(Yes it has a different name). The 8-step process.
Jun 20, 2020•5 min•Season 4Ep. 6
Introduce telomeres as “protective caps” to ensure protection and quality replication of DNA sequences. Also discuss single copy DNA (important for genetic info) vs repetitive DNA (telomeres are an example of this).
Jun 19, 2020•12 min•Season 4Ep. 5
The strands (each of the 2 sugar phosphate backbones) run in opposite directions. That is all.
Jun 19, 2020•4 min•Season 4Ep. 4
Really just a recap of the previous module + the types of bonding that forms the Double Helix
Jun 19, 2020•4 min•Season 4Ep. 3
Discuss DNA’s basic structure as well as the nitrogenous base pairs.
Jun 19, 2020•5 min•Season 4Ep. 2
(Content heavy!) Transcription, Structural Differences of Nucleic Acids, mRNA Processing, and RNA Interference
Jun 16, 2020•18 min•Season 4Ep. 1
Search up the Lineweaver-Burke Plot on your own.
Jun 15, 2020•2 min•Season 3Ep. 7
Covalent Modifications are changes made to a protein to accomplish a variety of tasks (activate, deactivate, etc). I discuss Small Post-translational Modifications, Zymogens, and Suicide Inhibitors.
Jun 15, 2020•12 min•Season 3Ep. 6
MARTI (Motor, Antibodies, Receptors, Transport, and Ion Channel) Proteins. Don’t forget LITHOL for types of enzymes.
Jun 15, 2020•11 min•Season 3Ep. 5
Discuss allostery, feedback loops, and the phosphofructokinase enzyme and it how it is involved in a feedback loop. (Pretty long module)
Jun 14, 2020•15 min•Season 3Ep. 4
Details positive, negative, and noncooperation binding.
Jun 11, 2020•8 min•Season 3Ep. 3
Discusses the steady state assumption and its equation, the MM Equation, and the catalytic efficiency equation. Also notes Kcat and Km and their interpretations.
Jun 11, 2020•12 min•Season 3Ep. 2
I discuss the 3 assumptions that allow for the (many) conclusions we will reach later in this season.
Jun 11, 2020•10 min•Season 3Ep. 1
The effects of the pH and Temperature factors on catalysis.
Jun 11, 2020•5 min•Season 2Ep. 7
What they are and some examples. Discuss his minerals as well.
Jun 11, 2020•6 min•Season 2Ep. 6
LITHOL // Transferase, ligase, oxidoreductase, isomerase, hydroplane, lyase
Jun 11, 2020•12 min•Season 2Ep. 5
Details active and allosteric site binding and distinguishes between reaction and regulation.
Jun 09, 2020•8 min•Season 2Ep. 4
Details how catalysts affect a reaction.
Jun 09, 2020•5 min•Season 2Ep. 3
It’s in the title.
Jun 08, 2020•5 min•Season 2Ep. 2
Discusses catalytic conditions and collision theory.
Jun 08, 2020•2 min•Season 2Ep. 1
Notes on the final module from this chapter (Amino Acids and Proteins).
Jun 08, 2020•8 min•Season 1Ep. 10
Distinguish between activated and deactivated proteins and how each form is reached.
Jun 08, 2020•7 min•Season 1Ep. 9
Discusses the four levels of protein structure and what factors allow for distinction between them.
Jun 07, 2020•6 min•Season 1Ep. 8
FILLER EPISODE
Jun 04, 2020•44 sec•Season 1Ep. 7
Discuss pI in relation to pH and Zwitterions.
Jun 04, 2020•6 min•Season 1Ep. 6
Structure of Amino Acids
Jun 04, 2020•3 min•Season 1Ep. 5
I elaborate on special cases in Amino Acids.
Jun 04, 2020•8 min•Season 1Ep. 4
I detail how peptide bonds are formed (NYC-add-slim) and cleaved (specific and nonspecific methods).
Jun 02, 2020•7 min•Season 1Ep. 3
Should really be titled “Exception to the Dogma”. I detail 4 processes that violate the Central Dogma.
Jun 02, 2020•7 min•Season 1Ep. 2
Details what the dogma states and what it specifies.
Jun 02, 2020•3 min•Season 1Ep. 1
