Ensembl Platypus

Example Data Points

Previous releases of the Ornithorhynchus anatinus genome have seen the data assembled into supercontigs, in this release some of the supercontigs have been assembled into ultracontigs and chromosomes.

A few example data points :

• Chromosome 3: Chr3
• Contig: Contig 0.90
• Gene: ENSOANG00000006026
• Gene: ox_plat1_390608

About the Platypus genome

Assembly

The platypus (Ornithorhynchus anatinus) genome of a female nicknamed "Glennie" (collected at the Upper Barnard River on Glen Rock Station, New South Wales) was sequenced to a total of 6x whole genome coverage. The sequencing strategy we utilized, combined whole genome shotgun plasmid, fosmid and BAC end sequences. The combined sequence reads were assembled using the PCAP software (Genome Res. 13(9):2164-70 2003). This draft sequence assembly submitted to Genbank is referred to as Ornithorhynchus_anatinus-5.0. The database now contains the longer range mapping of the sequence onto Ultracontigs and Chromosomes. Although some of the Supercontigs are mapped to chromosomes, these only represent 21% of the platypus DNA, so we have not emphasised a chromosomal view of platypus for the current release.Future improvements to the platypus draft sequence assembly will be dependent on the availability of funding and improvements to existing assembler software. Funding for the sequencing of the platypus genome was provided by the National Human Genome Research Institute (NHGRI), National Institutes of Health (NIH).

Credits and assembly statistics

Annotation

The gene set for Platypus was built using a modified version of the standard Ensembl genebuild pipeline. The species-specific sequence resources (platypus cDNA and protein) are very limited, so the vast majority of gene models are based on genewise alignments of proteins from other species. Most of the proteins being aligned were from species genetically distant to platypus. To improve the accuracy of models generated from these proteins, the genewise alignments were made to stretches of genomic sequence rather than to 'miniseqs'. Platypus and human cDNAs were aligned and used to add UTRs to the genewise predictions where possible. The gene models were assessed by generating sets of potential orthologs to genes from other mammalian species and chicken. Potentially missing predictions and partial gene predictions were identified by examining the orthologs, and exonerate was used to build new gene models for these based on the human and chicken ortholog peptide sequence.

What's New in Ensembl 43

Ornithorhynchus anatinus News

• Updates to Platypus databases.
  Release 43 sees some of the Ornithorhynchus anatinus supercontigs assembled into ultracontigs and chromosomes.
  Read more...

General News

• A faster ContigView
  ContigView now displays information faster. Each open panel in ContigView is prepared in parallel, and then returned to the page when complete. This results in faster page loads.
• New - Table view
  In ContigView you can now click on the name of a feature alignment track and select 'DAS Table View' (or for DAS tracks 'view DAS reponse') from the zmenu.
  Read more...
• New search option
  It is now possible to select whether to search either the Ensembl website or the EBI site when using Ensembl search.
• Changes to Xrefs
  The following changes have been made to xrefs for Release 43:
  • We have made improvements to EntrezGene xrefs, to allow for better handling of names and synonyms
  • Incorporation of new Illumina probe data as xrefs.
    Read more...

  More news...

Statistics

* Total number of base pairs = sum of lengths of DNA table

** Reference assembly (Golden path) length = sum of non-redundant top level seq regions