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2003, Methods in enzymology, ISBN 9780121822699, Volume 366., l, 453 p., [4] p. of plates
Book
FEBS Letters, ISSN 0014-5793, 2006, Volume 580, Issue 25, pp. 5885 - 5893
Genetically-encoded fluorescence resonance energy transfer (FRET) sensors for phosphate (P ) (FLIPPi) were engineered by fusing a predicted phosphate-binding... 
Fluorescence energy transfer | Phosphate starvation | Biosensor | Synechococcus | fluorescent protein | FLIPPi | fluorescence resonance energy transfer | FRET | fluorescent indicator protein for inorganic phosphate | FLUORESCENT NANOSENSORS | RAT-LIVER | biosensor | BIOCHEMISTRY & MOLECULAR BIOLOGY | RESONANCE ENERGY-TRANSFER | INORGANIC-PHOSPHATE | BINDING PROTEIN | COS-7 CELLS | FAMILY | CELL BIOLOGY | fluorescence energy transfer | TRANSPORT | phosphate starvation | BIOPHYSICS | SURFACE | LIVING CELLS | Sequence Deletion | Bacterial Proteins - chemistry | Cercopithecus aethiops | Phosphate-Binding Proteins - genetics | Green Fluorescent Proteins - genetics | Recombinant Fusion Proteins - metabolism | Synechococcus - genetics | Base Sequence | Phosphate-Binding Proteins - chemistry | Protein Engineering | CHO Cells | Green Fluorescent Proteins - metabolism | Cricetinae | Mutagenesis, Site-Directed | Bacterial Proteins - genetics | Phosphate-Binding Proteins - metabolism | Models, Molecular | Binding Sites - genetics | Recombinant Fusion Proteins - chemistry | Phosphates - metabolism | Animals | DNA, Bacterial - genetics | Recombinant Fusion Proteins - genetics | Bacterial Proteins - metabolism | Biosensing Techniques - methods | Fluorescence Resonance Energy Transfer - methods | Luminescent Proteins - genetics | Protein Conformation | Kinetics | COS Cells | Fluorescent Dyes | Luminescent Proteins - metabolism | Synechococcus - metabolism | Phosphates | Analysis | Detectors | Physiological aspects | Fluorescence | Physicians (General practice) | Methods | Index Medicus
Journal Article
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Journal Article
Plant Biotechnology Journal, ISSN 1467-7644, 03/2016, Volume 14, Issue 3, pp. 875 - 886
The internalization of some oomycete and fungal pathogen effectors into host plant cells has been reported to be blocked by proteins that bind to the... 
effectors | heobroma cacao | disease resistance | phosphatidylinositol‐3‐phosphate‐binding protein | fungi | oomycetes | Fungi | Disease resistance | Oomycetes | Phosphatidylinositol-3-phosphate-binding protein | Theobroma cacao | Effectors | PLANT | CELLS | LOCALIZATION | DOMAIN | ENTRY | phosphatidylinositol-3-phosphate-binding protein | PHOSPHOINOSITIDES | PLANT SCIENCES | BIOTECHNOLOGY & APPLIED MICROBIOLOGY | PHYTOPHTHORA | MEMBRANE DOCKING | EFFECTOR PROTEIN | EXPRESSION | Transformation, Genetic | Amino Acid Sequence | Reproducibility of Results | Disease Resistance | Phosphatidylinositol Phosphates - metabolism | RNA, Messenger - genetics | Phosphate-Binding Proteins - metabolism | Phytophthora - physiology | Mutant Proteins - metabolism | Phytophthora - pathogenicity | Plant Diseases - microbiology | RNA, Messenger - metabolism | Cacao - genetics | Colletotrichum - physiology | Cacao - microbiology | Plant Proteins - chemistry | Mutant Proteins - chemistry | Plants, Genetically Modified | Gene Expression Regulation, Plant | Phosphate-Binding Proteins - chemistry | Protein Domains | Plant Proteins - metabolism | Plant Leaves - microbiology | Phosphates | Drug resistance in microorganisms | Pathogenic microorganisms | Phospholipids | Genetic engineering | Chemical properties | Cocoa industry | Binding proteins | Health aspects | Protein binding | Index Medicus | Proteins | Pathogens | Biotechnology | Strategy | Plants (organisms) | Secretions
Journal Article
Acta Crystallographica Section F, ISSN 2053-230X, 06/2017, Volume 73, Issue 6, pp. 342 - 346
Phosphate‐binding proteins (PBPs) are key proteins that belong to the bacterial ABC‐type phosphate transporters. PBPs are periplasmic (or membrane‐anchored)... 
Polaromonas | JS666 | phosphate‐binding protein | phosphate ABC transporter | molecular specificity | phosphate-binding protein | Polaromonas JS666 | MOLECULAR REPLACEMENT | ENVIRONMENTS | TRANSPORTER | SPECIFICITY | CRYSTAL-STRUCTURE | BIOCHEMISTRY & MOLECULAR BIOLOGY | BIOCHEMICAL RESEARCH METHODS | DING PROTEIN | RECEPTOR | DIFFRACTION DATA | CRYSTALLOGRAPHY | FEATURES | BIOPHYSICS | SEQUENCE | Comamonadaceae - chemistry | Bacterial Proteins - chemistry | Phosphates - chemistry | Crystallography, X-Ray | Phosphate-Binding Proteins - genetics | Recombinant Fusion Proteins - metabolism | Periplasm - metabolism | X-Ray Diffraction | Cloning, Molecular | Escherichia coli - metabolism | Phosphate-Binding Proteins - chemistry | Periplasm - chemistry | Comamonadaceae - metabolism | Amino Acid Sequence | Gene Expression | Genetic Vectors - chemistry | Bacterial Proteins - genetics | Crystallization | Phosphate-Binding Proteins - metabolism | Genetic Vectors - metabolism | Recombinant Fusion Proteins - chemistry | Sequence Homology, Amino Acid | Phosphates - metabolism | Sequence Alignment | Hydrogen Bonding | Escherichia coli - genetics | Recombinant Fusion Proteins - genetics | Bacterial Proteins - metabolism | Hydrogen-Ion Concentration | Binding | Residues | Purification | Data acquisition | Hydrogen | Protein purification | X-ray diffraction | Selectivity | Phasing | Proteins | Anions | Diffraction | Phosphate | Data collection | Collection | Bacteria | Affinity | Environment | Sulfur | Transporter | Index Medicus | BASIC BIOLOGICAL SCIENCES
Journal Article
Proceedings of the National Academy of Sciences, ISSN 0027-8424, 11/2013, Volume 110, Issue 46, pp. E4298 - E4305
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