Multifractal characterisation of length sequences of coding and noncoding segments in a complete genome

Abstract

The coding and noncoding length sequences constructed from a complete genome are characterised by multifractal analysis. The dimension spectrum Dq and its derivative, the 'analogous' specific heat Cq, are calculated for the coding and noncoding length sequences of bacteria, where q is the moment order of the partition sum of the sequences. From the shape of the % Dq and Cq curves, it is seen that there exists a clear difference between the coding/noncoding length sequences of all organisms considered and a completely random sequence. The complexity of noncoding length sequences is higher than that of coding length sequences for bacteria. Almost all Dq curves for coding length sequences are flat, so their multifractality is small whereas almost all Dq curves for noncoding length sequences are multifractal-like. We propose to characterise the bacteria according to the types of the Cq curves of their noncoding length sequences.

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