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Microbial gene identification using interpolated Markov models
January 01 1998
January 01 1998
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Abstract
<p class="first" id="d9219731e75">This paper describes a new system, GLIMMER, for
finding genes in microbial genomes.
In a series of tests on Haemophilus influenzae , Helicobacter pylori and other complete
microbial genomes, this system has proven to be very accurate at locating virtually
all the genes in these sequences, outperforming previous methods. A conservative estimate
based on experiments on H.pylori and H. influenzae is that the system finds >97%
of
all genes. GLIMMER uses interpolated Markov models (IMMs) as a framework for capturing
dependencies between nearby nucleotides in a DNA sequence. An IMM-based method makes
predictions based on a variable context; i.e., a variable-length oligomer in a DNA
sequence. The context used by GLIMMER changes depending on the local composition of
the sequence. As a result, GLIMMER is more flexible and more powerful than fixed-order
Markov methods, which have previously been the primary content-based technique for
finding genes in microbial DNA.
</p>