What is Genetics? - Lehigh University
Transcript of What is Genetics? - Lehigh University
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Genomes: What we know … and what we don’t know
Complete draftsequence 2001
November11, 2009 Dr. Stefan Maas, BioS Lehigh U.
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What we know
Raw genome data
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The range of genome sizes in the animal & plant kingdoms
è No correlation between genome size and complexity
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The difference in genome size of a factor of 100 is difficult to explain in view of the apparently similar levels of evolutionary, developmental and behavioral complexity of these organisms.
The mountain grasshopper Podisma pedestris
The fruit flyDrosophila melanogaster
18,000 Mb 180 Mb
What accounts for the often massive and seemingly arbitrary differences in genome size observed among eukaryotic organisms?
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Complexity does not correlate with genome size
3.4 ´ 109 bpHomo sapiens Amoeba dubia
6.7 ´ 1011 bp
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Is an Expansion in Gene Number drivingEvolution of Higher Organisms?
Prokaryotes 500 - 7,000
Urochordata
Arthropoda
Nematoda
16,000
14,000
21,000
Unicellular sps.
Fungi 2,000 – 13,000
5,000 – 10,000
Vertebrata
Vascular plants
30,000
25,000 – 60,000
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Structure of DNA
Watson and Crick in 1953 proposed
that DNA is a double helix in
which the 4 bases are base paired,
Adenine (A) with Thymine (T)
and Guanine (G) with Cytosine (C).
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Steps in the folding of DNA to create an eukaryotic chromosome
30 nm fiber (6 nucleosomes per turn)
Factor of condensation: Ca. 10,000 fold
Why?
è Facilitates movement duringcell division
è Decreases error rate
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Genes code for Proteins with RNA as an intermediate
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The Genetic Code
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mature splice product
Gene splicing: Removal of non-coding introns
PROTEIN
Exon
Intron
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• ~ 30,000 genes• On average:
– Coding length: 1.4 kb– Gene extent: 30 kb– 8 Exons (135 bp), 7 introns
(2,200 bp)– Gene density: 11.5/1 Mb
Human genome facts
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SplicingAlternative
Mature splice variant II
Mature splice variant I
Alternative splicing: One gene, several proteins!
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GluR-6pre-mRNA
M1 M2 M35‘ 3‘
N C
I / V
10 %
5 %
10 %5 %
5 %
65 %
Diversity through RNA editing
Y / C Q / R
GluR-6 M1 M2
I YI CV YI Y
V CI CV Y
V C
QQQRQRR
R
unedited
fully edited
AUU UAC CAGIUU UIC CIG
uneditededited
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Intergenicregions(junk?)
Introns (junk?)Exons
1.5%
Is the genome empty ?
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Correlation between complexityand amount of non-coding DNA
1.0
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DNA with low complexity is located in the middle and at the ends of a chromosome
= gene poor region
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Imagine a gene that could duplicate copies of itself within the genome
time
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Interspersed repeatsUCSC Genome Browserhttp://genome.cse.ucsc.edu
Repeats dominate the human genomeOne megabase from chromosome 7
Human genome: ~ 50% repetitive sequences
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Transposable elements in the human genome
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Genome vs TranscriptomeHow much of the genomic DNA is converted into RNA sequences?
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• 97-98% of transcriptional output is non coding RNA (ncRNA)• Only 1.5% of genome are protein coding• But: including introns, 30% of genome is transcribed• Adding ncRNA genes: >50% of genome is transcribed
Transcriptome facts
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Genotyping
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Sequence variations between individuals
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Sequence variations between individuals
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Parallel deep sequencing of genomes and transcriptomes
Primary tumor and secondary tumor (metastases 9 years later) from same patient
Total depth of sequencing:Genome: Transcriptome:
2.9 billion reads 180 Million reads141,000 Gigabases 7,000 Gigabases(43x coverage)
Comparison of all mutations present in primary tumor versus genome mutations present in metastases. In addition: epigenetic changes in primary vs secondary tumor
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How make sense of whole genome sequences?
Bioinformatics helps to:Ø Find regulatory sequencesØ Find protein coding sequencesØ Find related sequencesØ Compare sequences across species
The Genome Sequence -- an open book ….(written in well-known language but poorly understood grammar)
Main aim: understand what are the functions of all genes and how they work together
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Functional classification of expressed genes
Randomly selectedsequences from human cells grouped by function
Collection of expressed genes
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Genes in the Mycoplasma genitaliumclassified by function
580 kb genome <> 471 genes
Smallest genome of any known free living organism
èWhat is the smallest number of genes needed for survival?
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Functional genomics IUse of DNA microarrays (chips)
Fluorescently tagged cDNA probes are
hybridized to DNA spots in the microarray for
studying differential expression of thousands of genes at a
time in two mRNA samples
Example:
normalbrain
braintumorvs
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What is Proteomics
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Steps in the creation of a transgenic mouse
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Summary - ConclusionsWe do know:• Complete human genome sequence• Function of ca. 50% of protein-coding genes• Some interactions and regulation of genes• > 2700 disease-causing single gene mutations
We don’t know:• Function of at least 50% of genes• How do gene products work together ? (within
cells and within organism)• What makes the human so special ? (its not the
gene number or genome size)