Global ETD Search

11	Salivary gland transcriptome of Rhipicephalus (Boophilus) microplus Genu, Siyamcela 11 1900 (has links) The cattle tick, Rhipicephalus (Boophilus) microplus is a tick of veterinary and health importance globally, transmitting Babesia bovis and B. bigemina. Tick control is important and needed to prevent livestock diseases caused by tick-transmitted pathogens. Traditionally, tick control methods have resulted in development of acaricide-resistant ticks, environmental pollution and meat and milk contamination. Therefore, there is a need for alternative method and vaccines directed against tick feeding. The aim of this study was to identify proteins involved in tick feeding, tickhost-pathogen interactions and tick reproduction. Consequently, these will help in identification of antigens with the ultimate goal of developing anti-tick vaccines. R. (B.) microplus female ticks were collected at five different feeding stages. RNA was isolated from the salivary gland extracts (SGEs). The cDNA libraries were synthesized and sequenced with the Illumina MiSeq technology. Transcriptome data was analyzed with CLC Genomics Workbench, Trinity and Minia. The SGEs were also used to isolate the fractions: membrane, soluble and pellet protein for proteomic analysis. The proteomics data was analysed with Mascot, X!Tandem and Scaffold. Both the transcriptome and proteome analysis revealed the presence of major secretory protein families such as Kunitz, lipocalins, serpins, cement proteins and metalloproteases, while the majority of transcripts coded for housekeeping genes. / National Research Foundation (South Africa) / Life and Consumer Science / M. Sc. (Life Science) 636.0894433 Cattle tick -- Control Ticks as carriers of disease Cattle -- Parasites Tick-borne diseases in animals
12	The pathology and pathogenesis of canine cerebral babesiosis Pardini, Anne Dale 09 September 2010 (has links) The pathology of canine cerebral babesiosis was examined at the gross, histological and ultrastructural levels. Gross lesions could be categorised as either global or regional. Congestive brain swelling , diffuse cerebral congestion and diffuse cerebral pallor were classified as global lesions. Multifocal haemorrhage and malacia were classified as regional lesions. Oedema was inconsistently present and could be either focal or diffuse. The majority of histological changes were observed in both cerebral babesiosis and control cases. Regional lesions were unique to cerebral babesiosis and had specific histological features. Highly localised endothelial injury was the primary lesion. Early lesions were multifocal and strictly associated with the microvasculature. Intermediate lesions, with perivascular haemorrhage and neutrophil infiltration, were suggestive of reperfusion injury. Advanced lesions were locally extensive and similar in appearance to haemorrhagic infarction. It is likely that the pathogenesis of regional lesions is by a process of microvascular infarction, as venous thrombosis could not be demonstrated. Ultrastructural evidence for adherent contact between erythrocytes and capillary endothelium was demonstrated. Endothelial cell necrosis occurred early in the development of lesions, before neuronal and glial injury. It is postulated that endothelial injury is the primary event in the development of regional lesions and secondary lesions develop as a consequence of microvascular infarction. / Die patologie van die serebrale vorm van bosluiskoors in honde is ondersoek. Die letsels is makroskopies, histologies en elektronmikroskopies beskryf. Letsels kon makroskopies in twee groepe verdeel word: Globale letsels en gelokaliseerde letsels. Kongestiewe brein swelling, diffuse serebrale kongestie en serebrale anemie kom voor as globale letsels in serebrale babesiose. Multifokale bloeding en nekrose kom voor as gelokaliseerde letsels. Edeem was nie konsekwent teenwoordig nie, en was algemeen of verspreid. Die meeste algemene histologiese veranderinge was in beide serebrale en kontrole gevalle teenwoordig. Gelokaliseerde letsels waarin spesifieke hisotpatologiese veranderinge voorgekom het, was kenmerkend van serebrale babesiose. Die primere letsel is hoogs gelokaliseerde beskadiging van endoteelselle. Beskadiging van die kapillere bloedvate ontstaan vroeg in die ontwikkeling van letsels. Verdere ontwikkeling van die letsel word gekenmerk deur peri-vaskulere bloeding en neutrofiel infiltrasie wat aanduidend is van reperfusie beskadiging. Volontwikkelde letsels is plaaslik-ekstensief en het die voorkoms van hemoragiese infarkte Dit is waarskynlik dat mikrovaskulere infarksie 'n rol speel in die patogenese van die letsels, aangesien veneuse trombose nie ontstaan nie. Noue kontak tussen rooibloedselle en kapillere endoteel is elektronmikroskopies bevestig. Endoteelselnekrose ontstaan voordat tekens van beskadiging geidentifiseer kan word in neurone of gliaselle. Dit blyk dat kapillere endoteelselbeskadiging die primere letsel by die ontstaan van gelokaliseerde lese Is is, en dat sekondere lesels ontwikkel as gevolg van mikrovaskulere infarksie. / Dissertation (MSc)--University of Pretoria, 2000. / Paraclinical Sciences / Unrestricted Babesiosis Dogs -- Diseases Tick-borne diseases in animals Pathology Protozoa pathogenic UCTD
13	Mechanisms of resistance to Rhipicephalus ticks in Nguni cattle reared in the semiarid areas of South Africa. Marufu, Munyaradzi Christopher. January 2012 (has links) Ticks and tick borne-diseases (TBD) are major challenges to cattle production among smallholder farmers in the semiarid areas of South Africa. Nguni cattle have been reported to be resistant to ticks and TBD, however, the mechanisms responsible for the trait are not fully understood. The broad objective of this study was to determine the mechanisms of resistance to ticks in Nguni cattle reared in the semiarid areas of South Africa. Tick infestation levels, body condition scores (BCS), packed cell volumes (PCV) and the molecular prevalence of A. marginale were determined in Nguni (n = 70) and local crossbred (n = 79) cattle reared in the semiarid areas of South Africa. Relationships among skin thickness, hair length, coat score and tick counts were assessed in seven to nine month old Nguni (n = 12) and Bonsmara (n = 12) heifers. As a follow up, cutaneous hypersensitivity responses to unfed larval extracts (ULE) of the ticks Rhipicephalus decoloratus and Rhipicephalus microplus were examined in heifers to determine host immunity to the ticks. Tick counts and inflammatory cell infiltrates in skin biopsies from feeding sites of adult R. microplus ticks in nine-month-old Nguni and Bonsmara heifers were also evaluated. The molecular prevalence of A. marginale was similar in the Nguni (47.7 %) and local crossbred (52.3 %) cattle. Nguni cattle suffered less severe losses from and were more vi resilient to A. marginale infection than local crossbreds. Nguni heifers had lower coat scores, hair length and tick counts than the Bonsmara heifers. The relationship between tick counts and coat score was positive and linear in the Nguni (y = 1.90x – 0.40) and quadratic in Bonsmara (y = -7.98x2 + 12.74x - 3.12) heifers. Bonsmara cattle showed a more intense immediate reaction and no delayed hypersensitivity reaction to ULE of Rhipicephalus ticks. Nguni heifers presented a less intense immediate reaction and a delayed hypersensitivity reaction at 72 h post inoculation with ULE of Rhipicephalus ticks. Reactions to R. decoloratus ULE produced a more intense skin response at all time intervals in both breeds than that of R. microplus. Parasitized sites in Nguni heifers had higher (P < 0.05) counts of basophils, mast and mononuclear cells than those in the Bonsmara heifers. Conversely, parasitized sites in Bonsmara heifers had higher (P < 0.05) neutrophil and eosinophil counts than those in the Nguni heifers. Tick count was negatively correlated (P < 0.05) with basophil and mast cell counts. There was a positive correlation between eosinophil counts and tick counts in both breeds, and between tick counts and mononuclear cell counts in the Bonsmara breed. It was concluded that smooth and short coats, delayed type hypersensitivity and cutaneous basophil and mast cell infiltrations are responsible for increased tick resistance in the indigenous Nguni cattle breed of South Africa. / Ph.D. University of KwaZulu-Natal, Pietermaritzburg 2013. Nguni cattle--Diseases--South Africa. Nguni cattle--Adaptation--South Africa. Rhipicephalus. Anaplasma marginale. Theses--Animal and poultry science.
14	Analysis of Babesia rossi transcriptome in dogs diagnosed with canine babesiosis Peloakgosi-Shikwambani, Keneilwe 04 1900 (has links) Background: Canine babesiosis is a tick-borne disease causing detrimental health effects on the domestic dogs with huge economic impact on the owners. The most complicated form of canine babesiosis is caused by a pathogenic Babesia rossi parasite. Canine babesiosis induced by B. rossi still remains the cause of mortality and morbidity in South African dogs, yet, the transcriptomic and genomic information of this parasite species is still not available. The transcriptomic and genomic information is essential in the disease development and processes for the design of effective disease control strategies. Consequently, our understanding of the mechanisms underlying the pathogenesis of the different genotypes of B. rossi remains limited. A previous study suggested a relationship between the parasite genotype and the disease phenotype. To date, thirteen B. rossi genotypes have been identified and associated with diverse clinical signs in their hosts. Hence the aim of this study was to sequence RNA from samples representing B. rossi genotypes, 19, 29 and 31, in order to have insight on the overall transcriptome of this parasite and to establish if there would be significant differences among the genotypes. Methodology: To screen for B. rossi positive samples, total DNA was extracted from 20 blood samples collected from sick domestic dogs presented at the Onderstepoort Veterinary Academic Hospital (OVAH). Babesia rossi infections were confirmed using the PCR-Reverse Line Blot (RLB) hybridization assay. Further confirmation of infection status was done by amplification of the B. rossi Erythrocyte Membrane Antigen 1 (BrEMA1) gene in all the DNA samples using qualitative PCR (qPCR), followed by sequencing of PCR products. Subsequently, total RNA was extracted from the 20 B. rossi-infected blood samples collected from the same dogs in which DNA was extracted. Three samples representing B. rossi genotypes 19, 29 and 31 were selected for transcriptome analysis. RNA sequencing was performed using the Illumina HiSeq 2000 to allow transcriptome analysis. De novo assembly was performed independently for all three transcriptomes using the Trinity software. The unigenes generated from specific transcriptome assemblies were subjected to global functional annotation using Blast2GO version 2.8.0 software, followed by KEGG database for annotation of biological pathways, and DAVID version 6.7, for COG classification to predict and classify their functions. Results: The sample representing B. rossi genotype 31 was excluded in the transcriptome analysis due to low RNA mass, which usually compromises the quality of the library used in RNA sequencing.Thus, a total of 26 747 238 and 25 709 627 paired-end reads were obtained from B. rossi genotypes 19 and 29, respectively. De novo transcriptome assembly produced a total of 3019 unigenes, with an average length of 419 bp and N50 of 362 bp in B. rossi genotype 19, and 2727 unigenes with an average length of 441 bp and N50 of 362 in B. rossi genotype 29. A total of 1193 unigenes were common between B. rossi genotype 19 and 29, while 1828 unigenes were exclusively detected in B. rossi genotype 19; and 1534 were specific to B. rossi genotype 29. Between the two B. rossi genotypes, a total of 4553 unigenes were obtained, representing the overall B. rossi transcriptome. From the overall transcriptome, 12.3% (n=558) of the unigenes could be annotated with 53 different gene ontology (GO) functional categories. About 34% (n=1550) of the unigenes represented in the overall transcriptome mapped to 237 KEGG pathways and only 2.5% (114) could be annotated in the COG database. Conclusion: Although, there were no striking differences in the transcriptomes of B. rossi genotypes 19 and 29, this study presents the first transcriptomic resource for B. rossi, which will highly contribute to our genetic understanding of B. rossi and provide a platform for future gene expression studies. Hypothetical proteins identified in this study will require further characterization as they may have a critical role in the biology and pathogenicity of B. rossi parasite. / Life and Consumer Sciences / M. Sc. (Life Sciences) B. rossi genotypes De novo analysis Transcriptome Canine babesiosis RNA-sequencing 636.7089 Tick-borne diseases in animals Nucleotide sequence Dogs -- Diseases -- Diagnosis Dogs -- Health
15	Investigation of tick-borne pathogens resistance markers using next generation sequencing Chigwada, Aubrey D. 07 1900 (has links) No abstract or keywords provided in dissertation / Life and Consumer Sciences / M. Sc. (Life Sciences) 595.4290968 Rhipicephalus -- Control -- South Africa Amblyomma -- Control -- South Africa Hyalomma -- Control -- South Africa Acaricide resistance -- South Africa
16	The occurrence of tick-borne pathogens, in dogs in welfare organisations and townships of Cape Town Allan, Rosalind Elizabeth 02 1900 (has links) In impoverished and resource limited communities such as townships, and welfare organizations, areas such as living and sleeping spaces are sometimes shared with animals, and occasionally humans. Dogs play an integral role in our lives and have become part of the family. Therefore, it is probable that ectoparasites, such as ticks, that feed on dogs also feed on other vertebrates, thereby, transmitting pathogens. The primary aim of this study was to screen for the presence of tick-borne pathogens in dogs from welfare organisations and townships in Cape Town, with special focus on Ehrlichia and Babesia spp. The reason for this choice of subject is due to the fact that very few tick-borne infection studies have focused on resource limited communities. Furthermore, welfare organisations have continuously attracted awareness due to the amount of unrestricted work performed by veterinarians in communities with limited resources. Consequently, the topic was borne. A total of 126 blood samples and 509 ticks (adults and nymphs) were collected directly from dogs from four welfare organisations and two townships in Cape Town. Samples were collected from April to July 2014. The four welfare organisations where samples were collected included the Animal Anti Cruelty League welfare organisations in Epping and Bellville, the Lucky Lucy Foundation in Joostenberg Vlakte and The Emma Animal Rescue Society (TEARS), located in the Sunnydale area. Samples were also collected from the Asanda village and Nomzamo, two townships located just outside the Cape Town suburb, the Strand. DNA was extracted from blood and ectoparasites and screened for the presence of Ehrlichia, Anaplasma, Theileria and Babesia species infections using touchdown PCR and RLB hybridization assays. Genus and species-specific probes were used during hybridization in order to identify specific parasite infections in the blood samples and the tick samples pooled according to geographical origin and species. Forty six (36.5%) of the blood samples tested positive for tick-borne pathogen DNA. Of the positive blood samples, 17 (13.5%) were infected with Ehrlichia canis; 16 (12.7%) with Babesia rossi and four (3.2%) samples were infected with Babesia vogeli. Incidental infections were also detected, these included Ehrlichia ruminantium (n=6, [4.7%]), Theileria taurotragi (n=2, [1.6%]) and Anaplasma sp. Omatjenne (n=1, [0.8%]) infections. DNA detected from 10 samples (7.94%) hybridized only to the Ehrlichia/Anaplasma genus-specific probes and four samples (3.17%) hybridized only to the Theileria/Babesia genus-specific probes. None of these 14 samples hybridized to any of the species-specific probes. Collected Rhipicephalus sanguineus (n=457) and Haemaphysalis elliptica (n=52) ticks were grouped into 15 pools, representing both tick species according to specific collection locations. Since only two H. elliptica from Asanda and one R. sanguineus from TEARS were collected, these ticks were mixed in pools of the dominant species as they were too few for DNA extraction. Ticks were collected from the Nomzamo Township (R. sanguineus n=400), Asanda village (H. elliptica n=2; R. sanguineus n=42), TEARS (H. elliptica n=21; R. sanguineus n=1), and the Animal Anti Cruelty League in both Epping (R. sanguineus n=14), and Bellville (H. elliptica n=29), in Cape Town. Analysis by the RLB assay showed that 11 (73.3%) of the 15 tick pools representing both tick species were positive for at least one parasite species. All positive samples hybridized with the Ehrlichia/Anaplasma genus-specific probe. Three (20%) tick pools containing both tick species tested positive for Ehrlichia canis infection, two (13.3%) tested positive for Babesia rossi and Babesia vogeli DNA was identified in one (6.6%) tick pool. The Theileria/Babesia genus-specific probe hybridised in three (20%) tick pools. These three pools were comprised of both R. sanguineus and H. elliptica tick species. These tick pools also tested positive for a specific Babesia tick-borne pathogen. Tick-borne pathogen DNA could not be detected in four (26.6%) tick pools. The fore-mentioned tick-borne pathogen DNA detected in the dog blood samples, and the ectoparasites collected from the same dogs during this study, suggests that dogs play a large role in the endemicity of these pathogens / Environmental Sciences / M. Sc. (Life Science) Dogs Ticks Babesia Ehrlichia Rhipicephalus sanguineus Haemaphysalis elliptica Townships Welfare organisation PCR (polymerase chain reaction) 614.43309687355 Polymerase chain reaction
17	Sialotranscriptomics of the brown ear ticks, Rhipicephalus appendiculatus Neumann, 1901 and R. Zambeziensis Walker, Norval and Corwin, 1981, vectors of Corridor disease De Castro, Minique Hilda 11 1900 (has links) Text in English / Corridor disease is an economically important tick-borne disease of cattle in southern Africa. The disease is caused by Theileria parva and transmitted by the vectors, Rhipicephalus appendiculatus and R. zambeziensis. There is currently no vaccine to protect cattle against T. parva that is permitted in South Africa. To develop recombinant anti-tick vaccines against Corridor disease, comprehensive databases of genes expressed in the tick’s salivary glands are required. Therefore, in Chapters 2 and 3, mRNA from the salivary glands of R. appendiculatus and R. zambeziensis was sequenced and assembled using next generation sequencing technologies. Respectively, 12 761 and 13 584 non-redundant protein sequences were predicted from the sialotranscriptomes of R. appendiculatus and R. zambeziensis and uploaded to public sequence domains. This greatly expanded the number of sequences available for the two vectors, which will be invaluable resources for the selection of vaccine candidates in future. Further, in Chapter 3, differential gene expression analysis in R. zambeziensis revealed dynamic expression of secretory protein transcripts during feeding, suggestive of stringent transcriptional regulation of these proteins. Knowledge of these intricate expression profiles will further assist vaccine development in future. In Chapter 4, comparative sialotranscriptomic analyses were performed between R. appendiculatus and R. zambeziensis. The ticks have previously shown varying vector competence for T. parva and this chapter presents the search for correlates of this variance. Phylogenetic analyses were performed using these and other publically available tick transcriptomes, which indicated that R. appendiculatus and R. zambeziensis are closely related but distinct species. However, significant expression differences were observed between the two ticks, specifically of genes involved in tick immunity or pathogen transmission, signifying potential bioinformatic signatures of vector competence. Furthermore, nearly four thousand putative long non-coding RNAs (lncRNAs) were predicted in each of the two ticks. A large number of these showed differential expression and suggested a potential transcriptional regulatory function of lncRNA in tick blood feeding. LncRNAs are completely unexplored in ticks. Finally, in Chapter 5, concluding remarks are given on the potential impact the R. appendiculatus and R. zambeziensis sialotranscriptomes may have on future vaccine developments and some future research endeavours are discussed. / Life and Consumer Sciences / Ph. D. (Life Sciences) Rhipicephalus appendiculatus Rhipicephalus zambeziensis Corridor disease Tick salivary glands De novo transcriptome assembly Next generation sequencing Sialotranscriptomics Secretory proteins Differential gene expression Comparative transcriptomics Species phylogeny Vector competence Long non-coding RNA 595.4290968 Theileriosis -- Vaccination

Page generated in 0.0617 seconds