This is a brief update about the genome browser JBrowse and the genome annotation editor Apollo, addressed to the members of the Alliance of Genome Resources (AGR).
Learn more about JBrowse at jbrowse.org
Learn more about Apollo at GenomeArchitect.org
1. JBrowse & Apollo
Monica Munoz-Torres, PhD | @monimunozto
for the JBrowse & Apollo Development Teams
Berkeley Bioinformatics Open-source Projects
Environmental Genomics and Systems Biology Division
Lawrence Berkeley National Laboratory
AGR Curation Call | 7 December 2016
UNIVERSITY OF
CALIFORNIA
5. JBrowse
u Fast, embeddable genome browser
u Smooth scrolling and zooming
u Built to handle large genomes and deep-coverage sequencing
u Supports:
GFF3, BED, FASTA, Wiggle, BigWig, BAM, VCF (with tabix), REST, etc.
u Faceted tracks option
u Light server requirements
http://jbrowse.org/
6. Currently in JBrowse:
u Continuing to phase out BioPerl - used for consuming Chado, flat
files, JBrowse-specific JSON-based index files, etc.
u Changing to JavaScript client, more versatile, easier to feed data
from a server.
u Supports Canvas tracks for added flexibility to display data; also
working on SVG-based tracks.
u Currently a static site generator, which favors performance.
7. JBrowse in the near future
u Analytics
u e.g. J-BLAST, Galaxy integration* (Docker)
u JB will grow a server-side
u Pub-sub messaging
u Dashboards:
u phylogeography,
u systems biology,
u molecular evolution.
8. JBrowse and AGR: opportunities
u JBrowse instance for AGR to facilitate browsing data
from all organisms; also to standardize export, as *most*
data types from all available organisms can be
downloaded from JB.
u AGR 1.3 - generating AGR JBrowse / Genome features.
u projected for end (Sept) of 2017.
18. 1. Bringing exons closer together to facilitate
annotation of gene models with long introns.
1,275 bp
Concept for Apollo v2.1 – Northern Spring 2017
Apollo in the near future:
Transformation of coordinates
19. 2. Assembly artifacts may cause gene models to be split across two or more scaffolds. Apollo
will allow generation of an artificial space where the annotation can be completed.
Scaffold 2Scaffold 1
Genome
Assembly
. . . . . .
Scaffold n
Apollo in the near future:
Transformation of coordinates
20. Apollo in the near, near future
u Transformation of coordinates.
u Visualization and annotation of variants.
22. u Currently being used at:
i5k, VectorBase, Hymenoptera Genome Database, LepBase,
WormBase (testing), etc.
u ~ 3,000 sessions worldwide in the past month (Nov-Dec 2016)
u 830 users
u ~2,000 sessions in the US
u 200 in UK (Wellcome Trust Sanger Institute is one of biggest JBrowse users)
u 150 in South Korea
u Etc.
Who is using Apollo?
23. Apollo at AGR: opportunities
u Capturing feedback from the community
u QC of manual annotations
u Merging automated and manual annotations, with version
control
24. Berkeley Bioinformatics Open-Source Projects,
Environmental Genomics & Systems Biology,
Lawrence Berkeley National Laboratory
Suzanna Lewis Chris Mungall
Seth Carbon
Nathan Dunn
Monica Munoz-Torres
Jeremy Nguyen Xuan
Funding
u Work for GOC is supported by NIH grant 5U41HG002273-
14 from NHGRI.
u Apollo is supported by NIH grants 5R01GM080203 from
NIGMS, and 5R01HG004483 from NHGRI.
u BBOP is also supported by the Director, Office of
Science, Office of Basic Energy Sciences, of the U.S.
Department of Energy under Contract No. DE-AC02-
05CH11231
For your attention, Thank You.
berkeleybop.org
Collaborators:
- Ian Holmes, Eric Yao - UC Berkeley
- Gene Ontology Consortium
- Monica Poelchau - USDA/NAL
- Chris Elsik, Deepak Unni - University of Missouri
- i5k Steering Group & Community
UNIVERSITY OF
CALIFORNIA