Schema for Nematodes Chain/Net - Nematodes Chain and Net Alignments
  Database: ce11    Primary Table: chainMacrostomum_lignano    Row Count: 691,709   Data last updated: 2018-12-06
Format description: Summary info about a chain of alignments
On download server: MariaDB table dump directory
fieldexampleSQL type description
bin 585smallint(5) unsigned Indexing field to speed chromosome range queries.
score 9115double score of chain
tName chrIvarchar(255) Target sequence name
tSize 15072434int(10) unsigned Target sequence size
tStart 5398int(10) unsigned Alignment start position in target
tEnd 6311int(10) unsigned Alignment end position in target
qName NIVC01000990v1varchar(255) Query sequence name
qSize 391553int(10) unsigned Query sequence size
qStrand -char(1) Query strand
qStart 149844int(10) unsigned Alignment start position in query
qEnd 150709int(10) unsigned Alignment end position in query
id 183336int(10) unsigned chain id

Sample Rows
 
binscoretNametSizetStarttEndqNameqSizeqStrandqStartqEndid
5859115chrI1507243453986311NIVC01000990v1391553-149844150709183336
5856518chrI1507243458376311NIVC01000765v1127330-4789248396323802
5856609chrI1507243458376311NIVC01001902v1146892-130429130932317192
5857810chrI150724342125723254NIVC01001563v1236411+2725430182242759
5857522chrI150724342286623254NIVC01000461v1589376+460996461360258555
5857152chrI150724342287923150NIVC01000646v1495240+215823216065280867
5858067chrI150724342287923484NIVC01001582v156575+1309913619229344
5854677chrI150724342288523038NIVC01001563v1236411+2995530103483618
5855783chrI150724342288523088NIVC01000461v1589376+460985461182381280
5856271chrI150724342289123368NIVC01000317v1478875+8977490261342253

Note: all start coordinates in our database are 0-based, not 1-based. See explanation here.

Nematodes Chain/Net (nematodesChainNet) Track Description
 

Description

This track shows regions of the genome that are alignable to other genomes ("chain" subtracks) or in synteny ("net" subtracks). The alignable parts are shown with thick blocks that look like exons. Non-alignable parts between these are shown like introns.

Chain Track

The chain track shows alignments of a query genome sequence to the C. elegans genome using a gap scoring system that allows longer gaps than traditional affine gap scoring systems. It can also tolerate gaps in both the query sequence and C. elegans simultaneously. These "double-sided" gaps can be caused by local inversions and overlapping deletions in both species.

The chain track displays boxes joined together by either single or double lines. The boxes represent aligning regions. Single lines indicate gaps that are largely due to a deletion in the the query sequence assembly or an insertion in the C. elegans assembly. Double lines represent more complex gaps that involve substantial sequence in both species. This may result from inversions, overlapping deletions, an abundance of local mutation, or an unsequenced gap in one species. In cases where multiple chains align over a particular region of the C. elegans genome, the chains with single-lined gaps are often due to processed pseudogenes, while chains with double-lined gaps are more often due to paralogs and unprocessed pseudogenes.

In the "pack" and "full" display modes, the individual feature names indicate the chromosome, strand, and location (in thousands) of the match for each matching alignment.

Net Track

The net track shows the best query sequence/C. elegans chain for every part of the C. elegans genome. It is useful for finding syntenic regions, possibly orthologs, and for studying genome rearrangement.

Display Conventions and Configuration

Chain Track

By default, the chains to chromosome-based assemblies are colored based on which chromosome they map to in the aligning organism. To turn off the coloring, check the "off" button next to: Color track based on chromosome.

To display only the chains of one chromosome in the aligning organism, enter the name of that chromosome (e.g. chr4) in box next to: Filter by chromosome.

Net Track

In full display mode, the top-level (level 1) chains are the largest, highest-scoring chains that span this region. In many cases gaps exist in the top-level chain. When possible, these are filled in by other chains that are displayed at level 2. The gaps in level 2 chains may be filled by level 3 chains and so forth.

In the graphical display, the boxes represent ungapped alignments; the lines represent gaps. Click on a box to view detailed information about the chain as a whole; click on a line to display information about the gap. The detailed information is useful in determining the cause of the gap or, for lower level chains, the genomic rearrangement.

Individual items in the display are categorized as one of four types (other than gap):

  • Top - the best, longest match. Displayed on level 1.
  • Syn - line-ups on the same chromosome as the gap in the level above it.
  • Inv - a line-up on the same chromosome as the gap above it, but in the opposite orientation.
  • NonSyn - a match to a chromosome different from the gap in the level above.

Methods

Chain track

Transposons that have been inserted since the query sequence/C. elegans split were removed from the assemblies. The abbreviated genomes were aligned with lastz, and the transposons were added back in. The resulting alignments were converted into axt format using the lavToAxt program. The axt alignments were fed into axtChain, which organizes all alignments between a single query sequence chromosome and a single C. elegans chromosome into a group and creates a kd-tree out of the gapless subsections (blocks) of the alignments. A dynamic program was then run over the kd-trees to find the maximally scoring chains of these blocks. Chains scoring below a minimum score of "5000" were discarded; the remaining chains are displayed in this track. The linear gap matrix used with axtChain:

-linearGap=loose

tablesize    11
smallSize   111
position  1   2   3   11  111  2111  12111  32111  72111  152111  252111
qGap    325 360 400  450  600  1100   3600   7600  15600   31600   56600
tGap    325 360 400  450  600  1100   3600   7600  15600   31600   56600
bothGap 625 660 700  750  900  1400   4000   8000  16000   32000   57000

Net track

Chains were derived from lastz alignments, using the methods described on the chain tracks description pages, and sorted with the highest-scoring chains in the genome ranked first. The program chainNet was then used to place the chains one at a time, trimming them as necessary to fit into sections not already covered by a higher-scoring chain. During this process, a natural hierarchy emerged in which a chain that filled a gap in a higher-scoring chain was placed underneath that chain. The program netSyntenic was used to fill in information about the relationship between higher- and lower-level chains, such as whether a lower-level chain was syntenic or inverted relative to the higher-level chain. The program netClass was then used to fill in how much of the gaps and chains contained Ns (sequencing gaps) in one or both species and how much was filled with transposons inserted before and after the two organisms diverged.

Credits

Lastz (previously known as blastz) was developed at Pennsylvania State University by Minmei Hou, Scott Schwartz, Zheng Zhang, and Webb Miller with advice from Ross Hardison.

Lineage-specific repeats were identified by Arian Smit and his RepeatMasker program.

The axtChain program was developed at the University of California at Santa Cruz by Jim Kent with advice from Webb Miller and David Haussler.

The browser display and database storage of the chains and nets were created by Robert Baertsch and Jim Kent.

The chainNet, netSyntenic, and netClass programs were developed at the University of California Santa Cruz by Jim Kent.

References

Chiaromonte F, Yap VB, Miller W. Scoring pairwise genomic sequence alignments. Pac Symp Biocomput. 2002:115-26. PMID: 11928468

Kent WJ, Baertsch R, Hinrichs A, Miller W, Haussler D. Evolution's cauldron: duplication, deletion, and rearrangement in the mouse and human genomes. Proc Natl Acad Sci U S A. 2003 Sep 30;100(20):11484-9. PMID: 14500911; PMC: PMC208784

Schwartz S, Kent WJ, Smit A, Zhang Z, Baertsch R, Hardison RC, Haussler D, Miller W. Human-mouse alignments with BLASTZ. Genome Res. 2003 Jan;13(1):103-7. PMID: 12529312; PMC: PMC430961