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Biochemistry, Biophysics, and Structural Biology Commons™
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Articles 31 - 43 of 43
Full-Text Articles in Biochemistry, Biophysics, and Structural Biology
Multi-Gene Resistance To Neonicotinoids In The Colorado Potato Beetle, Leptinotarsa Decemlineata, Emine Kaplanoglu
Multi-Gene Resistance To Neonicotinoids In The Colorado Potato Beetle, Leptinotarsa Decemlineata, Emine Kaplanoglu
Electronic Thesis and Dissertation Repository
The Colorado potato beetle, Leptinotarsa decemlineata, is a significant pest of potato, and its impact on agriculture is measured on a global scale. The beetle is mainly controlled by neonicotinoid insecticides, however, resistance development is a growing concern. Resistance to neonicotinoids is thought to involve elevated activity of detoxifying enzymes and xenobiotic transporters that break-down and excrete insecticide molecules. Here, using mRNA sequencing, I identified multiple detoxifying enzyme and xenobiotic transporter genes transcriptionally up-regulated in a neonicotinoid resistant strain of beetles. I then used RNA interference to knock down the transcript levels of the ten most promising genes in …
Iron Acquisition Strategies Employed By Staphylococcus Lugdunensis, Jeremy R. Brozyna
Iron Acquisition Strategies Employed By Staphylococcus Lugdunensis, Jeremy R. Brozyna
Electronic Thesis and Dissertation Repository
Iron is crucial for many cellular processes including DNA synthesis and respiration. The majority of iron in mammals is in heme within hemoproteins, inside cells, or transported through circulation by the glycoprotein transferrin, which constitutes the greatest iron source in serum. Limiting iron availability is an important facet of nutritional immunity to help prevent infection.
Staphylococcus lugdunensis is a human skin commensal and opportunistic pathogen capable of causing a variety of infections, including particularly aggressive endocarditis. It is an emerging pathogen with elevated virulence compared to other species of coagulase-negative staphylococci. The versatility of S. lugdunensis to infect multiple niches …
Hd2d Is A Regulator Of Abscisic Acid Responses In Arabidopsis, Joshua A. Farhi
Hd2d Is A Regulator Of Abscisic Acid Responses In Arabidopsis, Joshua A. Farhi
Electronic Thesis and Dissertation Repository
Histone deacetylases have important roles in development and stress response in plants. To further investigate their function, the HD2D gene, of the plant specific HD2 family, was studied. An hd2d-1 mutant and two HD2D overexpression lines were used in this study. Germination was delayed in hd2d-1 and HD2D overexpression seeds only in the presence of ABA. HD2D was found to positively regulate the expression of members of the ABA-response pathway (ABI1, ABI5, and RD29A) leading to increased resistance to drought and salinity treatments. Furthermore, HD2D expression delayed flowering by positively regulating FLC expression. Using bimolecular fluorescence complementation, the HD2D protein …
A Unified Framework For The Prioritization Of Variants Of Uncertain Significance In Hereditary Breast And Ovarian Cancer Patients, Natasha G. Caminsky
A Unified Framework For The Prioritization Of Variants Of Uncertain Significance In Hereditary Breast And Ovarian Cancer Patients, Natasha G. Caminsky
Electronic Thesis and Dissertation Repository
A significant proportion of hereditary breast and ovarian cancer (HBOC) patients receive uninformative genetic testing results, an issue exacerbated by the overwhelming quantity of variants of uncertain significance identified. This thesis describes a framework where, aside from protein coding changes, information theory (IT)-based sequence analysis identifies and prioritizes pathogenic variants occurring within sequence elements predicted to be recognized by proteins involved in mRNA splicing, transcription, and untranslated region binding and structure. To support the utilization of IT analysis, we established IT-based variant interpretation accuracy by performing a comprehensive review of mutations altering mRNA splicing in rare and common diseases.
Custom …
Planting The Chalcone Reductase Family Tree: Identification And Characterization Of Chalcone Reductase Genes In Soybean, Caroline Julia Sepiol
Planting The Chalcone Reductase Family Tree: Identification And Characterization Of Chalcone Reductase Genes In Soybean, Caroline Julia Sepiol
Electronic Thesis and Dissertation Repository
Soybean (Glycine max [L.] Merr) is an important crop grown in Canada, generating $2.4 billion in sales. Though this number may be promising, soybean farmers lose about $50 million worth of yield annually due to root and stem rot disease caused by Phytophthora sojae. Many strategies have been developed to combat the infection; however, these methods are prohibitively expensive. A ‘cost effective’ approach to this problem is to select a trait naturally found in soybean that can increase resistance. One such trait is the increased production of root glyceollins. One of the key enzymes exclusively involved in glyceollin …
Maternal Control Of Genomic Imprinting: Effects Of Infertility And Ovarian Stimulation In A Mouse Model, Michelle M. Denomme
Maternal Control Of Genomic Imprinting: Effects Of Infertility And Ovarian Stimulation In A Mouse Model, Michelle M. Denomme
Electronic Thesis and Dissertation Repository
Gametogenesis and early embryogenesis are important stages in which genome-wide epigenetic transitions required for early mammalian development are orchestrated. This is exemplified by the occurrence of genomic imprinting, where epigenetic mechanisms lead to the monoallelic expression of a subset of genes. Parental-specific DNA methylation in the gametes results in the distinct nonequivalence of the parental genomes in the early embryo. Changes from normal gamete and embryo development by impaired fertility or assisted reproductive technologies (ARTs) may disrupt the processes of imprint acquisition and imprint maintenance. My hypothesis is that aberrant imprinted methylation arises from impaired maternal fertility or ovarian stimulation …
Validation Of Predicted Mrna Splicing Mutations Using High-Throughput Transcriptome Data, Coby Viner, Stephanie Dorman, Ben Shirley, Peter Rogan
Validation Of Predicted Mrna Splicing Mutations Using High-Throughput Transcriptome Data, Coby Viner, Stephanie Dorman, Ben Shirley, Peter Rogan
Biochemistry Publications
Interpretation of variants present in complete genomes or exomes reveals numerous sequence changes, only a fraction of which are likely to be pathogenic. Mutations have been traditionally inferred from allele frequencies and inheritance patterns in such data. Variants predicted to alter mRNA splicing can be validated by manual inspection of transcriptome sequencing data, however this approach is intractable for large datasets. These abnormal mRNA splicing patterns are characterized by reads demonstrating either exon skipping, cryptic splice site use, and high levels of intron inclusion, or combinations of these properties. We present, Veridical, an in silico method for the automatic validation …
Characterizing The Human Vaginal Microbiome Using High-Throughput Sequencing, Jean Megan E. Macklaim
Characterizing The Human Vaginal Microbiome Using High-Throughput Sequencing, Jean Megan E. Macklaim
Electronic Thesis and Dissertation Repository
The human vaginal microbiome undoubtedly has a significant role in reproductive health and for protection from infectious organisms. Recent efforts to characterize the bacterial species of the vagina using molecular techniques have uncovered an unexpected diversity. Using high-throughput sequencing I sought to describe the structure and function of the vaginal microbiome under different physiological states including healthy, bacterial vaginosis (BV), post-menopausal vaginal atrophy, and acute vulvovaginal candidiasis (VVC).
Partial 16S rRNA gene sequencing revealed that healthy, asymptomatic women most often have vaginal biotas dominated by Lactobacillus iners or L. crispatus. In contrast, BV is a heterogeneous, highly diversified condition …
Insights Into The Function Of The Fatc Domain Of Saccharomyces Cervisiae Tra1 Via Mutation And Suppressor Analysis, Samantha A. Pillon
Insights Into The Function Of The Fatc Domain Of Saccharomyces Cervisiae Tra1 Via Mutation And Suppressor Analysis, Samantha A. Pillon
Electronic Thesis and Dissertation Repository
The regulation of transcription is an important cellular function because it is the first step in gene regulation. In Saccharomyces cerevisiae, two protein complexes, SAGA and NuA4, act as regulators of transcription. A common protein shared between these two complexes, called Tra1, regulates transcriptional activation through its interaction with gene specific transcriptional activators. Tra1 is a member of the PIKK family of proteins, which are characterized by FAT, PI3K and FATC domains. The FATC domain encompasses the terminal 33-35 residues of the protein. Two mutations within the FATC domain, tra1-L3733A and tra1-F3744A, result in slow growth under stress …
Genetic Approaches To Studying Complex Human Disease, Joseph B. Dube
Genetic Approaches To Studying Complex Human Disease, Joseph B. Dube
Electronic Thesis and Dissertation Repository
Common, complex diseases such as cardiovascular disease (CVD) represent an intricate interaction between environmental and genetic factors and now account for the leading causes of mortality in western society. By investigating the genetic component of complex disease etiology, we have gained a better understanding of the biological pathways underlying complex disease and the heterogeneity of complex disease risk. However, the development of high throughput genomic technologies and large well-phenotyped multi-ethnic cohorts has opened the door towards more in-depth and trans-disciplinary approaches to studying the genetics of complex disease pathogenesis. Accordingly, we sought to investigate select complex traits and diseases using …
Cellular Adaptation Of Macrophages To Anthrax Lethal Toxin-Induced Pyroptosis Via Epigenetic Mechanisms, Chae Young Han
Cellular Adaptation Of Macrophages To Anthrax Lethal Toxin-Induced Pyroptosis Via Epigenetic Mechanisms, Chae Young Han
Electronic Thesis and Dissertation Repository
Cellular adaptation to microbial stresses has been demonstrated in several cell types. Macrophages (MФ) are sentinel immune cells fending off invading microbes. Anthrax lethal toxin (LeTx) is a key virulence factor released by Bacillus anthracis that causes rapid cell death, pyroptosis. A small number of RAW246.7 macrophages (~4%) exposed to a non-lethal dose of LeTx become resistant to LeTx-induced pyroptosis for ~ 4 weeks, termed “toxin-induced resistance (TIR)”. Here, I showed that high levels of DNA methyl transferase1 (DNMT1) expression were maintained although global genomic methylation levels were not high in TIR. TIR cells treated with the DNMT inhibitor 5-azacitidine …
Functional Genomic Investigation Of Aromatic Aminotransferases Involved In Ephedrine Alkaloid Biosynthesis In Ephedra Sinica (Stapf), Korey G. Kilpatrick
Functional Genomic Investigation Of Aromatic Aminotransferases Involved In Ephedrine Alkaloid Biosynthesis In Ephedra Sinica (Stapf), Korey G. Kilpatrick
Electronic Thesis and Dissertation Repository
Ephedra sinica (Ephedraceae) is a broom-like shrub cultivated in arid regions of China, Korea and Japan. This medicinal plant accumulates large amounts of the ephedrine alkaloids, including (S)-cathinone, (1R,2S)-norephedrine, (1R,2S)-ephedrine and (1S,2S)-pseudoephedrine in its aerial tissues. These analogues of amphetamine mimic adrenaline and stimulate the sympathetic nervous system. While much is known about their pharmacological properties, the biological mechanisms by which they are synthesized remains largely unknown. A functional genomics platform was established in order to investigate alkaloid biosynthesis. RNA was extracted from Ephedra sinica stems …
Ab Initio Exon Definition Using An Information Theory-Based Approach, Peter K. Rogan
Ab Initio Exon Definition Using An Information Theory-Based Approach, Peter K. Rogan
Biochemistry Publications
Transcribed exons in genes are joined together at donor and acceptor splice sites precisely and efficiently to generate mRNAs capa ble of being translated into proteins. The sequence variability in individual splice sites can be modeled using Shannon information theory. In the laboratory, the degree of individual splice site use is inferred from the structures of mRNAs and their relative abundance. These structures can be predicted using a bipartite information theory framework that is guided by current knowledge of biological mechanisms for exon recognition. We present the results of this analysis for the complete dataset of all expressed human exons.