Chapter 15 Genes and How They Work. The Nature of Genes Early ideas to explain how genes work came...
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Transcript of Chapter 15 Genes and How They Work. The Nature of Genes Early ideas to explain how genes work came...
![Page 1: Chapter 15 Genes and How They Work. The Nature of Genes Early ideas to explain how genes work came from studying human diseases Archibald Garrod – 1902.](https://reader036.fdocuments.us/reader036/viewer/2022062517/56649eca5503460f94bd8331/html5/thumbnails/1.jpg)
Chapter 15
Genes and How They Work
![Page 2: Chapter 15 Genes and How They Work. The Nature of Genes Early ideas to explain how genes work came from studying human diseases Archibald Garrod – 1902.](https://reader036.fdocuments.us/reader036/viewer/2022062517/56649eca5503460f94bd8331/html5/thumbnails/2.jpg)
The Nature of Genes
• Early ideas to explain how genes work came from studying human diseases
• Archibald Garrod – 1902 – Recognized that alkaptonuria is inherited via a
recessive allele– Proposed that patients with the disease lacked a
particular enzyme
• These ideas connected genes to enzymes
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Beadle and Tatum – 1941
• Deliberately set out to create mutations in chromosomes and verify that they behaved in a Mendelian fashion in crosses
• Studied Neurospora crassa– Used X-rays to damage DNA– Looked for nutritional mutations
• Had to have minimal media supplemented to grow
![Page 4: Chapter 15 Genes and How They Work. The Nature of Genes Early ideas to explain how genes work came from studying human diseases Archibald Garrod – 1902.](https://reader036.fdocuments.us/reader036/viewer/2022062517/56649eca5503460f94bd8331/html5/thumbnails/4.jpg)
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• Beadle and Tatum looked for fungal cells lacking specific enzymes– The enzymes were required for the biochemical
pathway producing the amino acid arginine– They identified mutants deficient in each enzyme of
the pathway
• One-gene/one-enzyme hypothesis has been modified to one-gene/one-polypeptide hypothesis
![Page 5: Chapter 15 Genes and How They Work. The Nature of Genes Early ideas to explain how genes work came from studying human diseases Archibald Garrod – 1902.](https://reader036.fdocuments.us/reader036/viewer/2022062517/56649eca5503460f94bd8331/html5/thumbnails/5.jpg)
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![Page 6: Chapter 15 Genes and How They Work. The Nature of Genes Early ideas to explain how genes work came from studying human diseases Archibald Garrod – 1902.](https://reader036.fdocuments.us/reader036/viewer/2022062517/56649eca5503460f94bd8331/html5/thumbnails/6.jpg)
Central Dogma
• First described by Francis Crick• Information only flows from
DNA → RNA → protein• Transcription = DNA → RNA • Translation = RNA → protein• Retroviruses violate this order using reverse
transcriptase to convert their RNA genome into DNA
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RNA
• All synthesized from DNA template by transcription– Messenger RNA
(mRNA)– Ribosomal RNA
(rRNA)– Transfer RNA (tRNA)– Small nuclear RNA
(snRNA)– Signal recognition
particle RNA– Micro-RNA (miRNA)
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![Page 8: Chapter 15 Genes and How They Work. The Nature of Genes Early ideas to explain how genes work came from studying human diseases Archibald Garrod – 1902.](https://reader036.fdocuments.us/reader036/viewer/2022062517/56649eca5503460f94bd8331/html5/thumbnails/8.jpg)
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Genetic Code
DNA encoded amino acid orderCodon – block of 3 DNA nucleotides corresponding to an amino acidIntroduced single nulcleotide insertions or deletions and looked for mutations ---Frameshift mutations
Indicates importance of reading frame
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Marshall Nirenberg identified the codons that specify each amino acid
Code is degenerate, meaning that some amino acids are specified by more than one codon
![Page 10: Chapter 15 Genes and How They Work. The Nature of Genes Early ideas to explain how genes work came from studying human diseases Archibald Garrod – 1902.](https://reader036.fdocuments.us/reader036/viewer/2022062517/56649eca5503460f94bd8331/html5/thumbnails/10.jpg)
Code practically universal
• Strongest evidence that all living things share common ancestry
• Advances in genetic engineering
• Mitochondria and chloroplasts have some differences in “stop” signals
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Prokaryotic transcription
• Single RNA polymerase
• Initiation of mRNA synthesis does not require a primer
• Requires– Promoter – Start site Transcription unit– Termination site
![Page 12: Chapter 15 Genes and How They Work. The Nature of Genes Early ideas to explain how genes work came from studying human diseases Archibald Garrod – 1902.](https://reader036.fdocuments.us/reader036/viewer/2022062517/56649eca5503460f94bd8331/html5/thumbnails/12.jpg)
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• Promoter– Forms a recognition and binding site for the
RNA polymerase– Found upstream of the start site– Not transcribed– Asymmetrical – indicate site of initiation and
direction of transcription
![Page 13: Chapter 15 Genes and How They Work. The Nature of Genes Early ideas to explain how genes work came from studying human diseases Archibald Garrod – 1902.](https://reader036.fdocuments.us/reader036/viewer/2022062517/56649eca5503460f94bd8331/html5/thumbnails/13.jpg)
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Copyright © The McGraw-Hill Companies, Inc. Permission required for reproduction or display.
Upstream
Downstream
׳5 ׳3
b.
Coding strand
Template strand
׳5׳3
Start site (+1)
TATAAT– Promoter (–10 sequence)
TTGACA–Promoter (–35 sequence)
Holoenzyme
’
a.
Prokaryotic RNA polymerase
Coreenzyme
![Page 14: Chapter 15 Genes and How They Work. The Nature of Genes Early ideas to explain how genes work came from studying human diseases Archibald Garrod – 1902.](https://reader036.fdocuments.us/reader036/viewer/2022062517/56649eca5503460f94bd8331/html5/thumbnails/14.jpg)
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Copyright © The McGraw-Hill Companies, Inc. Permission required for reproduction or display.
Upstream
Downstream
׳5 ׳3
binds to DNA
b.
Helix opens at– 1 0 se q uence
Codingstrand
Templatestrand
׳5 ׳3
׳5׳3
Start site (+1)
TATAAT– Promoter (– 10 sequence)
TTGACA – Promoter (–35 sequence)
׳5׳3
Holoenzyme
9
a.
Prokaryotic RNA polymerase
Coreenzyme
Recognize specific signal in DNA
σCore enzyme
![Page 15: Chapter 15 Genes and How They Work. The Nature of Genes Early ideas to explain how genes work came from studying human diseases Archibald Garrod – 1902.](https://reader036.fdocuments.us/reader036/viewer/2022062517/56649eca5503460f94bd8331/html5/thumbnails/15.jpg)
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Upstream
Downstream
׳5 ׳3
b.
Codingstrand
Templatestrand
׳5׳3
Start site (+1)
TATAAT– Promoter (–10 sequence)
TTGACA–Promoter (–35 sequence)
Holoenzyme
9
a.
Prokaryotic RNA polymerase
Coreenzyme
binds to DNA
dissociates
ATP
Start site RNAsynthesis begins
Transcriptionbubble
RNA polymerase boundto unwound DNA
Helix opens at–10 sequence
׳5 ׳3
׳5׳3
Copyright © The McGraw-Hill Companies, Inc. Permission required for reproduction or display.
Initiation
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Transcription bubble – contains RNA polymerase, DNA template, and growing RNA transcript
Elongation
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Termination
1. Terminator sequences: G-C base-pairs --- A-T base-pairs-
22 phosphodiester bonds (RNA-DNA) in the GC regions called hairpin, (RNAP stop)
22 4 or > 4 U (A-U is the weakest of the 4 hybrid base pairs, cannot hold the hybrid strands)
22 RNA dissociates from the DNA
Signal hairpin AU release
![Page 18: Chapter 15 Genes and How They Work. The Nature of Genes Early ideas to explain how genes work came from studying human diseases Archibald Garrod – 1902.](https://reader036.fdocuments.us/reader036/viewer/2022062517/56649eca5503460f94bd8331/html5/thumbnails/18.jpg)
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Prokaryotic transcription is coupled to translation
Operon1. Grouping of functionally related genes
2. Multiple enzymes for a pathway can be regulated together
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Eukaryotic Transcription
• 3 different RNA polymerases– RNA polymerase I transcribes rRNA– RNA polymerase II transcribes mRNA and
some snRNA– RNA polymerase III transcribes tRNA and
some other small RNAs
• Each RNA polymerase recognizes its own promoter
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• Initiation of transcription– Requires a series of transcription factors
• Necessary to get the RNA polymerase II enzyme to a promoter and to initiate gene expression
• Interact with RNA polymerase to form initiation complex at promoter
• Termination– Termination sites not as well defined
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TATA box
Transcriptionfactor
EukaryoticDNA
Other transcription factors
Eukaryotic Transcription3 different RNA polymerases
1. RNA polymerase I : rRNA2.RNA polymerase II: mRNA and
some snRNA3.RNA polymerase III : tRNA and
some other small RNAs
Each RNA polymerase recognizes its own promoter
![Page 22: Chapter 15 Genes and How They Work. The Nature of Genes Early ideas to explain how genes work came from studying human diseases Archibald Garrod – 1902.](https://reader036.fdocuments.us/reader036/viewer/2022062517/56649eca5503460f94bd8331/html5/thumbnails/22.jpg)
Please note that due to differing operating systems, some animations will not appear until the presentation is viewed in Presentation Mode (Slide Show view). You may see blank slides in the “Normal” or “Slide Sorter” views. All animations will appear after viewing in Presentation Mode and playing each animation. Most animations will require the latest version of the Flash Player, which is available at http://get.adobe.com/flashplayer.
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Copyright © The McGraw-Hill Companies, Inc. Permission required for reproduction or display.
Other transcription factors RNA polymerase II
TATA box
Transcriptionfactor
EukaryoticDNA
Initiationcomplex
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• In eukaryotes, the primary transcript must be modified to become mature mRNA– Addition of a 5′ cap
• Protects from degradation; involved in translation initiation
– Addition of a 3′ poly-A tail• Created by poly-A polymerase; protection from
degradation
– Removal of non-coding sequences (introns)• Pre-mRNA splicing done by spliceosome
mRNA modifications
![Page 25: Chapter 15 Genes and How They Work. The Nature of Genes Early ideas to explain how genes work came from studying human diseases Archibald Garrod – 1902.](https://reader036.fdocuments.us/reader036/viewer/2022062517/56649eca5503460f94bd8331/html5/thumbnails/25.jpg)
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Copyright © The McGraw-Hill Companies, Inc. Permission required for reproduction or display.
A A A A A A A
Methyl group
3´ poly-A tail
5´ cap
CH2
HO OH
P P P
G
mRNA
PP
P
+N+
CH35´
3´
CH3
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Eukaryotic pre-mRNA splicing
• Introns – non-coding sequences
• Exons – sequences that will be translated
• Small ribonucleoprotein particles (snRNPs) recognize the intron–exon boundaries
• snRNPs cluster with other proteins to form spliceosome– Responsible for removing introns
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Copyright © The McGraw-Hill Companies, Inc. Permission required for reproduction or display.
E1 I1 E2 I2 E3 I3 E4 I4
Transcription
Introns are removed
Intron
Exon
DNA
1
2 34
5 67
a.
b. c.
Exons
Introns
mRNA
Mature mRNA
cap ׳poly-A tail5 ׳3
cap ׳5 poly-A tail ׳3
Primary RNA transcript
DNA template
b: Courtesy of Dr. Bert O’Malley, Baylor College of Medicine
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Copyright © The McGraw-Hill Companies, Inc. Permission required for reproduction or display.
snRNPsExon 2Exon 1 Intron
Branch point A
snRNA
Exon 1 Exon 2
Lariat
5´
5´
3´
3´
5´
5´
3´
3´
2. snRNPs associate with other factors to form spliceosome.
4. Exons are joined; spliceosome disassembles.
1. snRNA forms base-pairs with 5´ end of intron, and at branch site.
3. 5´ end of intron is removed and forms bond at branch site, forming a lariat. The 3´ end of the intron is then cut.
Mature mRNA
Excisedintron
SpliceosomeA
A
A
![Page 29: Chapter 15 Genes and How They Work. The Nature of Genes Early ideas to explain how genes work came from studying human diseases Archibald Garrod – 1902.](https://reader036.fdocuments.us/reader036/viewer/2022062517/56649eca5503460f94bd8331/html5/thumbnails/29.jpg)
Please note that due to differing operating systems, some animations will not appear until the presentation is viewed in Presentation Mode (Slide Show view). You may see blank slides in the “Normal” or “Slide Sorter” views. All animations will appear after viewing in Presentation Mode and playing each animation. Most animations will require the latest version of the Flash Player, which is available at http://get.adobe.com/flashplayer.
![Page 30: Chapter 15 Genes and How They Work. The Nature of Genes Early ideas to explain how genes work came from studying human diseases Archibald Garrod – 1902.](https://reader036.fdocuments.us/reader036/viewer/2022062517/56649eca5503460f94bd8331/html5/thumbnails/30.jpg)
Alternative splicing
• Single primary transcript can be spliced into different mRNAs by the inclusion of different sets of exons
• 15% of known human genetic disorders are due to altered splicing
• 35 to 59% of human genes exhibit some form of alternative splicing
• Explains how 25,000 genes of the human genome can encode the more than 80,000 different mRNAs
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![Page 31: Chapter 15 Genes and How They Work. The Nature of Genes Early ideas to explain how genes work came from studying human diseases Archibald Garrod – 1902.](https://reader036.fdocuments.us/reader036/viewer/2022062517/56649eca5503460f94bd8331/html5/thumbnails/31.jpg)
Please note that due to differing operating systems, some animations will not appear until the presentation is viewed in Presentation Mode (Slide Show view). You may see blank slides in the “Normal” or “Slide Sorter” views. All animations will appear after viewing in Presentation Mode and playing each animation. Most animations will require the latest version of the Flash Player, which is available at http://get.adobe.com/flashplayer.