FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2113287691> ?p ?o ?g. }

• W2113287691 endingPage "921" @default.
• W2113287691 startingPage "915" @default.
• W2113287691 abstract "Whole genome amplification by the multiple displacement amplification (MDA) method allows sequencing of DNA from single cells of bacteria that cannot be cultured. Assembling a genome is challenging, however, because MDA generates highly nonuniform coverage of the genome. Here we describe an algorithm tailored for short-read data from single cells that improves assembly through the use of a progressively increasing coverage cutoff. Assembly of reads from single Escherichia coli and Staphylococcus aureus cells captures >91% of genes within contigs, approaching the 95% captured from an assembly based on many E. coli cells. We apply this method to assemble a genome from a single cell of an uncultivated SAR324 clade of Deltaproteobacteria, a cosmopolitan bacterial lineage in the global ocean. Metabolic reconstruction suggests that SAR324 is aerobic, motile and chemotaxic. Our approach enables acquisition of genome assemblies for individual uncultivated bacteria using only short reads, providing cell-specific genetic information absent from metagenomic studies." @default.
• W2113287691 created "2016-06-24" @default.
• W2113287691 creator A5001197834 @default.
• W2113287691 creator A5001292680 @default.
• W2113287691 creator A5027480961 @default.
• W2113287691 creator A5030747860 @default.
• W2113287691 creator A5034349178 @default.
• W2113287691 creator A5038829006 @default.
• W2113287691 creator A5041386145 @default.
• W2113287691 creator A5042717446 @default.
• W2113287691 creator A5051116465 @default.
• W2113287691 creator A5059825779 @default.
• W2113287691 creator A5077061858 @default.
• W2113287691 creator A5077607742 @default.
• W2113287691 creator A5080551712 @default.
• W2113287691 creator A5084579178 @default.
• W2113287691 creator A5090254834 @default.
• W2113287691 date "2011-09-18" @default.
• W2113287691 modified "2023-09-28" @default.
• W2113287691 title "Efficient de novo assembly of single-cell bacterial genomes from short-read data sets" @default.
• W2113287691 cites W1553839178 @default.
• W2113287691 cites W1764397285 @default.
• W2113287691 cites W1966822396 @default.
• W2113287691 cites W1968762427 @default.
• W2113287691 cites W1976927562 @default.
• W2113287691 cites W1978637977 @default.
• W2113287691 cites W1979841837 @default.
• W2113287691 cites W1980873478 @default.
• W2113287691 cites W1983341248 @default.
• W2113287691 cites W1997121998 @default.
• W2113287691 cites W1998663222 @default.
• W2113287691 cites W2008264573 @default.
• W2113287691 cites W2012016911 @default.
• W2113287691 cites W2023046869 @default.
• W2113287691 cites W2023911006 @default.
• W2113287691 cites W2024625516 @default.
• W2113287691 cites W2031189156 @default.
• W2113287691 cites W2043364538 @default.
• W2113287691 cites W2077191430 @default.
• W2113287691 cites W2086814185 @default.
• W2113287691 cites W2088593073 @default.
• W2113287691 cites W2093830129 @default.
• W2113287691 cites W2097348296 @default.
• W2113287691 cites W2108718991 @default.
• W2113287691 cites W2112515280 @default.
• W2113287691 cites W2113708808 @default.
• W2113287691 cites W2114200698 @default.
• W2113287691 cites W2115127793 @default.
• W2113287691 cites W2123255779 @default.
• W2113287691 cites W2128114769 @default.
• W2113287691 cites W2133537846 @default.
• W2113287691 cites W2133579817 @default.
• W2113287691 cites W2135947999 @default.
• W2113287691 cites W2136651963 @default.
• W2113287691 cites W2143768371 @default.
• W2113287691 cites W2145336165 @default.
• W2113287691 cites W2149770991 @default.
• W2113287691 cites W2151017710 @default.
• W2113287691 cites W2153601235 @default.
• W2113287691 cites W2155606054 @default.
• W2113287691 cites W2156701707 @default.
• W2113287691 cites W2160969485 @default.
• W2113287691 cites W2161546116 @default.
• W2113287691 cites W2166406784 @default.
• W2113287691 cites W4294216483 @default.
• W2113287691 doi "https://doi.org/10.1038/nbt.1966" @default.
• W2113287691 hasPubMedCentralId "https://www.ncbi.nlm.nih.gov/pmc/articles/3558281" @default.
• W2113287691 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/21926975" @default.
• W2113287691 hasPublicationYear "2011" @default.
• W2113287691 type Work @default.
• W2113287691 sameAs 2113287691 @default.
• W2113287691 citedByCount "209" @default.
• W2113287691 countsByYear W21132876912012 @default.
• W2113287691 countsByYear W21132876912013 @default.
• W2113287691 countsByYear W21132876912014 @default.
• W2113287691 countsByYear W21132876912015 @default.
• W2113287691 countsByYear W21132876912016 @default.
• W2113287691 countsByYear W21132876912017 @default.
• W2113287691 countsByYear W21132876912018 @default.
• W2113287691 countsByYear W21132876912019 @default.
• W2113287691 countsByYear W21132876912020 @default.
• W2113287691 countsByYear W21132876912021 @default.
• W2113287691 countsByYear W21132876912022 @default.
• W2113287691 countsByYear W21132876912023 @default.
• W2113287691 crossrefType "journal-article" @default.
• W2113287691 hasAuthorship W2113287691A5001197834 @default.
• W2113287691 hasAuthorship W2113287691A5001292680 @default.
• W2113287691 hasAuthorship W2113287691A5027480961 @default.
• W2113287691 hasAuthorship W2113287691A5030747860 @default.
• W2113287691 hasAuthorship W2113287691A5034349178 @default.
• W2113287691 hasAuthorship W2113287691A5038829006 @default.
• W2113287691 hasAuthorship W2113287691A5041386145 @default.
• W2113287691 hasAuthorship W2113287691A5042717446 @default.
• W2113287691 hasAuthorship W2113287691A5051116465 @default.
• W2113287691 hasAuthorship W2113287691A5059825779 @default.
• W2113287691 hasAuthorship W2113287691A5077061858 @default.
• W2113287691 hasAuthorship W2113287691A5077607742 @default.
• W2113287691 hasAuthorship W2113287691A5080551712 @default.

• next