 Metagenomic next-generation sequencing reveals Miamiensis avidus (Ciliophora: Scuticociliatida) in the 2017 epizootic of leopard sharks (Triakis semifasciata) in San Francisco Bay, California BioRxiv, 2018
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 Chronic Meningitis Investigated via Metagenomic Next-Generation Sequencing JAMA Network, 2018
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 Metagenomic Sequencing Detects Respiratory Pathogens in Hematopoietic Cellular Transplant Patients American Journal of Respiratory and Critical Care Medicine, 2018
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 Complete Genome Sequence of a Divergent Human Rhinovirus C Isolate from an Infant with Severe Community- Acquired Pneumonia in Colorado, USA ASM, 2017
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 Topical silver diamine fluoride for dental caries arrest in preschool children: A randomized controlled trial and microbiological analysis of caries associated microbes and resistance gene expression Journal of Dentistry, 2017
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 IFN-stimulated Gene Expression, Type 2 Inflammation, and Endoplasmic Reticulum Stress in Asthma ATS Journals, 2017
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 Metagenomic deep sequencing of aqueous fluid detects intraocular lymphomas Innovations, 2017
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|  Here we introduce HMMSplicer, an accurate and efficient algorithm for discovering canonical and non-canonical splice junctions in short read datasets. HMMSplicer identifies more splice junctions than currently available algorithms when tested on publicly available A. thaliana, P. falciparum, and H. sapiens datasets without a reduction in specificity. HMMSplicer was found to perform especially well in compact genomes and on genes with low expression levels, alternative splice isoforms, or non-canonical splice junctions. Because HHMSplicer does not rely on pre-built gene models, the products of inexact splicing are also detected. In addition, HMMSplicer provides a score for every predicted junction allowing the user to set a threshold to tune false positive rates depending on the needs of the experiment. HMMSplicer is implemented in Python. Code and documentation are freely available at the link below. Download HMMSplicer! (Updated Nov 25th 2010 - Version: 0.9.5) |
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