| 1111 | Animals (MeSH) |
| 848 | Humans (MeSH) |
| 472 | Biodegradation, Environmental (MeSH) |
| 435 | Molecular Sequence Data (MeSH) |
| 408 | Inactivation, Metabolic (MeSH) |
| 387 | Saccharomyces cerevisiae (metabolism) |
| 327 | Saccharomyces cerevisiae (genetics) |
| 305 | Amino Acid Sequence (MeSH) |
| 289 | Male (MeSH) |
| 283 | Bacterial Proteins (metabolism) |
| 281 | Female (MeSH) |
| 279 | Oxidation-Reduction (MeSH) |
| 270 | Phylogeny (MeSH) |
| 267 | Bacterial Proteins (genetics) |
| 244 | Fermentation (MeSH) |
| 234 | Mice (MeSH) |
| 234 | Gene Expression Profiling (MeSH) |
| 231 | Mutation (MeSH) |
| 221 | Fungal Proteins (metabolism) |
| 218 | Bacteria (metabolism) |
| 215 | Soil Microbiology (MeSH) |
| 213 | Fungal Proteins (genetics) |
| 199 | Base Sequence (MeSH) |
| 194 | Saccharomyces cerevisiae (drug effects) |
| 190 | Kinetics (MeSH) |
| 188 | Hydrogen-Ion Concentration (MeSH) |
| 177 | Saccharomyces cerevisiae Proteins (metabolism) |
| 176 | Plant Diseases (microbiology) |
| 173 | Biotransformation (MeSH) |
| 171 | Cloning, Molecular (MeSH) |
| 170 | Gene Expression Regulation, Fungal (MeSH) |
| 165 | Gene Expression Regulation, Bacterial (MeSH) |
| 159 | Saccharomyces cerevisiae Proteins (genetics) |
| 147 | Glutathione (metabolism) |
| 146 | Oxidative Stress (MeSH) |
| 145 | Reactive Oxygen Species (metabolism) |
| 138 | Sequence Analysis, DNA (MeSH) |
| 134 | Hydrolysis (MeSH) |
| 132 | Biomass (MeSH) |
| 129 | Gene Deletion (MeSH) |
| 125 | Saccharomyces cerevisiae (enzymology) |
| 124 | Time Factors (MeSH) |
| 124 | Bacteria (genetics) |
| 121 | Ethanol (metabolism) |
| 119 | Escherichia coli (genetics) |
| 112 | Temperature (MeSH) |
| 112 | Soil Pollutants (metabolism) |
| 108 | Sequence Alignment (MeSH) |
| 105 | Transcription Factors (metabolism) |
| 102 | Genes, Fungal (MeSH) |
| 102 | Fungi (metabolism) |
| 99 | Saccharomyces cerevisiae (growth & development) |
| 98 | Sequence Homology, Amino Acid (MeSH) |
| 98 | Chromatography, High Pressure Liquid (MeSH) |
| 97 | Water Pollutants, Chemical (metabolism) |
| 96 | Transcription, Genetic (MeSH) |
| 96 | Transcription Factors (genetics) |
| 96 | RNA, Ribosomal, 16S (genetics) |
| 96 | Glutathione Transferase (metabolism) |
| 94 | Oxidoreductases (metabolism) |
| 93 | Adult (MeSH) |
| 91 | Microbial Sensitivity Tests (MeSH) |
| 91 | Lignin (metabolism) |
| 91 | Glucose (metabolism) |
| 91 | Escherichia coli (metabolism) |
| 90 | Models, Biological (MeSH) |
| 89 | Substrate Specificity (MeSH) |
| 89 | Signal Transduction (MeSH) |
| 89 | Phenotype (MeSH) |
| 89 | Gene Expression (MeSH) |
| 88 | Virulence (MeSH) |
| 88 | Rats (MeSH) |
| 87 | Hydrogen Peroxide (metabolism) |
| 87 | Cadmium (metabolism) |
| 86 | DNA, Bacterial (genetics) |
| 84 | Food Microbiology (MeSH) |
| 84 | Antifungal Agents (pharmacology) |
| 83 | Stress, Physiological (MeSH) |
| 82 | Plant Proteins (metabolism) |
| 82 | Genes, Bacterial (MeSH) |
| 81 | Oxidative Stress (drug effects) |
| 80 | Models, Molecular (MeSH) |
| 80 | Culture Media (MeSH) |
| 77 | Host-Pathogen Interactions (MeSH) |
| 77 | Fusarium (metabolism) |
| 76 | Molecular Structure (MeSH) |
| 76 | Middle Aged (MeSH) |
| 75 | Antioxidants (metabolism) |
| 74 | Symbiosis (MeSH) |
| 74 | Species Specificity (MeSH) |
| 74 | Plant Proteins (genetics) |
| 73 | Catalase (metabolism) |
| 73 | Arsenic (metabolism) |
| 72 | Cytochrome P-450 Enzyme System (metabolism) |
| 72 | Bacteria (isolation & purification) |
| 72 | Anti-Bacterial Agents (pharmacology) |
| 71 | Water Microbiology (MeSH) |
| 71 | Transcriptome (MeSH) |
| 71 | Superoxide Dismutase (metabolism) |
| 71 | Recombinant Proteins (metabolism) |
| 71 | Oligonucleotide Array Sequence Analysis (MeSH) |
| 71 | Bacteria (classification) |
| 70 | Protein Binding (MeSH) |
| 70 | Copper (metabolism) |
| 69 | Water Pollutants, Chemical (toxicity) |
| 69 | Biological Transport (MeSH) |
| 67 | Oxidoreductases (genetics) |
| 67 | Gene Expression Regulation, Plant (MeSH) |
| 66 | Reverse Transcriptase Polymerase Chain Reaction (MeSH) |
| 66 | Dose-Response Relationship, Drug (MeSH) |
| 66 | Cell Line (MeSH) |
| 65 | Industrial Waste (MeSH) |
| 65 | Glutathione Transferase (genetics) |
| 65 | Genetic Complementation Test (MeSH) |
| 65 | Cadmium (toxicity) |
| 65 | Bioreactors (microbiology) |
| 65 | ATP-Binding Cassette Transporters (genetics) |
| 64 | Bacteria (drug effects) |
| 63 | Iron (metabolism) |
| 63 | Binding Sites (MeSH) |
| 63 | Adaptation, Physiological (MeSH) |
| 63 | ATP-Binding Cassette Transporters (metabolism) |
| 62 | RNA, Messenger (metabolism) |
| 61 | Intestines (microbiology) |
| 61 | Arabidopsis (genetics) |
| 60 | Plant Roots (microbiology) |
| 60 | Cytochrome P-450 Enzyme System (genetics) |
| 59 | Water Purification (methods) |
| 58 | Mice, Inbred C57BL (MeSH) |
| 57 | Gene Expression Regulation, Fungal (drug effects) |
| 57 | Food Contamination (prevention & control) |
| 56 | Proteomics (MeSH) |
| 56 | Hydrogen Peroxide (pharmacology) |
| 56 | Genome, Bacterial (MeSH) |
| 55 | Evolution, Molecular (MeSH) |
| 55 | Drug Resistance, Bacterial (MeSH) |
| 54 | Recombinant Proteins (genetics) |
| 54 | Promoter Regions, Genetic (MeSH) |
| 54 | Nitric Oxide (metabolism) |
| 54 | Fungal Proteins (chemistry) |
| 54 | Cells, Cultured (MeSH) |
| 53 | Soil Pollutants (analysis) |
| 53 | Soil (chemistry) |
| 53 | Polymerase Chain Reaction (MeSH) |
| 53 | Mycotoxins (metabolism) |
| 53 | Multigene Family (MeSH) |
| 53 | Disease Models, Animal (MeSH) |
| 53 | Bioreactors (MeSH) |
| 52 | Metabolic Networks and Pathways (MeSH) |
| 52 | Liver (metabolism) |
| 52 | Bacterial Proteins (chemistry) |
| 51 | RNA, Messenger (genetics) |
| 51 | Laccase (metabolism) |
| 50 | Genome, Fungal (MeSH) |
| 50 | Adsorption (MeSH) |
| 49 | Zea mays (microbiology) |
| 49 | Waste Disposal, Fluid (methods) |
| 49 | Saccharomyces cerevisiae Proteins (MeSH) |
| 49 | Metals, Heavy (metabolism) |
| 49 | Homeostasis (MeSH) |
| 49 | Genotype (MeSH) |
| 49 | Biotechnology (methods) |
| 49 | Anaerobiosis (MeSH) |
| 48 | Tandem Mass Spectrometry (MeSH) |
| 48 | Culture Media (chemistry) |
| 47 | Saccharomyces cerevisiae (physiology) |
| 47 | Magnetic Resonance Spectroscopy (MeSH) |
| 47 | Cellulose (metabolism) |
| 46 | Water Pollutants, Chemical (analysis) |
| 46 | Metabolic Networks and Pathways (genetics) |
| 46 | Inactivation, Metabolic (genetics) |
| 46 | Environmental Pollutants (metabolism) |
| 46 | DNA-Binding Proteins (genetics) |
| 46 | Coloring Agents (metabolism) |
| 45 | Vacuoles (metabolism) |
| 45 | Oxidative Stress (genetics) |
| 45 | DNA-Binding Proteins (metabolism) |
| 45 | Carbon (metabolism) |
| 44 | Yeasts (metabolism) |
| 44 | Trichothecenes (metabolism) |
| 44 | Microbiota (MeSH) |
| 44 | Metals (metabolism) |
| 44 | Metallothionein (metabolism) |
| 44 | Gastrointestinal Tract (microbiology) |
| 44 | Food Contamination (analysis) |
| 44 | Ascomycota (metabolism) |
| 43 | Triticum (microbiology) |
| 43 | Plant Roots (metabolism) |
| 43 | Oryza (microbiology) |
| 43 | Nitrogen (metabolism) |
| 43 | Cluster Analysis (MeSH) |
| 43 | Bacteria (growth & development) |
| 42 | Zinc (metabolism) |
| 42 | Soil Pollutants (toxicity) |
| 42 | Protein Conformation (MeSH) |
| 42 | Plant Diseases (genetics) |
| 42 | Mice, Inbred BALB C (MeSH) |
| 42 | Immunity, Innate (MeSH) |
| 41 | Sewage (microbiology) |
| 41 | Peroxidases (metabolism) |
| 41 | Oxygen (metabolism) |
| 41 | Mass Spectrometry (MeSH) |
| 41 | Hot Temperature (MeSH) |
| 41 | Drug Resistance, Microbial (MeSH) |
| 41 | Ascomycota (genetics) |
| 40 | Reproducibility of Results (MeSH) |
| 40 | Real-Time Polymerase Chain Reaction (MeSH) |
| 40 | Mutagenesis, Site-Directed (MeSH) |
| 40 | Fungi (drug effects) |
| 40 | Colony Count, Microbial (MeSH) |
| 40 | Cell Survival (drug effects) |
| 39 | Recombinant Fusion Proteins (metabolism) |
| 39 | Oxidative Stress (physiology) |
| 39 | Membrane Proteins (metabolism) |
| 39 | Food Contamination (MeSH) |
| 39 | Ecosystem (MeSH) |
| 39 | Biofuels (MeSH) |
| 39 | Arabidopsis (metabolism) |
| 38 | Plants, Genetically Modified (MeSH) |
| 38 | Plants (metabolism) |
| 38 | Mitochondria (metabolism) |
| 38 | Aged (MeSH) |
| 37 | Schizosaccharomyces (genetics) |
| 37 | Proteomics (methods) |
| 37 | Metals, Heavy (toxicity) |
| 37 | Membrane Transport Proteins (genetics) |
| 37 | Gene Expression Regulation, Enzymologic (MeSH) |
| 37 | Escherichia coli (enzymology) |
| 37 | Bacillus (metabolism) |
| 36 | Virulence Factors (genetics) |
| 36 | Structure-Activity Relationship (MeSH) |
| 36 | Sorption Detoxification (methods) |
| 36 | Seawater (microbiology) |
| 36 | Protein Structure, Tertiary (MeSH) |
| 36 | Plasmids (MeSH) |
| 36 | Pichia (metabolism) |
| 36 | Oryza (metabolism) |
| 36 | Membrane Transport Proteins (metabolism) |
| 36 | Membrane Proteins (genetics) |
| 36 | Macrophages (microbiology) |
| 36 | Gene Knockout Techniques (MeSH) |
| 36 | Fusarium (genetics) |
| 36 | Electrophoresis, Gel, Two-Dimensional (MeSH) |
| 36 | DNA Primers (MeSH) |
| 36 | Chromatography, Liquid (MeSH) |
| 36 | China (MeSH) |
| 36 | Basidiomycota (metabolism) |
| 35 | Virulence Factors (metabolism) |
| 35 | Mycotoxins (toxicity) |
| 35 | Metallothionein (genetics) |
| 35 | Cysteine (metabolism) |
| 35 | Cell Wall (metabolism) |
| 34 | Zearalenone (metabolism) |
| 34 | Zea mays (chemistry) |
| 34 | Recombinant Proteins (chemistry) |
| 34 | Plants (microbiology) |
| 34 | Gene Expression Regulation (MeSH) |
| 34 | Environmental Pollutants (toxicity) |
| 34 | Catalysis (MeSH) |
| 33 | Rumen (microbiology) |
| 33 | Penicillium (metabolism) |
| 33 | Microbial Viability (drug effects) |
| 33 | Industrial Microbiology (MeSH) |
| 33 | Geologic Sediments (microbiology) |
| 33 | Fusarium (pathogenicity) |
| 33 | Cell Membrane (metabolism) |
| 33 | Biofilms (growth & development) |
| 32 | Virulence (genetics) |
| 32 | Up-Regulation (MeSH) |
| 32 | Toxicity Tests (MeSH) |
| 32 | Superoxide Dismutase (genetics) |
| 32 | Repressor Proteins (metabolism) |
| 32 | Liver (drug effects) |
| 32 | Lignin (chemistry) |
| 32 | Inactivation, Metabolic (physiology) |
| 32 | Gas Chromatography-Mass Spectrometry (MeSH) |
| 32 | Fungi (genetics) |
| 32 | Conserved Sequence (MeSH) |
| 32 | Carrier Proteins (metabolism) |
| 32 | Candida (metabolism) |
| 31 | Water Pollutants, Chemical (chemistry) |
| 31 | Sulfhydryl Compounds (metabolism) |
| 31 | Repressor Proteins (genetics) |
| 31 | Phenols (metabolism) |
| 31 | Operon (MeSH) |
| 31 | Gastrointestinal Microbiome (MeSH) |
| 31 | Diet (MeSH) |
| 31 | DNA, Fungal (genetics) |
| 31 | DNA, Bacterial (chemistry) |
| 31 | Color (MeSH) |
| 31 | Cadmium (pharmacology) |
| 31 | Adaptation, Physiological (genetics) |
| 30 | Waste Disposal, Fluid (MeSH) |
| 30 | Schizosaccharomyces (metabolism) |
| 30 | Proteome (analysis) |
| 30 | Plant Leaves (microbiology) |
| 30 | Plant Leaves (metabolism) |
| 30 | Mutation (genetics) |
| 30 | Intestinal Mucosa (metabolism) |
| 30 | Cell Line, Tumor (MeSH) |
| 30 | Blotting, Western (MeSH) |
| 30 | Arabidopsis Proteins (metabolism) |
| 30 | Antifungal Agents (chemistry) |
| 30 | Animal Feed (analysis) |
| 30 | Amino Acids (metabolism) |
| 30 | Aflatoxin B1 (metabolism) |
| 29 | Xenobiotics (metabolism) |
| 29 | Waste Water (chemistry) |
| 29 | Saccharomyces cerevisiae Proteins (chemistry) |
| 29 | Proteome (metabolism) |
| 29 | Mutagenesis, Insertional (MeSH) |
| 29 | Isoenzymes (metabolism) |
| 29 | Gene Expression Regulation (drug effects) |
| 29 | Escherichia coli (drug effects) |
| 29 | Electrophoresis, Polyacrylamide Gel (MeSH) |
| 29 | DNA, Complementary (genetics) |
| 29 | Crystallography, X-Ray (MeSH) |
| 29 | Copper (pharmacology) |
| 29 | Coloring Agents (toxicity) |
| 29 | Cattle (MeSH) |
| 29 | Catalase (genetics) |
| 29 | Bacillus subtilis (metabolism) |
| 29 | Anti-Bacterial Agents (metabolism) |
| 28 | Sulfur (metabolism) |
| 28 | Sorption Detoxification (MeSH) |
| 28 | Open Reading Frames (MeSH) |
| 28 | Liver (pathology) |
| 28 | Lipid Metabolism (MeSH) |
| 28 | Insecticides (metabolism) |
| 28 | Industrial Microbiology (methods) |
| 28 | Genomics (MeSH) |
| 28 | Genetic Variation (MeSH) |
| 28 | Fungi (enzymology) |
| 28 | Escherichia coli Proteins (genetics) |
| 28 | Copper (toxicity) |
| 28 | Computational Biology (MeSH) |
| 28 | Carbohydrate Metabolism (MeSH) |
| 27 | Xylose (metabolism) |
| 27 | Sequence Deletion (MeSH) |
| 27 | Pseudomonas (metabolism) |
| 27 | Pichia (genetics) |
| 27 | Oryza (genetics) |
| 27 | Mycorrhizae (metabolism) |
| 27 | Molecular Weight (MeSH) |
| 27 | Microbial Viability (MeSH) |
| 27 | Larva (microbiology) |
| 27 | Glutathione Transferase (chemistry) |
| 27 | Gene Expression Regulation, Bacterial (drug effects) |
| 27 | Furaldehyde (metabolism) |
| 27 | Feces (microbiology) |
| 27 | Escherichia coli Proteins (metabolism) |
| 27 | Chromium (metabolism) |
| 27 | Biodiversity (MeSH) |
| 27 | Arabidopsis Proteins (genetics) |
| 26 | Waste Water (microbiology) |
| 26 | Treatment Outcome (MeSH) |
| 26 | Transcription, Genetic (drug effects) |
| 26 | Schizosaccharomyces (drug effects) |
| 26 | Saccharomyces cerevisiae Proteins (physiology) |
| 26 | Saccharomyces cerevisiae (chemistry) |
| 26 | Rats, Sprague-Dawley (MeSH) |
| 26 | Pyruvaldehyde (metabolism) |
| 26 | Polysaccharides (metabolism) |
| 26 | NAD (metabolism) |
| 26 | Mycobacterium tuberculosis (genetics) |
| 26 | Molecular Sequence Annotation (MeSH) |
| 26 | Mice, Knockout (MeSH) |
| 26 | Genes, Plant (MeSH) |
| 26 | Fusarium (physiology) |
| 26 | Escherichia coli (growth & development) |
| 26 | Computer Simulation (MeSH) |
| 26 | Carcinogens (metabolism) |
| 26 | Bacteria (enzymology) |
| 26 | Bacillus subtilis (genetics) |
| 26 | Aerobiosis (MeSH) |
| 26 | Adolescent (MeSH) |
| 25 | Zea mays (metabolism) |
| 25 | Staphylococcus aureus (metabolism) |
| 25 | Plant Extracts (metabolism) |
| 25 | Phosphorylation (MeSH) |
| 25 | Mutagenesis (MeSH) |
| 25 | Metagenome (MeSH) |
| 25 | Liver (enzymology) |
| 25 | Herbicides (metabolism) |
| 25 | Carrier Proteins (genetics) |
| 25 | Antifungal Agents (metabolism) |
| 25 | Animal Feed (microbiology) |
| 24 | Soil (MeSH) |
| 24 | Sequence Analysis, RNA (MeSH) |
| 24 | Saccharomyces cerevisiae (MeSH) |
| 24 | Polymorphism, Genetic (MeSH) |
| 24 | NADP (metabolism) |
| 24 | Mycobacterium tuberculosis (metabolism) |
| 24 | Microscopy, Fluorescence (MeSH) |
| 24 | Microscopy, Electron, Scanning (MeSH) |
| 24 | Lead (metabolism) |
| 24 | Furaldehyde (analogs & derivatives) |
| 24 | Enzyme Stability (MeSH) |
| 24 | Drug Resistance, Microbial (genetics) |
| 24 | Colon (microbiology) |
| 24 | Candida albicans (drug effects) |
| 24 | Biological Assay (MeSH) |
| 24 | Arsenic (toxicity) |
| 24 | Arabidopsis (enzymology) |
| 24 | Antioxidants (pharmacology) |
| 24 | Adenosine Triphosphatases (metabolism) |
| 23 | Textile Industry (MeSH) |
| 23 | Staphylococcus aureus (genetics) |
| 23 | Recombinant Fusion Proteins (genetics) |
| 23 | Pseudomonas aeruginosa (genetics) |
| 23 | Metals, Heavy (analysis) |
| 23 | Metabolic Engineering (MeSH) |
| 23 | Industrial Waste (analysis) |
| 23 | Indoles (metabolism) |
| 23 | Hydrogen Peroxide (toxicity) |
| 23 | Hemeproteins (metabolism) |
| 23 | Genetic Engineering (MeSH) |
| 23 | Genes, Reporter (MeSH) |
| 23 | Gene Silencing (MeSH) |
| 23 | Fusarium (enzymology) |
| 23 | Fermentation (drug effects) |
| 23 | Enzyme Activation (MeSH) |
| 23 | Coloring Agents (chemistry) |
| 23 | Child (MeSH) |
| 23 | Candida albicans (metabolism) |
| 23 | Aspergillus (metabolism) |
| 23 | Arabidopsis (microbiology) |
| 22 | Yeasts (genetics) |
| 22 | Risk Factors (MeSH) |
| 22 | Plant Diseases (immunology) |
| 22 | Ochratoxins (metabolism) |
| 22 | Larva (drug effects) |
| 22 | Lactobacillus (metabolism) |
| 22 | Insecticides (pharmacology) |
| 22 | Insect Proteins (genetics) |
| 22 | Gene Expression Profiling (methods) |
| 22 | Fatty Acids (metabolism) |
| 22 | Drug Resistance, Bacterial (genetics) |
| 22 | Drug Resistance (MeSH) |
| 22 | DNA, Ribosomal (genetics) |
| 22 | Computational Biology (methods) |
| 22 | Arsenites (metabolism) |
| 22 | Aminoacyltransferases (metabolism) |
| 22 | Alleles (MeSH) |
| 21 | Trichothecenes (toxicity) |
| 21 | Swine (MeSH) |
| 21 | Stress, Physiological (genetics) |
| 21 | Signal Transduction (genetics) |
| 21 | RNA, Bacterial (genetics) |
| 21 | Plant Extracts (chemistry) |
| 21 | Phosphates (metabolism) |
| 21 | Phanerochaete (metabolism) |
| 21 | Nitrites (metabolism) |
| 21 | Mutagenicity Tests (MeSH) |
| 21 | Metagenomics (MeSH) |
| 21 | Lycopersicon esculentum (microbiology) |
| 21 | Isoenzymes (genetics) |
| 21 | Insect Proteins (metabolism) |
| 21 | Hydrolases (metabolism) |
| 21 | Gene Ontology (MeSH) |
| 21 | Gene Expression Regulation, Bacterial (physiology) |
| 21 | Fungal Proteins (biosynthesis) |
| 21 | Enzyme Inhibitors (pharmacology) |
| 21 | Energy Metabolism (MeSH) |
| 21 | Edible Grain (microbiology) |
| 21 | DNA Damage (MeSH) |
| 21 | Cation Transport Proteins (metabolism) |
| 21 | Biological Evolution (MeSH) |
| 21 | Ascomycota (enzymology) |
| 21 | Animal Feed (MeSH) |
| 21 | Analysis of Variance (MeSH) |
| 21 | Aminoacyltransferases (genetics) |
| 21 | Aldehydes (metabolism) |
| 21 | Adenosine Triphosphatases (genetics) |
| 20 | Young Adult (MeSH) |
| 20 | Ultraviolet Rays (MeSH) |
| 20 | Tobacco (genetics) |
| 20 | Signal Transduction (drug effects) |
| 20 | Sesquiterpenes (MeSH) |
| 20 | Saccharomyces cerevisiae (cytology) |
| 20 | Proteome (MeSH) |
| 20 | Protein Transport (MeSH) |
| 20 | Penicillins (metabolism) |
| 20 | Mycelium (growth & development) |
| 20 | Mushroom Poisoning (therapy) |
| 20 | Methylation (MeSH) |
| 20 | Metabolome (MeSH) |
| 20 | Metabolic Engineering (methods) |
| 20 | Macrophages (metabolism) |
| 20 | Lipid Peroxidation (MeSH) |
| 20 | DNA, Ribosomal (chemistry) |
| 20 | Chromosome Mapping (MeSH) |
| 20 | Catalytic Domain (MeSH) |
| 20 | Candida albicans (genetics) |
| 20 | Biofilms (drug effects) |
| 20 | Bacterial Proteins (physiology) |
| 20 | Azo Compounds (metabolism) |
| 20 | Ascomycota (pathogenicity) |
| 20 | Aldehyde Reductase (metabolism) |
| 19 | Staphylococcal Infections (microbiology) |
