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Reference Work Entry In depth
Binning Sequences Using Very Sparse Labels Within a Metagenome
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Living Reference Work Entry In depth
Binning Sequences Using Very Sparse Labels Within a Metagenome
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Article
Exploratory analysis of high-throughput metabolomic data
In order to make sense of the sheer volume of metabolomic data that can be generated using current technology, robust data analysis tools are essential. We propose the use of the growing self-organizing map (G...
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Article
Open AccessTranscriptomic analysis supports similar functional roles for the two thymuses of the tammar wallaby
The thymus plays a critical role in the development and maturation of T-cells. Humans have a single thoracic thymus and presence of a second thymus is considered an anomaly. However, many vertebrates have mult...
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Article
Open AccessNovel venom gene discovery in the platypus
To date, few peptides in the complex mixture of platypus venom have been identified and sequenced, in part due to the limited amounts of platypus venom available to study. We have constructed and sequenced a c...
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Chapter
Dynamic Self-Organising Maps: Theory, Methods and Applications
In an effort to counter the restrictions enforced by the fixed map size and aspect ratio of a Kohonen Self-Organising Map, many variants to the method have been proposed. As a recent development, the Dynamic S...
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Article
Open AccessBinning sequences using very sparse labels within a metagenome
In metagenomic studies, a process called binning is necessary to assign contigs that belong to multiple species to their respective phylogenetic groups. Most of the current methods of binning, such as BLAST, k-me...
