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Biotin --- physiology
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Biotin --- Affinity labeling --- Immunoadsorption --- Affinity chromatography
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Biotin --- Synthesis. --- Biotin. --- Biodermatin --- Biokur --- Biotin Gelfert --- Biotin Hermes --- Biotin-Ratiopharm --- Biotine Roche --- Deacura --- Gabunat --- Medebiotin --- Medobiotin --- Rombellin --- Vitamin H --- Biotin Ratiopharm --- Gelfert, Biotin --- Hermes, Biotin --- Roche, Biotine --- Avidin --- Multiple Carboxylase Deficiency --- Biotinidase Deficiency --- Holocarboxylase Synthetase Deficiency --- Coenzyme R --- Coenzymes --- Imidazoles --- Vitamin B complex
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Biotin --- Physiological effect --- Congresses --- Metabolism --- Congresses. --- Coenzyme R --- Vitamin H --- Coenzymes --- Imidazoles --- Vitamin B complex --- Avidin --- Metabolism&delete& --- Physiological effect&delete& --- Biotin - Physiological effect - Congresses --- Biotin - Metabolism - Congresses
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Neoplasms --- Neoplasms --- genetic markers --- genetic markers --- proteins --- proteins --- Biotin --- Biotin --- Immunological techniques --- Immunological techniques --- Antigens --- Antigens --- Spectrometry --- Spectrometry
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Biological techniques --- Enzymology --- Analytical biochemistry --- Avidin --- Biotechnology --- Biotin --- Avidin. --- Biotechnology. --- Biotin. --- Immunoassay. --- Amidohydrolases --- Bacterial proteins --- Carrier proteins --- Dna probes --- Molecular probe techniques
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Hydrolytic Reactions
Coenzymes. --- Hydrolases. --- Biotin. --- Coenzyme R --- Vitamin H --- Coenzymes --- Imidazoles --- Vitamin B complex --- Avidin --- Hydrolytic enzymes --- Enzymes --- Cofactors, Enzyme --- Enzyme cofactors
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An important new technology, biosensors are made from biomolecules or cells which are immobilized but retain their functionality. This book is an up-to-date collection of reliable methods for immobilizing biomolecules. It includes techniques for measuring the functionality of biomolecules.
Analytical biochemistry --- Biosensors --- Immobilized ligands (Biochemistry) --- Ligand binding (Biochemistry) --- BIOCOMPATIBLE MATERIALS --- SILANES --- AVIDIN --- BIOTIN --- POLYMERS --- BIOSENSORS --- IMMOBILIZED LIGANDS (BIOCHEMISTRY) --- LIGAND BINDING (BIOCHEMISTRY) --- LABORATORY MANUALS
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Since its early introduction by the Russian botanist Mikhail Semyonovich Tsvet, chromatography has been undoubtedly the most powerful analytical tool in analytical chemistry. Separation, qualitative analysis, and quantitative analysis can be achieved by choosing the right conditions. Thus, numerous gas chromatographic, liquid chromatographic, and supercritical fluid chromatographic methods have been developed and applied for most types of samples and most kinds of analytes. Additionally, older varieties such as paper chromatography and thin-layer chromatography were pioneer analytical techniques in many laboratories. Especially when hyphenated to spectrometric techniques, chromatography also allows the identification of separated analytes in a single run. Highly sophisticated equipment can answer all analytical problems very quickly. Chromatographers cooperate with many scientific fields and give their lights to medical doctors, veterinarians, food scientists, biologists, dentists, archaeologists, etc. In this Special Issue, analytical chemists were invited to prove that chromatography-based separation techniques are the ultimate analytical tool and their significant contribution is reflected in ten interesting articles.
Research & information: general --- Chemistry --- Analytical chemistry --- polyamine --- steroid --- breast cancer --- liquid chromatography–tandem mass spectrometry --- serum --- photoaging --- proteomics --- genomics --- Swietenia macrophylla --- UV irradiation --- keratinocytes --- epidermal layer --- cosmetics --- natural product --- LC-MS/MS --- metabolomics --- targeted analysis --- nontargeted analysis --- sample preparation --- derivatization --- validation --- biomarkers --- mycophenolate mofetil --- mycophenolic acid --- pediatric patients --- limited sampling strategy --- multiple linear regression --- therapeutic drug monitoring --- almonds --- HPLC --- authenticity --- PCA --- tocopherols --- phenolics --- method validation --- Miang --- catechins --- caffeine --- gallic acid --- walnut septum --- UAE --- SPE --- flavonoids --- functional --- HPLC-DAD --- biotin acceptor peptide (BAP) --- biotin ligase BirA --- liquid chromatography tandem mass spectrometry (LC-MS/MS) --- multiple reaction monitoring (MRM) --- protein–protein interactions (PPIs) --- proximity utilizing biotinylation (PUB) --- greener HPTLC --- paracetamol --- simultaneous determination --- microflow LC-MS --- mLC-MS/MS --- liver fibrosis --- hemopexin --- biomarker --- polyamine --- steroid --- breast cancer --- liquid chromatography–tandem mass spectrometry --- serum --- photoaging --- proteomics --- genomics --- Swietenia macrophylla --- UV irradiation --- keratinocytes --- epidermal layer --- cosmetics --- natural product --- LC-MS/MS --- metabolomics --- targeted analysis --- nontargeted analysis --- sample preparation --- derivatization --- validation --- biomarkers --- mycophenolate mofetil --- mycophenolic acid --- pediatric patients --- limited sampling strategy --- multiple linear regression --- therapeutic drug monitoring --- almonds --- HPLC --- authenticity --- PCA --- tocopherols --- phenolics --- method validation --- Miang --- catechins --- caffeine --- gallic acid --- walnut septum --- UAE --- SPE --- flavonoids --- functional --- HPLC-DAD --- biotin acceptor peptide (BAP) --- biotin ligase BirA --- liquid chromatography tandem mass spectrometry (LC-MS/MS) --- multiple reaction monitoring (MRM) --- protein–protein interactions (PPIs) --- proximity utilizing biotinylation (PUB) --- greener HPTLC --- paracetamol --- simultaneous determination --- microflow LC-MS --- mLC-MS/MS --- liver fibrosis --- hemopexin --- biomarker
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Since its early introduction by the Russian botanist Mikhail Semyonovich Tsvet, chromatography has been undoubtedly the most powerful analytical tool in analytical chemistry. Separation, qualitative analysis, and quantitative analysis can be achieved by choosing the right conditions. Thus, numerous gas chromatographic, liquid chromatographic, and supercritical fluid chromatographic methods have been developed and applied for most types of samples and most kinds of analytes. Additionally, older varieties such as paper chromatography and thin-layer chromatography were pioneer analytical techniques in many laboratories. Especially when hyphenated to spectrometric techniques, chromatography also allows the identification of separated analytes in a single run. Highly sophisticated equipment can answer all analytical problems very quickly. Chromatographers cooperate with many scientific fields and give their lights to medical doctors, veterinarians, food scientists, biologists, dentists, archaeologists, etc. In this Special Issue, analytical chemists were invited to prove that chromatography-based separation techniques are the ultimate analytical tool and their significant contribution is reflected in ten interesting articles.
Research & information: general --- Chemistry --- Analytical chemistry --- polyamine --- steroid --- breast cancer --- liquid chromatography–tandem mass spectrometry --- serum --- photoaging --- proteomics --- genomics --- Swietenia macrophylla --- UV irradiation --- keratinocytes --- epidermal layer --- cosmetics --- natural product --- LC-MS/MS --- metabolomics --- targeted analysis --- nontargeted analysis --- sample preparation --- derivatization --- validation --- biomarkers --- mycophenolate mofetil --- mycophenolic acid --- pediatric patients --- limited sampling strategy --- multiple linear regression --- therapeutic drug monitoring --- almonds --- HPLC --- authenticity --- PCA --- tocopherols --- phenolics --- method validation --- Miang --- catechins --- caffeine --- gallic acid --- walnut septum --- UAE --- SPE --- flavonoids --- functional --- HPLC-DAD --- biotin acceptor peptide (BAP) --- biotin ligase BirA --- liquid chromatography tandem mass spectrometry (LC-MS/MS) --- multiple reaction monitoring (MRM) --- protein–protein interactions (PPIs) --- proximity utilizing biotinylation (PUB) --- greener HPTLC --- paracetamol --- simultaneous determination --- microflow LC-MS --- mLC-MS/MS --- liver fibrosis --- hemopexin --- biomarker
Listing 1 - 10 of 17 | << page >> |
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