Search Results - "phosphorylation"
Suggested Topics within your search.
Suggested Topics within your search.
- Medicine 29
- Biology, life sciences 22
- Research & information: general 22
- Physiology 6
- Biochemistry 5
- Chemistry 5
- Neurosciences 5
- Technology: general issues 4
- Science: general issues 3
- Biology 2
- Botany & plant sciences 2
- Genetics (non-medical) 2
- Microbiology (non-medical) 2
- Neurology & clinical neurophysiology 2
- Oncology 2
- Pharmacology 2
- Science 2
- Biomedical engineering 1
- Biotechnology 1
- Cellular biology (cytology) 1
- Cognition & cognitive psychology 1
- Environmental economics 1
- Food & society 1
- History of engineering & technology 1
- Medical genetics 1
- Medical toxicology 1
- Molecular biology 1
- Pathology 1
- Public health & preventive medicine 1
-
1581
-
1582
Organic Chemistry with a Biological Emphasis
Published 2016Table of Contents: “…Chapter 9: Phosphate transfer reactions -- Section 1: Overview of phosphate groups -- Section 2: Phosphate transfer reactions - an overview -- Section 3: ATP, the principal phosphate group donor -- Section 4: Phosphorylation of alcohols -- Section 5: Phosphorylation of carboxylates -- Section 6: Hydrolysis of organic phosphates -- Section 7: Phosphate diesters in DNA and RNA -- Section 8: The organic chemistry of genetic engineering -- Chapter 10: Nucleophilic carbonyl addition reactions -- Section 1: Nucleophilic additions to aldehydes and ketones: an overview -- Section 2: Hemiacetals, hemiketals, and hydrates -- Section 3: Acetals and ketals -- Section 4: N-glycosidic bonds -- Section 5: Imines -- Section 5: A look ahead: addition of carbon and hydride nucleophiles to carbonyls -- Chapter 11: Nucleophilic acyl substitution reactions -- Section 1: Carboxylic acid derivatives -- Section 2: The nucleophilic acyl substitution mechanism -- Section 3: The relative reactivity of carboxylic acid derivatives -- Section 4: Acyl phosphates -- Section 5: Formation of thioesters, esters, and amides -- Section 6: Hydrolysis of thioesters, esters, and amides -- Section 7: Protein synthesis on the ribosome -- Section 8: Nucleophilic substitution at activated amides and carbamides -- Section 9: Nucleophilic acyl substitution reactions in the laboratory -- Section 10: A look ahead: acyl substitution reactions with a carbanion or hydride ion nucleophile -- Chapter 12: Reactions at the α-carbon, part I -- Section 1: Review of acidity at the α-carbon -- Section 2: Isomerization at the α-carbon -- Section 3: Aldol addition -- Section 4: α-carbon reactions in the synthesis lab - kinetic vs. thermodynamic alkylation products -- Interchapter: Predicting multistep pathways - the retrosynthesis approachChapter 13: Reactions at the α-carbon, part II -- Section 1: Decarboxylation -- Section 2: An overview of fatty acid metabolism -- Section 3: Claisen condensation -- Section 4: Conjugate addition and elimination -- Section 5: Carboxylation -- Chapter 14: Electrophilic reactions -- Section 1: Electrophilic addition to alkenes -- Section 2: Elimination by the E1 mechanism -- Section 3: Electrophilic isomerization -- Section 4: Electrophilic substitution -- Section 5: Carbocation rearrangements -- Chapter 15: Oxidation and reduction reactions -- Section 1: Oxidation and reduction of organic compounds - an overview -- Section 2: Oxidation and reduction in the context of metabolism -- Section 3: Hydrogenation of carbonyl and imine groups -- Section 4: Hydrogenation of alkenes and dehydrogenation of alkanes -- Section 5: Monitoring hydrogenation and dehydrogenation reactions by UV spectroscopy -- Section 6: Redox reactions of thiols and disulfides -- Section 7: Flavin-dependent monooxygenase reactions: hydroxylation, epoxidation, and theBaeyer-Villiger oxidation -- Section 8: Hydrogen peroxide is a harmful 'Reactive Oxygen Species' -- Chapter 16: Radical reactions -- Section 1: Overview of single-electron reactions and free radicals -- Section 2: Radical chain reactions -- Section 3: Useful polymers formed by radical chain reactions -- Section 4: Destruction of the ozone layer by a radical chain reaction -- Section 5: Oxidative damage to cells, vitamin C, and scurvy -- Section 6: Flavin as a one-electron carrier -- Chapter 17: The organic chemistry of vitamins -- Section 1: Pyridoxal phosphate (Vitamin B6) -- Section 2: Thiamine diphosphate (Vitamin B1) -- Section 3: Thiamine diphosphate, lipoamide and the pyruvate dehydrogenase reaction -- Section 4: Folate…”
Access online version
Electronic eBook -
1583
-
1584
-
1585
-
1586
-
1587
-
1588
-
1589
-
1590
-
1591
-
1592
-
1593
-
1594
-
1595
-
1596
-
1597
Cell and Molecular Biology What We Know & How We Found Out
Published 2023Table of Contents: “…Preface -- Chapter 1: Cell Tour, Life’s Properties and Evolution, Studying Cells -- Chapter 2: Basic Chemistry, Organic Chemistry and Biochemistry -- Chapter 3: Details of Protein Structure -- Chapter 4: Bioenergetics -- Chapter 5: Enzyme Catalysis and Kinetics -- Chapter 6: Glycolysis, the Krebs Cycle and the Atkins Diet -- Chapter 7: Electron Transport, Oxidative Phosphorylation and Photosynthesis -- Chapter 8: DNA Structure, Chromosomes and Chromatin -- Chapter 9: Details of DNA Replication & DNA Repair -- Chapter 10: Transcription and RNA Processing -- Chapter 11: The Genetic Code and Translation -- Chapter 12: Regulation of Transcription and Epigenetic Inheritance -- Chapter 13: Posttranscriptional Regulation of Gene Expression -- Chapter 14: Repetitive DNA, A Eukaryotic Genomic Phenomenon -- Chapter 15: DNA Technologies -- Chapter 16: Membrane Structure -- Chapter 17: Membrane Function -- Chapter 18: The Cytoskeleton and Cell Motility -- Chapter 19: Cell Division and the Cell Cycle -- Chapter 20: The Origins of Life -- Epilouge -- Appendix I: List of Figures & Sources -- Appendix II: Context-Embedded Youtube Videos…”
Access online version
Electronic eBook -
1598
The Rise of Mitochondria in Medicine
Published 2020DOAB: download the publication
DOAB: description of the publication
Electronic Book Chapter -
1599
-
1600