Mice Strains Track Settings

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Cactus alignments, 17 mice strains plus rat (All Comparative tracks)

Display mode:

Species selection:

mouse	sPRET_EiJ	pWK_PhJ	cAST_EiJ	wSB_EiJ
nZO_HlLtJ	c57BL_6NJ	nOD_ShiLtJ	fVB_NJ	dBA_2J
cBA_J	c3H_HeJ	aKR_J	bALB_cJ	a_J
lP_J	rat

Multiple alignment base-level:
Display bases identical to reference as dots
Display chains between alignments

Codon Translation:
Default species to establish reading frame:
No codon translation
Use default species reading frames for translation
Use reading frames for species if available, otherwise no translation
Use reading frames for species if available, otherwise use default species

View table schema

Description

Display Convention and Configuration

Pairwise alignments of each species to the mouse genome are displayed as a grayscale density plot (in pack mode) or as a wiggle (in full mode) that indicates the proportion of matching bases in the target species. In squish mode, the number of matching bases in all species is shown as a single wiggle track.

Checkboxes on the track configuration page allow selection of the species to include in the pairwise display.

To view detailed information about the alignments at a specific position, zoom the display in to 30,000 or fewer bases, then click on the alignment.

Base Level

Codon translation is available in base-level display mode if the displayed region is identified as a coding segment. To display this annotation, select the species for translation from the pull-down menu in the Codon Translation configuration section at the top of the page. Then, select one of the following modes:

No codon translation: The gene annotation is not used; the bases are displayed without translation.
Use default species reading frames for translation: The annotations from the genome displayed in the Default species to establish reading frame pull-down menu are used to translate all the aligned species present in the alignment.
Use reading frames for species if available, otherwise no translation: Codon translation is performed only for those species where the region is annotated as protein coding.
Use reading frames for species if available, otherwise use default species: Codon translation is done on those species that are annotated as being protein coding over the aligned region using species-specific annotation; the remaining species are translated using the default species annotation.

Methods

For this assembly hub, a Progressive Cactus alignment was generated using the Genbank version of these assemblies. The reference mouse (mm10) as well as the reference rat (rn6) were included as well. Here is the guide tree for this alignment:

Mouse Genomes Phylogeny

Due to the highly similar nature of the laboratory mice strains, this tree was binarized as accurately as possible, but incomplete lineage sorting (ILS) is prevalent and as a result the guide tree may not be correct in all regions. This has minimal effect on alignment quality except in regions where insertions and deletions are under ILS.

The alignment underlying this track is also available here in HAL format. Due to load times problems with HAL files, the HAL file was used to generate the underlying bigMaf files for this track and is not directly part of the hub.

Credits

Alignment generation: Joel Armstrong, Ian Fiddes, Benedict Paten.
Genome assemblies: Thomas Keane, The Mouse Genomes Project.

References

Paten et al. Cactus: Algorithms for genome multiple sequence alignment. Genome research. 2011;21:1512-1528.

Nguyen et al.Comparative Assembly Hubs: Web Accessible Browsers for Comparative Genomics. Bioinformatics. 2014 Aug (advance online publication).

Hickey et al. HAL: a hierarchical format for storing and analyzing multiple genome alignments. Bioinformatics. 2013 May;29(10):1341-1342.

Contact

For general questions about these data, please contact tk2@sanger.ac.uk or ifiddes@ucsc.edu.