about
Diversity and community composition of methanogenic archaea in the rumen of Scottish upland sheep assessed by different methodsToward Automatic Reconstruction of a Highly Resolved Tree of LifeA computational screen for type I polyketide synthases in metagenomics shotgun dataSTRING 8--a global view on proteins and their functional interactions in 630 organismsSnpdat: Easy and rapid annotation of results from de novo snp discovery projects for model and non-model organismsConsistent mutational paths predict eukaryotic thermostabilityHorizontal gene flow from Eubacteria to Archaebacteria and what it means for our understanding of eukaryogenesisImplementing and testing Bayesian and maximum-likelihood supertree methods in phylogeneticsConcatabominations: identifying unstable taxa in morphological phylogenetics using a heuristic extension to safe taxonomic reductionAssessment of methods for amino acid matrix selection and their use on empirical data shows that ad hoc assumptions for choice of matrix are not justifiedeggNOG v4.0: nested orthology inference across 3686 organismsWhole genome association study identifies regions of the bovine genome and biological pathways involved in carcass trait performance in Holstein-Friesian cattleMitochondrial data are not suitable for resolving placental mammal phylogeny.The shape of supertrees to come: tree shape related properties of fourteen supertree methods.Metasecretome-selective phage display approach for mining the functional potential of a rumen microbial communityL.U.St: a tool for approximated maximum likelihood supertree reconstructionUniversally distributed single-copy genes indicate a constant rate of horizontal transferPolymorphism discovery and allele frequency estimation using high-throughput DNA sequencing of target-enriched pooled DNA samples.RNA-seq analysis of differential gene expression in liver from lactating dairy cows divergent in negative energy balance.Clann: investigating phylogenetic information through supertree analyses.The Opisthokonta and the Ecdysozoa may not be clades: stronger support for the grouping of plant and animal than for animal and fungi and stronger support for the Coelomata than Ecdysozoa.Global endometrial transcriptomic profiling: transient immune activation precedes tissue proliferation and repair in healthy beef cows.Determining the culturability of the rumen bacterial microbiome.Rumen methanogenic genotypes differ in abundance according to host residual feed intake phenotype and diet typeGenome sequence of Ensifer adhaerens OV14 provides insights into its ability as a novel vector for the genetic transformation of plant genomesIdentifying single copy orthologs in Metazoa.Detecting adaptive molecular evolution: additional tools for the parasitologist.Temporal dynamics of the metabolically active rumen bacteria colonizing fresh perennial ryegrass.Fatty acid biosynthesis in Mycobacterium tuberculosis: lateral gene transfer, adaptive evolution, and gene duplication.Fertility and genomics: comparison of gene expression in contrasting reproductive tissues of female cattle.An ultra-high density genetic linkage map of perennial ryegrass (Lolium perenne) using genotyping by sequencing (GBS) based on a reference shotgun genome assemblyTranscriptomics of liver and muscle in Holstein cows genetically divergent for fertility highlight differences in nutrient partitioning and inflammation processes.Visualization of multiple alignments, phylogenies and gene family evolution.The integration of 'omic' disciplines and systems biology in cattle breeding.Changes in the Total Fecal Bacterial Population in Individual Horses Maintained on a Restricted Diet Over 6 Weeks.Buwchitin: A Ruminal Peptide with Antimicrobial Potential against Enterococcus faecalis.The rumen microbiome: an underexplored resource for novel antimicrobial discovery.Effect of short term diet restriction on gene expression in the bovine hypothalamus using next generation RNA sequencing technology.Evidence of positive Darwinian selection in putative meningococcal vaccine antigens.Spherical: an iterative workflow for assembling metagenomic datasets.
P50
Q21090595-4A6B9580-5B1B-4B7A-A793-2F045197F8FBQ22065877-BCFCC17B-F7A3-4FAC-930D-FB3657DBA5ABQ24489674-A0A89F7C-CBE9-4658-AB44-7495942CE0FDQ24656073-FF3F92FD-9983-428F-81B9-BA457511D9DEQ27496500-A1077D8C-D742-4472-809D-5B2220218DB2Q27675861-90801C64-9AF5-4058-B8D7-940DE73510E5Q28607620-2C11DAFB-6FCA-4750-8CCB-7AD3B148C75DQ28608229-51C010D0-07F1-49E0-86A6-8749B6809B50Q28649864-850B9CF2-9AF2-443E-BC55-C10284284505Q29617331-FD522C69-4469-46D6-B1F2-E17FEA63AE5DQ30002339-D13E6282-C997-40DD-9EFB-5EE9DE1A5810Q30591155-E1CE102A-4E4C-49CB-8809-47BA861943D1Q30853932-796E136C-2510-4CAF-8E23-AD083C235D07Q33218790-21C6259D-91AB-4D4D-B61E-51D2F223990AQ33671615-F9FFC3F6-1823-4E98-B55D-16FFFA3F23A1Q33813929-9F1AACDD-0D3D-4BE1-827A-7125604F072BQ33995525-20908553-5C02-4CDC-95D0-B61C6B4F2D82Q34124058-50C0D705-DE5A-4FE8-BB54-6C5173434384Q34274259-92FB9C09-A3EE-49BE-99B9-C8A59A8A9A1EQ34349226-E89AE548-B4AB-493F-B32D-7BA905BD1A71Q34392765-BF8512A6-F9CC-4D56-BF05-3BB2DDD946A1Q34416772-EECC38C5-12BF-42DC-BE71-27AEE30FB56CQ34498231-BD54E25B-B0F8-450A-ABF7-85BC3414A9DAQ35038002-17AAA0FF-BC73-4F47-B954-3904557D9911Q35140942-92F025FD-CC0B-43AE-B30F-AEE7B5E59652Q35586786-CA601166-2EEF-43B4-9CC9-87B88A6A4DB3Q35623126-1AB0D50E-4269-46DA-A181-8CD1837B6710Q35834053-B0D1B44C-2855-4092-A34C-ADEBDF9871CEQ35918092-648AACD0-D2CA-471B-864F-1FAB357969D5Q35985029-1DC06845-94F9-4085-8A48-E83ABF560A97Q36042845-B8FA7E45-12FE-4D2E-85AD-0EA051E12A4EQ36101702-9E3A2C43-8AE2-4C34-B2F9-F9A4633AC4A9Q37701247-19523D4F-1B02-424A-B3B7-6D8B1109B05FQ37996105-2CA52B2A-7908-4D6D-9CBF-966C62B35072Q38429028-C513E647-5182-4409-BFDB-0923F9DFEA42Q40117845-978940F0-585D-4BF4-A5DC-C3D9FA2749DEQ46398427-A4AF1042-D22E-4337-B722-54511148B2AEQ47142040-EFF4E861-47E2-4A12-B80C-D5EE9CC1DD0AQ48130502-C4BCFFAD-5806-49B6-9B2E-69D3B6CE1ACFQ49223421-4C3157A8-E315-43A7-984B-8B8CCF4E38B5
P50
description
hulumtues
@sq
onderzoeker
@nl
researcher
@en
ricercatore
@it
հետազոտող
@hy
name
Christopher Creevey
@fr
Christopher J Creevey
@nl
Christopher J Creevey
@sl
Christopher J. Creevey
@en
Christopher J. Creevey
@es
type
label
Christopher Creevey
@fr
Christopher J Creevey
@nl
Christopher J Creevey
@sl
Christopher J. Creevey
@en
Christopher J. Creevey
@es
altLabel
Chris Creevey
@en
Christopher J Creevey
@en
prefLabel
Christopher Creevey
@fr
Christopher J Creevey
@nl
Christopher J Creevey
@sl
Christopher J. Creevey
@en
Christopher J. Creevey
@es
P1053
A-1836-2013
P106
P1153
6507448487
P21
P214
6103149619458204010001
P2456
P31
P3829
P496
0000-0001-7183-1555
P734
P735
P7859
viaf-6103149619458204010001