1. Exploring Williams-Beuren Syndrome using my Grid R.D. Stevens, a H.J. Tipney, b C.J. Wroe, a T.M. Oinn, c M. Senger, c P.W. Lord, a C.A. Goble, a A. Brass, a M. Tassabehji b a Department of Computer Science University of Manchester b University of Manchester, Academic Unit of Medical Genetics St Mary’s Hospital c European Bioinformatics Institute Wellcome Trust Genome Campus Hinxton

2. Williams-Beuren Syndrome (WBS) Congenital disorder caused by sporadic gene deletion 1/20,000 live births Effects multiple systems – muscular, nervous, circulatory Characteristic facial features Unique cognitive profile Mental retardation (IQ 40-100, mean~60, ‘normal’ mean ~ 100 ) Outgoing personality, friendly nature, ‘charming’ Haploinsuffieciency of the region results in the phenotype

3. Williams-Beuren Syndrome Microdeletion Chr 7 ~155 Mb ~1.5 Mb 7q11.23 GTF2I RFC2CYLN2 GTF2IRD1 NCF1 WBSCR1/E1f4H LIMK1ELNCLDN4CLDN3STX1A WBSCR18 WBSCR21 TBL2BCL7BBAZ1B FZD9 WBSCR5/LAB WBSCR22 FKBP6POM121 NOLR1 GTF2IRD2 C-cen C-midA-cen B-mid B-cen A-midB-telA-telC-tel WBSCR14 STAG3 PMS2L Block A FKBP6T POM121 NOLR1 Block C GTF2IP NCF1P GTF2IRD2P Block B ** WBS SVAS Patient deletions CTA-315H11CTB-51J22 ‘Gap’ Physical Map Eicher E, Clark R & She, X An Assessment of the Sequence Gaps: Unfinished Business in a Finished Human Genome. Nature Genetics Reviews (2004) 5:345-354 Hillier L et al. The DNA Sequence of Human Chromosome 7. Nature (2003) 424:157-164

4. 1.Identify new, overlapping sequence of interest 2.Characterise the new sequence at nucleotide and amino acid level Cutting and pasting between numerous web-based services i.e. BLAST, InterProScan etc Filling a genomic gap in Silico 12181 acatttctac caacagtgga tgaggttgtt ggtctatgtt ctcaccaaat ttggtgttgt 12241 cagtctttta aattttaacc tttagagaag agtcatacag tcaatagcct tttttagctt 12301 gaccatccta atagatacac agtggtgtct cactgtgatt ttaatttgca ttttcctgct 12361 gactaattat gttgagcttg ttaccattta gacaacttca ttagagaagt gtctaatatt 12421 taggtgactt gcctgttttt ttttaattgg gatcttaatt tttttaaatt attgatttgt 12481 aggagctatt tatatattct ggatacaagt tctttatcag atacacagtt tgtgactatt 12541 ttcttataag tctgtggttt ttatattaat gtttttattg atgactgttt tttacaattg 12601 tggttaagta tacatgacat aaaacggatt atcttaacca ttttaaaatg taaaattcga 12661 tggcattaag tacatccaca atattgtgca actatcacca ctatcatact ccaaaagggc 12721 atccaatacc cattaagctg tcactcccca atctcccatt ttcccacccc tgacaatcaa 12781 taacccattt tctgtctcta tggatttgcc tgttctggat attcatatta atagaatcaa

5. Filling a genomic gap in silico Frequently repeated – info rapidly added to public databases Time consuming and mundane Don’t always get results Huge amount of interrelated data is produced – handled in notebooks and files saved to local hard drive Much knowledge remains undocumented: Bioinformatician does the analysis Advantages: Specialist human intervention at every step, quick and easy access to distributed services Disadvantages: Labour intensive, time consuming, highly repetitive and error prone process, tacit procedure so difficult to share both protocol and results

6. Why Workflows and Services? Workflow = general technique for describing and enacting a process Workflow = describes what you want to do, not how you want to do it Web Service = how you want to do it Web Service = automated programmatic internet access to applications Automation –Capturing processes in an explicit manner –Tedium! Computers don’t get bored/distracted/hungry/impatient! –Saves repeated time and effort Modification, maintenance, substitution and personalisation Easy to share, explain, relocate, reuse and build Available to wider audience: don’t need to be a coder, just need to know how to do Bioinformatics Releases Scientists/Bioinformaticians to do other work Record –Provenance: what the data is like, where it came from, its quality –Management of data (LSID - Life Science Identifiers)

7. my Grid E-Science pilot research project funded by EPSRC www.mygrig.org.uk Manchester, Newcastle, Sheffield, Southampton, Nottingham, EBI and RFCGR, also industrial partners. ‘targeted to develop open source software to support personalised in silico experiments in biology on a grid.’ www.mygrid.org.uk Which means…. Distributed computing – machines, tools, databanks, people Personalisation Provenance and Data management Enactment and notification A virtual lab ‘workbench’, a toolkit which serves life science communities.

8. Workflow Components Scufl Simple Conceptual Unified Flow Language Taverna Writing, running workflows & examining results SOAPLAB Makes applications available Freefluo Workflow engine to run workflows Freefluo SOAPLAB Web Service Any Application Web Service e.g. DDBJ BLAST

9. GenBank Accession No GenBank Entry Seqret Nucleotide seq (Fasta) GenScanCoding sequence ORFs prettyseq restrict cpgreport RepeatMasker ncbiBlastWrapper sixpack transeq 6 ORFs Restriction enzyme map CpG Island locations and % Repetitive elements Translation/sequence file. Good for records and publications Blastn Vs nr, est databases. Amino Acid translation epestfind pepcoil pepstats pscan Identifies PEST seq Identifies FingerPRINTS MW, length, charge, pI, etc Predicts Coiled-coil regions SignalP TargetP PSORTII InterPro Hydrophobic regions Predicts cellular location Identifies functional and structural domains/motifs Pepwindow? Octanol? BlastWrapper URL inc GB identifier tblastn Vs nr, est, est_mouse, est_human databases. Blastp Vs nr RepeatMasker Query nucleotide sequence BLASTwrapper Sort for appropriate Sequences only Pink: Outputs/inputs of a service Purple: Tailor-made services Green: Emboss soaplab services Yellow: Manchester soaplab services RepeatMasker TF binding Prediction Promotor Prediction Regulation Element Prediction Identify regulatory elements in genomic sequence Williams Workflow Plan

10. ABC The Williams Workflows A: Identification of overlapping sequence B: Characterisation of nucleotide sequence C: Characterisation of protein sequence

11. The Workflow Experience Correct and Biologically meaningful results Automation –Saved time, increased productivity –Process split into three, you still require humans! Sharing –Other people have used and want to develop the workflows Change of work practises –Post hoc analysis. Don’t analyse data piece by piece receive all data all at once –Data stored and collected in a more standardised manner –Results amplification –Results management and visualisation Have workflows delivered on their promise?YES!

12. The Workflow Experience Activation energy versus Reusability trade-off –Lack of ‘available’ services, levels of redundancy can be limited –But once available can be reused for the greater good of the community Licensing of Bioinformatics Applications –Means can’t be used outside of licensing body –No license = access third-party websites Instability of external services –Research level –Reliant on other peoples servers –Taverna can retry or substitute before graceful failure Shims

13. shim (sh m) n. A thin, often tapered piece of material used to fill gaps, make something level, or adjust something to fit properly. shimmed, shim·ming, shims To fill in, level, or adjust by using shims or a shim. Shims Explicitly capturing the process Unrecorded ‘steps’ which aren’t realised until attempting to build something Enable services to fit together

14. Shims Sequence i.e. last known 3000bp MaskBLAST Identify new sequences and determine their degree of identity Sequence database entry Fasta format sequence Genbank format sequence Alignment of full query sequence V full ‘new’ sequence Old BLAST result Simplify and Compare Lister Retrieve BLAST2 ‘I want to identify new sequences which overlap with my query sequence and determine if they are useful’

15. The Biological Results CTA-315H11CTB-51J22 ELN WBSCR14 RP11-622P13 RP11-148M21RP11-731K22 314,004bp extension All nine known genes identified CLDN4CLDN3 STX1A WBSCR18 WBSCR21 WBSCR22 WBSCR24 WBSCR27 WBSCR28 Four workflow cycles totalling ~ 10 hours The gap was correctly closed and all known features identified

16. Conclusions It works – a new tool has been developed which is being utilised by biologists More regularly undertaken, less mundane, less error prone Once notification is installed won’t even need to initiate it More systematic collection and analysis of results Increased productivity Services: only as good as the individual services, lots of them, we don’t own them, many are unique and at a single site, research level software, reliant on other peoples services, licenses Activation energy

17. Future Directions Scheduling and Notification Portals Results visualisation Re-use: other genomic disorders, Graves Disease

18. Acknowledgments Dr May Tassabehji Prof Andy Brass Medical Genetics team at St Marys Hospital, Manchester Wellcome Trust www.mygrid.org.uk

19. my Grid People www.mygrid.org.uk Core Matthew Addis, Nedim Alpdemir, Tim Carver, Rich Cawley, Neil Davis, Alvaro Fernandes, Justin Ferris, Robert Gaizaukaus, Kevin Glover, Carole Goble, Chris Greenhalgh, Mark Greenwood, Yikun Guo, Ananth Krishna, Peter Li, Phillip Lord, Darren Marvin, Simon Miles, Luc Moreau, Arijit Mukherjee, Tom Oinn, Juri Papay, Savas Parastatidis, Norman Paton, Terry Payne, Matthew Pockock Milena Radenkovic, Stefan Rennick-Egglestone, Peter Rice, Martin Senger, Nick Sharman, Robert Stevens, Victor Tan, Anil Wipat, Paul Watson and Chris Wroe. Users Simon Pearce and Claire Jennings, Institute of Human Genetics School of Clinical Medical Sciences, University of Newcastle, UK Hannah Tipney, May Tassabehji, Andy Brass, St Mary’s Hospital, Manchester, UK Postgraduates Martin Szomszor, Duncan Hull, Jun Zhao, Pinar Alper, John Dickman, Keith Flanagan, Antoon Goderis, Tracy Craddock, Alastair Hampshire Industrial Dennis Quan, Sean Martin, Michael Niemi, Syd Chapman (IBM) Robin McEntire (GSK) Collaborators Keith Decker