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Growth and Behaviour : Epigenetic and Genetic Factors Involved in Hybrid DysgenesisShi, Wei January 2005 (has links)
In mammals, the most frequently observed hybrid dysgenesis effects are growth disturbances and male sterility. Profound defects in placental development have been described and our work on hybrids in genus Mus has demonstrated putative hybrid dysgenesis effects that lead to defects in lipid homeostasis and maternal behavior. Interestingly, mammalian interspecies hybrids exhibit strong parent-of-origin effects in that offspring of reciprocal matings, even though genetically identical, frequently exhibit reciprocal phenotypes. Recent studies have provided strong link between epigenetic regulation and growth, behavior and placental development. Widespread disruption of genomic imprinting has been described in hybrids between closely related species of the genus Peromyscus. The studies presented in this thesis aim to investigate the effects of disrupted epigenetics states on altered growth, female infanticide and placental dysplasia observed in Mus hybrids. We showed that loss-of-imprinting (LOI) of a paternally expressed gene, Peg1, was correlated with increased body weight of F1 hybrids. Furthermore, we investigated whether LOI of Peg1 in F1 females would interfere with maternal behavior. A subset of F1 females indeed exhibited highly abnormal maternal behavior in that they rapidly attacked and killed the pups. By microarray hybridization, a large number of differentially expressed genes in the infanticidal females as compared to normally behaving females were identified. In addtion to Peg1 LOI, we studied allelic expression of numerous imprinted genes in adult Mus interspecies hybrids. In contrast to the study from Peromyscus, patterns of LOI were not consistent with a direct influence of altered expression levels of imprinted genes on growth. Finally, we investigated the allelic interaction between an X-linked locus and a paternally expressed gene, Peg3, in placental defects in Mus hybrids. This study further strengthened the notion that divergent genetic and epigenetic mechanisms may be involved in hybrid dysgenesis in diverse groups of mammals.
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Epigenetic Regulation and Reprogramming of the H19 Imprinting Control RegionMariano, Piero January 2006 (has links)
The development of a new individual from the fertilized oocyte can ultimately be seen as the consequence of the establishment and maintenance of specific patterns of gene expression. Although regulation of gene activity occurs at different levels, cellular specialization and differentiation are the results of developmental cues that essentially take place at the transcriptional level. The involvement of epigenetics in this process has become increasingly clear during the last decade. Imprinted genes constitute an excellent example as monoallelic expression seems to reflect differential epigenetic marks on the two alleles. This is the case of the imprinted H19 and Igf2 genes were the monoallelic expression is coordinated through a differentially methylated region (hypermethylated on the paternal allele), known as ICR (imprinted control region). In the mouse the ICR harbours four binding sites for the methylation sensitive insulator protein CTCF. Previous studies with episomal constructs had shown that this region behaved as an insulator and that CTCF is required for the insulator activity of the H19 ICR This thesis establish a clear link between the insulator function and the chromatin structure at the H19 ICR and indicates that the precise allocation of the CTCF target sites in the linker regions can play a critical role in this process. The importance of the CTCF interaction at the ICR was also confirmed in vivo using a mouse model that showed how intact CTCF target sites are needed to manifest insulator activity and methylation protection. We have investigated the role of CTCF and a related protein BORIS in establishing the maternal to paternal imprint transition in chromatin structure at the H19/Igf2 locus in the male germline. This thesis also describe the development of a new technique for the localization of chromatin associated factors and modifications with higher sensitivity and resolution compared to existing approaches.
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Epigenetic Regulation of Genomic Imprinting and Higher Order Chromatin Conformation / Epigenetisk reglering av genetisk prägling och kromatinets konformationTavoosidana, Gholamreza January 2006 (has links)
The genetic information encoded by the DNA sequence, can be expressed in different ways. Genomic imprinting is an epigenetic phenomenon that results in monoallelic expression of imprinted genes in a parent of origin-dependent manner. Imprinted genes are frequently found in clusters and can share common regulatory elements. Most of the imprinted genes are regulated by Imprinting Control Regions (ICRs). H19/Igf2 region is a well known imprinted cluster, which is regulated by insulator function of ICR located upstream of the H19 gene. It has been proposed that the epigenetic control of the insulator function of H19 ICR involves organization of higher order chromatin interactions. In this study we have investigated the role of post-translational modification in regulating insulator protein CTCF (CCCTC-binding factor). The results indicated novel links between poly(ADP-ribosyl)ation and CTCF, which are essential for regulating insulators function. We also studied the higher order chromatin conformation of Igf2/H19 region. The results indicated there are different chromatin structures on the parental alleles. We identified CTCF-dependent loop on the maternal allele which is different from the paternal chromatin and is essential for proper imprinting of Igf2 and H19 genes. The interaction of H19 ICR with Differentially Methylated Regions (DMRs) of Igf2 in a parent-specific manner maintains differential epigenetic marks on maternal and paternal alleles. The results indicate that CTCF occupies specific sites on highly condensed mitotic chromosomes. CTCF-dependent long-range key interaction on the maternal allele is maintained during mitosis, suggesting the possible epigenetic memory of dividing cells. In this study, we developed a new method called Circular Chromosome Conformation Capture (4C) to screen genome-wide interactions with H19 ICR. The results indicated there are wide intra- and inter-chromosomal interactions which are mostly dependent on CTCF-binding site at H19 ICR. These observations suggest new aspects of epigenetic regulation of the H19/Igf2 imprinted region and higher order chromatin structure.
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Long Noncoding RNA Mediated Regulation of Imprinted GenesMohammad, Faizaan January 2010 (has links)
Genomic imprinting is an epigenetic phenomenon that causes a subset of mammalian genes to be expressed from only one allele in a parent-of-origin manner. The defects in the imprinting regulation result in disorders that affect development, growth and metabolism. We have used the Kcnq1 imprinted cluster as a model to understand the mechanism of imprinted gene regulation. The imprinting at the Kcnq1 locus is regulated by a long noncoding RNA, Kcnq1ot1, whose transcription on the paternal chromosome is associated with the silencing of at least eight neighboring genes. By destabilizing Kcnq1ot1 in an episomal system, we have conclusively shown that it is the RNA and not the process of transcription that is required for the gene silencing in cis. Kcnq1ot1 RNA interacts with the chromatin modifying enzymes such as G9a and Ezh2 and recruits them to imprinted genes to establish repressive chromatin compartment and gene silencing. Using the episomal system, we have identified an 890 bp silencing domain (SD) at the 5’ end of Kcnq1ot1 RNA, which is required for silencing of neighboring reporter genes. The deletion of the SD in the mouse resulted in the relaxation of imprinting of ubiquitously imprinted genes (Cdkn1c, Kcnq1, Slc22a18, and Phlda2) as well as reduced DNA methylation over the somatic DMRs associated with the ubiquitously imprinted genes. Moreover, Kcnq1ot1 RNA interacts with Dnmt1 and recruits to the somatic DMRs and this recruitment was significantly affected in the SD mutant mice. By using a transgenic mouse, we have conditionally deleted Kcnq1ot1 promoter at different developmental stages and demonstrated that Kcnq1ot1 maintains imprinting of the ubiquitously imprinted genes by regulating DNA methylation over the somatic DMRs. Kcnq1ot1 is dispensable for the maintenance of repressive histone marks and the imprinting of placental-specific imprinted genes (Tssc4 and Osbpl5). In conclusion, we have described the mechanisms by which Kcnq1ot1 RNA establishes and maintains expression of multiple imprinted genes in cis.
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Disruption of Epigenetic Regulatory Elements and Chromosomal Alterations in Patients with Beckwith-Wiedemann SyndromeSmith, Adam Campbell 03 March 2010 (has links)
Genomic imprinting refers to the parent-of-origin specific monoallelic expression of a gene. Imprinted genes are often clustered in the genome and their expression is regulated by an imprinting centre (IC). ICs are regions of DNA that propagate the parental specific regulation of gene expression, which are usually characterized by differential DNA methylation, histone marks and the presence of non-coding RNAs. Beckwith-Wiedemann syndrome (BWS) is an overgrowth syndrome associated with the dysregulation of imprinted gene expression on human
chromosome band 11p15.5. The 11p15.5 imprinted region has two imprinting centres, IC1 and IC2. IC1 is telomeric and regulates the imprinted expression of the genes H19 and IGF2. IC2 is ~700kb centromeric and is associated with a cluster of nine imprinted genes including CDKN1C, KCNQ1 and an imprinted non-coding RNA associated with IC2, KCNQ1OT1. Loss of differential DNA methylation at IC2 is seen in 50% of patients with BWS with loss of
imprint of the non-coding RNA KCNQ1OT1 and associated with a decreased expression of the
putative tumour suppressor CDKN1C. Patients with BWS also have a thousand-fold increased
risk of pediatric cancer. The focus of this thesis involves investigation of dysregulation of
imprinting in three groups of BWS patients. Firstly, I show that BWS patients with alveolar
rhabdomyosarcoma have constitutional loss of methylation at IC2 and biallelic expression of
KCNQ1OT1. Secondly, loss of methylation at IC2 has been previously associated with female
monozygotic twins discordant for BWS. In male monozygotic twins with BWS, however, the
molecular lesions reflect the molecular heterogeneity seen in BWS singletons. Thirdly, BWS
patients associated with translocations and inversions that have breakpoints within the KCNQ1
gene near IC2 show regional gain of DNA methylation around the breakpoint and decreased
expression of CDKN1C. Therefore, using a rare collection of BWS patients, I have attempted to
determine the various roles of the imprinting centres IC1 and IC2 and their involvement in
tumourigenesis, monozygotic twinning and structural chromosomal rearrangements causing
BWS.
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Disruption of Epigenetic Regulatory Elements and Chromosomal Alterations in Patients with Beckwith-Wiedemann SyndromeSmith, Adam Campbell 03 March 2010 (has links)
Genomic imprinting refers to the parent-of-origin specific monoallelic expression of a gene. Imprinted genes are often clustered in the genome and their expression is regulated by an imprinting centre (IC). ICs are regions of DNA that propagate the parental specific regulation of gene expression, which are usually characterized by differential DNA methylation, histone marks and the presence of non-coding RNAs. Beckwith-Wiedemann syndrome (BWS) is an overgrowth syndrome associated with the dysregulation of imprinted gene expression on human
chromosome band 11p15.5. The 11p15.5 imprinted region has two imprinting centres, IC1 and IC2. IC1 is telomeric and regulates the imprinted expression of the genes H19 and IGF2. IC2 is ~700kb centromeric and is associated with a cluster of nine imprinted genes including CDKN1C, KCNQ1 and an imprinted non-coding RNA associated with IC2, KCNQ1OT1. Loss of differential DNA methylation at IC2 is seen in 50% of patients with BWS with loss of
imprint of the non-coding RNA KCNQ1OT1 and associated with a decreased expression of the
putative tumour suppressor CDKN1C. Patients with BWS also have a thousand-fold increased
risk of pediatric cancer. The focus of this thesis involves investigation of dysregulation of
imprinting in three groups of BWS patients. Firstly, I show that BWS patients with alveolar
rhabdomyosarcoma have constitutional loss of methylation at IC2 and biallelic expression of
KCNQ1OT1. Secondly, loss of methylation at IC2 has been previously associated with female
monozygotic twins discordant for BWS. In male monozygotic twins with BWS, however, the
molecular lesions reflect the molecular heterogeneity seen in BWS singletons. Thirdly, BWS
patients associated with translocations and inversions that have breakpoints within the KCNQ1
gene near IC2 show regional gain of DNA methylation around the breakpoint and decreased
expression of CDKN1C. Therefore, using a rare collection of BWS patients, I have attempted to
determine the various roles of the imprinting centres IC1 and IC2 and their involvement in
tumourigenesis, monozygotic twinning and structural chromosomal rearrangements causing
BWS.
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Characterizations of spatio-temporal complex systemsKrishan, Kapilanjan 20 May 2005 (has links)
The thesis develops two characterizations of spatio-temporal complex patterns. While these are developed for the patterns of fluid flow in experiments on Rayleigh-Benard Convection(RBC), they are adaptable to a wide range of spatially extended systems. The characterizations may be especially useful in cases where one does not have good models describing the dynamics, making numerical and analytic studies difficult.
In Spiral Defect Chaos(SDC), a weakly turbulent regime of RBC, the convective rolls exhibit complex spatial and temporal dynamics. We study the dynamics of SDC through local defect formations between convective rolls as well as the topological rearrangements of these rolls at a global scale.
A laser based thermal actuation system is developed to reproducibly impose initial states for the fluid flow and construct ensembles of trajectories in the neighborhood of defect nucleation. This is used to extract the modes and their growth rates, characterizing the linear manifold corresponding to defect nucleation. The linear manifold corresponding to instabilities resulting in defect formation is key to building efficient schemes to control the dynamics exhibited.
We also develop the use of computational homology as a tool to study spatially extended dynamical systems. A quantitative measure of the topological features of patterns is shown to provide insights into the underlying dynamics not easily uncovered otherwise. In the case of RBC, the homology of the patterns is seen to indicate asymmetries between hot and cold regions of the flow, stochastic evolution at a global scale as well as bifurcations occurring well into the turbulent regime of the flow.
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Novel Polymer-Metal Nanocomposites for Applications in Detection and SensingChaparro, Dayling L. 11 April 2007 (has links)
Detection of trace elements such as organic contaminants, explosive residues, and
metal ions is an intellectually challenging task in science and engineering. It is also a
topic of increasing importance due to its impact on society and the environment.
Designing molecularly imprinted materials is one of the most promising approaches to
explore sensing and detection applications. “Stimuli-sensitive” polymer materials are
ideal candidates for these imprinted sensors as they are able to respond to changes in their
environment and can be tailored by cross-linking the polymer chains. The responses can
be amplified and transduced into measurable signals due to macromolecular properties
provided by the use of a polymer. The purpose of the research in this project is to
combine organic polymers with inorganic constituents to tailor the binding properties and
the responses of the composite material for detection of metals ions in aqueous solutions.
The research, here, is based on a thermally responsive polymer such as poly(Nisopropylacrylamide)
(PNIPAM), which exhibits a well-known reversible volume phase
transition in aqueous media around approximately 32°C. Combining cross-linked
microgels formed from PNIPAM and its copolymers with gold nanoparticles (GNP)
imparts the composite material with optical properties such as intense visible absorption
due to the unique surface plasmon absorption of these small nanoparticles. The use of
copolymers allows incorporation of functional groups, such as carboxylic acid, that are
potential sites for binding metal ions. Cross-linking of the metal ion binding polymer
imprints the metal ion in the PNIPAM microgel network.
In
this research, design of the composite material was investigated using
copolymers of NIPAM and acrylic acid (AA), copolymers of NIPAM and glycidyl
methacrylate (GMA), and interpenetrating networks of PNIPAM and PAA. A broad
spectrum of polymerization conditions were studied such as changes in cross-linking
density as well as changes in the synthetic procedure. Techniques such as turbidometry,
ultraviolet visible spectroscopy (UV-VIS), transmission electron microscopy (TEM), and
dynamic light scattering (DLS) were employed to characterize the microgels as well as
their composites with GNP. Preliminary investigation of imprinting the microgels with
heavy metal ions such as copper was also performed. The novel polymer-metal
nanocomposites explored here will serve as an important contribution for the current
ongoing research efforts in designing materials in the nano-scale capable of sensing and
detecting metal ions in solution with high selectivity.
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Automatic solid-phase synthesis of molecularly imprinted nanoparticles (MIP NPs)Poma, Alessandro January 2012 (has links)
Molecularly Imprinted Polymers (MIPs) are potential generic alternatives to antibodies in diagnostics and separations. To compete with biomolecules in these technological niches, MIPs need to share the characteristics of antibodies (solubility, size, specificity and affinity) whilst maintaining the advantages of MIPs (low cost, short development time and high stability). For this reason the interest in preparing MIPs as nanoparticles (MIP NPs) has increased exponentially in the last decade. Cont/d.
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The role of sexual imprinting in speciation: lessons from deer mice (genus Peromyscus)Kay, Emily Ho 21 October 2014 (has links)
Sexual imprinting, the process of learning mate preferences at a young age, could promote speciation by reducing attraction to individuals from divergent populations or species, consequently creating or maintaining reproductive isolation. Yet, despite the documentation of sexual imprinting in many taxa, its connection to speciation has been understudied. I chose to explore the potential link between sexual imprinting and reproductive isolation and in two North American rodents--the white-footed mouse (Peromyscus leucopus) and its sister species, the cotton mouse (Peromyscus gossypinus). These species have overlapping distributions in nature, possibly allowing interbreeding and admixture. In Chapter 1, I used double-digest restriction-associated DNA sequencing to test for hybridization in sympatric natural populations and found that 1.5% of sampled individuals showed evidence of admixture yet the species have maintained genetic distinctness in sympatry. In the lab, the species hybridize when given no choice of mates but mate more readily with conspecifics, suggesting that mating preferences may prevent hybridization in the wild. In Chapter 2, I tested whether mating preferences create significant reproductive isolation. I measured mating preferences in controlled laboratory conditions and found that both species and sexes preferred conspecific to heterospecific mates in 85% of trials. I then raised offspring with foster parents of the opposite species and found that P. leucopus has a genetically-determined preference while P. gossypinus learns its preference. In Chapter 3, I tested whether sexual imprinting on parental diet could generate assortative mating within a species. I tested this hypothesis by feeding P. gossypinus parents either orange- or garlic-flavored water, thereby exposing their offspring to these flavors through their parents until weaning. I tested the preferences of these offspring as adults and found that P. gossypinus, especially females, had strong assortative mating preferences. This implies that at least females learn parental dietary information and that assortative mating could evolve within a single generation. Together, my results confirm that sexual imprinting on parental traits--possibly mediated through dietary differences--can create assortative mating capable of generating sexual isolation and reducing gene flow between species. My research supports the importance of mating preferences and learning in speciation.
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