This presentation accompanies a webinar at: https://www1.gotomeeting.com/register/367952841 === Hitachi Solutions has partnered with OpGen to offer MapIt® Optical Mapping Services to our customers. Trevor Wagner, Senior Applications Scientist Manager from OpGen will be our guest presenter. Trevor was part of the team that developed, tested, and released OpGen’s first major product, the Argus Optical Mapping System in 2010. This webinar will describe: 1. How Optical Mapping technology will benefit you in the following application areas: -Strain Typing -Comparative Genomics -Whole-genome Sequence Assembly 2. How the MapIt Service works.

1. 1

2. Webinar: How can Optical Mapping
accelerate my research?
Please note: This presentation accompanies the
webinar recording at:
https://www1.gotomeeting.com/register/36795
2841
August 10th, 2011
Robert Lynde Deputy Director, Hitachi Solutions
Erin Newburn Field Applications Scientist, OpGen Inc.
www.miraibio.com | support@miraibio.com | 1-424-237-8524 | © Hitachi Solutions America, Ltd. 2011. All rights reserved.

3. Hitachi Solutions America, Ltd.
• Part of the Hitachi family of companies that have
been around for more than 100 years
• #47 on the Global 500
• Everything from bullet trains to life science software
and services
• MasterPlex has been on the
market for over 8 years
• Introducing MapIt® Optical
Mapping Services
www.miraibio.com | support@miraibio.com | 1-424-237-8524 | © Hitachi Solutions America, Ltd. 2011. All rights reserved.

4. OpGen, Inc.
• A leading innovator in rapid, accurate genomic and DNA
analysis systems.
• Its Optical Mapping technology is being used by leading
genomic research centers, public health agencies, biodefense
organizations, academic institutions, biotechnology companies,
and clinical research organizations worldwide to help rapidly
analyze microbial genomes.
• In 2010, OpGen released its Optical
Mapping System to allow individuals
another method to access the Optical
Mapping technology.
www.miraibio.com | support@miraibio.com | 1-424-237-8524 | © Hitachi Solutions America, Ltd. 2011. All rights reserved.

5. What is Optical Mapping and
how is it used?
www.miraibio.com | support@miraibio.com | 1-424-237-8524 | © Hitachi Solutions America, Ltd. 2011. All rights reserved.

6. Optical Mapping—Solutions
for Whole Genome Analysis
Erin N. Newburn, Ph.D.
Field Applications Scientist
OpGen Inc.

7. Webinar Agenda
• Optical Mapping technology overview
• Optical Mapping applications
– Strain typing
– Comparative genomics
– Whole genome sequence assembly
• Argus®Optical Mapping System
• Future applications for larger genomes

8. What is Optical Mapping?
Whole genome, ordered restriction maps
• Whole genome analysis of bacteria, yeast, fungi
– High level of precision
– Eliminates high cost of sequencing
• De novo process, no sequencing required

9. Optical Mapping
Locates and measures distance between restriction sites
acagctctcgagaggatcctcgtcgggatccctcgcgctcgagatcgcgtagcgctagagc
gctctagaggctcgcggagagctcgcgcgagtgcgtcggggacacattcgaggatccagtt
agagatcggctcgtgctagaggcctgctcgtagagacacagatagacagatagagcggctcg
ctctcgctgctcggaagtcgctcgcgtaagttcgcgctggatcccacagctcgcgctgacaca
gtcgcgtagagatgcggctgagcgctggcgctgaggctggacagtgctgctgagctcggaca
gctcgtgtggcgcggatccgtgctcggcggatcctagggcgtgtcgcgtgctggatgcgc
tggtgggccccagtttggcggcgctcgcggctcggctgctggtcgcctgcttt
These patterns are specific to individual organisms
- identify, compare microbial isolates

10. How Optical Mapping Works
Cells gently lysed to extract long
genomic DNA molecules, pieces of
microbial chromosomes
DNA is captured in parallel
arrays of single DNA molecules
using microfluidic device
After staining with intercalating dye digestion reveals restriction
cleavage sites as ―gaps‖, under fluorescent microscopy

11. Image Analysis and Markup

12. Map Assembly
27.52
40.52
51.99
24.45
58.94
17.93
45.26
28.99
46.25
8.89
7.20
5.52
1.56
8.08
Overlapping single molecule restriction maps are
aligned to produce a map assembly covering an
entire chromosome

13. Map Assembly
consensus map
Patterns of restriction sites highly informative
~ 500 sites per Salmonella genome
Characteristic of microbial species and individual isolates
Use to identify samples to strain level
Overlapping single molecule restriction maps are aligned
to produce a map assembly covering an entire
chromosome

14. Application Overview

15. Optical Mapping
Single molecule approach generates whole-genome, ordered restriction maps
Optical Maps are compared to perform high resolution
epidemiology, discover genetic variation, and accelerate
sequence assembly
Strain Comparative Sequence
Typing Genomics Assembly

16. Strain Typing

17. Strain Typing
High Resolution Epidemiology with Optical Mapping
Traditional technologies (PFGE, ribotyping & Rep-PCR) provide
limited information, are unreliable for distinguishing closely
related isolates, do not relate to sequencing data

18. Strain Typing
Optical Mapping Compared to PFGE
USA-400(MW2)
GLMC-10
GLMC-10
USA 400
SSCMec VS-alpha PhiSA2
(PVL)
Optical Mapping detects absence of SSCmec, VS-α, PhiSA2/PVL

19. Strain Typing: Ongoing E coli Outbreak
• E coli O104:H4 outbreak reported in Germany, May 2011
– Shiga toxin positive (rare for O104:H4)
– High incidence of hemolytic uremic syndrome (HUS)
– Similar to Enteroaggregative E coli (EAEC) which normally
produces mild illness
• Reports spread to 12 countries, including US, Canada
• Over 3,000 cases reported by June 13, including 35 deaths

20. Strain Typing: Ongoing E. coli Outbreak
Current
Outbreak
2001 HUS outbreak
EAEC Seq. Reference
• Whole genome maps available in 48 hours
• Indicated outbreak was clonal – single source
• Identified genomic islands unique to the outbreak

21. Strain Typing: Ongoing E coli Outbreak
Current
Outbreak
Outbreak Specific
Conserved Region 2
stx2 tehA
Outbreak Specific
Outbreak Specific
Conserved
Conserved Region 1
Region 3

22. Strain Typing: Publication Example
2006 E. coli O157:H7 ―Spinach‖ Outbreak
• 51% hospitalizations v typical 10-20%
• 15% kidney failure v typical 2-7% (and 3 deaths)
• FDA CFSAN used Optical Mapping to identify 13
chromosomal markers that define the outbreak strain
• Outbreak strain contained prophage insertions
carrying extra Shiga toxin genes resulting in increased
pathogenicity
• “Most of the chromosomal changes found by optical
mapping would not have been detected by
microarray-based techniques”
• “Optical mapping ….. provides insights into
chromosomal changes and gene acquisitions that
neither PFGE nor microarray analysis allow”
Kotewicz et al (2008) Microbiology 154: 3518-3528

23. Strain Typing Summary
• Optical Mapping provides required resolution to
differentiate closely related strains: > 90%
sequence similarity
• Other technologies lack resolution and typically
focus on a few loci, may not relate to sequencing

24. Comparative
Genomics

25. Comparative Genomics Background
Definition:
Analysis and comparison of genomes from different strains
and different species to better understand gene function and
relatedness.
Involves:
• Sequence similarity
• Gene location and synteny (order of genes)
• Conserved and non-conserved regions of the genome

26. Comparative Genomics
Comparative analysis of US Vancomycin-resistant
Staphylococcus aureus strains

27. Comparative Genomics
Comparative analysis of US Vancomycin-resistant
Staphylococcus aureus strains
VRSA-6 has
direct repeat

28. Comparative Genomics:
Enterococcus faecalis
• E. faecalis isolates are diverse
at whole genome level with
differences from 0% to 35%
• Strain V583 is whole genome
DNA sequence
• ATCC 49477 is 2.9% different
at the whole-genome level
from V583 using Optical Map

29. Comparative Genomics:
Enterococcus faecalis
ATCC
49477
V583
• van genes are responsible
for vancomycin resistance
in Enterococcus faecalis1
• Optical Mapping can draw
attention to insertions that
confer antibiotic resistance
1Evers & Courvalin (1996). J Bacteriol 178(5):1302-9.

30. Sequence
Assembly

31. Sequence Assembly
Re-sequencing Validation
Anne Buboltz, Microbial Genomics Conference (2009)

32. Sequence Assembly
Re-sequencing Validation
Alignment with MapSolver™
Four Misassemblies
Anne Buboltz, Microbial Genomics Conference (2009)

33. Sequence Assembly
Re-sequencing Validation
Contig Breakage and Alignment
Anne Buboltz, Microbial Genomics Conference (2009)

34. Sequencing Assembly
Inversion Identified
Anne Buboltz, Microbial Genomics Conference (2009)

35. Sequence Validation:
Optical Mapping Finished Genomes
• Finished whole-genome DNA sequences are considered the
gold standard (Chain et al. 2009)
• Finished whole-genome DNA sequences provide valuable
insights into organization and structure of the genome that
draft quality sequences cannot offer (Fraser et al. 2002)
• However, currently no strict quality or validation requirement
for submitting a finished whole-genome to GenBank or peer-
reviewed journal

36. Sequence Validation:
Optical Mapping Finished Genomes
• Purpose
– Produce Optical Maps of published and peer-reviewed
finished bacterial genomes to validate quality of the
finished genome
• Hypothesis
– Optical Mapping will identify at least one finished
genome to contain a discrepancy.

37. Sequence Validation:
Optical Mapping Finished Genomes
• Methodology
– Select organisms with finished genomes that are linked to a
specific ATCC submission
– Generate Optical Maps using Argus® Optical Mapping System
– Compare Optical Maps to in silico maps of finished genomes

38. Sequence Validation:
Optical Mapping Finished Genomes
13 ATCC isolates selected for validation

39. Sequence Validation:
Optical Mapping Finished Genomes
Relative in silico Insertion Discrepancy Example
Finished whole-genome DNA sequence contained 131 Kb
extra DNA that should not be in ATCC 17978

40. Sequence Validation:
Optical Mapping Finished Genomes
Relative in silico Deletion Discrepancy Example
• Finished whole-genome DNA sequence missed a 375 Kb repetitive
region, most likely a ribosomal repeat that the sequence
assembler compressed
• Optical Mapping can span these large regions by using >150 Kb
single molecule restriction maps

41. Sequence Validation:
Optical Mapping Finished Genomes
Relative in silico Inversion Discrepancy Example
• The first V. cholerae finished genome published in 1999
contains a putative inverted misassembly

42. Sequence Validation:
Optical Mapping Finished Genomes
• Optical Map of N16961 compared to finished genome of V.
cholerae M66-2 published in 2009
• M66-2 contains a putative inverted misassembly at the same
locus as the DNA sequence of N16961, and is probably a
resequencing error propagated into M66-2

43. Optical Mapping Complements Sequence Assembly
DNA Sequence
Identify
Order gggtcagtcgtctaaaggtcgctacgtcagctgat
& cgtgacgcccctttttaacagtgcagctatgtgga
Orient cgtacgtagctagcatcgttgcagtcgatgcaag
gcgcggctcgcgcggggaaaattttttcgatcgat
cgatcgatcgatgcgatcgatttcgcgtatcgatc
gatcgtcgatcgatcggcgcgctagaaagagaga
Gaps gctcgcgcgtacatatcgcgtcccttggaggatcg
atatagcgctacgagctacgatcgactgatcgat
Overlaps

44. Sequence Assembly: Summary
• Maximum value in contig alignment & gap closure
as well as independently validating sequence
• Optical Mapping works best with larger contigs:
>40 Kb

46. Four Key Components
Argus® MapCard Processor
Argus® Optical Mapper
Instrumentation Argus® Mapping Work Station
Argus® Oil Applicator
Optical Mapping Argus® MapCard
Argus® QCard
Cards
Argus® Sample Preparation Kit HMW
Argus® Stain Kit
Reagents Argus® Enzyme Kits
MapManager
Software MapSolver™

47. Optical Mapping Cards
QCard
• Performs DNA Quality Check
• DNA Concentration optimization
MapCard
• MapCard and Argus® MapCard
Surface assembled and CFD placed
• DNA deposited
• Enzymatic reaction performed

48. MapCard Setup
Micro Fluidic Reagent Reservoirs
Channels
Argus® MapCard Surface
Bottom View
of CFD
Top View
of CFD

49. MapCard—Stretching DNA Molecules
Place CFD on
Map Card
Deposit DNA
Remove CFD
Add Cap

50. MapCard Processing
Place MapCard in Load Argus® MapCard
MapCard Processor Reagents
Result: RE Digested and Stained Single Molecules

51. Image & Data Acquisition
Place MapCard in Optical Mapper
Optical Mapper Processing

52. Optical Mapper Assembly Process
Single Molecule
Linear Assembly
Restriction Map
Consensus Optical Map

53. Future Directions:
Large Genome
Application

54. Large Genome Application
• Focus on Super-scaffolding
– Order and orientate contigs or scaffolds by creating
Super-scaffolds with mapping information
• Hybrid approach combining draft sequence and
Optical Mapping
• Uses Argus® System to produce mapping
information with cluster-based data pipeline

55. OpGen Application Accelerates Workflow
Bioinformatics
Bioinformatics
Bioinformatics
Bioinformatics
Library Prep Multiple Paired-end, Construct Construct BAC Marker
Shotgun seq Mate-Pair Libraries Fosmid library Library Analysis
Sequence runs Sequence runs Sequence runs
Multiple rounds YEARS
WEEKS WEEKS
MONTHS
Bioinformatics
Bioinformatics Review sequence
data in SS context
Library Prep Multiple Paired-end,
Shotgun seq Mate-Pair Libraries Optical Map
Sequence runs SUPER-SCAFFOLD
DONE
Multiple rounds
OPTICAL 1 WEEK
PCR, PE libraries if
MAPPING
need more seq info
1 WEEK

56. Scaffolding Process
Sequence
Scaffold
In Silico Map +
Single Molecule
Maps
Sequence
Driven Map
Alignment
Sequence
Driven Map
Alignment

57. Scaffolding Process
Extended
Scaffolds
Pair-wise
Alignment
Super-
scaffolding
Final
Scaffold

58. Goat Genome
Collaboration with BGI, representing the Goat Genome
Consortium
BGI Original
Result After
Input Before
O.M. Data
O.M. Data*
N50 (MB) 2.29 16.89
N80 (MB) 0.91 6.23
N90 (MB) 0.52 2.83
Scaffolds (90% Genome Coverage) 1236 181
Gap closed (from scaffolds > 200 kb) N/A 1284
*Illumina HiSeq
Results presented at Plant and Animal Genome Conference
January, 2011

59. How does the MapIt service work?
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60. Q&A
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61. Resources
• Learn more: http://www.miraibio.com/mapit/optical-map-service
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• Sales: info@miraibio.com or 1-424-237-8524
• MiraiBio Support Menu
• Community
• Knowledge Base
• Blog http://www.MiraiBio.com/blog
• Webinars: http://www.MiraiBio.com/Webinars
• Online Store http://store.MiraiBio.com
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