction by enhanced mutagenesis Go to
  • molecular biology and biochemistry Go to
  • Molecular Biology and Biochemistry Go to
  • molecular biology, immunology Go to
  • Molecular Biology, Molecular Virology Go to
  • Molecular biology of heat shock proteins Go to
  • Molecular biology of photoreceptors Go to
  • Molecular biology of plants' pathogens and stability/ dynamics of genomes Go to
  • Molecular biology of receptor function, intracellular signal transduction and its retroactive effect on receptors in terms of desensitization Go to
  • Molecular biology of tumor viruses Go to
  • molecular biophysics and structural biology Go to
  • Molecular biophysics Go to
  • molecular biophysics Go to
  • molecular biosensors Go to
  • Molecular biotechnology Go to
  • Molecular brain disease Go to
  • molecular carcinogenesis Go to
  • Molecular carcinogenesis Go to
  • molecular cell biology Go to
  • molecular & cell biology Go to
  • Molecular chaperones Go to
  • Molecular chaperones Go to
  • Molecular Chaperones Go to
  • Molecular chaperones Go to
  • Molecular chaperones Go to
  • Molecular chaperones Go to
  • molecular & developmental biology Go to
  • Molecular diagnostics Go to
  • Molecular Dynamics Go to
  • Molecular Evolution Go to
  • Molecular functioning of nuclear receptors Go to
  • Molecular genetic mechanisms of neuropsychiatric diseases and dementia Go to
  • molecular genetics Go to
  • Molecular genetics Go to
  • Molecular genetics Go to
  • Molecular genetics Go to
  • Molecular genetics Go to
  • Molecular genetics of neurogenerative prion diseases such as Creutzfeldt-Jakob disease Go to
  • Molecular genetics of stem rust and herbicide resistance in barley Go to
  • molecular genetics, plant-microbe interaction Go to
  • Molecular Genomics Go to
  • molecular immunology Go to
  • Molecular immunology Go to
  • Molecular Infection Biology Go to
  • Molecular interactions that lead to eukaryotic gene activation Go to
  • Molecular mechanism of apoptosis and autophagy Go to
  • Molecular mechanisms governing cell developmental potency Go to
  • Molecular mechanisms involved in plant development and on plant genomics Go to
  • Molecular mechanisms of autoimmune diseases Go to
  • Molecular mechanisms of biological evolution Go to
  • Molecular mechanisms of folding Go to
  • Molecular mechanisms of processes of ageing and age-related diseases Go to
  • Molecular Mechanisms of Vesicular Protein Transport Go to
  • Molecular mechanisms that control the integrity of endothelial cell contacts and the formation of blood vessel Go to
  • Molecular medicine Go to
  • Molecular medicine Go to
  • Molecular Medicine Go to
  • Molecular motors : myosin, kinesin, dynein Go to
  • Molecular neurobiology Go to
  • Molecular neuroscience Go to
  • Molecular Oncology and Computational Biology Go to
  • Molecular oncology Go to
  • molecular oncology Go to
  • Molecular parasitology (gene expression in trypanosomes and Leishmania species) Go to
  • Molecular parasitology Go to
  • Molecular physiology Go to
  • Molecular Physiology Go to
  • Molecular Plant Physiology Go to
  • molecular virology Go to
  • Molecular Virology Go to
  • Molecular virology Go to
  • Molecular virology Go to
  • Monoallelic expression 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 embryonic stem cells Go to
  • Mouse models for human disease Go to
  • Mouse models of cancer Go to
  • mRNA processing (polyadenylation) / transport / localization / decay Go to
  • Multidrug resistance Go to
  • Multiple sclerosis Go to
  • Muscle contraction Go to
  • MV replication/transcription and related topics Go to
N
  • Na+-H+ antiporters Go to
  • Neanderthal mitochondrial DNA (mtDNA) Go to
  • N-end rule pathway Go to
  • Nervous System Development Go to
  • Neurobiology of the sensory systems Go to
  • Neuronal computation Go to
  • Neuronal death mechanisms Go to
  • Neuropeptide receptors Go to
  • Neurotrophic factor receptors Go to
  • Neurotrophic factors Go to
  • New approaches to cancer therapy Go to
  • New models in flies to model diseases at the whole genome level and compare such models with human SNP maps Go to
  • NMR structure determination of proteins Go to
  • Nonlinear dynamics seen in terms of the theory of circuits Go to
  • Nonsense-mediated decay (NMD) Go to
  • Nuclear envelope breakdown Go to
  • Nuclear envelope structure, function and biogenesis Go to
  • Nuclear hormone receptors Go to
  • Nuclear organisation Go to
  • nuclear organization Go to
  • Nuclear organization Go to
  • Nuclear pore complex Go to
  • Nuclear reprogramming Go to
  • nucleic acid chemistry Go to
  • Nucleic acid-protein interactions Go to
  • Nucleic acids and protein synthesis Go to
  • Nucleic acid stereochemistry Go to
  • Nucleocytoplasmic transport Go to
  • Nucleo-cytoplasmic transport Go to
  • Nucleolus, sumoylation Go to
O
  • Ovarian development and function Go to
P
  • P53 protein SV40 T antigen complex Go to
  • Pancreatic beta-cells Go to
  • Pathobiochemistry of obesity, inflammatory and autoimmune diseases Go to
  • Pathogenic aspects of MV Go to
  • Pathology of collagene Go to
  • Pediatric malignancies Go to
  • Peripheral nervous system Go to
  • Permeability transitions Go to
  • Personalised medicine Go to
  • Pharmacological efflux systems Go to
  • Pharmacology of receptors Go to
  • Photodamage of the photosynthetic appartus by visible and UV light Go to
  • Photosynthesis and the functional role of the photosystems Go to
  • Photosynthesis research Go to
  • Photosynthetic electron transport Go to
  • Photosynthetic light energy conversion and utilization Go to
  • physical biochemistry Go to
  • Physical chemistry Go to
  • Physiology and medicine Go to
  • Physiology of intestinal microbiota Go to
  • Physiology of receptors Go to
  • PIASy as a SUMO E3 ligase Go to
  • Plant-bacterium interactions Go to
  • Plant-based recombinant vaccines Go to
  • plant biochemistry Go to
  • "plant biochemistry" Go to
  • Plant biotechnology and epigenetics Go to
  • Plant biotechnology 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-microbe interactions Go to
  • Plant-microbe interactions Go to
  • Plant molecular biology Go to
  • Plant molecular biology Go to
  • Plant molecular biology Go to
  • Plant molecular biology Go to
  • Plant Molecular Biology Go to
  • Plant molecular genetics Go to
  • Plant natural products Go to
  • Plant transgenesis Go to
  • Plant Virus Biochemistry Go to
  • PNS-CNS segregation Go to
  • Poly-ADP-ribosylation Go to
  • Polycomb silencing Go to
  • Population Genetics Go to
  • Post-transcriptinal regulation of gene expression Go to
  • Post-transcriptional regulation Go to
  • Post-transcriptional regulation of gene expression Go to
  • Post-translational modification of proteins Go to
  • Post-translational modifications Go to
  • Pre-mRNA 3' end processing Go to
  • Primary proton translocation in biology Go to
  • Process of transcription in the nucleus of cells Go to
  • Production of biotechnological materials for medicine and agriculture Go to
  • Protease signaling Go to
  • Protein and membrane purification Go to
  • Protein biosynthesis Go to
  • Protein cross-linker transglutaminases Go to
  • Protein crystallography Go to
  • Protein crystallography Go to
  • Protein-DNA interaction Go to
  • Protein-DNA interactions Go to
  • Protein engineering Go to
  • Protein evolution in vitro Go to
  • Protein functionality Go to
  • protein-lipid interactions Go to
  • Protein-lipid interactions Go to
  • Protein misfolding, protein aggregation, amyloid fibril formation Go to
  • Protein sequence analysis Go to
  • Protein structure analysis Go to
  • Protein structure and folding Go to
  • Protein structure and folding Go to
  • Protein Structure and Function Go to
  • Protein structure Prediction Go to
  • Protein ultrastructure Go to
  • proteolysis, biomedicine Go to
  • Public discussion on biofuels Go to
  • Purification and characterization of mammalian pre-mRNA splicing factors Go to
Q
  • Quantitative lipid analysis by nano-electrospray ionization tandem mass spectrometry Go to
  • quantitative proteomics Go to
  • Quorum-sensing regulation Go to
R
  • Rapid reaction techniques, spectroscopy of macromolecules, biochemical modifications, thermodynamics and structural biology of proteins Go to
  • Rational drug design and cancer treatment Go to
  • receptor pharmacology Go to
  • Receptors and signal transduction Go to
  • Receptors and signal transduction Go to
  • Receptors of the adrenergic system and other G-protein-coupled receptors Go to
  • Recombinant proteins - design and biotechnology Go to
  • Refinement of SDS-PAGE Go to
  • Regulation, mechanism and function of Activin/Nodal signalling in early Xenopus development Go to
  • Regulation, mechanism and function of BMP signalling in early zebrafish embryos Go to
  • Regulation of apoptosis Go to
  • Regulation of cell division Go to
  • Regulation of cellular functions Go to
  • Regulation of differentiation Go to
  • Regulation of DNA replication Go to
  • Regulation of gene expression by epigenetic principles Go to
  • Regulation of gene expression by nuclear receptors Go to
  • Regulation of gene expression Go to
  • Regulation of gene expression Go to
  • Regulation of gene expression Go to
  • Regulation of Gene Expression Go to
  • Regulation of gene expression Go to
  • Regulation of gene expression Go to
  • Regulation of hepatic, muscular and neuronal glycogen metabolism Go to
  • Regulation of human DNA replication at the molecular level Go to
  • Regulation of immune cell development Go to
  • Regulation of intracellular pH and growth factors Go to
  • Regulation of metabolism Go to
  • Regulation of RNA polymerase III transcription Go to
  • Regulation of RNA polymerase II transcription Go to
  • Regulation of transcription in response to TGF-β signalling Go to
  • Regulation of translation Go to
  • Regulatory mechanisms Go to
  • Regulatory regions of messenger RNA Go to
  • Relationship between structure and toxicity of protein oligomers in cellular and animal models Go to
  • Relationships between defective DNA repair processes and human diseases such as inheritable breast cancer and neurological disorders. Go to
  • Renewable energy production by photosynthetic systems Go to
  • Repetitive DNA sequences Go to
  • Replication checkpoint kinases Go to
  • Representations of biological data Go to
  • Rhizobial biofilms Go to
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  • Role of deregulated TGF-β signalling in cancer Go to
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  • role of receptors in the heart Go to
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S
  • Science education and administration Go to
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  • 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
  • Structures and properties of biological molecules Go to
  • Study, at a molecular level, of the process by which native proteins convert into aggregation-prone partially folded states Go to
  • Study, at a molecular level, of the process of native-like aggregation Go to
  • Study, in molecular depth, of the conversion of partially folded states of proteins into amyloid fibrils and precursor oligomers Go to
  • Study of macromolecular assemblies Go to
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  • Subunits, structure, function and assembly of Spt-Ada-Gcn5-acetyltransferase (SAGA) complexes Go to
  • Subunits, structure, function and assembly of TFIID complexes Go to
  • Symbiotic nitrogen fixation Go to
  • Symbiotic nitrogen fixation Go to
  • Symbiotic nitrogen fixation Go to
T
  • Targeting, translocation and folding of mitochondrial proteins Go to
  • Targeting zinc enzymes in cancer stem cells Go to
  • TATA box binding (TBP)-type factors Go to
  • TBP-associated factors (TAFs) Go to
  • Technology transfer Go to
  • Telomcrs and telomerase and their links to aging and cancer Go to
  • Telomerase and cancer Go to
  • The control of cellular migration and growth Go to
  • The "language gene" (FOXP2) Go to
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  • Transformation products of arachidonic acid Go to
  • Transgenic and knockout animals Go to
  • Translational control Go to
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  • Translational control Go to
  • Translation initiation Go to
  • Translation machinery Go to
  • transport proteins Go to
  • tRNA structure and interactions, protein biosynthesis Go to
  • Tumor-stroma interactions Go to
  • Tumour heterogeneity Go to
  • Tumour suppression by p53 Go to
  • Type IV secretion systems Go to
U
  • Ubiquination, transcription Go to
  • Ubiquitin E3 ligases Go to
  • Ubiquitin-mediated protein degradation Go to
  • Ubiquitin modification and protein degradation Go to
  • Ubiquitin proteasome system Go to
  • Ubiquitin proteasome system (UPS) Go to
  • Ultrastructure and immunocytochemistry of beta cells 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
  • Utilization of MV as a vector Go to
V
  • Vaccine against viral hepatitis B Go to
  • Vesicular transport Go to
  • Virus/cell interaction Go to
  • Virus-host interactions Go to
X
  • X-ray crystallography Go to
Z
  • Zebrafish neurogenetics Go to

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