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Publication DateEcoHealth, ISSN 1612-9202, 6/2012, Volume 9, Issue 2, pp. 132 - 138
Kyrgyzstan reported 77.5 new human brucellosis cases per 100,000 people in 2007, which is one of the highest incidences worldwide. In Kyrgyzstan, the currently...
Environmental Health | Microbiology | Ecosystems | Public Health/Gesundheitswesen | Medicine & Public Health | brucellosis | livestock | serology | apparent prevalence | Animal Ecology | incidence | human | Kyrgyzstan | Environmental Management | Human | Brucellosis | Livestock | Serology | Apparent prevalence | Incidence | ENVIRONMENTAL SCIENCES | Q-FEVER | Sheep - microbiology | Cattle Diseases - microbiology | Cross-Sectional Studies | Enzyme-Linked Immunosorbent Assay | Sheep Diseases - microbiology | Humans | Cattle Diseases - epidemiology | Goat Diseases - epidemiology | Male | Seroepidemiologic Studies | Brucellosis - veterinary | Kyrgyzstan - epidemiology | Sheep, Domestic - microbiology | Goat Diseases - microbiology | Goats - microbiology | Regression Analysis | Animals | Cattle | Brucellosis - epidemiology | Female | Livestock - microbiology | Sheep Diseases - epidemiology | Cluster Analysis | Disease prevention | Animal diseases | Disease transmission | Infectious diseases | Original Contribution
Environmental Health | Microbiology | Ecosystems | Public Health/Gesundheitswesen | Medicine & Public Health | brucellosis | livestock | serology | apparent prevalence | Animal Ecology | incidence | human | Kyrgyzstan | Environmental Management | Human | Brucellosis | Livestock | Serology | Apparent prevalence | Incidence | ENVIRONMENTAL SCIENCES | Q-FEVER | Sheep - microbiology | Cattle Diseases - microbiology | Cross-Sectional Studies | Enzyme-Linked Immunosorbent Assay | Sheep Diseases - microbiology | Humans | Cattle Diseases - epidemiology | Goat Diseases - epidemiology | Male | Seroepidemiologic Studies | Brucellosis - veterinary | Kyrgyzstan - epidemiology | Sheep, Domestic - microbiology | Goat Diseases - microbiology | Goats - microbiology | Regression Analysis | Animals | Cattle | Brucellosis - epidemiology | Female | Livestock - microbiology | Sheep Diseases - epidemiology | Cluster Analysis | Disease prevention | Animal diseases | Disease transmission | Infectious diseases | Original Contribution
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Loading RightsVeterinary Microbiology, ISSN 0378-1135, 12/2015, Volume 181, Issue 1-2, pp. 119 - 129
Q fever is an almost ubiquitous zoonosis caused by , which is able to infect several animal species, as well as humans. Cattle, sheep and goats are the primary...
Sheep | Goat | Zoonosis | Q fever | Coxiella burnetii | MOLECULAR CHARACTERIZATION | SEROLOGICAL TESTS | BULK-TANK MILK | DOMESTIC RUMINANTS | MICROBIOLOGY | COMPLEMENT-FIXATION | ADVERSE PREGNANCY OUTCOMES | INFORMATION-SYSTEM | DAIRY GOAT | Q-FEVER SEROPREVALENCE | VETERINARY SCIENCES | LINKED IMMUNOSORBENT ASSAYS | Goats | Q Fever - epidemiology | Sheep, Domestic | Humans | Goat Diseases - epidemiology | Abortion, Veterinary - prevention & control | Sheep Diseases - diagnosis | Coxiella burnetii - physiology | Bacterial Shedding | Q Fever - therapy | Goat Diseases - prevention & control | Zoonoses - epidemiology | Female | Q Fever - etiology | Goat Diseases - diagnosis | Sheep Diseases - epidemiology | Sheep Diseases - prevention & control | Abortion, Veterinary - epidemiology | Sheep Diseases - microbiology | Europe - epidemiology | Q Fever - veterinary | Ruminants - microbiology | Pregnancy | Goat Diseases - microbiology | Animals | Disease Outbreaks - prevention & control | Abortion, Veterinary - microbiology | Coxiella burnetii - pathogenicity | Zoonoses - microbiology | Health aspects | Vaccination | Zoonoses
Sheep | Goat | Zoonosis | Q fever | Coxiella burnetii | MOLECULAR CHARACTERIZATION | SEROLOGICAL TESTS | BULK-TANK MILK | DOMESTIC RUMINANTS | MICROBIOLOGY | COMPLEMENT-FIXATION | ADVERSE PREGNANCY OUTCOMES | INFORMATION-SYSTEM | DAIRY GOAT | Q-FEVER SEROPREVALENCE | VETERINARY SCIENCES | LINKED IMMUNOSORBENT ASSAYS | Goats | Q Fever - epidemiology | Sheep, Domestic | Humans | Goat Diseases - epidemiology | Abortion, Veterinary - prevention & control | Sheep Diseases - diagnosis | Coxiella burnetii - physiology | Bacterial Shedding | Q Fever - therapy | Goat Diseases - prevention & control | Zoonoses - epidemiology | Female | Q Fever - etiology | Goat Diseases - diagnosis | Sheep Diseases - epidemiology | Sheep Diseases - prevention & control | Abortion, Veterinary - epidemiology | Sheep Diseases - microbiology | Europe - epidemiology | Q Fever - veterinary | Ruminants - microbiology | Pregnancy | Goat Diseases - microbiology | Animals | Disease Outbreaks - prevention & control | Abortion, Veterinary - microbiology | Coxiella burnetii - pathogenicity | Zoonoses - microbiology | Health aspects | Vaccination | Zoonoses
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Loading RightsBMC Infectious Diseases, ISSN 1471-2334, 03/2010, Volume 10, Issue 1, pp. 69 - 69
Background: A Q-fever outbreak occurred in an urban area in the south of the Netherlands in May 2008. The distribution and timing of cases suggested a common...
INFECTIOUS DISEASES | Q Fever - epidemiology | Humans | Middle Aged | Netherlands - epidemiology | Male | Q Fever - veterinary | Urban Population | Goat Diseases - microbiology | Goats - microbiology | Animals | Disease Outbreaks | Geographic Information Systems - utilization | Zoonoses - epidemiology | Adult | Female | Goat Diseases - transmission | Usage | Demographic aspects | Q fever | Dairy farming | Diagnosis | Research | Health aspects | Risk factors | Geographic information systems
INFECTIOUS DISEASES | Q Fever - epidemiology | Humans | Middle Aged | Netherlands - epidemiology | Male | Q Fever - veterinary | Urban Population | Goat Diseases - microbiology | Goats - microbiology | Animals | Disease Outbreaks | Geographic Information Systems - utilization | Zoonoses - epidemiology | Adult | Female | Goat Diseases - transmission | Usage | Demographic aspects | Q fever | Dairy farming | Diagnosis | Research | Health aspects | Risk factors | Geographic information systems
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Loading RightsVeterinary Microbiology, ISSN 0378-1135, 2008, Volume 129, Issue 3, pp. 217 - 235
Infections with subsp. (MAP) can be latent for years without affecting the animal, but the animal may become infectious or clinical at some point. Diagnosis of...
Sensitivity | Specificity | Paratuberculosis | Test evaluation | paratuberculosis | test evaluation | JOHNES-DISEASE | LINKED-IMMUNOSORBENT-ASSAY | SEROLOGICAL TESTS | MICROBIOLOGY | GEL-IMMUNODIFFUSION TEST | COMPLEMENT-FIXATION TEST | DAIRY-CATTLE HERDS | ABSORBED ELISA | MYCOBACTERIUM-AVIUM | BOVINE-PARATUBERCULOSIS | specificity | VETERINARY SCIENCES | sensitivity | AVIUM SUBSP-PARATUBERCULOSIS | Enzyme-Linked Immunosorbent Assay - methods | Paratuberculosis - microbiology | Mycobacterium avium subsp. paratuberculosis - immunology | Goats | Species Specificity | Interferon-gamma - metabolism | Sheep Diseases - diagnosis | Paratuberculosis - pathology | Feces - microbiology | Cattle | Sensitivity and Specificity | Goat Diseases - diagnosis | Paratuberculosis - diagnosis | Severity of Illness Index | Cattle Diseases - microbiology | Reproducibility of Results | Sheep Diseases - microbiology | Mycobacterium avium subsp. paratuberculosis - isolation & purification | Deer | Goat Diseases - microbiology | Interferon-gamma - analysis | Animals | Interferon-gamma - immunology | Sheep | Enzyme-Linked Immunosorbent Assay - veterinary | Cattle Diseases - diagnosis
Sensitivity | Specificity | Paratuberculosis | Test evaluation | paratuberculosis | test evaluation | JOHNES-DISEASE | LINKED-IMMUNOSORBENT-ASSAY | SEROLOGICAL TESTS | MICROBIOLOGY | GEL-IMMUNODIFFUSION TEST | COMPLEMENT-FIXATION TEST | DAIRY-CATTLE HERDS | ABSORBED ELISA | MYCOBACTERIUM-AVIUM | BOVINE-PARATUBERCULOSIS | specificity | VETERINARY SCIENCES | sensitivity | AVIUM SUBSP-PARATUBERCULOSIS | Enzyme-Linked Immunosorbent Assay - methods | Paratuberculosis - microbiology | Mycobacterium avium subsp. paratuberculosis - immunology | Goats | Species Specificity | Interferon-gamma - metabolism | Sheep Diseases - diagnosis | Paratuberculosis - pathology | Feces - microbiology | Cattle | Sensitivity and Specificity | Goat Diseases - diagnosis | Paratuberculosis - diagnosis | Severity of Illness Index | Cattle Diseases - microbiology | Reproducibility of Results | Sheep Diseases - microbiology | Mycobacterium avium subsp. paratuberculosis - isolation & purification | Deer | Goat Diseases - microbiology | Interferon-gamma - analysis | Animals | Interferon-gamma - immunology | Sheep | Enzyme-Linked Immunosorbent Assay - veterinary | Cattle Diseases - diagnosis
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Loading RightsPloS one, ISSN 1932-6203, 2017, Volume 12, Issue 8, p. e0182644
Brucellosis has been an endemic disease of cattle and humans in Costa Rica since the beginning of XX century. However, brucellosis in sheep, goats, pigs, water...
DIAGNOSIS | MULTIPLEX PCR ASSAY | SEROLOGICAL TESTS | PERFORMANCE | MULTIDISCIPLINARY SCIENCES | CETI | INFECTION | ABORTUS | IDENTIFICATION | Humans | Middle Aged | Goat Diseases - epidemiology | Male | Seroepidemiologic Studies | Swine Diseases - epidemiology | Young Adult | Horse Diseases - epidemiology | Swine | Adult | Brucellosis - epidemiology | Female | Sheep Diseases - epidemiology | Child | Sheep - microbiology | Sheep Diseases - microbiology | Buffaloes - microbiology | Brucellosis - veterinary | Goat Diseases - microbiology | Goats - microbiology | Animals | Adolescent | Costa Rica - epidemiology | Horses | Swine Diseases - microbiology | Aged | Horse Diseases - microbiology | Dolphins - microbiology | Brucellosis | Livestock | Research | Aquatic mammals | Epidemiology | Analysis | Antigens | Goats | Antibodies | Mammals | Veterinary medicine | Marine mammals | Zoonoses | Farms | Cattle | Sheep | Diagnosis | Dolphins & porpoises | Buffaloes | Dolphins
DIAGNOSIS | MULTIPLEX PCR ASSAY | SEROLOGICAL TESTS | PERFORMANCE | MULTIDISCIPLINARY SCIENCES | CETI | INFECTION | ABORTUS | IDENTIFICATION | Humans | Middle Aged | Goat Diseases - epidemiology | Male | Seroepidemiologic Studies | Swine Diseases - epidemiology | Young Adult | Horse Diseases - epidemiology | Swine | Adult | Brucellosis - epidemiology | Female | Sheep Diseases - epidemiology | Child | Sheep - microbiology | Sheep Diseases - microbiology | Buffaloes - microbiology | Brucellosis - veterinary | Goat Diseases - microbiology | Goats - microbiology | Animals | Adolescent | Costa Rica - epidemiology | Horses | Swine Diseases - microbiology | Aged | Horse Diseases - microbiology | Dolphins - microbiology | Brucellosis | Livestock | Research | Aquatic mammals | Epidemiology | Analysis | Antigens | Goats | Antibodies | Mammals | Veterinary medicine | Marine mammals | Zoonoses | Farms | Cattle | Sheep | Diagnosis | Dolphins & porpoises | Buffaloes | Dolphins
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Loading RightsApplied and Environmental Microbiology, ISSN 0099-2240, 01/2012, Volume 78, Issue 2, pp. 464 - 470
Classifications Services AEM Citing Articles Google Scholar PubMed Related Content Social Bookmarking CiteULike Delicious Digg Facebook Google+ Mendeley Reddit...
PHAGOCYTOPHILUM INFECTION | GENOTYPES | SEQUENCE-ANALYSIS | MSP4 GENE | GENUS ANAPLASMA | BOVIS | OVIS | BIOTECHNOLOGY & APPLIED MICROBIOLOGY | TICKS | JAPAN | MICROBIOLOGY | EHRLICHIA-EQUI | Molecular Diagnostic Techniques - methods | Prevalence | Goats | Bacteriological Techniques - methods | Molecular Sequence Data | Goat Diseases - epidemiology | DNA, Bacterial - chemistry | Phylogeny | DNA, Ribosomal - chemistry | Polymerase Chain Reaction - methods | Bacteremia - microbiology | Genetic Variation | Bacteremia - veterinary | Anaplasma - classification | Coinfection - veterinary | DNA, Ribosomal - genetics | Anaplasma - isolation & purification | China - epidemiology | Coinfection - epidemiology | Sequence Analysis, DNA | Goat Diseases - microbiology | Coinfection - microbiology | Animals | DNA, Bacterial - genetics | RNA, Ribosomal, 16S - genetics | Bacteremia - epidemiology | Cluster Analysis | Host-bacteria relationships | Growth | Causes of | Gram-negative bacteria | Health aspects | Tick-borne diseases | Diseases | Genetics and Molecular Biology
PHAGOCYTOPHILUM INFECTION | GENOTYPES | SEQUENCE-ANALYSIS | MSP4 GENE | GENUS ANAPLASMA | BOVIS | OVIS | BIOTECHNOLOGY & APPLIED MICROBIOLOGY | TICKS | JAPAN | MICROBIOLOGY | EHRLICHIA-EQUI | Molecular Diagnostic Techniques - methods | Prevalence | Goats | Bacteriological Techniques - methods | Molecular Sequence Data | Goat Diseases - epidemiology | DNA, Bacterial - chemistry | Phylogeny | DNA, Ribosomal - chemistry | Polymerase Chain Reaction - methods | Bacteremia - microbiology | Genetic Variation | Bacteremia - veterinary | Anaplasma - classification | Coinfection - veterinary | DNA, Ribosomal - genetics | Anaplasma - isolation & purification | China - epidemiology | Coinfection - epidemiology | Sequence Analysis, DNA | Goat Diseases - microbiology | Coinfection - microbiology | Animals | DNA, Bacterial - genetics | RNA, Ribosomal, 16S - genetics | Bacteremia - epidemiology | Cluster Analysis | Host-bacteria relationships | Growth | Causes of | Gram-negative bacteria | Health aspects | Tick-borne diseases | Diseases | Genetics and Molecular Biology
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Loading RightsVeterinary Microbiology, ISSN 0378-1135, 12/2015, Volume 181, Issue 1-2, pp. 161 - 169
Paratuberculosis is a chronic insidious, often serious, disease of the global small ruminant industries, mainly causing losses from mortalities and reduced...
Health | Paratuberculosis | Vaccination | Small ruminants | Disease control programs | Sheep | Goat | VACCINE | CATTLE | MICROBIOLOGY | ADULT SHEEP | FECAL CULTURE | AVIUM SUBSP PARATUBERCULOSIS | SELF-INOCULATION | GREEK DAIRY SHEEP | SUBCLINICAL PARATUBERCULOSIS | VETERINARY SCIENCES | OVINE JOHNES-DISEASE | BAYESIAN-ESTIMATION | Goats | Sheep Diseases - microbiology | Sheep, Domestic | Goat Diseases - therapy | Mycobacterium avium subsp. paratuberculosis - isolation & purification | Goat Diseases - epidemiology | Ruminants - microbiology | Vaccination - veterinary | Paratuberculosis - transmission | Sheep Diseases - diagnosis | Australia - epidemiology | Goat Diseases - microbiology | Sheep Diseases - therapy | Animals | Goat Diseases - diagnosis | Sheep Diseases - epidemiology | Paratuberculosis - diagnosis | Paratuberculosis - etiology | Paratuberculosis - therapy | International marketing | Analysis | Johne's disease | Strategic planning (Business)
Health | Paratuberculosis | Vaccination | Small ruminants | Disease control programs | Sheep | Goat | VACCINE | CATTLE | MICROBIOLOGY | ADULT SHEEP | FECAL CULTURE | AVIUM SUBSP PARATUBERCULOSIS | SELF-INOCULATION | GREEK DAIRY SHEEP | SUBCLINICAL PARATUBERCULOSIS | VETERINARY SCIENCES | OVINE JOHNES-DISEASE | BAYESIAN-ESTIMATION | Goats | Sheep Diseases - microbiology | Sheep, Domestic | Goat Diseases - therapy | Mycobacterium avium subsp. paratuberculosis - isolation & purification | Goat Diseases - epidemiology | Ruminants - microbiology | Vaccination - veterinary | Paratuberculosis - transmission | Sheep Diseases - diagnosis | Australia - epidemiology | Goat Diseases - microbiology | Sheep Diseases - therapy | Animals | Goat Diseases - diagnosis | Sheep Diseases - epidemiology | Paratuberculosis - diagnosis | Paratuberculosis - etiology | Paratuberculosis - therapy | International marketing | Analysis | Johne's disease | Strategic planning (Business)
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Loading RightsApplied and Environmental Microbiology, ISSN 0099-2240, 08/2004, Volume 70, Issue 8, pp. 4458 - 4467
Classifications Services AEM Citing Articles Google Scholar PubMed Related Content Social Bookmarking CiteULike Delicious Digg Facebook Google+ Mendeley Reddit...
RIBOTYPES | SILAGE | BIOTECHNOLOGY & APPLIED MICROBIOLOGY | ENCEPHALITIS | CONTAMINATION | MICROBIOLOGY | DIVERSITY | FOOD SAFETY | ANIMAL HEALTH | VIRULENCE | DAIRY-CATTLE | MILK | Prevalence | Goats | Goat Diseases - epidemiology | Listeriosis - epidemiology | Cattle | Ecosystem | Listeria monocytogenes - classification | Agriculture | Sheep Diseases - epidemiology | Listeriosis - veterinary | Sheep Diseases - transmission | Cattle Diseases - microbiology | Cattle Diseases - transmission | Sheep Diseases - microbiology | Soil Microbiology | Cattle Diseases - epidemiology | Listeria monocytogenes - growth & development | Ruminants - microbiology | Goat Diseases - microbiology | Listeria monocytogenes - pathogenicity | Animals | Listeriosis - transmission | Listeria monocytogenes - genetics | Sheep | Goat Diseases - transmission | Water Microbiology | Prevention | Listeria monocytogenes | Research | Foodborne diseases | Analysis | Ruminants | Food Microbiology
RIBOTYPES | SILAGE | BIOTECHNOLOGY & APPLIED MICROBIOLOGY | ENCEPHALITIS | CONTAMINATION | MICROBIOLOGY | DIVERSITY | FOOD SAFETY | ANIMAL HEALTH | VIRULENCE | DAIRY-CATTLE | MILK | Prevalence | Goats | Goat Diseases - epidemiology | Listeriosis - epidemiology | Cattle | Ecosystem | Listeria monocytogenes - classification | Agriculture | Sheep Diseases - epidemiology | Listeriosis - veterinary | Sheep Diseases - transmission | Cattle Diseases - microbiology | Cattle Diseases - transmission | Sheep Diseases - microbiology | Soil Microbiology | Cattle Diseases - epidemiology | Listeria monocytogenes - growth & development | Ruminants - microbiology | Goat Diseases - microbiology | Listeria monocytogenes - pathogenicity | Animals | Listeriosis - transmission | Listeria monocytogenes - genetics | Sheep | Goat Diseases - transmission | Water Microbiology | Prevention | Listeria monocytogenes | Research | Foodborne diseases | Analysis | Ruminants | Food Microbiology
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Loading RightsVeterinary Microbiology, ISSN 0378-1135, 04/2011, Volume 149, Issue 1-2, pp. 1 - 16
Reliable detection of Coxiella burnetii is a critical point for the control of the spread of this zoonotic disease (Q fever), ruminants being considered as the...
Prevalence | Review | Q fever | Coxiella burnetii | Ruminants | ANIMALS | Q-FEVER ANTIBODIES | BULK-TANK MILK | SHEEP | MICROBIOLOGY | WITHIN-HERD PREVALENCE | SEROPREVALENCE | GOATS | SEROLOGICAL SURVEY | VETERINARY SCIENCES | COMPLEMENT-FIXING ANTIBODIES | DAIRY-CATTLE | Goat Diseases - microbiology | Goats - microbiology | Sheep - microbiology | Animals | Q Fever - epidemiology | Cattle Diseases - epidemiology | Coxiella burnetii - isolation & purification | Q Fever - veterinary | Sheep Diseases - epidemiology | Cattle - microbiology | Goats | Health aspects | Analysis | Prevalence studies (Epidemiology) | Zoonoses
Prevalence | Review | Q fever | Coxiella burnetii | Ruminants | ANIMALS | Q-FEVER ANTIBODIES | BULK-TANK MILK | SHEEP | MICROBIOLOGY | WITHIN-HERD PREVALENCE | SEROPREVALENCE | GOATS | SEROLOGICAL SURVEY | VETERINARY SCIENCES | COMPLEMENT-FIXING ANTIBODIES | DAIRY-CATTLE | Goat Diseases - microbiology | Goats - microbiology | Sheep - microbiology | Animals | Q Fever - epidemiology | Cattle Diseases - epidemiology | Coxiella burnetii - isolation & purification | Q Fever - veterinary | Sheep Diseases - epidemiology | Cattle - microbiology | Goats | Health aspects | Analysis | Prevalence studies (Epidemiology) | Zoonoses
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Loading RightsInfection and Immunity, ISSN 0019-9567, 2015, Volume 83, Issue 6, pp. 2409 - 2419
Listeria monocytogenes rhombencephalitis is a severe progressive disease despite a swift intrathecal immune response. Based on previous observations, we...
INFECTIOUS DISEASES | VIRUS | STEM ENCEPHALITIS | ACUTE BACTERIAL-MENINGITIS | NEURONS | ADULTS | RHOMBENCEPHALITIS | CENTRAL-NERVOUS-SYSTEM | SMALL RUMINANTS | INFECTION | MODEL | IMMUNOLOGY | Brain - cytology | Cattle Diseases - microbiology | Brain - microbiology | Movement | Goats | Sheep Diseases - microbiology | Encephalitis - pathology | Cattle Diseases - pathology | Goat Diseases - pathology | Axons | Goat Diseases - microbiology | Animals | Cattle | Encephalitis - veterinary | Listeriosis - microbiology | Sheep | Listeria monocytogenes - physiology | Encephalitis - microbiology | Sheep Diseases - pathology | Bacterial Infections
INFECTIOUS DISEASES | VIRUS | STEM ENCEPHALITIS | ACUTE BACTERIAL-MENINGITIS | NEURONS | ADULTS | RHOMBENCEPHALITIS | CENTRAL-NERVOUS-SYSTEM | SMALL RUMINANTS | INFECTION | MODEL | IMMUNOLOGY | Brain - cytology | Cattle Diseases - microbiology | Brain - microbiology | Movement | Goats | Sheep Diseases - microbiology | Encephalitis - pathology | Cattle Diseases - pathology | Goat Diseases - pathology | Axons | Goat Diseases - microbiology | Animals | Cattle | Encephalitis - veterinary | Listeriosis - microbiology | Sheep | Listeria monocytogenes - physiology | Encephalitis - microbiology | Sheep Diseases - pathology | Bacterial Infections
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Loading RightsParasites and Vectors, ISSN 1756-3305, 05/2017, Volume 10, Issue 1, pp. 264 - 6
Background: Tick-borne diseases currently represent an important issue for global health. A number of emerging tick-transmitted microbes continue to be...
Anaplasma capra | groEL gene | Prevalence | Anaplasmosis | msp4 gene | gltA gene | Public health | 16S rRNA gene | PHYLOGENETIC ANALYSIS | CHINA | PHAGOCYTOPHILUM | IDENTIFICATION | RICKETTSIALES | EHRLICHIA | DISEASE | INFECTION | RIBOSOMAL-RNA GENE | MOLECULAR SURVEY | PARASITOLOGY | Public Health | Goats | Goat Diseases - epidemiology | Phylogeny | Anaplasma - physiology | Anaplasmosis - microbiology | Anaplasma - classification | Anaplasmosis - transmission | Sheep Diseases - epidemiology | Sheep Diseases - transmission | Tick-Borne Diseases - microbiology | Ixodes - microbiology | Sheep Diseases - microbiology | Tick-Borne Diseases - transmission | Anaplasma - isolation & purification | Ruminants - microbiology | Anaplasmosis - epidemiology | China - epidemiology | Zoonoses - transmission | Goat Diseases - microbiology | Animals | Anaplasma - genetics | Sheep | Tick-Borne Diseases - epidemiology | Goat Diseases - transmission | Zoonoses - microbiology | rRNA 16S | Transcription | Methodology | Ticks | Genes | Identification | Infections | Blood | Parasitic diseases | Phylogenetics | Species | Deoxyribonucleic acid--DNA | Tick-borne diseases | Arachnids | Pathogens | Nucleotide sequence | Markers | Regions | Surveying | Fever | Diseases | Polymerase chain reaction | Surveys | Genetic markers | Infectious diseases | Surveillance | Analysis | Samples | DNA | Genetic testing
Anaplasma capra | groEL gene | Prevalence | Anaplasmosis | msp4 gene | gltA gene | Public health | 16S rRNA gene | PHYLOGENETIC ANALYSIS | CHINA | PHAGOCYTOPHILUM | IDENTIFICATION | RICKETTSIALES | EHRLICHIA | DISEASE | INFECTION | RIBOSOMAL-RNA GENE | MOLECULAR SURVEY | PARASITOLOGY | Public Health | Goats | Goat Diseases - epidemiology | Phylogeny | Anaplasma - physiology | Anaplasmosis - microbiology | Anaplasma - classification | Anaplasmosis - transmission | Sheep Diseases - epidemiology | Sheep Diseases - transmission | Tick-Borne Diseases - microbiology | Ixodes - microbiology | Sheep Diseases - microbiology | Tick-Borne Diseases - transmission | Anaplasma - isolation & purification | Ruminants - microbiology | Anaplasmosis - epidemiology | China - epidemiology | Zoonoses - transmission | Goat Diseases - microbiology | Animals | Anaplasma - genetics | Sheep | Tick-Borne Diseases - epidemiology | Goat Diseases - transmission | Zoonoses - microbiology | rRNA 16S | Transcription | Methodology | Ticks | Genes | Identification | Infections | Blood | Parasitic diseases | Phylogenetics | Species | Deoxyribonucleic acid--DNA | Tick-borne diseases | Arachnids | Pathogens | Nucleotide sequence | Markers | Regions | Surveying | Fever | Diseases | Polymerase chain reaction | Surveys | Genetic markers | Infectious diseases | Surveillance | Analysis | Samples | DNA | Genetic testing
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Loading RightsPLoS ONE, ISSN 1932-6203, 2012, Volume 7, Issue 11, p. e48949
Coxiella burnetii is an intracellular bacterial pathogen that causes Q fever. Infected pregnant goats are a major source of human infection. However, the...
infection | agent | brucella-abortus | netherlands | placentitis | outbreak | natural-history | AGENT | BRUCELLA-ABORTUS | MULTIDISCIPLINARY SCIENCES | INFECTION | NATURAL-HISTORY | NETHERLANDS | OUTBREAK | PLACENTITIS | Milk - microbiology | Goats | Vagina | Q Fever - veterinary | Q Fever - microbiology | Placenta - anatomy & histology | Coxiella burnetii - genetics | DNA, Bacterial | Mucus - microbiology | Pregnancy | Feces - microbiology | Goat Diseases - microbiology | Pregnancy Complications, Infectious - veterinary | Coxiella burnetii - metabolism | Animals | Placenta - pathology | Coxiella burnetii - isolation & purification | Female | Pregnancy Complications, Infectious - microbiology | Pregnancy Outcome | Infection | Immunohistochemistry | Pregnant women | Abortion | Health aspects | Tropism | Parturition | Epidemics | Pathogenesis | Stillbirth | Outbreaks | Mucus | Infections | Inoculation | Trophoblasts | Bacteria | Deoxyribonucleic acid--DNA | Milk | Pathogens | Excretion | Organs | Vectors (Biology) | Fever | Bacteriology | Zoonoses | Studies | Placenta | Q fever | Health risk assessment | Deoxyribonucleic acid | DNA
infection | agent | brucella-abortus | netherlands | placentitis | outbreak | natural-history | AGENT | BRUCELLA-ABORTUS | MULTIDISCIPLINARY SCIENCES | INFECTION | NATURAL-HISTORY | NETHERLANDS | OUTBREAK | PLACENTITIS | Milk - microbiology | Goats | Vagina | Q Fever - veterinary | Q Fever - microbiology | Placenta - anatomy & histology | Coxiella burnetii - genetics | DNA, Bacterial | Mucus - microbiology | Pregnancy | Feces - microbiology | Goat Diseases - microbiology | Pregnancy Complications, Infectious - veterinary | Coxiella burnetii - metabolism | Animals | Placenta - pathology | Coxiella burnetii - isolation & purification | Female | Pregnancy Complications, Infectious - microbiology | Pregnancy Outcome | Infection | Immunohistochemistry | Pregnant women | Abortion | Health aspects | Tropism | Parturition | Epidemics | Pathogenesis | Stillbirth | Outbreaks | Mucus | Infections | Inoculation | Trophoblasts | Bacteria | Deoxyribonucleic acid--DNA | Milk | Pathogens | Excretion | Organs | Vectors (Biology) | Fever | Bacteriology | Zoonoses | Studies | Placenta | Q fever | Health risk assessment | Deoxyribonucleic acid | DNA
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Loading RightsParasites and Vectors, ISSN 1756-3305, 06/2017, Volume 10, Issue 1, pp. 302 - 12
Backgrounds: Corsica is a French island situated in the Mediterranean Sea. The island provides suitable natural conditions to study disease ecology, especially...
Animals | Ticks | Corsica Island | Anaplasma marginale | Anaplasma ovis | Anaplasma sp | Ehrlichia canis | BOVINE PIROPLASMOSIS | SHEEP | PHAGOCYTOPHILUM | PREVALENCE | TROPICAL MEDICINE | OVIS | BORNE PATHOGENS | EHRLICHIA-CANIS | SMALL RUMINANTS | RICKETTSIA SPP | RHIPICEPHALUS-BURSA TICKS | PARASITOLOGY | Anaplasmataceae Infections - transmission | Tick Infestations - veterinary | Prevalence | Goats | Anaplasmataceae Infections - epidemiology | Ixodidae - genetics | Goat Diseases - epidemiology | Male | DNA, Bacterial - chemistry | Phylogeny | Anaplasmataceae - genetics | Cattle Diseases - parasitology | RNA, Ribosomal - genetics | Anaplasmataceae Infections - microbiology | RNA, Ribosomal, 23S - genetics | Cattle | Neglected Diseases - epidemiology | Female | Rhipicephalus - microbiology | Sheep Diseases - epidemiology | Tick Infestations - epidemiology | Anaplasmataceae Infections - veterinary | Anaplasmataceae - classification | Cattle Diseases - microbiology | Chaperonin 60 - genetics | France - epidemiology | DNA, Bacterial - isolation & purification | Sheep Diseases - microbiology | Cattle Diseases - epidemiology | Arachnid Vectors - microbiology | Ixodidae - microbiology | Goat Diseases - microbiology | Neglected Diseases - microbiology | Rhipicephalus - genetics | Dogs | Horses | Tick Infestations - parasitology | Sheep | Neglected Diseases - veterinary | Proteobacteria | Health aspects | Analysis | Virus-vector relationships | Genes | Anaplasmosis | Animal diseases | Identification | Infections | Domestic animals | Epidemiology | Blood | Ehrlichiosis | Farms | RpoB protein | Bacteria |
Animals | Ticks | Corsica Island | Anaplasma marginale | Anaplasma ovis | Anaplasma sp | Ehrlichia canis | BOVINE PIROPLASMOSIS | SHEEP | PHAGOCYTOPHILUM | PREVALENCE | TROPICAL MEDICINE | OVIS | BORNE PATHOGENS | EHRLICHIA-CANIS | SMALL RUMINANTS | RICKETTSIA SPP | RHIPICEPHALUS-BURSA TICKS | PARASITOLOGY | Anaplasmataceae Infections - transmission | Tick Infestations - veterinary | Prevalence | Goats | Anaplasmataceae Infections - epidemiology | Ixodidae - genetics | Goat Diseases - epidemiology | Male | DNA, Bacterial - chemistry | Phylogeny | Anaplasmataceae - genetics | Cattle Diseases - parasitology | RNA, Ribosomal - genetics | Anaplasmataceae Infections - microbiology | RNA, Ribosomal, 23S - genetics | Cattle | Neglected Diseases - epidemiology | Female | Rhipicephalus - microbiology | Sheep Diseases - epidemiology | Tick Infestations - epidemiology | Anaplasmataceae Infections - veterinary | Anaplasmataceae - classification | Cattle Diseases - microbiology | Chaperonin 60 - genetics | France - epidemiology | DNA, Bacterial - isolation & purification | Sheep Diseases - microbiology | Cattle Diseases - epidemiology | Arachnid Vectors - microbiology | Ixodidae - microbiology | Goat Diseases - microbiology | Neglected Diseases - microbiology | Rhipicephalus - genetics | Dogs | Horses | Tick Infestations - parasitology | Sheep | Neglected Diseases - veterinary | Proteobacteria | Health aspects | Analysis | Virus-vector relationships | Genes | Anaplasmosis | Animal diseases | Identification | Infections | Domestic animals | Epidemiology | Blood | Ehrlichiosis | Farms | RpoB protein | Bacteria |