1. DNA-->RNA-->Protein-->Trait
Protein Synthesis
DNA-->RNA-->Protein-->Trait

2. One Gene one Protein Beadle and Tatum Worked with the Mold Neurospora.
Looked at metabolic pathway to synthesize the amino acid Arginine

3. Studies of inherited metabolic disorders first suggested that phenotype is expressed through proteins
Studies of the bread mold Neurospora crassa led to the one gene-one polypeptide hypothesis
(has a narrator)
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Figure 10.6B

4. Mutate wild type fungus
*Supply all mutant isolates with
complete media
*Grow purified mutants
with minimal media
to find nutritional mutants
*Determine what is the nutritional limitation
 find mutation

5. There for the gene used to produce an enzyme
that helps cells manufacture Arginine amino acid
was mutated in that fungal strain

6. . Beadle and Tatum This may not be totally accurate

7. Central Dogma Overview: http://www. wiley

8. RNA vs DNA Differences between the two nucleotides Sugar
Ribose instead of deoxyribose
Nitrogenous bases
Uracil instead of Thymine

9. Types of RNA rRNA tRNA M-RNA HnRNA
Ribosomes are made or rRNA and Proteins
tRNA
Folded into the “t” shape and carry an amino acid on the end
M-RNA
Single Stranded
HnRNA
SNRPs

10. rRNA and Proteins

11. tRNA

12. Central Dogma Overview: http://www. wiley

13. Transcription vs Translation
Transcription (DNA to RNA)
Copying mRNA from DNA
Promotor sequence
Some are modified before leaving nucleus (Eukaryotes)
Prokaryotes are not modified
Translation (RNA to Amino Acid)
Initiation
Elongation
Termination

14. Transcription Sense vs Antisense.
Sense strant is the coding strand and would have the same sequence as the mRNA with U’s replacing T’s.
The Antisense strand is the strand that is transcribed.
↓Template strand
RNA polymerase
Reads DNA template 3’5’,
writes mRNA 5’ 3’

15. Transcription Promotor RNA Polymerase Nucleoside Triphosphates
transcription detail: Detailed realistic model simple animation
Promotor
Site that the RNA polymerase recognizes and binds to begin the process of Transcription
RNA Polymerase
Enzyme that reads 3’5’ and writes a 5’3’ mRNA
Nucleoside Triphosphates
The nucleotides that are put in by the polymerases
Terminator
Sequence that will code for a releasing factor

16. transcription detail: http://bcs. whfreeman
transcription detail: Detailed realistic model simple animation
Transcription

17. Processing or not

18. Splicing (Eukaryotes)
Splicing (Eukaryotes)

19. Cap and Tail Summary- eukaryotic control of gene expression
mRNA Processing: The Movie from the “Virtual Cell Animation collection: molecular and Cellular biology
Summary- eukaryotic control of gene expression

20. Summary of Translation
Intro overview
Summary of Translation
Step by step

21. Ribosome Sites

22. Ribosome Sites http://bcs. whfreeman

23. mRNA codes for AA http://bcs. whfreeman
Degenerate Code

24. Translation
T-RNA molecules are matched to the proper amino acid by an enzyme.
Initiation, elongation, and translocation, and termination
Location and Process

25. Ribosome

26. Mutations and Protein Synthesis
Can produce new alleles
Must be in the gametes to be passed on
Types of Mutations
Point
Can be harmless because of redundency (Degenerate) of code
Chromosomal
Duplication
Inversion
Translocation
Deletion

27. Point Mutation and Frame Shift

28. Point Mutation and Sickle Cell http://www. cleanvideosearch

29. Outcome of Sicke Cell

30. Translocation

31. Inversion

32. Deletion

33. Duplication

35. Ribosome with tRNA and Amino Acids