gene function: genes in action
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Gene Function: Genes in Action. Chapter 11. Key Knowledge: molecular genetics principal events in transcription and translation; cell reproduction: cell cycle, DNA replication, apoptosis; binary fission; gene regulation prokaryote chromosome and plasmids. Gene Action. - PowerPoint PPT PresentationTRANSCRIPT
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Gene Function: Genes in Action
Chapter 11Key Knowledge:molecular genetics principal events in transcription and translation; cell reproduction: cell cycle, DNA replication, apoptosis; binary fission; gene regulationprokaryote chromosome and plasmids
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Gene ActionGene action involves two processes:
Transcription (t/c)Translation (t/l)
After the next few slides we will be able to answer the following questions:How do we get from the bases found in DNA to
amino acids? How do we get from a bunch of amino acids to
proteins?
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RNA versus DNADNA
Usually double strandedDeoxyribose sugar Bases: C,G A,T
RNAUsually single strandedRibose sugarBases: C,G,A,U
Both contain a sugar, phosphate, and base.
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The Central Dogma:Transcription and Translation
Transcription
Translation
DNA
RNA
Protein
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TranscriptionHas a number of key processes:
mRNA is made using DNAmRNA is then modified
During transcription, a DNA sequence is read by RNA polymerase, which produces a complementary, antiparallel mRNA strand.
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DNA forms base pairs with RNA:
DNA RNAC GG CT AA U
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RNA PolymeraseRNA polymerase is an
enzyme complex that catalyses the transcription of DNA to RNA.
It begins transcription by binding to the DNA double helix and gradually unwinds the helix, exposing the DNA template to be transcribed.
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Transcription VideoVideo
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After TranscriptionAfter transcription occurs you are left with an
mRNA strand.However, this strand needs to be modified
further in order to be translated.This is called post-transcriptional modification.During this process, the introns in the mRNA
strand are removed, and the final mRNA molecule is chemically caped and a poly-A tail is attached.
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TranslationInvolves three types of RNA: mRNA, tRNA
and rRNATranslation involves the use of mRNA (from
transcription) held in a ribosome by rRNA (ribosomal RNA) to make a protein.
Amino acids are transferred by the tRNA (transfer RNA) to their matching codons, and hence a protein is assembled.
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TranslationTranslation has three main stages:
InitiationElongationTermination
All three stages occur on the ribosomesRibosomes contain 3 binding sites
E - TerminationP - elongationA - initiation
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TranslationtRNA brings amino acids to the ribosome
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tRNATransfer RNAamino acid bound
to one endAnticodon on the
other end complements mRNA codon
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tRNA FunctionAmino acids must be in the correct order for
the protein to function correctly.tRNA lines up amino acids using mRNA code
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Reading the DNA codeEvery DNA base pairs with a mRNA baseCodon - coding triplet of DNA bases and
corresponding mRNA basesEvery group of 3 mRNA bases encodes for a
single amino acid
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Translation VideoVideo
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Reading the mRNA code
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Reading the mRNA code
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Synthesising new DNADNA needs to be copied exactly so that it can
be passed from one cell to another. This process is called DNA replication.
During DNA replication each strand of parental DNA molecule acts as a template strand on which a new strand is synthesised.
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DNA ReplicationDNA replication begins when a region of
double-stranded DNA unwinds to form a region of single-stranded DNA.
Single nucleotide are the raw materials for the process of DNA replication.
The nucleotides come into place – where there is a G in the template strand, a C-containing nucleotide is brought into place.
In this way, the base sequence of the double-strand of DNA controls the order of the nucleotides in two new single strands of DNA.
This process is catalysed by the enzyme DNA polymerase.
Each nucleotide joins to its neighbour in the chain by a strong sugar-phosphate bond.
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The strand is always copied from 5’ to 3’.
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Which model of DNA replication?
How do we know which model is correct?
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The mystery of the model of DNA replication was solved in 1958 by Meselsohn and Stahl.They took bacterial cells and allowed them to
multiply for several generations in a growth medium containing ‘heavy’ nitrogen (15N) only, so that all nitrogen atoms in these bacterial DNA were heavy nitrogen.
These bacterial cells were then transferred to a new growth medium containing only normal nitrogen (14N).
After one generation, a sample of the new bacterial cells was collected. Any new DNA made by this new generation could only include 14N atoms.
The DNA was extracted and the relative weight of the DNA was determined using a centrifuge.
The lower down the tube, the heavier the DNA.
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They obtained a single band with their experiment. Showing that replicated DNA contained one original chain and one new chain. This means that DNA replication is semi-conservative
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apoptosis; binary fission; gene regulation, prokaryote chromosome.