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Identification of SNPs associated with robustness and greater reproductive success in the South African merino sheep using SNP chip technologySandenbergh, Lise 04 1900 (has links)
Thesis (PhD)--Stellenbosch University, 2015. / ENGLISH ABSTRACT: Reproduction and robustness traits are integral in ensuring sustainable, efficient and profitable sheep farming. Increases in genetic gain of reproduction and robustness traits are however, hampered by low heritability coupled with the difficulty in quantification of these traits for traditional selective breeding strategies. The aim of the current study was therefore to identify genomic regions underlying variation in reproduction traits and elucidate quantitative trait loci (QTL) and/or genes associated with reproductive traits. The Elsenburg Merino flock has been divergently selected for the ability to raise multiple offspring and has resulted in a High and a Low line that differ markedly with regard to reproductive output and other robustness traits. The flock thus served as an ideal platform to identify genomic regions subject to selection for reproductive traits. To pinpoint genomic regions subject to selection, a whole-genome genotyping platform, the OvineSNP50 chip, was selected to determine the genotype of more than 50 000 SNPs spread evenly across the ovine genome. The utility of the OvineSNP50 chip was determined for the Elsenburg Merino flock as well as additional South African Merino samples and three other important South African sheep breeds, the Blackheaded Dorper, South African Mutton Merino (SAMM) and the Namaqua Afrikaner. Although genotyping analysis of the Elsenburg Merino flock indicated some signs of poor genotype quality, the overall utility of the genotype data were successfully demonstrated for the South African Merino and the other two commercial breeds, the Dorper and SAMM. Genotyping results of the Namaqua Afrikaner and possibly other indigenous African breeds may be influenced by SNP ascertainment bias due to the limited number of indigenous African breeds used during SNP discovery. Analysis of pedigree, phenotypic records and SNP genotype data of the Elsenburg Merino cohort used in the current study, confirmed that the lines are phenotypically as well as genetically distinct. Numerous putative genomic regions subject to selection were identified by either an FST outlier approach or a genomic scan for regions of homozygosity (ROH) in the High and Low lines. Although annotated genes with putative roles in reproduction were identified, the exact mechanism of involvement with variation in reproduction traits could not be determined for all regions and genes. Putative ROH overlapped with QTL for several reproduction, milk, production and parasite resistance traits, and sheds some light on the possible function of these regions. The overlap between QTL for production and parasite
resistance with putative ROH may indicate that several, seemingly unrelated traits add to the net-reproduction and may have been indirectly selected in the Elsenburg Merino flock. A SNP genotyping panel based solely on reproduction traits may therefore be ineffective to capture the variation in all traits influencing reproduction and robustness traits. A holistic selection strategy taking several important traits, such as robustness, reproduction and production into account may as such be a more effective strategy to breed animals with the ability to produce and reproduce more efficiently and thereby ensure profitable and sustainable sheep farming in South Africa. / AFRIKAANSE OPSOMMING: Reproduksie- en gehardheids-eienskappe is noodsaaklik om volhoubare, doeltreffende en winsgewende skaapboerdery te verseker. ‘n Toename in genetiese vordering in reproduksie- en gehardheids-eienskappe word egter bemoeilik deur lae oorerflikhede tesame met die probleme in kwantifisering van hierdie eienskappe vir tradisionele selektiewe diereteelt strategieë. Die doel van die huidige studie was dus om gebiede in die genoom onderliggend tot variasie in reproduksie-eienskappe te identifiseer en die rol van verwante kwantitatiewe eienskap loki (KEL) en/of gene met reproduktiewe eienskappe te bepaal. Die Elsenburg Merinokudde is uiteenlopend geselekteer vir die vermoë om meerlinge groot te maak en het gelei tot 'n Hoë en 'n Lae lyn wat merkbaar verskil ten opsigte van reproduksie-uitsette en ander gehardheids-eienskappe. Die kudde het dus gedien as 'n ideale platform om genomiese areas onderhewig aan seleksie vir reproduksie-eienskappe te identifiseer. Om vas te stel waar genomiese areas onderhewig aan seleksie gevind kan word, is ‘n heel-genoom genotiperingsplatform, die OvineSNP50 skyfie, gekies om die genotipes van meer as 50 000 enkel nukleotied polimorfismes (ENPs) eweredig versprei oor die skaap genoom, te bepaal. Die nut van die OvineSNP50 skyfie is bepaal vir die Elsenburg Merinokudde sowel as addisionele Suid-Afrikaanse Merinos en drie ander belangrike Suid-Afrikaanse skaaprasse, die Swartkop Dorper, Suid-Afrikaanse Vleismerino (SAVM) en die Namakwa Afrikaner. Hoewel genotipe resultate van die Elsenburg Merino kudde sommige tekens van swak genotipe gehalte getoon het, kon die algehele nut van die genotipering resultate vir die Suid-Afrikaanse Merino en die ander twee kommersiële rasse, die Dorper en SAVM, bevestig word. Genotipering resultate van die Namakwa Afrikaner en moontlik ook ander inheemse Afrika rasse kan deur ENP vasstellingspartydigheid beïnvloed word as gevolg van die beperkte aantal inheemse Afrika rasse gebruik tydens ENP ontdekking. Ontleding van stamboom inligting, fenotipe rekords en ENP genotipe data van die Elsenburg Merino-kohort gebruik in die huidige studie, het bevestig dat die lyne fenotipies asook geneties verskil. Talle vermeende genomiese areas onderhewig aan seleksie is geïdentifiseer deur 'n FST uitskieter benadering of deur ‘n genomiese skandering vir gebiede van homogositeit (GVH) in die Hoë en Lae lyne. Hoewel geannoteerde gene met potensiële rolle in reproduksie geïdentifiseer is, kan die presiese meganisme van betrokkenheid by variasie in reproduksie-eienskappe nie bevestig word vir al die
gebiede en gene nie. Vermeende GVH oorvleuel met KEL vir 'n paar reproduksie-, melk-, produksie- en parasietweerstand-eienskappe, en werp daarom lig op die moontlike funksie van hierdie gebiede. Die oorvleueling tussen KEL vir produksie en parasietweerstand met vermeende GVH kan daarop dui dat 'n hele paar, skynbaar onverwante, eienskappe bydrae tot net-reproduksie, wat indirek geselekteer mag wees in die Elsenburg Merino-kudde. ‘n ENP genotiperingspaneel uitsluitlik gebaseer op reproduksie-eienskappe mag daarom onvoldoende wees om die variasie in alle eienskappe wat betrekking het op reproduksie- en gehardheids-eienskappe, in te sluit. ‘n Holistiese seleksie strategie wat verskeie belangrike eienskappe, soos gehardheid, reproduksie en produksie in ag neem, mag ‘n meer effektiewe strategie wees om diere te teel met die vermoë om in 'n meer doeltreffende manier te produseer en reproduseer en om daardeur winsgewende en volhoubare skaapboerdery in Suid-Afrika te verseker.
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Early life cytokines, viral infections and IgE-mediated allergic diseaseLarsson, Anna-Karin January 2006 (has links)
<p>Background: The reasons why some individuals become IgE-sensitised and allergic are largely unknown, though genetic- and early life environmental factors seem to be of importance.</p><p>Objective: The overall aim of this thesis was to investigate the relationship between IgE-sensitisation and allergic disease, viral infections, genetic markers and early life cytokines.</p><p>Results: IgE-sensitised children were found to have reduced numbers of IL-12 producing cord blood mononuclear cells (CBMC), whereas children diagnosed with eczema were found to have reduced numbers of IFN-γ producing CBMC. When dividing the children into early onset of IgE-sensitisation and late onset of IgE-sensitisation we found that the children with an early onset had low numbers of PHA-induced IL-4, IL-12 and IFN-γ secreting CBMC. At the age of two there was a general exacerbation of cytokine responses in the IgE-sensitised children, and the results were similar for the children with early onset IgE-sensitisation. Children with a late onset IgE-sensitisation were more similar to the non-sensitised children, but with a specific increase in the response to cat allergen (IL-4 and IFN-γ). The mothers of IgE-sensitised children, were just as their children, found to have an exaggerated cytokine response as compared to mothers of non-sensitised children. Maternal responses correlated well to the responses seen in the child, though the samples were taken two years after delivery.</p><p>Cytomegalovirus (CMV) infection in early life was associated to reduced numbers of IL-4, and increased numbers of IFN-γ producing cells at the age of two. No association between CMV seropositivity and IgE-sensitisation was seen. Epstein-Barr virus (EBV) infection, on the other hand, was inversely correlated with IgE –sensitisation, whereas no statistically significant association to cytokine production could be seen.</p><p>We also showed that the IL12B 1188 C-allele was associated to having a positive skin prick test at the age of two. The rare alleles of the three SNPs investigated (IL12B 1188C, IL12RB1132C and IRF1 1688A) were all associated to low IL-12 production at birth.</p><p>Conclusions: Our results indicate that allergic diseases are complex traits, and that both the genetic and the cytokine background differ between the different allergic diseases. We can also conclude that the time of onset seem to play a role when investigating IgE-sensitisation, and that perhaps early and late onset IgE-sensitisation have partly different causes. CMV and EBV infection early in life are associated to a protective cytokine profile and to protection from IgE-sensitisation, respectively, again indicating the heterogeneity and the complexity of allergic diseases.</p>
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A Mixed Biosensing Film Composed of Oligonucleotides and Poly (2-hydroxyethyl methacrylate) Brushes to Enhance Selectivity for Detection of Single Nucleotide PolymorphismsWong, April Ka Yee 02 September 2010 (has links)
This work has explored the capability of a mixed film composed of oligonucleotides and oligomers to improve the selectivity for the detection of fully complementary oligonucleotide targets in comparison to partially complementary targets which have one and three base-pair mismatched sites. The intention was to introduce a “matrix isolation” effect on oligonucleotide probe molecules by surrounding the probes with oligomers, thereby reducing oligonucleotide-to-oligonucleotide and/or oligonucleotide-to-surface interactions. This resulted in a more homogeneous environment for probes, thereby minimizing the dispersity of energetics associated with formation of double-stranded hybrids. The mixed film was constructed by immobilizing pre-synthesized oligonucleotides onto a mixed aminosilane layer and then growing the oligomer portion by surface-initiated atom transfer radical polymerization (ATRP) of 2-hydroxy methacrylate (PHEMA). The performance of the mixed film was compared to films composed of only oligonucleotides in a series of hybridization and melt curve experiments. Surface characterization techniques were used to confirm the growth of the oligomer portion as well as the presence of both oligonucleotides and oligomer components. Polyatomic bismuth cluster ions as sources for time-of-flight secondary ion mass spectrometry experiments could detect both components of the mixed film at a high sensitivity even though the oligomer portion was at least 200-fold in excess.
At the various ionic strengths investigated, the mixed films were found to increase the selectivity for fully complementary targets over mismatched targets by increasing the sharpness of melt curves and melting temperature differences (delta Tm) by 2- to 3-fold, and by reducing non-specific adsorption. This resulted in improved resolution between the melt curves of fully and partially complementary targets. A fluorescence lifetime investigation of the Cy3 emission demonstrated that Cy3-labeled oligonucleotide probes experienced a more rigid microenvironment in the mixed films.
These experiments demonstrated that a mixed film composed of oligonucleotides and PHEMA can be prepared on silica-based substrates, and that they can improve the selectivity for SNP discrimination compared to conventional oligonucleotide films.
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The influence of pharmacogenetic traits and efavirenz levels on treatment outcome in HIV-positive South African womenRohrich, Carola Renate 03 1900 (has links)
Thesis (MSC)--Stellenbosch University, 2012. / ENGLISH ABSTRACT: South Africa is shouldering the highest burden of HIV-infection. Inter-individual differences in response to antiretroviral treatment (ART) and the limited availability of second and third-line ART regimens call for optimising first-line ART in South African populations. Measuring antiretroviral drug levels in patients may be of clinical value as an intermediate indicator of treatment response and may moreover serve to assess the genetic variation underlying differential drug exposure. This study aimed to determine the effect of SNPs in the CYP2B6 gene and efavirenz (EFV) levels measured in hair on ART outcomes in females of two South African populations.
Female Xhosa (XH) (n = 81) and Mixed Ancestry (MA) (n = 53) patients receiving the first-line regimen component EFV for at least three months donated saliva for genomic DNA extraction and 20 strands of hair for determination of EFV concentrations by high performance liquid chromatography. Regulatory and exonic regions in the CYP2B6 gene, which codes for the major metabolising enzyme of EFV, were subjected to bi-directional sequence analysis in 15 XH and 15 MA individuals to assess common genetic variation in these populations. Out of 45 single nucleotide polymorphisms (SNPs) identified, 17 SNPs of known or predicted functional importance in EFV metabolism, including four novel SNPs, were genotyped in the entire patient cohort by polymerase chain reaction restriction fragment length polymorphism (PCR-RFLP) analysis. All SNPs were tested for Hardy-Weinberg equilibrium (HWE) and maximum likelihood haplotypes and assessed for an association with EFV levels measured in hair, likelihood of developing adverse drug reactions (ADRs) and virological response to EFV-based treatment.
After correcting for age and ethnicity, homozygous carriers of c.516G>T (CYP2B6*6) had significantly increased EFV levels (p = 0.0021; mean: 12.0 ng/mg; IQR: 3.95 – 6.99 ng/mg; n = 12), as did heterozygotes of c.983T>C (CYP2B6*18) (p = 0.0005; mean: 7.315 ng/mg; IQR: 6.59 – 15.10 ng/mg; n = 10). No CYP2B6*18 homozygotes were detected. No association between EFV levels and virological response was evident (p = 0.8467), but CYP2B6*6 predicted increased odds of virological failure (VL > 80 copies/ml) after correcting for adherence, race, age, weight, time on treatment, baseline CD4, smoking, alcohol and WHO disease stage (p = 0.0328). Carriers of the CYP2B6*1 allele had increased odds (OR = 5) of favourable treatment outcome (VL < 80 copies/ml).
In accordance with other studies, this study provides evidence that genetically predisposed poor metabolisers of EFV may be at increased risk of virological failure, possibly following non-adherence. Concurrently, these patients may be more vulnerable to adverse drug reactions and are more frequent in the XH (13%) than MA (4%). These results should be verified in larger patient cohorts, but contribute to a better understanding of the effect of genetic factors on EFV exposure and ART outcome in two South African populations. The outcomes of this study may thus provide recommendations for prospective studies and impact future clinical decisions. / AFRIKAANSE OPSOMMING: Suid-Afrika dra die grootste las van MIV-infeksies. Inter-individuele verskille in reaksie op anti-retrovirale terapie (ART) en die beperkte beskikbaarheid van tweede- en derde-linie ART-reekse regverdig die optimisering van eerste-linie ART in Suid-Afrikaanse bevolkings. Meting van antiretrovirale middel-vlakke in pasiënte, as ‘n intermediêre aanduiding van reaksie op behandeling, kan van kliniese belang wees en kan ook die waarde van die bepaling van genetiese variasie, onderliggend aan differensiële blootstelling aan middels, bepaal. Die doel van hierdie studie is om die effek van enkel-nukleotied polimorfismes (SNPs) in die CYP2B6-geen en efavirenz (EFV)-vlakke in hare op ART-uitkoms te bepaal in vroue van twee Suid-Afrikaanse bevolkingsgroepe.
Vroulike Xhosa (XH) (n = 81) en Gemengde Herkoms (GH) (n = 53) pasiënte wat EFV as deel van eerste-linie ART vir ten minste drie maande ontvang het, het speekselmonsters vir genomiese DNA-ekstraksie en 20 hare vir die bepaling van EFV-konsentrasies deur hoë werkverrigting vloeistofchromatografie (“HPLC”) geskenk. Regulatoriese en eksoniese areas in die CYP2B6-geen, wat vir die vernaamste metaboliserende ensiem van EFV kodeer, is deur middel van tweerigting-volgordebepalings-analise in 15 XH en 15 GH individue ondersoek om gemeenskaplike genetiese variasie in hierdie bevolkings te bepaal. Uit ‘n totaal van 45 SNPs wat geïdentifiseer is, is 17 SNPs wat bekende of voorspelde belangrike rolle in EFV-metabolisme speel, insluitend vier nuwe SNPs, ondersoek. Hierdie SNPs is in die volledige pasiënt-kohort gegenotipeer deur polimerase-ketting reaksie gebaseerde restriksie fragment lengte-polimorfisme (PKR-RFLP) analise. Alle SNPs is getoets vir Hardy-Weinberg-ewewig (HWE) en maksimum waarskynlikheidshaplotipes en is geassesseer vir assosiasie met EFV-vlakke gemeet in hare, die waarskynlikheid om ongunstige reaksies tot die middel te ontwikkel en virologiese reaksie op EFV-gebaseerde behandeling.
Nadat vir ouderdom en herkoms gekorrigeer is, het homosigotiese draers van c.516G>T (CYP2B6*6) beduidend verhoogde EFV-vlakke (p = 0.0021; gemiddeld: 12.0 ng/mg; IQR: 3.95 – 6.99; n=12) getoon, so ook heterosigote vir c.983T>C (CYP2B6*18) (p = 0.0005; gemiddeld: 7.315 ng/mg; IQR: 6.59 – 15.10 ng/mg; n = 10). Geen CYP2B6*18 homosigote is gevind nie. Daarbenewens is geen duidelike assosiasie tussen EFV-vlakke en virologiese reaksie gevind nie (p = 0.8467), maar CYP2B6*6 het verhoogde waarskynlikheid op virologiese mislukking (VL > 80 kopieë/ml) getoon nadat daar vir mddel-getrouheid, ras, ouderdom, gewig, tydsduur van behandeling, basis-CD4, rook, alkohol en Wêreld Gesondheids Organisasie siekte-fase gekorrigeer is (p = 0.0328). Draers van die CYP2B6*1-alleel het verhoogde waarskynlikheid (OR = 5) op gunstige behandelingsuitkomste getoon (VL < 80 kopieë/ml).
In ooreenstemming met ander studies verskaf hierdie studie bewyse dat pasiënte wat geneties geneig is tot stadige metabolisme van EFV ‘n hoër risiko kan hê vir virologiese mislukking, wat moontlik ‘n gevolg is van middel-ontrouheid. Hierdie pasiënte kan ook meer geneig wees tot vatbaarheid vir ongunstige middel-reaksie en kom meer voor in die XH (13%) as in die MA (4%). Hierdie resultate moet in groter pasiënt-kohorte gestaaf word, maar dra by tot ‘n beter begrip van die effek van genetiese faktore op blootstelling aan EFV en ART-uitkoms in twee Suid-Afrikaanse bevolkings. Die uitkomste van hierdie studie kan dus as aanbevelings gebruik word vir voornemende studies en ook toekomstige kliniese besluite beïnvloed. / The Medical Research Fund (MRC) for funding this project.
The University Centre for Studies in Namibia (TUCSIN) and Deutscher Akademischer Austausch-Dienst
(DAAD) for financial support
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Genetics of muscle and meat quality in chickenZahoor, Imran January 2013 (has links)
Skeletal muscles in broilers are generally characterised by pathological muscle damage, indicated by greater plasma creatine kinase (CK) activity, higher incidence of haemorrhages, lighter and less coloured breast muscles, compared with layers and traditional breeds of chicken. Muscle damage is further exacerbated by exposure to stressful conditions such as high ambient temperatures which results in a further decrease in the quality of broiler meat and leads to the production of pale, soft and exudative (PSE) meat. This growing incidence of poor quality poultry meat is causing substantial losses to the meat industry. However, in contrast to pork the genetics of poor muscle and meat quality in chicken is unknown. The present project was conducted to identify the underlying genetics of this low quality meat by using heat-stress as a tool to amplify muscle damage and expression of the relevant genes. Whole-genome expression studies in broiler and layer breast muscles were conducted before and after heat-stress and some phenotypic data were also recorded. From the gene expression studies, 2213 differentially expressed genes (P<0.05) were found. About 700 of these genes had no gene ontology (GO) terms associated with them for biological process or function. The significant gene set was analysed in BioLayout Express and interesting clusters of the genes, based on their positive correlation with each other, were selected for further investigation. Genes were grouped together in 6 different categories or clusters, on the basis of their expression pattern. The genes in the selected clusters were analysed in Ingenuity Pathway Analysis (IPA) software, for each category separately, and relevant biological pathways and networks for those genes were studied. Similarly, the genes filtered out by BioLayout Express at a Pearson threshold of 0.80 were also analysed in IPA separately and interesting pathways and networks were selected. From the pathways and networks analyses of these genes, it was discovered that genes involved in inflammatory, cell death, oxidative stress and tissue damage related functions were up-regulated in control broilers compared with control and similar to heat-stressed layers. After exposure to heat-stress the expression levels of these genes were further increased in broilers. These results led us to develop the hypothesis that breast muscles in broilers are under stress-related damage even under the normal rearing conditions. This hypothesis was tested by rearing the broilers birds at normal/conventional and comparatively low ambient temperature and its effects on breast muscle quality and meat quality were studied. Significant improvement of breast muscle redness was observed. Additionally substantial numerical improvements for other meat and muscle quality traits like breast muscle lightness and histopathology were observed. From the key positions of interesting significant pathways and networks, candidate genes were selected for further investigation. In total, 25 candidate genes were selected for SNP genotyping: 19 genes were selected from the interesting pathways and networks and 6 genes were selected on the basis of their GO terms. For each gene 4-5 SNPs were selected, where possible, that were present in exons and promoter regions of the candidate genes. The selected SNPs were genotyped for muscle and meat quality traits in 34 breeds of chicken and significant causative SNPs for each trait including plasma CK activity, pHi and pHu for breast muscles, colour (L*, a*, and b*) traits for breast and thigh muscles were found. These SNPs were responsible for explaining a moderate to high (15-55%) percentage of phenotypic variance for these traits. To our knowledge this is the first study in which gene-expression in chicken breast muscle was conducted in response to heat-stress and additionally, for the first time, a set of novel SNPs for all of these traits were identified. Some of the significant causative SNPs were lying in the protein coding sequences and some were present in the promoter regions of the candidate genes.
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Detection and characterisation of quantitative trait loci affecting muscle and growth phenotypes in sheepHadjipavlou, Georgia January 2010 (has links)
This thesis addresses the dissection and characterisation of quantitative trait loci (QTL) affecting production traits in sheep. Firstly, the association between specific genetic polymorphisms and complex variation in weight, muscle and fat depositions was investigated. Research concentrated on assessing the presence, correspondence and significance of two single nucleotide polymorphisms (SNPs) in the GDF8 region of ovine chromosome 2, reportedly affecting muscle production. Commercial populations of British Texel, Suffolk and Charollais sheep were studied. The SNPs were absent in Suffolk and almost fixed in Texel breeds. In the Charollais population, the SNPs segregated at intermediate frequencies and a significant association was found between these polymorphisms and muscle depth. The previously proposed causative allele at one of the loci resulted in increased muscle depth and, at allele frequency of 0.5, this locus would explain one third of the additive genetic variance for the trait. Partial recessive allelic expression is proposed by genotypic value predictions and is consistent with the previously postulated molecular mechanism by which it gives rise to muscle changes. Secondly, the thesis focused on detection of QTL associated with growth. Live weight is a composite of growth rates over time, with inter-age genetic correlations for live weight decreasing as time between weight measurements increases. To explore whether observed genetic correlation patterns translate into distinct loci acting on weight at different growth stages, a novel method was developed and the applicability of a second proposed method was explored. Both methods allowed simultaneous analysis of multiple live weights per animal, while accounting differently for the correlation among measurements ordered in time. In the first approach, a growth curve technique was developed and employed to map growth QTL for curve parameters and predicted growth descriptors. A study of actual live weights identified significant QTL at different ages on distinct chromosomes, with QTL significance and variance changing over time. Further application of this technique on a simulated dataset validated its effectiveness in detecting age-dependent QTL. An extension of the procedure resulted in a novel technique for genomic evaluation of longitudinal traits. In the second method examined, random regression (RR) models were applied for dissection of growth QTL. Systematic model selection and inclusion of relevant random effects resulted in apparently significant QTL, but the method was computationally demanding, model choice proved challenging and the results were questioned. To further explore the method, RR models were applied to various simulated growth phenotypes composed of time-dependent QTL trajectories, polygenic and environmental effects. Statistically optimal RR models succeeded in identifying significant QTL and predicting the simulated time-dependence for most scenarios. However, the issue of model choice was again prominent, as suboptimal models resulted in unreliable QTL variance trajectories and pronounced confounding between different time-dependent effects. Thus, the growth curve approach appeared to be the more flexible and robust process for analysing longitudinal data to map agedependent QTL.
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Identification and functional analysis of single nucleotide polymorphisms that affect human cancerGrochola, Lukasz Filip January 2011 (has links)
Aims: The p53 regulatory network is crucial in directing the suppression of cancer formation and mediating the response to commonly used cancer therapies. Functional genetic variants in the genes comprising this network could help identify individuals at greater risk for cancer and patients with poorer responses to therapies, but few such variants have been identified as yet. Methods: We first develop and apply three different screens that utilize known characteristics of functional single nucleotide polymorphisms (SNPs) in the p53 network to search for variants that associate with allelic differences in (i) recent natural selection, (ii) chemosensitivity profiles, and (iii) the gender- and age- dependent incidence of soft-tissue sarcoma. Secondly, we study and explore the functional mechanisms associated with the identified variants. Results: We identify SNPs in the PPP2R5E, CD44, YWHAQ and ESR1 genes that associate with allelic differences in the age of tumour diagnosis (up to 32.5 years, p=0.031), cancer risk (up to 8.1 odds ratio, p=0.004) and overall survival (up to 2.85 relative risk, p=0.011) in sarcomas, ovarian and pancreatic cancers, and exhibit allelic differences in the cellular responses to cytotoxic chemotherapeutic agents (up to 5.4-fold, p=5.6x10<sup>-47</sup>). Lastly, we identify candidate causal SNPs in those genes and describe the regulatory mechanisms by which they might affect human cancer. Conclusions: Together, our work suggests that the inherited genetics of the p53 pathway have a great potential to further define populations in their abilities to react to stress, suppress tumor formation and respond to therapies.
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Transcription Factor Decoy Oligonucleotides That Mimic Functional Single Nucleotide Polymorphisms (SNPS) for the Treatment of GlioblastomasRege, Jessicca I Martin 01 January 2005 (has links)
Introduction: Despite many advances in therapeutic and surgical techniques for glioblastoma multiforme (GBM), this form of brain cancer still remains incurable. A hallmark feature of GBM is the ability of the glioma cells to infiltrate surrounding brain tissue. The invasive nature of glioma cells is a key challenge in considering treatment for patients with GBM. Certain members of the matrix metalloproteinase (MMP) family play a role in tumor cell invasion and metastasis (Coussens, et al., 2002). A functional SNP resulting from an additional guanine at position -1607 in the MMP-1 promoter creates an erythroblastosis twenty six transcription factor protein (ETS) DNA consensus binding site, which results in significantly higher transcriptional activity of MMP-1 (Rutter et al., 1998). Several published studies show the incidence of this 2G allele is significantly higher in aggressive and metastatic tumors. Binding of an adjacent transcription factor DNA consensus site, activator protein -1 (AP1) site at -1607 has been shown to cooperate with ETS binding to activate transcription of the MMP-1 gene. We have reported a significant increase in the 2G/2G MMP-1 genotype in glioblastomas (pPurpose: To determine if a novel SNP decoy can inhibit the 2G genotype-dependent increase in MMP-1 transcriptional activity, three specific aims were tested: one, to verify specificity of binding of a transcription factor decoy designed to mimic the -1607 SNP site within the MMP-1 promoter; two, to determine the effect of transcription factor decoy ODN on transcriptional activity of an MMP-1 promoter containing the 2G SNP at -1607; and three, to assess the effect of the transcription factor decoy ODN on MMP-1 mRNA and protein expression in treated glioma cells. Methods: Modified and unmodified decoys were designed to mimic position -1607 to -1593 of the MMP-1 promoter. The SNP decoy contains both ETS and AP1 DNA consensus sites and MMP-1 flanking sequences. We first determined optimal binding conditions with electromobility shift assays (EMSAs). The EMSA assays were used to determine the presence of Ets-1 and AP1 DNA binding activity within the glioma cell lines, T98 and U87. EMSAs were also used to determine if these transcription factors could bind to the MMP-1 promoters with and without the SNP. Lastly, EMSAs were done to determine the binding characteristics of the two modified SNP decoys (LNA-locked nucleic acid, and a PS-phosphothioate modification). The effect of the decoy on MMP-1 transcriptional activity was assessed using a Dual-Luciferase Reporter Assay. The effect of the SNP decoys on mRNA was assessed using quantitative RT-PCR, and on protein expression using a sandwich enzyme-linked immunoassay (ELISAs). Statistical analysis was done using a two-way ANOVA to evaluate the effect of the decoy on MMP-1 transcriptional activity, and protein expression. Results: EMSA results indicate that Ets-1 and AP1 probes, and MMP-1 promoter probes effectively bind proteins from glioma cell nuclear extracts. Addition of excess decoy was able to inhibit protein interactions with the 2G MMP-1 promoter probe and to a lesser extent the 1G promoter probe. The scrambled decoy had no effect. Promoter studies showed a significant increase in transcriptional activity of the 2G promoter and addition of 5 mm PS-SNP decoy could effectively prevent the increase in activity (pConclusions: U87 and T98 cell lines contain DNA binding activity of the transcription factors of interest, namely ETS-1 and AP1. The candidate transcription factors can bind to the MMP-1 promoter in the presence or absence of the 2G. Both the LNA and PS-SNP modified decoys can inhibit nuclear proteins from binding to the MMP-1 2G promoter. The PS-SNP decoy was able to inhibit MMP-1 (2G) gene transcription in a dose dependent manner, whereas the control decoy showed a consistent non-specific effect. The PS-SNP decoy inhibited MMP-1 mRNA and protein expression in glioma cells containing the 2G genotype, and to lesser extent in glioma cells containing the 1G genotype. The results presented here support the conclusion that the chimeric SNP decoy can selectively inhibit the MMP-1 promoter containing the 2G genotype.
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FUNCTIONAL AND BIOCHEMICAL CONSEQUENCES OF SINGLE NUCLEOTIDE POLYMORPHISMS IN THE HUMAN VESICULAR MONOAMINE TRANSPORTER 1 GENE (SLC18A1) By Sally Gamal Shukry, B.S.Shukry, Sally Gamal 02 May 2012 (has links)
Abstract FUNCTIONAL AND BIOCHEMICAL CONSEQUENCES OF SINGLE NUCLEOTIDE POLYMORPHISMS IN THE HUMAN VESICULAR MONOAMINE TRANSPORTER 1 GENE (SLC18A1) By Sally Gamal Shukry, B.S. A thesis submitted in partial fulfillment of the requirements for the degree of Master of Science in Biology at Virginia Commonwealth University. Virginia Commonwealth University, 2012 Major Advisor: Jennifer K. Stewart Associate Professor and Graduate Director, Department of Biology Single nucleotide polymorphisms (SNP) in the human VMAT1 gene (SLC18A1) have been associated with schizophrenia in three different populations: Han Chinese, Western European and Japanese. Effects of these mutations on transport function of the hVMAT1 protein have not been reported. The goal of this study was to investigate functional and biochemical differences in human VMAT1 proteins with a threonine or proline at amino acid position 4 (Thr4Pro) and a serine or threonine at position 98 (Ser98Thr). COS1 cells were transfected with variant SNPs coding for 4Thr/98Ser, 4Pro/98Ser, or 4Thr98Thr. Western blotting demonstrated robust over expression of the genes and no differences in electrophoretic mobility of the proteins. Maximal transport of serotonin by the VMAT1 protein with 4Pro/98Ser was less than that of the 4Thr/98Ser or the 4Thr/98Thr. Response of the 4Pro/Ser98 to the VMAT inhibitor reserpine was lower than that of the 4Thr/98Thr. These findings suggest mechanisms for human VMAT1 links to schizophrenia.
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Le polymorphisme du promoteur de l'interleukine-10 et son rôle éventuel dans la maladie d'Alzheimer / Interleukin-10 promoter polymorphism and its possible role in alzheimer's diseaseAsselineau, Delphine 20 June 2014 (has links)
La maladie d'Alzheimer (MA) est une maladie neurodégénérative irréversible et progressive entraînant des troubles cognitifs et comportementaux. L'inflammation est caractéristique de la MA. L'interleukine-10 (IL-10), une cytokine anti-inflammatoire a été associée à un risque plus faible de développer la MA. Cependant le lien entre l'IL-10 et la progression de la MA n'a jamais été étudié. Le but de cette thèse a été d'étudier le rôle de l'IL-10 dans le développement ainsi que dans la progression de la MA. Pour mener à bien cette étude, 31 sujets atteints par la MA et 20 sujets contrôles cognitivement intacts ont été recrutés. En fonction de la vitesse de diminution du test de Mini-Mental State Examination et de l’évolution des troubles cognitifs sur deux ans, les patients souffrant de la MA ont été divisés en deux sous-groupes: les patients avec une progression lente (MA lent) et ceux avec une progression rapide (MA rapide). Les analyses se sont portées sur la concentration d’IL-10 en périphérie (plasma, production par les cellules mononuclées du sang périphérique (PBMCs) après stimulation par les peptides Aβ) ainsi que le polymorphisme de son promoteur en position -592, -819 et -1082. En complément, d’autres cytokines impliquées dans l’inflammation ont été étudiées : l’IL-6 (sa concentration plasmatique, sa production par les PBMCs à la suite d’une stimulation par les peptides Aβ et son polymorphisme en position -174) et les polymorphismes du TGF-β1 (-10 et - 25), de l’IFN-γ (-874) et du TNF-α (-308) ainsi que le gène de l'apolipoprotéine E (ApoE). Une étude de la longueur des télomères, liée à l’inflammation, a été aussi réalisée. Les résultats ont montré une association entre le génotype AA et l’allèle A du polymorphisme de l’IFN-γ en position -874 avec la progression rapide de la MA. Une augmentation statistiquement significative de la production d'IL-10 après stimulation par les peptides Aβ a été montrée chez les patients atteints avec une progression lente (MA lent). Une longueur significativement plus courte des télomères a été aussi associée aux patients MA lent. L’ensemble de ces travaux suggère qu’un profil de forte production de l’IL-10 ainsi qu’un profil génétique d’IFN-γ (TT -874) pourrait ralentir la progression de la MA. Il est aussi apparu que la longueur des télomères pourrait être un marqueur du déficit cognitif. Il est clair que ces résultats préliminaires ont besoin d’être confirmés par une étude de plus grande envergure, avec un nombre de patients plus élevé. / Alzheimer’s disease (AD) is an irreversible and progressive neurodegenerative disorder leading to cognitive and behavioral impairment. Inflammation is hallmark of AD although the exact mechanisms involved and the roles of the different inflammatory components are far less clear. Interleukin-10 (IL-10) is a key anti-inflammatory cytokine and IL-10 -1082 A > G polymorphism has been associated with a lower risk of developing AD although the link between IL-10 and the AD progression have never been studied. The aim of this study is to study the role of IL-10 in the risk of developing AD and its role in AD progression. In order to complete successfully this study, 31 AD patients and 20 cognitively intact controls were recruited. Depending of the rate of decrease of mini-mental state test examination (MMSE) and evolution of cognitive disorders, AD patients were divided in two subgroups: patients with slow progression (AD slow) and those with fast progression (AD fast). Analysis were focused on periphery concentration of IL-10 (plasma and and its production by peripheral blood mononuclear cells (PBMCs) after Aβ peptides stimulation) as well as its promoter polymorphism in position -592, -819 and -1082. In addition, other cytokines involved in inflammation were studied: IL-6 (its plasma concentration, its production by PBMCs following stimulation with Aβ peptides and its polymorphism at position -174) and polymorphisms of TGF-β1 (-10 to - 25), IFN-γ (-874) and TNF-α (-308) as well as the gene polymorphisms of Apolipoprotein E (ApoE). A study of telomere length, link to inflammation, was also performed. Results showed IFNγ -874AA genotype and -874A allele was associated with AD fast progression. A statistically significant increase of IL-10 production by PBMCs stimulated with Aβ peptides was shown in AD slow patients. A significantly shorter telomere length was also associated with AD slow patients. All of this work suggests that a profile with high IL-10 production and high IFN-γ (-874 TT) genotype could confer a slower AD progression. It was also found that telomere length may be a marker of cognitive impairment. It is clear that these preliminary results need to be confirmed in a larger study with a larger number of patients.
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