Spelling suggestions: "subject:"genetics anda genomics"" "subject:"genetics anda phenomics""
71 |
The Genomic Sequence and Annotation of Bacteriophage HK239Wright, Alice Ann 01 December 2010 (has links)
Bacteriophages are viruses that infect bacteria and they are the most numerous biological entities on Earth. Temperate phage can adopt two different lifestyles. In the lytic lifestyle, a phage injects its genome into the host and a controlled developmental program ensues. The phage DNA is replicated, phage genes are expressed and new viral particles are assembled. Ultimately, the host cell lyses and the phage particles are released into the environment. In the lysogenic lifestyle, a phage integrates its genome into the host chromosome, creating a prophage. The cell containing the prophage is known as a lysogen. Most prophage genes are not expressed. However, those that are encode a wide variety of functions. One function is exclusion, or the prevention of a different phage type from successfully infecting the lysogenic cell. Most exclusion systems are limited to a specific phage. Bacteriophage HK239 is unique in that it has a wide range of exclusion including Lambda, P1vir, P2, HK022, and T4rII. To learn more about HK239, the genome was sequenced and annotated. The genome is 41,538 bp in length and there are 71 open reading frames. It has a genomic organization similar to other lambda phage and is most closely related to bacteriophage HK022. No additional genes that share homology with known exclusion functions were identified through the sequence analysis of the HK239 genome. It is possible that an open reading frame for which no database matches were found may indeed encode an exclusion function.
|
72 |
Automated Discovery of Pedigrees and Their Structures in Collections of STR DNA Specimens Using a Link Discovery ToolHaun, Alex Brian 01 May 2010 (has links)
In instances of mass fatality, such as plane crashes, natural disasters, or terrorist attacks, investigators may encounter hundreds or thousands of DNA specimens representing victims. For example, during the January 2010 Haiti earthquake, entire communities were destroyed, resulting in the loss of thousands of lives. With such a large number of victims the discovery of family pedigrees is possible, but often requires the manual application of analytical methods, which are tedious, time-consuming, and expensive. The method presented in this thesis allows for automated pedigree discovery by extending Link Discovery Tool (LDT), a graph visualization tool designed for discovering linkages in large criminal networks. The proposed algorithm takes advantage of spatial clustering of graphs of DNA specimens to discover pedigree structures in large collections of specimens, saving both time and money in the identification process.
|
73 |
COOPERATIVE AND ANTAGONISTIC ROLES FOR HETEROCHROMATIN PROTEINS IN TRANSCRIPTIONAL REGULATION OF THE DROSOPHILA SEX DETERMINATION MASTERSWITCH GENELi, Hui 01 January 2011 (has links)
HOAP was originally identified as a component of an ORC-containing multi-protein complex of Heterochromatin Protein 1 (HP1) from early Drosophila embryos. HOAP immunostaining showed prominent association of it with telomeres, and mutants for HOAP (cav1) showed it functions along with HP1 in forming a telomere capping complex that prevents telomeric fusions.
Weaker HOAP immunostaining is also observed in regions of pericentric heterochromatin and euchromatin. To examine the role of HOAP at these non-telomeric sites, we applied Affymetric Drosophila Genome Arrays to undertake a microarray expression profiling study of genes that are mis-expressed in cav1 mutant larvae. The data from four publicly available databases were used to assess the normal expression patterns of the affected genes. We found that the majority (67%) of genes with decreased expression levels in cav1 mutants (log2R< -2.0, pvalue≤ 0.01) have normally testis-specific expression. These results could indicate a role of HOAP in testis-specific gene expression. Alternatively they could reflect reduced male viability due to the loss of HOAP, which resulted in the under-representation of males in the cav1 larval sample. The latter hypothesis is supported by the observation of 2.8-fold under-representation of males in cav1 larvae when I used a yellow+-marked X chromosome to differentially mark male and female cav1 larvae. Thus, this project is focused on determining and characterizing the cause of the reduced male viability.
Here I report a role for both HOAP and HP1 in regulating the establishment promoter, SxlPe, of the sex determination masterswitch, Sex lethal (Sxl). Female-specific activation of SxlPe is essential to females as it provides SXL protein to initiate productive female-specific splicing of the late Sxl transcripts which are transcribed in both sexes. We find inappropriate firing of SxlPe and splicing of Sxl transcripts in male cav mutants, whereas mutants for HP1 display Sxl splicing defects in both sexes. Both proteins are associated with SxlPe sequences. In embryos from HP1 mothers and Sxl mutant fathers, female viability and RNA polymerase II recruitment to SxlPe is severely compromised. Our genetic and biochemical assays suggest a repressing activity for HOAP and both activating and repressing roles for HP1 at SxlPe.
|
74 |
THE ROLE OF CUTICLE, FATTY ACIDS, AND LIPID SIGNALING IN PLANT DEFENSEXia, Ye 01 January 2010 (has links)
Systemic acquired resistance (SAR) is initiated upon recognition of specific microbial effectors by cognate plant resistance proteins and immunizes distal tissues of plants against secondary infections. SAR involves the generation of a mobile signal at the site of primary infection, which then translocates to and activates defense responses in the distal tissues via some unknown mechanism(s). This study shows that an ACYL CARRIER PROTEIN 4 (ACP4), GLABRA1 (GL1) and ACYL CARRIER BINDING PROTEINS (ACBP) are required for the processing of the mobile SAR signal in distal tissues of Arabidopsis. Although acp4, gl1 and acbp plants generate the mobile signal, they are unable to respond to this signal to induce systemic immunity. A defective SAR in acp4, gl1 and acbp plants is not associated with salicylic acid (SA)-, methyl SA-, or jasmonic acid-mediated pathways but is related to the presence of an abnormal cuticle on acp4, gl1 and acbp plants. Other genetic mutations impairing the cuticle also compromised SAR. An intact cuticle was only necessary during the time when the mobile signal is generated and translocated to the distal tissues. A novel role for the plant cuticle as the site for SAR-related molecular signaling is demonstrated.
|
75 |
THE JAK/STAT PATHWAY IS REUTILIZED IN <em>DROSOPHILA</em> SPERMATOGENESISTang, Lingfeng 01 January 2014 (has links)
In the Drosophila testis, sperm are derived from germline stem cells (GSCs) which undergo a stereotyped pattern of divisions and differentiation. The somatic cells at the tip of the testis form the hub, which is the niche for both the somatic cyst stem cells (CySCs) and GSCs. The hub expresses Upd, a ligand for the JAK/STAT pathway that has roles in the maintenance of CySCs and GSCs. Male mutants of upd3, another ligand of the JAK/STAT pathway, become sterile much earlier than the wild-type, leading to the hypothesis that similar to upd, upd3 also promotes the self-renewal of stem cells in testis. It was found here that upd3 is also expressed in the hub, and that mutants of upd3 have fewer CySCs and GSCs. Using a GFP reporter of the JAK/STAT pathway, it was found that the JAK/STAT pathway is not only activated in the stem cells, consistent with its known function in the maintenance of stem cells, but is also activated in the elongated cyst cells that encapsulate late stage differentiating spermatids. The reduction of JAK/STAT activity in the somatic cyst cells led to impaired spermatid individualization, a late stage of spermatogenesis during which the syncytial spermatids are separated. The impairment of individualization was shown by the loss of three characteristic structures: individualization complexes (ICs), cystic bulges (CBs), and waste bags (WBs). The failure of IC formation implies STAT activity is required for the initiation of individualization, and the loss of CBs and WBs suggests STAT activity is required for the progression of individualization. Activation of caspases in elongated spermatids is known to be required for individualization. The reduction of JAK/STAT activity in cyst cells almost completely eliminated the activation of two effector caspases: drICE and DCP-1. It was concluded that JAK/STAT activity in somatic cyst cells promotes individualization by stimulating caspase activity in spermatids. The JAK/STAT pathway is not only required for the maintenance of stem cells at the tip, but also required for individualization away from the tip during late differentiation, thus is reutilized in Drosophila spermatogenesis.
|
76 |
Assessing Community Dynamics and Colonization Patterns of <i>Tritatoma dimidiata</i> and Other Biotic Factors Associated with Chagas Disease Prevalence in Central AmericaOrantes, Lucia Consuelo 01 January 2017 (has links)
Chagas disease is caused by the parasite Trypanosoma cruzi and transmitted by multiple triatomine vectors across the Americas. In Central America, the predominant vector is Triatoma dimidiata, a highly adaptable and genetically diverse Hemiptera. In this research, we used a novel reduced-representation DNA sequencing approach to discover community dynamics among multiple biotic factors associated with Chagas disease in Central America, and assess the infestation patterns of T. dimidiata after seasonal and chemical disturbances in Jutiapa, Guatemala. For our first study, we used a hierarchical sampling design to obtain multi-species DNA data found in the abdomens of 32 T. dimidiata specimens from Central America. We aimed to understand (1) the prevalence of T. cruzi infection, (2) the population genetics of the vector and parasite, (3) the blood meal history of the vector, and (4) gut microbial diversity. Our results indicated the presence of nine infected vectors harboring two distinct DTUs: TcI and possibly TcIV. We found significant clusters among T. dimidiata populations in countrywide and within-country levels associated with sylvatic ecotopes and diverse domestic genotypes. There was significantly higher bacteria species richness in infected T. dimidiata abdomens than those that were not infected, with further analysis suggesting that gut bacteria diversity relates to both T. cruzi infection and the local environment. We identified vertebrate blood meals from five T. dimidiata abdomens including chicken, dog, duck and human; however, additional detection methods are necessary to confidently identify blood meal sources. In our second study, we analyzed the GBS genotypes of 440 T. dimidiata specimens collected in two towns of Jutiapa, Guatemala. Our aim was to assess (1) the domestic population patterns that aid the recovery of T. dimidiata after an insecticide treatment in El Carrizal and (2) the seasonal changes that regulate the dispersal of the vector in the untreated communities of El Chaperno. Results showed that the insecticide application was effective at reducing the population abundance immediately after the application in El Carrizal; nevertheless, 18-month post-treatment the town-wide infestation and genetic diversity were recovering. Within-house relatedness among specimens recovered 18 months post-treatment, suggesting that the insecticide treatment failed to fully eliminate domiciliated colonies. In contrast, lack of change in abundance or genetic diversity in El Chaperno implied absence of dispersers from sources beyond the town periphery, while evidence of a decrease of relatedness among individuals implied dispersal among houses. After the insecticide treatment in El Carrizal, population reduction led to lack of genetic spatial autocorrelation; nevertheless, rapid dispersal into neighboring houses lead to autocorrelation 18 months after the insecticide treatment. This pattern was also observed in El Chaperno, where an increase in spatial autocorrelation during seasonal dispersal suggests spillover to close-by households. The creation of a novel genomics pipeline allowed us to understand community and dispersal patterns of T. dimidiata and other biotic factors important for the prevalence and transmission of Chagas disease at local and regional levels. Future studies should include complementary approaches for taxa verification (e.g. bacteria 16S barcoding, PCR-base detection), as well as expand the scope of local population analyses to peridomestic and sylvatic genotypes that could suggest a broader range of vector sources and region-wide patterns of temporal and spatial dispersion.
|
77 |
Peroxisome Proliferator-Activated Receptor-γ Coactivator 1-α (PPARGC1A) Genetic Associations with Type 2 Diabetes in Three EthnicitiesCheema, Amanpreet K 28 October 2014 (has links)
Genetic heterogeneity, lifestyle factors, gene-gene or gene-environment interactions are the determinants of T2D which puts Hispanics and populations with African ancestry at higher risk of developing T2D. In this dissertation, the genetic associations of PPARGC1A polymorphisms with T2D and its related phenotypes (metabolic markers) in Haitian Americans (cases=110, controls=116), African Americans (cases=120, controls=124) and Cuban Americans (cases=160, controls=181) of South Florida were explored. Five single nucleotide polymorphisms of gene PPARGC1A were evaluated in each ethnicity for their disease association. In Haitian Americans, rs7656250 (OR= 0.22, pp=0.03) had significant protective association with T2D but had risk association in African Americans for rs7656250 (OR=1.02, p=0.96) and rs4235308 (OR=2.53, p=0.03). We found that in Haitian American females, both rs7656250 (OR=0.23, pp=0.03) had protective association with T2D. In African American females, rs7656250 (OR=1.14, p=0.78) had risk association whereas in males, it had significant protective effect (OR=0.37, p=0.04). However, the risk association exhibited by rs4235308 was stronger in African American females (OR=2.69, p=0.03) than males (OR=1.16, p=0.72). In Cuban Americans, only rs7656250 showed significant risk association with T2D (OR=6.87, p=0.02) which was stronger in females alone (OR=7.67, p=0.01). We also observed significant differences among correlations of PPARGC1A SNPs and T2D phenotypes. Positive correlation was observed for log Hs-CRP with rs3774907 (pp=0.03) in Cuban Americans respectively. Correlation of log A1C with rs7656250 (p=0.02) was positive in Cuban Americans while it was negative for rs3774907 in Haitian Americans (ppPPARGC1A correlations with T2D and its phenotypes among the three ethnicities studied (ii) the associations of PPARGC1A SNPs showed significant effect modification by sex. The findings suggest that variations in effects of PPARGC1A gene polymorphisms among three ethnicities and between sexes may have biomedical implications for the development of T2D as well as the phenotypes related to T2D.
|
78 |
Evaluation of Some Statistical Methods for the Identification of Differentially Expressed GenesHaddon, Andrew L 24 March 2015 (has links)
Microarray platforms have been around for many years and while there is a rise of new technologies in laboratories, microarrays are still prevalent. When it comes to the analysis of microarray data to identify differentially expressed (DE) genes, many methods have been proposed and modified for improvement. However, the most popular methods such as Significance Analysis of Microarrays (SAM), samroc, fold change, and rank product are far from perfect. When it comes down to choosing which method is most powerful, it comes down to the characteristics of the sample and distribution of the gene expressions. The most practiced method is usually SAM or samroc but when the data tends to be skewed, the power of these methods decrease. With the concept that the median becomes a better measure of central tendency than the mean when the data is skewed, the tests statistics of the SAM and fold change methods are modified in this thesis. This study shows that the median modified fold change method improves the power for many cases when identifying DE genes if the data follows a lognormal distribution.
|
79 |
Roles of DNA Base Excision Repair in Maintaining the Integrity of DNA MethylationZhou, Jing 15 November 2013 (has links)
DNA methylation and demethylation are involved in regulation of gene expression. CpG clusters have been identified as hotspots of oxidative damages and mutagenesis. DNA base excision repair can remove oxidative DNA damage on CpG clusters and mediate an active DNA demethylation pathway. In this study, we examined the molecular mechanisms underlying interactions among DNA methylation, demethylation and BER. Our results demonstrated that a single 5-methylcytosine did not exhibit a significant effect on BER. Surprisingly we found that the abasic site completely inhibited the activity of thymine DNA glycosylase (TDG) leading to the sustainment of the mismatch efficiently extended by pol β. Interestingly, APE1 3’-5’ exonuclease could removed the mismatch. Our results demonstrate a molecular mechanisms underlying DNA base lesion and BER in maintenance of a normal DNA methylation pattern and a critical role of APE1 to combat pol β extension of the mismatch thereby reducing the introduction of mutagenesis.
|
80 |
A study of Hardy-Weinberg equilibrium, linkage equilibrium, and population structure in Hispanics using seven genetic markersJones, Donald Thomas 01 January 1997 (has links)
No description available.
|
Page generated in 0.0525 seconds