A guild of 45 CRISPR-associated (Cas) protein families and multiple CRISPR/Cas subtypes exist in prokaryotic genomes.A multi-omic systems-based approach reveals metabolic markers of bacterial vaginosis and insight into the diseaseComparative genomics of Gardnerella vaginalis strains reveals substantial differences in metabolic and virulence potentialMajor structural differences and novel potential virulence mechanisms from the genomes of multiple campylobacter speciesGenomic insights into methanotrophy: the complete genome sequence of Methylococcus capsulatus (Bath)Cloud BioLinux: pre-configured and on-demand bioinformatics computing for the genomics communityPhylogenomics of the reproductive parasite Wolbachia pipientis wMel: a streamlined genome overrun by mobile genetic elementsWhole genome comparisons of serotype 4b and 1/2a strains of the food-borne pathogen Listeria monocytogenes reveal new insights into the core genome components of this speciesComplete genome sequence and comparative genomic analysis of an emerging human pathogen, serotype V Streptococcus agalactiae.The Brucella suis genome reveals fundamental similarities between animal and plant pathogens and symbiontsThe complete genome sequence of Chlorobium tepidum TLS, a photosynthetic, anaerobic, green-sulfur bacterium.Complete genome sequence of the Q-fever pathogen Coxiella burnetiiStructural flexibility in the Burkholderia mallei genomeGenome sequence of the human malaria parasite Plasmodium falciparumDiversity of the human intestinal microbial floraMetagenomic analysis of the human distal gut microbiomeGene-centric metagenomics of the fiber-adherent bovine rumen microbiome reveals forage specific glycoside hydrolasesComplete genome sequence of the oral pathogenic Bacterium porphyromonas gingivalis strain W83Genomic encyclopedia of bacteria and archaea: sequencing a myriad of type strainsMicrobial metagenomicsAn Update on the Status of Current Research on the Mammalian MicrobiomeNext generation sequencing to define prokaryotic and fungal diversity in the bovine rumenCellulosomics, a gene-centric approach to investigating the intraspecific diversity and adaptation of Ruminococcus flavefaciens within the rumenRegulation of the xylan-degrading apparatus of Cellvibrio japonicus by a novel two-component systemEnvironmental genome shotgun sequencing of the Sargasso SeaMicrobial fuel cells and microbial ecology: applications in ruminant health and production researchStandardized metadata for human pathogen/vector genomic sequencesRobust computational analysis of rRNA hypervariable tag datasetsExtensive genome rearrangements and multiple horizontal gene transfers in a population of pyrococcus isolates from Vulcano Island, ItalyPhylogenetic analysis of the microbial populations in the wild herbivore gastrointestinal tract: insights into an unexplored niche.Human papillomavirus community in healthy persons, defined by metagenomics analysis of human microbiome project shotgun sequencing data setsOribacterium parvum sp. nov. and Oribacterium asaccharolyticum sp. nov., obligately anaerobic bacteria from the human oral cavity, and emended description of the genus Oribacterium.The FibRumBa database: a resource for biologists with interests in gastrointestinal microbial ecology, plant biomass degradation, and anaerobic microbiology.High-quality draft genome sequences of five anaerobic oral bacteria and description of Peptoanaerobacter stomatis gen. nov., sp. nov., a new member of the family Peptostreptococcaceae.Strain-specific genomic regions of Ruminococcus flavefaciens FD-1 as revealed by combinatorial random-phase genome sequencing and suppressive subtractive hybridization.Molecular analysis of the bacterial microbiota in the human stomachSecrets of soil survival revealed by the genome sequence of Arthrobacter aurescens TC1.Serial analysis of rRNA genes and the unexpected dominance of rare members of microbial communities.Population diversity and dynamics of Streptococcus mitis, Streptococcus oralis, and Streptococcus infantis in the upper respiratory tracts of adults, determined by a nonculture strategy.Comparative metagenomics reveals host specific metavirulomes and horizontal gene transfer elements in the chicken cecum microbiome.
P50
Q21090166-397E772D-D374-40E7-B3BC-FB2BDF78CBA8Q21090796-9CDE449C-E60F-45A7-AC59-3F93DDAA9DA4Q21136165-190CB424-FB4B-4CE8-B8A2-D17B0ABEA7C2Q21146381-EBEF089C-C4C2-452C-AE27-31BCDBC66B13Q21146404-CB130844-7337-4F30-9D8B-81D7041A2D53Q21284317-C73FD0D8-581B-4069-B99E-01ED177F9DFAQ21563646-33382971-D92F-4479-BC5C-B3F7F42781A4Q22065989-F8477400-CCAB-412E-ABA0-DC69DCD0413EQ22066228-1A0DEC54-0843-47E5-8CC4-96BA192D1595Q22066244-776F0B15-8DF2-42F7-9E05-9F74C2F02248Q22066260-ACF3BD83-C219-4AD2-A9A7-25594655D1A5Q22066295-F0839816-0EEA-4198-B084-9671A6C5820DQ22066378-FDBA1BA8-4255-4C6D-A795-290E7271AE96Q22122524-CB339F66-FD8C-4DAB-9668-7AD0E4D28B3BQ24544241-07AD61EB-CF5D-4F17-8869-E57AB43EFABFQ24633486-F7E7E445-504F-40AB-95F6-CAA847B6D8CCQ24642606-07B5D28E-EAB5-4F23-A368-CE90B00D84FCQ24682539-C53AF50F-D9A8-4938-8C18-B1019AF794A2Q24810416-9F8B0423-3720-460E-8E44-826FC9995293Q24812649-C0F7D996-D3CB-4C98-89E1-432B60C8C2E3Q26795710-73F3D369-00BB-431E-ADDC-6BF02D5D11F1Q27312278-AAC36A3F-14B9-4C8B-AA67-65BEEF55FE7DQ27318410-310280FE-242E-48AB-A2C0-FEA9F4026E65Q27652520-90DFBE20-3A37-449F-B096-88CC77F1E8BDQ27860605-E00BF6EA-BB3A-4CD0-91F4-F7F94A656940Q28394877-D70C154D-615D-414E-B5A9-70AB0EAA0B88Q28539782-1F1D3E05-428F-4B39-9359-14326C19A639Q28743812-9F7556E1-B609-4225-AF53-56BA77FADDADQ28756794-40A63447-EB48-42D7-9F7C-8C87213E6513Q30746512-0DAECDD2-EEFF-43CD-AA3A-2E1E145691F9Q30756107-E31167AE-179D-48FC-99A6-33A4BE664C8CQ30819829-FC47D8A7-7E30-4C95-A741-D25107DB50C5Q30870753-150A833D-A666-4220-A873-33F8B61A7B3CQ30983716-8DB15DEC-1B59-4D27-9DE2-9C52B4469BE1Q33199121-890457C6-BA57-4940-A5B8-077BE8DA87FAQ33231429-86377327-B357-432A-9FE9-85491D3890F6Q33267845-E3CCE9D3-1386-4F47-A826-8B0E14298EF0Q33285808-AF86ABAE-AD95-451B-9CCD-363A95CB0F26Q33322263-AD8A7BA9-7623-4F2A-98A4-EC39D9BFCB30Q33359584-A0C7C84C-C04D-40C6-B3CD-B5984E209E4D
P50
description
Jamaican-born American microbiologist
@en
evolutiebioloog
@nl
name
Karen E. Nelson
@ast
Karen E. Nelson
@en
Karen E. Nelson
@es
Karen E. Nelson
@nl
type
label
Karen E. Nelson
@ast
Karen E. Nelson
@en
Karen E. Nelson
@es
Karen E. Nelson
@nl
prefLabel
Karen E. Nelson
@ast
Karen E. Nelson
@en
Karen E. Nelson
@es
Karen E. Nelson
@nl
P1006
P214
P244
P268
P269
P1006
P21
P213
0000 0001 1631 8580
P214
P244
n2003130900
P268
P269
P31
P569
1950-01-01T00:00:00Z
P691
mub2013798846
P734
P735
P7859
lccn-n2003130900