Genomics Sequencing genomes.

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Presentation transcript:

Genomics Sequencing genomes

DNA Sequencing Chain Termination Method Sanger, 1977 single stranded DNA, ~800b Method: Electrophoresis can separate DNA molecules differing 1bp in length Dideoxynucleotide (ddNTP) are used - which stop replication Short DNA fragments (up to 1000 bp) can be sequenced with San

ddNucleotides ddA, ddT, ddC, ddG Each type marked with fluorescent dye When incorporated into DNA chain –stops replication

Chain Termination Method, An Outline Replication Obtaining ssDNA Add a (universal) primer Start replication in a soup of A,T,C,G Continously add tiny amounts of ddA, ddT, ddC, ddG gradually stopping all the processes

Chain Termination Method, Reading the Sequence Running through electrophoresis gel Four types of ddNTP have four different fluorescent labels Automated reading See: http://www.dnalc.org/Shockwave/cycseq.html

Chain Termination Method, Results Signal time fragment size

Shotgun Method - Overview Cut genome into short fragments Sequence DNA fragments Create contigs Contig - continous set of overlapping sequences Gap!

Shotgun Method – Contig Construction Two DNA sequences: X=CTATCA Y=AGTAT How do they overlap? Try to apply dynamic programming X or X Y Y

Shotgun Method – Haemophilus Influenzae Sequencing Extract DNA 1.5-2kb Sonicate DNA library Electrophoresis Sequence Construct contigs Sequenced

Shotgun Method - Filling in gaps Contig Contig Contig Gap Gap Probe libraries

Shotgun Method - Pros and Cons Human labour reduced to minimum Cons Computationally demanding – O(n2) comparisons High error rate in contig construction Repeats as the main problem

Shotgun vs. Hierarchical Method Celera vs. Human Genome Project Hierarchical (top-down) assembly: The genome is carefully mapped “Shotgun” into large chunks of 150kb Exact location of each chunk is known Each piece is again “shotgun” into 2kb and sequenced

Shotgun vs. Hierarchical Method bottom-up Hierarchical top-down

New Sequencing Methods Sequencing By Hybridization Check which from all possible fragments of length k (k-tuples) hybridize to the sequence TAA ATTCG AAG TAA AAG AGC AGC