Biology:Nexus file

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Nexus format
Filename extensionsusually .nex or .nxs
Magic number'#NEXUS\n'
Developed byMaddison DR, Swofford DL, Maddison WP
Initial releaseDecember 1997 (26 years ago) (1997-12)
Type of formatbioinformatics

The extensible NEXUS file format is widely used in bioinformatics. It stores information about taxa, morphological and molecular characters, distances, genetic codes, assumptions, sets, trees, etc.[1] Several popular phylogenetic programs such as PAUP*,[2] MrBayes,[3] Mesquite,[4] MacClade[5] and SplitsTree[6] use this format.

Syntax

A NEXUS file is made out of a fixed header #NEXUS followed by multiple blocks. Each block starts with BEGIN block_name; and ends with END;. The keywords are case-insensitive. Comments are enclosed inside square brackets [...].[7]

There are a few pre-defined block names for common types of data. Examples include:[7]

TAXA block
The TAXA block contains information about taxa.
DATA block
The DATA block contains the data matrix (e.g. sequence alignment).
TREES block
The TREES block contains phylogenetic trees described using the Newick format, e.g. ((A,B),C);:

The following example uses the three block types above:

#NEXUS
Begin TAXA;
  Dimensions ntax=4;
  TaxLabels SpaceDog SpaceCat SpaceOrc SpaceElf;
End;

Begin data;
  Dimensions nchar=15;
  Format datatype=dna missing=? gap=- matchchar=.;
  Matrix
    [ When a position is a "matchchar", it means that it is the same as the first entry at the same position. ]

SpaceDog

atgctagctagctcg

SpaceCat

......??...-.a.

SpaceOrc

...t.......-.g.

[ same as atgttagctag-tgg ] SpaceElf

...t.......-.a.
  ;
End;

BEGIN TREES;
  Tree tree1 = (((SpaceDog,SpaceCat),SpaceOrc,SpaceElf));
END;

See also

References

  1. "NEXUS: An extensible file format for systematic information". Systematic Biology 46 (4): 590–621. 1997. doi:10.1093/sysbio/46.4.590. PMID 11975335. 
  2. PAUP* — Phylogenetic Analysis Using Parsimony *and other methods
  3. MrBayes
  4. Mesquite: A modular system for evolutionary analysis
  5. MacClade
  6. Huson and Bryant, Application of Phylogenetic Networks in Evolutionary Studies, Mol Biol Evol (2005) 23 (2): 254-267. https://doi.org/10.1093/molbev/msj030
  7. 7.0 7.1 Detailed NEXUS specification

External links