Play all

Metabolism - overview 2

Metabolism - overview 3

Metabolism biochemistry - locations

Metabolism biochemistry - locations 2

Oxidative phosphorylation

Metabolism and metabolic pathways

Difference between A, B and Z DNA

Major groove and minor groove

Propeller twist

Sugar puckering

Z DNA

Triple stranded DNA

DNA structure | Slipped DNA

Repeat sequences in DNA

DNA structure | Quadruplex DNA

DNA structure | H DNA

DNA structure | Cruciform DNA

DNA structure | Bent DNA

Collagen protein

Protein structure | tertiary structure of proteins

Protein motifs and domains | secondary structure of proteins

Alpha helix | secondary structure | protein structure

DNA structure | cruciform DNA, quadruplex DNA, triple stranded DNA

Torsional angle

Ramachandran plot

Peptidoglycan structure and biosynthesis

Peptide bond structure | formation and rotation of peptide bonds

Structural motifs of protein

Keratin protein

Glycosaminoglycans (GAGs)

Beta sheet | beta pleated sheet | secondary protein structure

Bacterial flagella | structure and motility

Protein structure | Random coil structure

RNA structure and synthesis and types

Protein symmetry | structural symmetry

Michaelis menten plot and equation

Allosteric enzyme

Double reciprocal plot for competetive inhibition

Double reciprocal plot for mixed inhibition

Double reciprocal plot for uncompetitive inhibition

Double reciprocal plot

Progress curve of simple enzyme catalyzed reaction

Anfinsen's experiment and protein folding

Protein folding models

Protein folding mechanism

Proteolysis

Activation energy and Enzymes (Animation)

Enzyme kinetics animation

Zymogen activation

Enzyme substrate complex

Isozyme

Enzyme catalysis mechanism

Glycolysis

Feeder pathways of glycolysis

Fate of pyruvate

Galactose metabolism

Fructose metabolism

Breakdown of glycogen

Glucose transport from liver to blood cell

Glycogen metabolism

Citric acid cycle biochemistry

Dietary fat metabolism

Gluconeogenesis overview

Gluconeogenesis

Gluconeogenesis regulation

Role of glycogen phoisphorylase

Gluconeogenesis pathway

The Cori cycle

Citric acid cycle (TCA cycle)

Regulation of citric acid cycle

Pyruvate oxidation

Pyruvate dehydrogenase complex

Pentose phosphate pathway

Pyruvate dehydrogenase complex overview

Pyruvate dehydrogenase complex mechanism

Regulation of pyruvate dehydrogenase complex

Gluconeogenesis

Metabolism big picture

Electron transport chain animation

Citric acid cycle explanation

Amphibolic pathways of citric acid cycle

Binding change mechanism of ATP synthesis

Comparison between glycolysis and gluconeogenesis

Coupling of ETS and ATP synthesis

Glucose transporter 4 activity

Regulation of hexokinase 4

Glycogen metabolism regulation

Malate aspertate shuttle

Overview of glucose metabolism

Overview of oxidative fuel metabolism

Dolichol phosphate synthesis pathway

Nonoxidative deamination

Oxidative deamination

Transamination reaction mechanism

Tetrahydrofolate (THF)

S adenosyl methionine (SAM)

Transmethylation

The mitochondrial electron transport chain

The cori cycle

100

Neoglucogenesis

101

ATP synthesis (chemiosmotic theory)

102

Amino acid structures (part 2)

103

Amino acid structures (part 3)

104

Enzyme inhibition

105

Enzyme catalysis

106

Enzyme inhibitor (competitive inhibition)

107

Central dogma (replication, transcription and translation)

108

Amino acid structures (part 1)

109

Amino acid structures (part 2)

110

Protein splicing

Description:

Embark on a comprehensive 21-hour biochemistry journey covering a wide range of topics from metabolism to protein structure and enzyme kinetics. Explore the intricacies of DNA and RNA structures, including various conformations like A, B, and Z DNA, as well as complex structures such as triple-stranded and quadruplex DNA. Delve into protein structure and folding mechanisms, examining secondary and tertiary structures, structural motifs, and important proteins like collagen and keratin. Investigate enzyme kinetics, including Michaelis-Menten plots, allosteric enzymes, and various types of enzyme inhibition. Study major metabolic pathways such as glycolysis, gluconeogenesis, the citric acid cycle, and the electron transport chain, along with their regulations and interconnections. Examine amino acid structures, central dogma processes, and specialized biochemical concepts like the Cori cycle and chemiosmotic theory. This extensive biochemistry course provides a solid foundation for understanding the molecular basis of life and cellular processes. Read more

Biochemistry

Shomu's Biology

Add to list

#Science #Biology #Biochemistry #Chemistry #Enzyme Kinetics #Metabolic Pathways #Glycolysis

0:00 / 0:00