Biochemistry

Tuesday, December 20, 2016

Thermodynamic stability of proteins.....#1

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Protein stability at folded state...#2

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Protein denaturing agents...#3

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Molten globule structure of proteins...#4

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m value of protein folding...#5

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Levinthal paradox...#6

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Protein folding: Hydrophobic collapse model...#8

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Blog Archive

  • ▼  2016 (94)
    • ▼  December (94)
      • Thermodynamic stability of proteins.....#1
      • Protein stability at folded state...#2
      • Protein denaturing agents...#3
      • Molten globule structure of proteins...#4
      • m value of protein folding...#5
      • Levinthal paradox...#6
      • Protein folding: Hydrophobic collapse model...#8
      • Framework model of protein folding...#9
      • Factors affecting protein stability....#10
      • Different models of protein folding....#11
      • Classic nucleation model of protein folding....#12
      • Anfinsen experiment...#13
      • Reaction mechanism of aldolase....#14
      • Urea cycle...#15
      • Mechanism of GAPDH...#16
      • PFK regulation....#17
      • Glycolysis...#18
      • Calvin cycle...#19
      • Reverse electron flow in purple bacteria...#20
      • Light reaction of green bacteria...#21
      • Light reaction of cyanobacteria...#22
      • Electron flow in purple sulfer bacteria...#23
      • Enzyme catalysis....#24
      • Enzyme inhibition...#25
      • Enzyme inhibitor (competitive inhibition)....#26
      • Amino acid structures (part 2)....#27
      • Amino acid structures (part 3)....#28
      • Amino acid structures (part 1)....#29
      • 6 Cellular respiration....#30
      • 5. Introduction to photosynthesis...#31
      • 4 Enzymes...#32
      • 1. Biochemistry of life, macromolecules....#34
      • Electron flow in sulfur chemolithotrophic bacteria...
      • Electron transfer in purple bacteria....#36
      • Electron flow in oxygenic photosynthesis....#37
      • Comparison of electron flow in purple and green su...
      • Electron flow in iron oxidizing bacteria...#39
      • Electron flow in hydrogen oxydizing bacteria....#40
      • ATP synthesis (chemiosmotic theory)...#41
      • Neoglucogenesis...#42
      • The mitochondrial electron transport chain...#43
      • The cori cycle...#44
      • The coordinated control of glycolysis and Krebs cy...
      • Regulation of Glycogen metabolism....#46
      • Regulation of citric acid cycle....47
      • Transmethylation...#48
      • Transamination reaction mechanism...#49
      • Tetrahydrofolate (THF)....#50
      • S adenosyl methionine (SAM)....#51
      • Oxidative deamination...#52
      • Nonoxidative deamination...#53
      • Antisense RNA technology....#54
      • Electron transport chain animation....#55
      • Citric acid cycle explanation....#56
      • Dolichol phosphate synthesis pathway...#57
      • Regulation of hexokinase 4....#58
      • Overview of oxidative fuel metabolism....#59
      • Overview of glucose metabolism....#60
      • Malate aspertate shuttle....#61
      • Glycogen metabolism regulation....#62
      • Comparison between glycolysis and gluconeogenesis....
      • Glucose transporter 4 activity...#64
      • Coupling of ETS and ATP synthesis....#65
      • Binding change mechanism of ATP synthesis....#66
      • Amphibolic pathways of citric acid cycle....#67
      • The Cori cycle...#68
      • RNA polymerase structure in detail.....#69
      • RNA polymerase Sigma factor and clefts....#70
      • Citric acid cycle (TCA cycle)....#71
      • Pyruvate oxidation....#72
      • Regulation of citric acid cycle....#73
      • Pyruvate dehydrogenase complex....#74
      • Pentose phosphate pathway....#75
      • Pyruvate dehydrogenase complex overview....#76
      • Gluconeogenesis......#77
      • Pyruvate dehydrogenase complex mechanism....#78
      • Regulation of pyruvate dehydrogenase complex....#79
      • Metabolism big picture.....#80
      • Gluconeogenesis pathway......#81
      • Role of glycogen phoisphorylase......#82
      • Gluconeogenesis regulation.....#83
      • Gluconeogenesis overview.....#84
      • Gluconeogenesis....#85
      • Dietary fat metabolism....#86
      • Citric acid cycle biochemistry.....#87
      • Glycogen metabolism....#88
      • Breakdown of glycogen....#89
      • Glucose transport from liver to blood cell...#90
      • Galactose metabolism....#91
      • Fructose metabolism....#92
      • Feeder pathways of glycolysis....#93
      • DNA repair overview....#94
      • Fate of pyruvate....#95
      • Glycolysis........#96
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