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MAS.S62 FAB2 5.8.12 Synthetic Organisms and Novel Genetic Codes -Expanding the Genetic Code -Minimal Genomes -Genome Scale Engineering.

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Presentation on theme: "MAS.S62 FAB2 5.8.12 Synthetic Organisms and Novel Genetic Codes -Expanding the Genetic Code -Minimal Genomes -Genome Scale Engineering."— Presentation transcript:

1 MAS.S62 FAB2 5.8.12 Synthetic Organisms and Novel Genetic Codes -Expanding the Genetic Code -Minimal Genomes -Genome Scale Engineering

2 http://www.accessexcellence.org/RC/VL/GG/genetic.php http://www2.le.ac.uk/departments/genetics/vgec/schoolscolleges/topics/dna-genes-chromosomes Codon Table

3 Fabricational Complexity Application: Why Are There 20 Amino Acids in Biology? (What is the right balance between Codon code redundancy and diversity?) Question: Given N monomeric building blocks of Q different types, what is the optimal number of different types of building blocks Q which maximizes the complexity of the ensemble of all possible constructs? The complexion for the total number of different ways to arrange N blocks of Q different types (where each type has the same number) is given by: And the complexity is: N Blocks of Q Types For a given polymer length N we can ask which Q* achieves the half max for complexity such that:. J. Jacobson

4 Expanding the Genetic Code Nonnatural amino acids Mehl, Schultz et al. JACS (2003) Nonnatural DNA bases Geyer, Battersby, and Benner Structure (2003) Anderson, Schultz et al. PNAS (2003) 4-base codons

5 4 Base Parity Genetic Code Let A=0, U,T=1, G=2, C=3 Use 3+1 base code XYZ Sum(X+Y+Z, mod 4) Leu: UUA -> UUAG http://schultz.scripps.edu/Research/UnnaturalAAIncorporation/research.html

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10 Whole Genome Synthesis

11 Up to 1M Oligos/Chip Chip Based Oligo Nucleotide Synthesis F. Cerrina et. al Nature Biotech 1999 p. 974 Inventing a Better Future

12 From Bits to Cells Inventing a Better Future Schematic of BioFab Computer to Pathway. A. Gene pathway sequence. B. Corresponding array of overlapping oligonucleotides C. Error correcting assembly in to low error rate pathways. D. Expression in cells Molecular Machine (Jacobson) Group MIT

13 Precise manipulation of chromosomes in vivo enables genome-wide codon replacement Farren J. Isaacs, Peter A. Carr, Harris H. Wang,…JM Jacobson, GM Church - Science, 2011 rE.coli Engineering The First Organisms with Novel Genetic Codes http://www2.le.ac.uk/departments/genetics/vgec/education/p ost18/topics/dna-genes-chromosomes

14 Programming cells by multiplex genome engineering and accelerated evolution Harris H. Wang, Farren J. Isaacs, Peter A. Carr, Zachary Z. Sun, George Xu, Craig R. Forest & George M. Church Nature 460, 894-898(13 August 2009) http://profiles.umassmed.edu/profiles/ProfileDetails.aspx?From=SE&Person=240

15 32 cell lines total, target ~10 modifications per cell line E. Coli MG1655 4.6 MB rE.coli - Recoding E.coli oligo shotgun: parallel cycles 32 16 8 4 2 1

16 Bacterial Conjugation http://en.wikipedia.org/wiki/File:Conjugation.svg http://www.flickr.com/photos/ajc1/1103490291/

17 Precise manipulation of chromosomes in vivo enables genome-wide codon replacement SJ Hwang, MC Jewett, JM Jacobson, GM Church - Science, 2011 Conjugative Assembly Genome Engineering (CAGE)

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