'Genome order index' should not be used for defining compositional constraints in nucleotide sequences--a case study of the Z-curve

Eran Elhaik, Dan Graur, Kresimir Josić

Research output: Contribution to journalArticlepeer-review

Abstract

BACKGROUND: The Z-curve is a three dimensional representation of DNA sequences proposed over a decade ago and has been extensively applied to sequence segmentation, horizontal gene transfer detection, and sequence analysis. Based on the Z-curve, a "genome order index," was proposed, which is defined as S = a2+ c2+t2+g2, where a, c, t, and g are the nucleotide frequencies of A, C, T, and G, respectively. This index was found to be smaller than 1/3 for almost all tested genomes, which was taken as support for the existence of a constraint on genome composition. A geometric explanation for this constraint has been suggested. Each genome was represented by a point P whose distance from the four faces of a regular tetrahedron was given by the frequencies a, c, t, and g. They claimed that an inscribed sphere of radius r = 1/ square root 3 contains almost all points corresponding to various genomes, implying that S <r2. The distribution of the points P obtained by S was studied using the Z-curve.

RESULTS: In this work, we studied the basic properties of the Z-curve using the "genome order index" as a case study. We show that (1) the calculation of the radius of the inscribed sphere of a regular tetrahedron is incorrect, (2) the S index is narrowly distributed, (3) based on the second parity rule, the S index can be derived directly from the Shannon entropy and is, therefore, redundant, and (4) the Z-curve suffers from over dimensionality, and the dimension stands for GC content alone suffices to represent any given genome.

CONCLUSION: The "genome order index" S does not represent a constraint on nucleotide composition. Moreover, S can be easily computed from the Gini-Simpson index and be directly derived from entropy and is redundant. Overall, the Z-curve and S are over-complicated measures to GC content and Shannon H index, respectively.

Original languageEnglish
Article number10
Number of pages7
JournalBiology Direct
Volume5
DOIs
Publication statusPublished - 2010 Feb 17
Externally publishedYes

Free keywords

  • Base Composition/genetics
  • Base Sequence/genetics
  • Computer Simulation
  • Genome, Bacterial/genetics
  • Models, Genetic

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