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The FEBS Journal, ISSN 1742-464X, 11/2018, Volume 285, Issue 21, pp. 3925 - 3944
Many biological functions played by current proteins were not created by evolution from scratch, rather they were obtained combining already available protein... 
GntR transcription factors | bacterial transcriptional regulation | chimeric proteins | Helix‐Turn‐Helix DNA‐binding domain | protein‐DNA interactions | pyridoxal 5′‐phosphate | vitamin B6 metabolism | MocR‐like transcription factors | GabR | pyridoxal 5′‐phosphate‐dependent enzymes | MocR-like transcription factors | protein-DNA interactions | vitamin B | pyridoxal 5′-phosphate | metabolism | pyridoxal 5′-phosphate-dependent enzymes | Helix-Turn-Helix DNA-binding domain | BACILLUS-SUBTILIS GABR | DNA-BINDING | DOMAIN | SINORHIZOBIUM-MELILOTI | CRYSTAL-STRUCTURE | BIOCHEMISTRY & MOLECULAR BIOLOGY | PDXR | vitamin B-6 metabolism | COMPUTATIONAL ANALYSIS | pyridoxal 5 '-phosphate-dependent enzymes | pyridoxal 5 '-phosphate | COMPATIBLE SOLUTES | GENES | VITAMIN-B-6 BIOSYNTHESIS | Regulon | Transcription Factors - metabolism | Bacteria - metabolism | Bacterial Proteins - genetics | Bacterial Proteins - metabolism | Transcription Factors - genetics | Gene Expression Regulation, Bacterial | Bacteria - genetics | Pyridoxal Phosphate - metabolism | Phosphates | Enzymes | Analysis | Genetic research | Physiological aspects | DNA binding proteins | Protein binding | Regulators | Transcription factors | Nucleotide sequence | Biological evolution | Amino acids | Metabolism | Substrates | Gene sequencing | Proteins | Microorganisms | Ectoine | Chimeras | Binding sites | Vitamin B6 | Deoxyribonucleic acid--DNA | Structure-function relationships
Journal Article
Plant Cell, ISSN 1040-4651, 8/2015, Volume 27, Issue 8, pp. 2210 - 2226
Initiation of symbiotic nodules in legumes requires cytokinin signaling, but its mechanism of action is largely unknown. Here, we tested whether the failure to... 
Cytokinins | Flavonoids | Inoculation | RESEARCH ARTICLES | Genes | Plant roots | Nodulation | Auxins | Plants | Nodules | Plant cells | CELLS | QUANTIFICATION | BIOCHEMISTRY & MOLECULAR BIOLOGY | WHITE CLOVER | IDENTIFICATION | ORGANOGENESIS | PLANT SCIENCES | CELL BIOLOGY | LOTUS-JAPONICUS | RHIZOBIUM | ROOT-NODULE FORMATION | GENES | EXPRESSION | Plant Root Nodulation - drug effects | Medicago truncatula - genetics | Triiodobenzoic Acids - pharmacology | Sinorhizobium meliloti - physiology | Plant Roots - genetics | Host-Pathogen Interactions - drug effects | Medicago truncatula - microbiology | Plant Roots - drug effects | Chalcones - metabolism | Plant Root Nodulation - genetics | Plants, Genetically Modified | Chalcones - pharmacology | Biological Transport - drug effects | Flavonoids - pharmacology | Kaempferols - metabolism | Plant Proteins - metabolism | Symbiosis - drug effects | Plant Roots - metabolism | Indoleacetic Acids - metabolism | Flavanones - pharmacology | Medicago truncatula - metabolism | Plant Roots - microbiology | Reverse Transcriptase Polymerase Chain Reaction | Plant Proteins - genetics | Flavanones - metabolism | Flavonoids - metabolism | Cytokinins - metabolism | Kaempferols - pharmacology | Mutation | Plant Growth Regulators - metabolism | Plant Growth Regulators - pharmacology | Microscopy, Fluorescence | Auxin | Isoflavones
Journal Article
Nature, ISSN 0028-0836, 07/2015, Volume 523, Issue 7560, pp. 308 - 312
Journal Article
Journal Article
Science, ISSN 0036-8075, 2/2010, Volume 327, Issue 5969, pp. 1122 - 1126
Legume plants host nitrogen-fixing endosymbiotic Rhizobium bacteria in root nodules. In Medicago truncatula, the bacteria undergo an irreversible (terminal)... 
Symbiosis | Legumes | Polyploidy | B lymphocytes | Antimicrobials | Cell cycle | Bacteria | Reports | Cellular immunity | Bacteroids | Nodules | ORGANIZATION | NODULES | LEGUME SYMBIOSIS | MEDICAGO-TRUNCATULA | MULTIDISCIPLINARY SCIENCES | GENES | CELL-CYCLE | ANTIMICROBIAL PEPTIDES | MODEL | RHIZOBIUM-MELILOTI | Medicago truncatula - genetics | Root Nodules, Plant - metabolism | Sinorhizobium meliloti - drug effects | Genes, Plant | Sinorhizobium meliloti - physiology | Peptides - genetics | Root Nodules, Plant - microbiology | Molecular Sequence Data | Medicago truncatula - microbiology | Peptides - metabolism | Plant Proteins - chemistry | Cell Division | Plants, Genetically Modified | Cell Membrane - metabolism | Plant Proteins - metabolism | Nitrogen Fixation | Amino Acid Sequence | Peptides - chemistry | Loteae - metabolism | Loteae - microbiology | Medicago truncatula - metabolism | Peptides - pharmacology | Protein Transport | Plant Proteins - genetics | Sinorhizobium meliloti - cytology | Cytosol - metabolism | Anti-Bacterial Agents - pharmacology | Loteae - genetics | Host-bacteria relationships | Physiological aspects | Research | Peptides | Plant physiology | Endosymbiosis | Mutation | Botany | Cell Membrane | Medicago truncatula | Lotus | Cytosol | Life Sciences | Anti-Bacterial Agents | Root Nodules, Plant | Plant Proteins | Vegetal Biology | Sinorhizobium meliloti
Journal Article
Archives of Microbiology, ISSN 0302-8933, 1/2019, Volume 201, Issue 1, pp. 107 - 121
In this study, two populations of leguminous plants Lathyrus sativus were grown in four soils that were collected from sites differently contaminated by heavy... 
Life Sciences | Biochemistry, general | Microbial Ecology | Biotechnology | Symbiotic | Microbiology | Lathyrus sativus | Ecology | Bioremediation | Heavy metals | Cell Biology | Strong accumulator | ROOT | PHYSIOLOGICAL-RESPONSES | MICROBIOLOGY | COPPER | CADMIUM | NODULE | PLANT-GROWTH | MINE TAILINGS | LEAD | Metals, Heavy - metabolism | Sinorhizobium meliloti - growth & development | Bacillus - metabolism | Zinc - metabolism | Root Nodules, Plant - microbiology | Rhizobium - isolation & purification | Cadmium - metabolism | Bacillus - isolation & purification | Copper - metabolism | Lathyrus - growth & development | Lathyrus - microbiology | Pseudomonas - growth & development | Fabaceae - microbiology | Bacillus - growth & development | Biodegradation, Environmental | Symbiosis | Lead - metabolism | Soil Microbiology | Rhizobium - growth & development | Plant Roots - microbiology | Sinorhizobium meliloti - metabolism | Pseudomonas - isolation & purification | Rhizobium - metabolism | Soil Pollutants - metabolism | Soil | Pseudomonas - metabolism | Sinorhizobium meliloti - isolation & purification | rRNA 16S | Genes | Metal concentrations | Plant biomass | Soil investigations | Homology | Population studies | Biomass | Genera | Gene sequencing | Leguminous plants | Lead | Bacteria | Nutrients | Copper | Pollutants | Sinorhizobium meliloti | Soil contamination | Cadmium | Accumulators | Sediment pollution | Pseudomonas fluorescens | Contamination | Zinc | Phytoremediation | Nodules | Soil properties | Pollutant removal
Journal Article