From RNA to protein: the second half of gene espression
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Transcript From RNA to protein: the second half of gene espression
Previously on Bio308
Genes: definition and parts
Nucleic Acids:
DNA: basic parts,
the bonds that link bases into strands
the bonds that make strands into double helix
RNA: basic parts and bonds
differences between it and DNA
types of RNA in the cell
Transcription: Copying genetic information from DNA to mRNA
what are the steps? (transcription and processing)
where does it occur?
why is it necessary?
Now on Bio308
Translation: Converting the blueprint into a working model
36”
72’
Grade P red oak, inlay mahaog
Nucleotides to proteins: Step II
Questions:
Are cytosolic and integral membrane proteins transcribed
the same way?
Are they translated the same way?
Three basic steps
Initiation
Elongation
Termination
From nucleotides to amino acids---How?
Fig 4-26
Two adaptors used: tRNA and amino acyl tRNA-synthetases
*Codons, Anticodons, and Wobble
*‘Charging’ of tRNA
*Basepairing with a tRNA
Fig 4-28
*Using Inosine w/ A, U, or C
Fig4-26
Fig 4-28
That Degenerate Genetic code
# codons > # tRNAs > # aminoacids
CCAGAGCAGACUGCUUAGCUUCAUCCCACGAACGGGAG
P Q E S QR T L AL STOPS L F H I P P T R N T GG ?
R
A D C L A
S S H E R
E
How did they figure out the genetic code?
Strings of identical nucleotides
Nirenberg
IFs
Players?
mRNA
Initiation factors
5’
Met
3’
Small subunit of ribosome
AAAAAAAA
Initiator tRNA
Once initiation complex forms large subunit of ribosome is recruited
How does the complex know where to start translating?
In Bacteria?
In eukaryotes?
Elongation CBI 6.4 Translation
Players?
mRNA
Aminoacyl- tRNAs
Elongation factors
P
site
E site
A site
Ribosome
Requires GTP hydrolysis
Results in peptide bond formation
Chain grows from N to C
Termination
Players?
mRNA
Termination factors
Ribosome
How does it work?
Why does the chain end?
Fig 4-40
The Protein
What happens to the protein?
Folding
Sorting
What happens to the mRNA, the ribosomes & the tRNA?
Reuse
Polysomes
Translation, Bipolar Disorder, and ……
What does this have to do with bipolar disorder?
Nobel Prize for Medicine 2000:
Dopamine as a neurotransmitter and its role in brain dysfunctions
(Dopamine is the catecholamine implicated in bipolar disorder)
Tale of 2 proteins--a stretched metaphor
Protein 1: Many neurotransmitters are amino acids,
amino acid derivatives (like dopamine),
or short peptides
Neuropeptides are synthesized in cytosol sorted/package
into vesicles for use. (as is dopamine- but not through translation)
Protein 2: Neurotransmitter receptors are proteins.
Synthesized in cytosol, inserted into ER membrane
and sent to proper location on plasma membrane
Broad Hypothesis: Perhaps Bipolar is a result of problem(s)
Getting the transmitters or the receptors to the right place at
the right time.
Broad Idea: Perhaps Bipolar is a result of
problem(s) getting the transmitters or the
receptors to the right place at the right time?
How do we study this?--- examine what ‘should’ happen and
look for changes from that ‘standard’
How does neurotransmitter packaging occur?
Synaptic vesicles
What are they?
Vesicles are membrane spheres
Neurotransmitters are polar
How do they get in?