1st Edition
BCHM 3050: Essential Elements of Biochemistry
School: Clemson University (Clemson )
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Pages: 2Calculations for the different amounts of ATP produced through out the various cycles and in different cell types. -
Pages: 3Finish the discussion of the components of the electron transport chain. Also, discussed how different amounts of ATP are synthesized during different processes, such as glycolysis, the citric acid cycle, and the electron transport chain. -
Pages: 3Discussion on alternate oxidase in plants followed by the detailed steps in which ATP is synthesized during aerobic respiration. -
Pages: 3Discussion of the four different complexes and molecules involved in the transport of electrons in the Electron Transport Chain. -
Pages: 2Finish discussion of the Kreb's Cycle and begin discussion of the Electron Transport Chain. Specifically address oxidation and reduction reactions. -
Pages: 3Overview of the citric acid cycle followed by in depth discussion on the individual enzymes involved in this process. -
Pages: 3Finish the discussion on the basic steps of glycolysis and the importance enzymes and intermediates involved. Then begin to discuss the types of fermentation. -
Pages: 3Discussion of the process of glycolysis and the details of the first seven steps of this process. -
Pages: 2Discussion on the structures that make up carbohydrates and some common examples of different types of carbohydrates. -
Pages: 4Discussion of a case study that explores the genes that affect skin color and how skin color has adapted over time. Specifically, discussing a study done on golden fish in which their pigmentation was observed and genes were traced. -
Pages: 3Discussion of the different types of mutations found in DNA including substitution mutations, frameshift mutations, translations, and transversions. -
Pages: 5Discussion of the post-translation modifications and the various proteins/molecules involved in regulation of transcription. Comparison between the methods used in prokaryotes and eukaryotes. -
Pages: 2Discussion of eukaryotic gene expression via transcriptional regulation, epigenetic regulation, and the proteins and DNA involved in the process. -
Pages: 2Discussion on the elongation and termination stages in translation in prokaryotes followed by the comparison of the differences between the process of translation in prokaryotes versus eukaryotes. -
Pages: 6Discussion on the differences between codons and anticodons as well as the process of translation to synthesize proteins. -
Pages: 3Discussion of the differences between transcription in eukaryotes and prokaryotes. Specifically, the modifications required for the mRNA made in eukaryotes. -
Pages: 4Discussion on the idea of one gene one enzyme and the experiments that lead to this idea. Also, discussion on the steps in transcription and the molecules involved. -
Pages: 2Continue the discussion of the function of telomerase followed by the description of how PCR works. -
Pages: 5Discussion of the three main steps of DNA replication and the molecules that are involved in each step. Also, discuss the importance of and properties of telomerase.