Molecular and phenotypic characterization of Escherichia coli isolated from broiler chicken flocks in Mississippi

Devkota, Priyanka

09 December 2022

Avian pathogenic Escherichia coli (APEC) is the causative agent of colibacillosis. APEC causes significant economic losses to the poultry industry. In this study, 66 E. coli isolates were collected from broiler flocks across Mississippi and categorized as clinical and non-clinical isolates. Genotypic and phenotypic characterization of virulence factors and antimicrobial resistance profiles of these E. coli were examined. The data disclosed a higher prevalence of virulence genes in clinical isolates than in non-clinical isolates. High differences on the genotypic and phenotypic antimicrobial resistance among clinical and non-clinical isolates were observed. Whole genome sequences of avian E. coli elaborated a diverse range in genetic composition, phylogenic relationship, antimicrobial resistance, and virulence gene profiles. Collectively, the results showed that the virulence factors and phenotypic characteristics of APEC may play a role in the pathogenesis of avian colibacillosis. Therefore, this study provides insight to understand the epidemiological background, microbial behavior, and pathogenesis of APEC.

Avian pathogenic E. coli

Colibacillosis

Antimicrobial resistance

Virulence genes

Poultry

Pathogenic Microbiology

Poultry or Avian Science

Factors related to bird collisions with buildings along the coast of Lake Erie.

Lessin, Leandro Marcos

22 July 2022

No description available.

Biology

Conservation

Ecology

Environmental Science

Wildlife Management

Wildlife Conservation

avian mortality

bird collision

bird building collision

avian migration

bird casualties

avian collision casualties

songbird collision

Produção da nucleoproteína recombinante do vírus da influenza aviária para aplicação no imunodiagnóstico /

Borzi, Mariana Monezi.

January 2015

Orientador: Hélio José Montassier / Banca: Manoel Victor Franco Lemos / Banca: Ricardo Luiz Moro de Souza / Resumo: A nucleoproteína (NP) do Vírus da Influenza Aviária (VIA) é um importante alvo antigênico no imunodiagnóstico desta doença, devido à sua baixa variabilidade entre as diferentes estirpes do VIA, resultando em uma elevada reatividade cruzada, e por ser também uma proteína altamente imunogênica para hospedeiros vertebrados. Neste estudo, o gene codificador da NP do VIA foi parcialmente clonado e expresso em Escherichia coli como uma proteína recombinante fusionada ao polipeptídeo SUMO e uma etiqueta de poli-histidina para seu uso no desenvolvimento de um ensaio de ELISA indireto para a detecção de anticorpos específicos contra o VIA. A NP recombinante foi expressada na fração solúvel e foi mais facilmente purificada. Após análise em relação aos seus principais sítios de antigenicidade e caracterização por meio de Western blotting, a NP recombinante foi utilizada como uma preparação antigênica no ELISA indireto para detecção de anticorpos contra o VIA presentes em amostras de soro de galinha. A análise comparativa do teste desenvolvido no presente estudo com um ELISA comercial apresentou valores de 95%, 97% e 96,7% de sensibilidade, especificidade e acurácia, respectivamente e um índice κappa de 0,88. Os resultados permitem concluir que a NP recombinante do VIA desenvolvida neste estudo possui características favoráveis para ser aplicada como antígeno no ELISA indireto, constituindo-se em um método sensível e específico para o imunodiagnóstico da Influenza Aviária em galinhas / Abstract: The nucleoprotein (NP) of Avian Influenza Virus (AIV) is an important antigenic target for immunodiagnosis of this disease, due to its low variability among different AIV strains, resulting in high cross-reactivity, and the also highly immunogenic for vertebrate hosts. In this study, the gene enconding NP of AIV was cloned and expressed in Escherichia coli as a recombinant protein fused to SUMO polypeptide with a polyhistidine tag and used to develop an indirect ELISA for the detection of AIV-specific antibodies. The recombinant NP was expressed in the soluble fraction and easily purified. After Analysis of the main sites of antigenicity and characterization in Western-Blotting, the recombinant NP was optimized as an antigen preparation for indirect ELISA to detect anti-AIV antibodies in chicken serum samples. The comparative analysis of this ELISA with a commercial ELISA showed values of 95%, 97%, 96.7% of sensitivity, specificity and accuracy, respectively, and an agreement of k=0.88. In conclusion, the results indicated that the recombinant NP of AIV produced in this study is a good source of antigen for indirect ELISA and provides a sensitive and specific method for the immunodiagnosis of Avian Influenza in chickens / Mestre

Ensaio de imunoadsorção enzimática.

Imunodiagnostico.

Nucleoproteinas.

Gripe aviária.

Virus.

Avian influenza

The immunological roles of human macrophages in avian influenza virus infection

Zhou, Jianfang., 周劍芳.

January 2006

published_or_final_version / abstract / Paediatrics and Adolescent Medicine / Doctoral / Doctor of Philosophy

Macrophages.

Natural immunity.

Avian influenza.

Chemokines.

Cytokines.

T cells.

Viral determinants of influenza A (H5N1) associated TNF-a hyper-induction in human primary monocyte-derived macrophages

Wong, Hing-ki, Charmaine., 黃馨琦.

January 2006

published_or_final_version / abstract / Pathology / Master / Master of Philosophy

Tumor necrosis factor.

Avian influenza A virus.

Viral genetics.

Macrophages.

Epidemiology of H9N2 avian influenza and impact of intervention in Hong Kong's live poultry markets

吳志峰, Ng, Chi-fung.

January 2008

published_or_final_version / Community Medicine / Master / Master of Public Health

Avian influenza - China - Hong Kong.

Poultry - China - Hong Kong.

Antigenic characterisation of avian influenza H5N1 viruses in Asia: implications for vaccine strainselection

Wu, Wai-lan., 胡慧蘭.

January 2008

published_or_final_version / Microbiology / Doctoral / Doctor of Philosophy

Influenza viruses - Genetics.

Avian influenza.

Antigens - Analysis.

Vaccines.

The effect of population bottleneck size on parasitic load and immunocompetence of introduced birds in New Zealand

Allen, Sophy Elizabeth

January 2008

I investigated parasitic infection and immunocompetence in populations of introduced bird species in New Zealand (NZ) that had experienced a range of population bottlenecks (11-808 individuals), and compared these parameters to non-bottlenecked conspecifics in the United Kingdom (UK). My aims were two-fold; firstly to assess if population bottlenecks are linked to increased parasite loads and/or decreased immunocompetence, and secondly, to assess at what severity of bottleneck these effects become evident. I found that ectoparasite load (chewing lice, Order: Phthiraptera, Sub-Orders: Amblycera & Ischnocera) was significantly higher in the more severely bottlenecked species in NZ than in the UK, whilst this difference became non-significant at more moderate bottlenecks. The difference was mainly driven by the Sub-Order Amblycera. The prevalence of avian malaria (Plasmodium spp.) was significantly negatively correlated to bottleneck size within NZ, after controlling for body mass. Total leucocyte and differential lymphocyte counts were elevated in the less bottlenecked species that were infected with malaria, whilst the populations at the more severe end of the bottleneck spectrum did not exhibit such a response. Furthermore, heterophil/lymphocyte (HL) ratio (a parameter used as an indicator of environmental and/or immunological stress), was significantly raised in the more bottlenecked species when compared to their UK counterparts, and this difference was correlated with the size of the bottleneck. Immunocompetence was further assessed by the experimental challenge of six introduced birds species in NZ with the mitogen phytohaemagglutinin (PHA). Immune response to PHA was significantly correlated to bottleneck size, but in the opposite direction to that predicted; immune response was greater in the more bottlenecked species. However, this may be an indication of increased investment in immunity, due to increased parasite and pathogen pressure or differential investment in varying components of the immune system. Finally, the immune response to PHA was compared in nestlings of two species that had experienced very different bottlenecks (70 vs. 653). After controlling for ectoparasitic infestation, I found no difference between the two species; however, this finding may be confounded by interspecific competition. Overall, my findings suggest that more severe population bottlenecks may result in increased susceptibility to pathogens, and impact on the immune system. This has a number of implications for the development of conservation protocols, and future avenues of research are suggested.

population bottleneck

introduced birds

immunocompetence

avian malaria

parasites.

Change in Migratory Behavior as a Possible Explanation for Burrowing Owl Population Declines in Northern Latitudes

Macias-Duarte, Alberto

January 2011

Recent observed changes in bird distributions provide an unprecedented opportunity to gain a deeper understanding of the processes that influence species' persistence. By modelling presence-absence data from the North American Breeding Bird Survey, we found evidence that the breeding range of the western burrowing owl has contracted at its northern, western, and eastern boundaries since 1967. We suggest that the species' breeding distribution is also expanding southwards to former wintering grounds into northern Mexico, facilitated by the appearance of new breeding habitat created by irrigated agriculture in the arid areas of southwestern United States and northwestern Mexico. This dissertation explores the hypothesis that burrowing owls from northern migratory populations have become resident breeders in areas of northwestern Mexico that were formerly used only by migratory owls during winter, contributing to both population declines near the northern extent of the species' breeding range and population increases in the southern half of the species' range. We used novel DNA microsatellite markers to test patterns of gene flow predicted by this migration-mediated range-shift hypothesis. We genotyped 1,560 owls from 36 study locations in Canada, Mexico, and the United States. Analyses of molecular variance provided evidence that burrowing owl populations in both northwestern Mexico and Canada are genetically different from the rest of the populations in the breeding range, lending some support to the migration-mediated range-shift hypothesis. We found evidence of subtle genetic differentiation associated with subtropical irrigated agricultural areas in southern Sonora and Sinaloa, demonstrating that land use can produce location-specific population dynamics leading to genetic structure even in the absence of dispersal barriers. We also used stable isotopes 2/H, 13/C, and 15/N in feathers to test philopatry and breeding dispersal patterns predicted by this migration-mediated range-shift hypothesis. Burrowing owl populations near the northern edge of the species' breeding range had a high proportion of immigrants compared to interior populations, while other populations had high levels of philopatry. Stable isotopes also provided evidence of breeding dispersal events from Canadian populations to northwestern Mexico in support of the migration-mediated range-shift hypothesis, but similar isotope signatures in nestling feathers between these two regions prevent stronger inferences.

Athene cunicularia

Avian migration

Burrowing owl

Dispersal

Microsatellites

Stable isotopes

Birds, Water, and Saltcedar: Strategies for Riparian Restoration in the Colorado River Delta

Hinojosa-Huerta, Osvel

January 2006

I evaluated the spatial and temporal patterns of the avian communities in the Colorado River delta, Mexico, and their relationship with vegetation type and surface water. I also developed plausible conservation and restoration guidelines for riparian areas and native birds in the region. The study included monthly point counts at 30 transects (240 points) from May 2002 to July 2003, breeding counts at 175 sites (3 times per year) during 2002 and 2003, and habitat measurements at the survey points.The most common species were Mourning Doves, Red-winged Blackbirds, and Brown-headed Cowbirds, but another 64 species were commonly found, including Verdins, Song Sparrows, Yellow-breasted Chats and Abert's Towhees. Surface water was the most important habitat feature related to avian richness and density regardless of vegetation type or land cover (P < 0.005). During summer, species richness was explained by variations in water and the cover of cottonwoods (r2 = 0.56, P < 0.001), and the variation in bird densities was explained by variations in water and the cover of willows (r2 = 0.35, P = 0.003).When comparing native versus saltcedar dominated sites, both with the presence (wet) or absence (dry) of surface water, the diversity of birds was more influenced by the presence of water than by vegetation type. Bird abundance was more influenced by vegetation type, but water also had an important effect, as wet sites had higher bird abundance than dry sites with the same vegetation type, and saltcedar wet areas had similar avian abundance to native dry sites. On all cases, the presence of water was an important factor determining the ecological value, in terms of avian richness, abundance, and diversity, of both native riparian and saltcedar areas. Saltcedar areas with surface water had avian characteristics similar to native riparian sites.The dedication of instream flows and pulse floods, the maintenance of vegetation cover and structural diversity, and an increase of older riparian stands will secure the viability of existing bird populations and will increase the probability of recovery of the species that are still extirpated from the floodplain of the Colorado River in Mexico.

avian

Colorado River

cottonwood

floodplain

instream flows

willow