1. Sequence the 3 billion base pairs of human
DNA and identify the 100,000 genes
contained in the human genome

2. Goals of the Human Genome Project
1. Sequence:
Human x 109
Mouse x 109
Drosophila x 108
Worm x 108
Dictyostellium x 107
Yeast x 107
Bacteria x 106
BCM-
HGSC 2

3. Goals of the Human Genome Project2.
Characterize all genes and
enable studies of genetics,
evolution and function.
BCM-
HGSC 2

4. BERMUDA 1996 ‘Primary Genomic Sequence Should be in the Public Domain’
Should be Rapidly Released’
BCM-
HGSC

5. Quality < 1 error/ 10,000 (Polymorphism rate is 1/1,000)
No gaps or ‘mis-assemblies’
Merit for high quality data only
‘Slippery Slope’ Arguments
BCM-
HGSC

6. Technology ABD 4 color Fluorescence Mapped-Clone Approach Random Phase
Directed Phase
Modular, 96 well Automation
BCM-
HGSC

7. 3.0 Gb by Oct 2005? (Feb ‘98) ? x X X X
BCM-
HGSC

8. - New Capillary Instrument - >10 runs/day x 96 samples
May 98: P/E :Celera Scheme
- New Capillary Instrument
- >10 runs/day x 96 samples
- Total 230 Instruments
- $330M Private Funds
- Total 250,000 reads/day
- Whole Genome Shotgun
BCM-
HGSC

9. - ‘Public Release’, 3 months Delay
P/E ‘Celera’ Scheme:Release Policy
- ‘Public Release’, 3 months Delay
- Consensus sequence only
- All SNPs held
- Drosophila, Mouse
BCM-
HGSC

10. Regional mapping

11. Regional mapping

12. Regional mapping
Minimal tiling path selected for sequencing.

13. Restriction fragment fingerprinting Molecular weight marker every
5th lane
Restriction
fragment
fingerprinting
>20 kbp
~300 bp
- BAC clones are grown
in 96-well format
- Hind III digest
- 1% agarose

14. Contig assembly FPC* Overlap identification by
restriction pattern similarities
Facilitated contig assembly
*Sanger Centre
C. Soderlund, I Longden and R. Mott
Clone A B C D E F G *
All restriction fragments within
a clone selected for the tiling
path must be verified by their
presence in overlapping clones.
: insert fragments
: vector fragments

15. Shotgun Sequencing I :RANDOM PHASE
Sheared DNA: kb
Bac Clone: kb
Random
Reads
Sequencing
Templates:
BCM-
HGSC

16. Shotgun Sequencing II:ASSEMBLY
Low Base
Quality
Single
Stranded
Region
Mis-Assembly
(Inverted)
Sequence
Gap
Consensus
BCM-
HGSC

17. Shotgun Sequencing III: FINISHING
Low Base
Quality
Single
Stranded
Region
Mis-Assembly
(Inverted)
Sequence
Gap
Consensus
BCM-
HGSC

18. Shotgun Sequencing III: FINISHING
Single
Stranded
Region
Mis-Assembly
(Inverted)
Sequence
Gap
Consensus
BCM-
HGSC

19. Shotgun Sequencing III: FINISHING
Mis-Assembly
(Inverted)
Sequence
Gap
Consensus
BCM-
HGSC

20. Shotgun Sequencing III: FINISHING
Mis-Assembly
(Inverted)
Consensus
BCM-
HGSC

21. Shotgun Sequencing III: FINISHING
High Accuracy Sequence:
< 1 error/ 10,000 bases
BCM-
HGSC

22. Whole Genome Shotgun Sequencing
Sheared DNA: kb
Whole Genome:
3,000 Mb
Random
Reads
Sequencing
Templates:
BCM-
HGSC

23. Whole Genome Shotgun Sequencing:Assembly
Low Base
Quality
Single
Stranded
Region
Mis-Assembly
(Inverted)
Sequence
Gap
Consensus
BCM-
HGSC

24. Whole Genome Shotgun Sequencing:Assembly
Sequence
Gap
Low Base
Quality
Consensus
BCM-
HGSC

25. - Regions very densely covered - Contigs 1.0 -15 kb
P/E ‘Celera’ Scheme:10 X coverage in three years
- Regions not covered
- Regions very densely covered
- Contigs kb
- # Gaps? >100,000?
- Base Quality High or Low?
- Mis-Assemblies?
- Duplications?
BCM-
HGSC

26. ‘That (draft) sequence will be of lower accuracy and contiguity…..
‘Complete an accurate, high quality sequence
of the human genome by the end of 2003,
…….a working draft can be completed…within
the next three years…’
‘That (draft) sequence will be of lower accuracy and contiguity…..
…will be useful for finding genes…and other features….’
BCM-
HGSC

27. Integrating Multiple Sources of Data
Human Genome
Sequencing Project
Integrating Multiple Sources of Data
Chromosome
Map location
Clone Fingerprint
Project XYZ
???
Celera
NHGRI
Random sequences
500 bp reads
consensus (3-5 kb)
Mapped projects (~100kb)
5-20 contigs (10-20kb)
How to use Celera data in NHGRI assemblies?
Lichtarge Lab - HGSC
Baylor College of Medicine