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Genome size and complexity

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  • February 21, 2022
  • 4
  • 2018/2019
  • Lecture notes
  • Dr andrew cuming
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BLGY1232 Why do we have so much DNA?

Genome sizes
 Genome size is correlated with biological complexity up to a point as a direct linear
relationship does not apply (Arabidopsis versus Drosophila), and we know that some
plants contain genomes much larger than humans e.g. Some lilies 25,000genes in
300,000 Mbp
 Mad cow disease: 0bp (protein)
 Cadang-Cadang: 300 nts (ss-RNA)
 FC174: 5000bp
 m13: 7000 nts (ss-DNA)
 l: 48,000 bp
 E. coli : 4288 protein-coding genes in 4.6 Mbp
 Yeast: 5800 protein coding genes in 12Mbp
 Drosophila: 14,000genes in 165Mbp
 Arabidopsis: 25,000 genes in 125Mbp
 Humans: about 40,000 genes in 3000Mbp
 Lilium: 90,000 mbp
 Amoeba dubia: world largest genome – 670,000 million bp

Genome complexity analysis
 Early experiments looking at the complexity of genomes utilised the techniques of
DNA-DNA hybridisation
1. Extract DNA from cells.
2. Shear the molecules to short fragments of 1-200 bp in length
3. Denature them completely and then allow them to reanneal.
4. Measure how long it takes for all the DNA to re-form as double-stranded
molecules.
 This kind of analysis reveals the presence of different classes of DNA in the genome.

DNA association kinetics




 Foldback DNA;
 Reanneals very rapidly because it consists of sequences that can self-anneal
and are self-complementary like simple dinucleotide repeats: TATATATATA
and GCGCGCGCGC.
 Single strands of (TA)n and (GC)n do not have to find their partners in a
mixture of DNA fragments, they can “fold back” to form hairpins by self-
complementarity
 Sequences like this can make up a significant portion of the genome These
sequences are also known as satellite DNA, because when DNA is centrifuged
in a caesium chloride gradient, so that it concentrates at a position where its

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