scholarly article | Q13442814 |
P50 | author | Roman Biek | Q28152066 |
Frank van der Meer | Q40122605 | ||
Ruth N Zadoks | Q42868728 | ||
Karin Orsel | Q56453038 | ||
Sylvia Checkley | Q57261540 | ||
Laura Finnegan | Q59704821 | ||
Taya Forde | Q60102750 | ||
P2093 | author name string | Bryan J Macbeth | |
Mathieu Dumond | |||
Susan J Kutz | |||
Layne G Adams | |||
Jeroen De Buck | |||
Helen M Schwantje | |||
Tracy Davison | |||
Cait Nelson | |||
Brett T Elkin | |||
Amanda Niptanatiak | |||
Shane Sather | |||
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Emerging infectious diseases of wildlife--threats to biodiversity and human health | Q29617659 | ||
Capsular polysaccharide of Erysipelothrix rhusiopathiae, the causative agent of swine erysipelas, and its modification with phosphorylcholine | Q30561249 | ||
Invasion, establishment, and range expansion of two parasitic nematodes in the Canadian Arctic | Q30653590 | ||
Ecological consequences of sea-ice decline | Q30658806 | ||
Supersize me: how whole-genome sequencing and big data are transforming epidemiology | Q30784299 | ||
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The Arctic as a model for anticipating, preventing, and mitigating climate change impacts on host-parasite interactions | Q33475441 | ||
Erysipelothrix rhusiopathiae: bacteriology, epidemiology and clinical manifestations of an occupational pathogen | Q33731020 | ||
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First evidence and predictions of Plasmodium transmission in Alaskan bird populations | Q34427317 | ||
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Erysipelothrix rhusiopathiae exploits cytokeratin 18-positive epithelial cells of porcine tonsillar crypts as an invasion gateway | Q34678393 | ||
The genome of Erysipelothrix rhusiopathiae, the causative agent of swine erysipelas, reveals new insights into the evolution of firmicutes and the organism's intracellular adaptations | Q35096238 | ||
Microevolution during an Anthrax outbreak leading to clonal heterogeneity and penicillin resistance | Q35097748 | ||
Erysipelothrix rhusiopathiae contamination in the poultry house environment during erysipelas outbreaks in organic laying hen flocks | Q35128748 | ||
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A lymphatic dwelling filarioid nematode, Rumenfilaria andersoni (Filarioidea; Splendidofilariinae), is an emerging parasite in Finnish cervids | Q35555827 | ||
Erysipelothrix rhusiopathiae associated with recent widespread muskox mortalities in the Canadian Arctic | Q35604938 | ||
A combinational approach of multilocus sequence typing and other molecular typing methods in unravelling the epidemiology of Erysipelothrix rhusiopathiae strains from poultry and mammals | Q35875251 | ||
Microbial Infections Are Associated with Embryo Mortality in Arctic-Nesting Geese | Q35876414 | ||
Genomic analysis of the multi-host pathogen Erysipelothrix rhusiopathiae reveals extensive recombination as well as the existence of three generalist clades with wide geographic distribution | Q36052311 | ||
Postmortem bacteriology: a re-evaluation | Q36361064 | ||
Genomics and outbreak investigation: from sequence to consequence | Q36998465 | ||
Phocine distemper virus in northern sea otters in the Pacific Ocean, Alaska, USA. | Q37306387 | ||
Erysipeloid: a review | Q37575839 | ||
Erysipelothrix rhusiopathiae | Q37592496 | ||
The SEED and the Rapid Annotation of microbial genomes using Subsystems Technology (RAST). | Q37661996 | ||
Identification of networks of sexually transmitted infection: a molecular, geographic, and social network analysis | Q37865467 | ||
The complex interplay between stress and bacterial infections in animals | Q37941290 | ||
Anthropogenic land use change and infectious diseases: a review of the evidence | Q38213996 | ||
Assessing genetic heterogeneity within bacterial species isolated from gastrointestinal and environmental samples: how many isolates does it take? | Q39022630 | ||
A post-assembly genome-improvement toolkit (PAGIT) to obtain annotated genomes from contigs | Q40548513 | ||
Persistence and distribution of Erysipelothrix rhusiopathiae and bacterial indicator organisms on land used for disposal of piggery effluent | Q43324605 | ||
Molecular identification of Erysipelothrix isolates from the tonsils of healthy cattle by PCR. | Q43584357 | ||
Isolation of Erysipelothrix rhusiopathiae from tonsils of apparently normal swine by two methods | Q44380140 | ||
Variables associated with Besnoitia tarandi prevalence and cyst density in barren-ground caribou (Rangifer tarandus) populations | Q45300787 | ||
Disease spread, susceptibility and infection intensity: vicious circles? | Q51648956 | ||
Comparison of conventional direct and enrichment culture methods for Erysipelothrix spp. from experimentally and naturally infected swine. | Q51800198 | ||
Global declines of caribou and reindeer | Q56135990 | ||
Status and trends of Rangifer tarandus and Ovibos moschatus populations in Canada | Q56136023 | ||
Single Causative Factor for Severe Pneumonia Epizootics in Muskoxen? | Q60124898 | ||
Survival of Erysipelothrix rhusiopathiae in soil under various environmental conditions | Q69328649 | ||
Erysipelothrix rhusiopathiae serotype 5 isolated from a white-tailed deer in Iowa | Q70652654 | ||
A selective liquid medium utilizing antibiotics for isolation of Erysipelothrix insidiosa | Q72701687 | ||
Erysipelothrix rhusiopathiae, serotype 17, septicemia in moose (Alces alces) from Algonquin park, Ontario | Q72734045 | ||
Carriers of swine erysipelas | Q73497688 | ||
Normal bacterial flora from vaginas of Criollo Limonero cows | Q82477410 | ||
Rapid detection and differentiation of Erysipelothrix spp. by a novel multiplex real-time PCR assay | Q84747315 | ||
P921 | main subject | genomics | Q222046 |
emerging pathogen | Q108429945 | ||
P304 | page(s) | 1759 | |
P577 | publication date | 2016-11-07 | |
P1433 | published in | Frontiers in Microbiology | Q27723481 |
P1476 | title | Bacterial Genomics Reveal the Complex Epidemiology of an Emerging Pathogen in Arctic and Boreal Ungulates | |
P478 | volume | 7 |
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