Download - Chapter 11 (Part 3) Translation From Gene to Protein Honors Biology Ms. Gaynor Lecture for 3/24/09
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Chapter 11(Part 3)
TranslationFrom Gene to Protein
Honors BiologyMs. Gaynor
Lecture for 3/24/09
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REVIEW…Translation
mRNA polypeptide (protein)
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Type of RNA Function Job Picture
mRNA (messenger RNA)
Brings message from DNA (DNA instructions) to
ribosome to make protein
tRNA (transfer RNA)
Transfers/moves amino acids to
ribosomes
rRNA (ribosomal RNA)
Makes up ribosomes along
with proteins
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tRNA
A cell translates mRNA message into protein with help from transfer RNA (tRNA)Type of RNA ~80 nucleotides“t” shapeCarries amino acidsMatches codons to anticodons
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tRNA
Molecules of tRNA are not all identicalEach carries a specific amino acidEach has an specific anticodon on
the other endAminoactyl Synthase (enzyme) puts tRNA together with it amino acid
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tRNA Assembly
ACTIVATED tRNA
Aminoactyl tRNA Synthase
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RibosomesHelp bind tRNA anticodons with mRNA codons during
translation
Found on ROUGH Endoplasmic Reticulum RER (“bound”) or in cytoplasm (“free”)
Anticodon (tRNA) = codon (mRNA)
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tRNA(with
anticodons)
mRNA(with
codons)
AMINO ACIDS
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REVIEW…The Genetic Code
It’s a table used that TRANSLATES RNA nucleotides called CODONS (or mRNA “letters”) into one of the 20 amino acids3 letter mRNA “word” = 1 amino acid
There are 4 different RNA “letters” that can be used
A, U, C, and G
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THE GENETIC
CODE
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RibosomesThere are 2 ribosomal subunits
Constructed of proteins and ribosomal RNA or rRNA
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Binding Sites in a Ribosome
The ribosome has three binding sites for tRNA The P site The A site The E site
E P A
P site (Peptide Bond-tRNAbinding site)
E site (Exit site)
mRNAbinding site
A site (Amino acid-tRNA binding site)
Largesubunit
Smallsubunit
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\
Amino acid Growing polypeptide
Next amino acidto be added topolypeptide chain
tRNA
mRNA
Codons
3
5
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Building a Polypeptide
Translation can be divided into 3 phasesInitiationElongationTermination
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Initiation of Translation
initiation stage brings togethermRNAtRNA bearing 1st amino acid
(“start”) called MET2 subunits of a ribosome come
together
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Large ribosomal subunit
Initiator tRNA
mRNA
mRNA binding site Smallribosomalsubunit
Translation initiation complex
P site
GDPGTP
Start codon
MetMet
U A C
A U G
E A
3
5
5
3
35 35
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Elongation
Amino acids are added one by one to the preceding amino acid
Peptide bonds are formed
Amino acid
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Termination of Translation
When the ribosome reaches a stop codon on the mRNAThere are 3 stop codons
UAA, UAG, and UGARelease factor (protein) binds to stop codon in A site
(NOT tRNA) polypeptide released
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Termination of Translation
Release factor
Freepolypeptide
Stop codon(UAG, UAA, or UGA)
5
3 35
35
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Figure 17.13
TRANSCRIPTION
TRANSLATION
DNA
mRNA
Ribosome
Polypeptide
Polypeptide
Aminoacids
tRNA with amino acid attachedRibosome
tRNA
Anticodon
mRNA
Trp
Phe Gly
A G C
A A A
C C G
U G G U U U G G C
Codons5 3
“EMPTY”tRNA
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Polypeptide 3D Protein Primary Structure
Amino acids is a row (LINEAR) Secondary Structure
Amino Acids BEND and FOLD towards each other
Tertiary Structure Amino acids BIND to each other 3D shape made
Quartnary structure (only some) 2 or more polypeptides BIND to
each other
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1 2
34
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Translation (Protein Synthesis) Animation
http://www.wisc-online.com/objects/index_tj.asp?objID=AP1302
http://highered.mcgraw-hill.com/sites/0072437316/student_view0/chapter15/animations.html#
http://www.ucopenaccess.org/courses/APBiologyI/course%20files/multimedia/lesson13/lessonp.html
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Chapter 11(Part 7)
Translation & Mutations
From Gene to ProteinHonors Genetics
Ms. Gaynor
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Review…
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Review…
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Review…DNA Template (Gene)
TAC GGG CTC AAA TAC ACG ACT
What is the mRNA transcript?5’ AUG CCC GAG UUU AUG UGC UGA 3’
What is the amino acid sequence?START- Pro- Glu-Phe- Met-Cys-STOP
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MutationsMutations
Are changes in the genetic material (DNA) of a cell
2 TYPES1. Point mutations can affect protein
structure and functionAre changes in just one base pair of a
gene
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POINT MUTATIONSThe change of a single nucleotide in the
DNA’s template strandCan lead to the production of
an abnormal protein or…the same protein
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Point Mutations
Point mutations within a gene can are calledBase-pair substitutions
Can results in a mutation (change) that is
harmfulneutral (not harmful or helpful) beneficial
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Substitutions2 TYPES
missense (wrong aa)1 wrong aa is added to polypeptide
nonsense (prematurely STOP)The change in DNA leads to an early STOP codon polypeptide is SHORTEN!!
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POINT MUTATION ANALOGY…
TEMPLATE: THE CAT ATE THE RAT
POINT MUTATION: THE CAT ATE THE RAT THE CAT ATE THE BAT What kind of point
mutation is this? MISSENSE
THE CAT ATE THE XAT What kind of point mutation is this?
NONSENSE
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What is the “wobble” effect?
The last base (nucleotide) in a codon is said to be in the WOBBLE position. codon mutation may encode the same amino acid
Leads to NEUTRAL or SILENT mutations Not harmful or helpful
SILENT MUTATIONS Mutation does not change “end result”…change in
DNA still makes the SAME amino acid NO noticeable change occurs a change from AUU to AUC will still encode
Isoleucine
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What is a neutral mutation?
May or may not affect the resulting protein. For example, if the codon AAA is mutated to
AGA, arginine would be used in the resulting protein instead of lysine
These amino acids are chemically similar and may not have a large effect in the protein or its function
IF this change cause the protein to not function (and be LETHAL to organism) then it is not a neutral mutation but rather a missense mutation
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2. Frameshift Mutations
Insertions and deletionsAre additions or losses of nucleotide pairs
in a geneproduce frameshift mutations
2 TYPESInsertionsDeletions
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FRAMESHIFT MUTATION ANALOGY…
TEMPLATE: THE CAT ATE THE RAT
ADDITION of “B” MUTATION: THE CAT ATE THE RAT THE CAT BAT ETH ERA T What kind of
frameshift mutation is this? INSERTION
SUBTRACTION of “A” MUTATION: THE CAT ATE THE RAT THE CAT TET HER AT What kind of frameshift
mutation is this? DELETION
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Which is more harmful?
Typically, frameshift mutations are more harmful BUT some point mutations can be LETHALEx: Tay Sachs and Cystic
Fibrosis
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Other Types of Mutations
Inversions“Flip Flops”
Nucleotides trade places on each strand
Deletions (2+ nucleotides)Many nucleotides are deleted at
once
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Causes of Mutations Inherited mutations
From mom and dadSpontaneous mutations
occurs during DNA replicationEnvironmental mutations
(Mutagens)physical or chemical agents that can
cause mutations Ex: Sun, viruses, chemicals