chapter 17 ap biology from gene to protein. central dogma of molecular biology dna rna protein
TRANSCRIPT
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Chapter 17AP Biology
From Gene to Protein
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Central Dogma of Molecular Biology
DNA RNA Protein
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What is RNA?
• Contains the bases A, C, G, and U instead of T
• single-stranded (often folds onto itself)
• Three types of RNA: messenger RNA (mRNA), transfer RNA (tRNA) and ribosomal RNA (rRNA)
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Protein Synthesis
1. Transcription - DNA message is transcribed into mRNA and sent to ribosomes.
2. Translation - mRNA is translated into a Protein by a ribosome.
DNA RNA Protein
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Overview – Eukaryotic CellNotice that transcription and translation occur in different places in a eukaryotic cell.
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Overview – Prokaryotic Cell
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The Triplet Code
Note that the bases of mRNA are complementary to the template strand of DNA
The bases of mRNA are read in groups of three – each group is called a codon
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From mRNA to Amino Acids
• The mRNA base triplets are called codons• mRNA is written in the 5’ to 3’ direction• The codons code for each of the 20 amino
acids• The genetic code is redundant– More than one codon codes for each of the 20
amino acids
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The Genetic CodeThe three bases of an mRNA codon code for the 20 amino acids that are the subunits of proteins
The amino acids are designated by three letters
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Universal Nature of the Genetic Code
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Transcription
Promoter
•The DNA sequence at which RNA polymerase attaches is called the promoter•RNA polymerase adds RNA nucleotides to a growing RNA strand in the 5’ 3’ direction
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Transcription Unit
• The entire stretch of DNA that is transcribed into an RNA molecule
• A transcription unit may code for a polypeptide or an RNA (like tRNA or rRNA)
– RNA Polymerase II makes mRNA
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Terminator
• The DNA sequence that signals the end of transcription is called the terminator
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Stages of Transcription
1. Initiation
2. Elongation
3. Termination
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Initiation of Transcription at a Eukaryotic Promoter
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RNA Processing
• In eukaryotes, transcription results in pre-mRNA– Pre-mRNA undergoes processing to yield final
mRNA which leaves the nucleus and goes to the ribosomes
• In prokaryotes transcription results in mRNA– Processing of mRNA does not occur in prokaryotes– Transcription and translation can occur
simultaneously
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Processing of Pre-mRNA
• Addition of a 5’ cap– A modified form of a guanine nucleotide
• Addition of a poly-A tail– 50-250 adenine (A) nucleotides are added– This is referred to as the poly-A tail
• RNA splicing– Editing of the initial strand of mRNA (a cut and
paste job)
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Addition of 5’ cap and poly-A tail
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5’ cap and poly-A tail
• Both facilitate export of mRNA from the nucleus
• Both help protect mRNA from degradation by enzymes
• Both facilitate the attachment of mRNA to the ribosome
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RNA Splicing
• Only takes place in eukaryotic cells• Large sections are spliced out; these are called
introns• The sections that remain are called exons – “exons EXIT the nucleus”
• These exons are spliced together by a spliceosome to form the mRNA that leaves the nucleus and travels to the ribosomes
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RNA Splicing
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snRNPs and SpliceosomesSmall nuclear RNAs (snRNA) and small nuclear ribonucleoproteins (snRNPs) serve a catalytic function in the spliceosome
When RNA acts as a catalyst, it is called a ribozyme
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Alternative RNA Splicing
• Different regulatory proteins in different cells splice the pre-mRNA in different ways
• This is called alternative gene splicing• This allows for different combinations of
exons• This results in more than one polypeptide per
gene• This explains why we have fewer genes in our
genome than what was expected
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Transcription Animation
• https://www.youtube.com/watch?v=SMtWvDbfHLo
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17.4 Translation
• tRNA functions in transferring amino acids from the cytoplasm to a ribosome
• rRNA complexes with proteins to form the two subunits that make up ribosomes
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tRNA
• Each type of tRNA is specific for a particular amino acid
• At one end tRNA loosely binds the amino acid and at the other end it has a nucleotide triplet called the anticodon
• The anticodon allows it to pair specifically with a complementary codon on mRNA
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Structure of tRNA
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Basic Concept of TranslationCodons are the triplet nucleotides on mRNA
Anticodons are the triplet nucleotides on tRNA
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Wobble
• If one tRNA variety existed for each codon, there would need to be 61 tRNAs, there are only about 45, some can bind to more than codon
• The rule for base pairing is not as strict between the third base of a codon and an anticodon, this relaxation of base-pairing rules is called wobble
• Ex: a tRNA with the anticodon 3’-UCU-5’ can base pair with either the mRNA codon 5’-AGA-3’ or 5’-AGG-3’, both code for Arg
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Three Stages of Translation
• Initiation– Begins with the start codon AUG (always!)
• Elongation– Codon recognition– Peptide bond formation (between 2 a.a.)
• Termination– A stop codon is reached and translation stops
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Initiation
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Elongation
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Termination
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Translation Animation
• https://www.youtube.com/watch?v=TfYf_rPWUdY
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Folding of the Polypeptide
• Following release from the ribosome, the polypeptide then folds to its specific conformation
• Chaperonins are the proteins that help with this folding process
• The first 20 amino acids of the polypeptide serve as a signal peptide and act as a cellular zip code, directing the polypeptide to its final destination
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Targeting Proteins to the ER
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17.5 Point Mutations
• Mutations are alterations in the genetic material of the cell caused by mutagens
• Point mutations are alterations of just 1 base pair in a gene– Base-pair substitution• Silent mutations – have no effect on the encoded protein• Missense mutations – change one amino acid to another;
might still code for the correct amino acid• Nonsense mutations – change a regular amino acid codon
into a stop codon
– Insertions & deletions• Frameshift mutation – mRNA is read incorrectly
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A Point Mutation Disorder
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Base-Pair Substitution - Silent
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Base-Pair Substitution - Missense
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Base-Pair Substitution - Nonsense
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Frameshift Mutation- Insertion
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Frameshift Mutation - Deletion