Global ETD Search

591	Cytological maps of lampbrush chromosomes of European water frogs (Pelophylax esculentus complex) from the Eastern Ukraine Dedukh, Dmitry, Mazepa, Glib, Shabanov, Dmitry, Rosanov, Juriy, Litvinchuk, Spartak, Borkin, Leo, Saifitdinova, Alsu, Krasikova, Alla January 2013 (has links) Background: Hybridogenesis (hemiclonal inheritance) is a kind of clonal reproduction in which hybrids between parental species are reproduced by crossing with one of the parental species. European water frogs (Pelophylax esculentus complex) represent an appropriate model for studying interspecies hybridization, processes of hemiclonal inheritance and polyploidization. P. esculentus complex consists of two parental species, P. ridibundus (the lake frog) and P. lessonae (the pool frog), and their hybridogenetic hybrid - P. esculentus (the edible frog). Parental and hybrid frogs can reproduce syntopically and form hemiclonal population systems. For studying mechanisms underlying the maintenance of water frog population systems it is required to characterize the karyotypes transmitted in gametes of parental and different hybrid animals of both sexes. Results: In order to obtain an instrument for characterization of oocyte karyotypes in hybrid female frogs, we constructed cytological maps of lampbrush chromosomes from oocytes of both parental species originating in Eastern Ukraine. We further identified certain molecular components of chromosomal marker structures and mapped coilin-rich spheres and granules, chromosome associated nucleoli and special loops accumulating splicing factors. We recorded the dissimilarities between P. ridibundus and P. lessonae lampbrush chromosomes in the length of orthologous chromosomes, number and location of marker structures and interstitial (TTAGGG)(n)-repeat sites as well as activity of nucleolus organizer. Satellite repeat RrS1 was mapped in centromere regions of lampbrush chromosomes of the both species. Additionally, we discovered transcripts of RrS1 repeat in oocytes of P. ridibundus and P. lessonae. Moreover, G-rich transcripts of telomere repeat were revealed in association with terminal regions of P. ridibundus and P. lessonae lampbrush chromosomes. Conclusions: The constructed cytological maps of lampbrush chromosomes of P. ridibundus and P. lessonae provide basis to define the type of genome transmitted within individual oocytes of P. esculentus females with different ploidy and from various population systems. Centromere Chromosome European water frog Hybridization Karyotype Non-coding RNA Nuclear body Oocyte Telomere
592	Deciphering the Role of Aft1p in Chromosome Stability Hamza, Akil 25 January 2012 (has links) The Saccharomyces cerevisiae iron-responsive transcription factor, Aft1p, has a well established role in regulating iron homeostasis through the transcriptional induction of iron-regulon genes. However, recent studies have implicated Aft1p in other cellular processes independent of iron-regulation such as chromosome stability. In addition, chromosome spreads and two-hybrid data suggest that Aft1p interacts with and co-localizes with kinetochore proteins, however the cellular implications of this have not been established. Here, we demonstrate that Aft1p associates with the kinetochore complex through Iml3p. Furthermore, we show that Aft1p, like Iml3p, is required for the increased association of cohesin with the pericentromere and that aft1Δ cells display sister chromatid cohesion defects in both mitosis and meiosis. Our work defines a new role for Aft1p in the sister chromatid cohesion pathway. Aft1 Iml3 kinetochore cohesion cohesin centromere chromosome stability Ctf19 Chl4 Scc1 mitosis meiosis Rec8 budding yeast
593	Etude du réseau transcriptionnel du gène Xist, acteur principal de l'inactivation du chromosome X Oldfield, Andrew 13 September 2010 (has links) (PDF) L'inactivation du chromosome X est la réponse trouvée par l'évolution pour pallier à la divergence gonosomique entre mâle (XY) et femelle (XX). Ce phénomène sert donc à mettre les deux sexes sur un pied d'égalité en limitant la quantité de transcrits provenant des chromosomes X présents dans les cellules femelles. Au cours de mon doctorat, j'ai tenté de contribuer à l'étude des mécanismes de régulation transcriptionnelle, notamment l'activation, des deux acteurs principaux de l'inactivation: Xist et Tsix, son transcrit antisens. Pendant ces 4 anne��es, j'ai entrepris de cartographier le profil de fixation de plusieurs protéines le long du locus Xist/Tsix, dans le but de comprendre les mécanismes permettant une surexpression de Xist lors de la disparition de ses facteurs répressifs en cours de différenciation. J'ai donc pu établir un modèle de régulation transcriptionnelle de l'ARN non-codant Xist, impliquant plusieurs protéines connues pour leur rôle dans la régulation transcriptionnelle (CTCF et YY1) aussi bien que dans la formation de structures tridimensionnelles (la cohésine). La pertinence de ce modèle est renforcée par nos études montrant que de nombreux aspects de ce modèle sont conservés à travers l'évolution (notamment chez l'homme). J'ai également pu contribuer à la découverte de nouveaux activateurs de Tsix, certains facteurs de pluripotence se fixant au minisatellite DxPas34 afin de réguler l'élongation de la transcription de l'antisens. Ces résultats apportent donc d'importantes informations concernant les mécanismes régulant la mise en place du phénomène d'inactivation du chromosome X au cours du développement précoce de l'embryon. Inactivation du chromosome X épigénétique régulation transcriptionnelle structure tridimensionnelle ARN non-codant
594	Chromosome number and phylogenetic relationships in selected species of North American diaptomus (Copepoda, Calanoida) Kiley, Ann L. 03 June 2011 (has links) The chromosome numbers of the eight following species of freshwater diaptomid copepods were examined to elucidate relationships between species: Aglaodiaptomus clavipes, A. leptoups, Leptodiaptomus ashlandi, A. minutus, A. sicilis, A. siciloides, Skistodiaptomus oregonensis, and S. pallidus. The specimens evaluates were collected from various lakes in Wisconsin including Lake Michigan. Squash mounts were prepared from female individuals for microscopic evaluation. Comparisons of chromosome numbers and chromosome morphology indicated that the species considered are not as closely related as might be suspected based on external morphological considerations. The chromosome numbers varied greatly between species and no consistant numbers within subgenera were observed, substantiating the idea that the species are clearly well separated phylogenetically. A technique for preparing chromosome squash mounts from formalin preserved specimens in presented.Ball State UniversityMuncie, IN 47306 Copepoda -- North America. Chromosome numbers. Cladistic analysis. Ball State University. Thesis (M.S.)
595	Deciphering the Role of Aft1p in Chromosome Stability Hamza, Akil 25 January 2012 (has links) The Saccharomyces cerevisiae iron-responsive transcription factor, Aft1p, has a well established role in regulating iron homeostasis through the transcriptional induction of iron-regulon genes. However, recent studies have implicated Aft1p in other cellular processes independent of iron-regulation such as chromosome stability. In addition, chromosome spreads and two-hybrid data suggest that Aft1p interacts with and co-localizes with kinetochore proteins, however the cellular implications of this have not been established. Here, we demonstrate that Aft1p associates with the kinetochore complex through Iml3p. Furthermore, we show that Aft1p, like Iml3p, is required for the increased association of cohesin with the pericentromere and that aft1Δ cells display sister chromatid cohesion defects in both mitosis and meiosis. Our work defines a new role for Aft1p in the sister chromatid cohesion pathway. Aft1 Iml3 kinetochore cohesion cohesin centromere chromosome stability Ctf19 Chl4 Scc1 mitosis meiosis Rec8 budding yeast
596	Elementos estructurales de la cromatina en los cromosomas mitóticos Caravaca Guasch, Juan Manuel 16 September 2004 (has links) Nuestro grupo ha estudiado la estructura de la cromatina de núcleos de eritrocitos de pollo (Bartolomé et al., 1994; Bartolomé et al., 1995; Bermúdez et al., 1998). La consecuencia de estos estudios ha sido la elaboración de un modelo para el plegamiento de la fibra de cromatina con una elevada concentración local del DNA (Daban y Bermúdez, 1998; Daban, 2000). Sin embargo, el nivel máximo de condensación en la cromatina, se encuentra en el interior de los cromosomas metafásicos. Aunque la bibliografía ha planteado diferentes modelos para el plegamiento de la cromatina en el interior de éstos, existe un conocimiento muy escaso acerca de la estructura molecular de la cromatina en los cromosomas condensados.Se ha realizado un estudio exhaustivo de microscopía electrónica de transmisión sobre la estructura de los cromosomas metafásicos de células HeLa. Se han estudiado un total de 4410 micrografías de cromosomas metafásicos, que en su mayor parte han sido tratados con diversos medios parcialmente desnaturalizantes, para poder analizar su estructura interna.Morfológicamente, los cromosomas estudiados en este trabajo pueden agruparse en tres tipos diferentes: compactos, granulados y fibrilados. La morfología más abundante es la compacta y se observa en presencia de cationes monovalentes y divalentes a concentración similar a la presente en la cromatina metafásica (Mg2+ 1.7-40 mM). Estos cromosomas tienen las cromátidas muy densas y en sus bordes se aprecian una serie de estructuras planas superpuestas. En condiciones de menor concentración de cationes (Mg2+£ 1.7 mM), la morfología dominante es la granular. Estos cromosomas están compuestos principalmente por gran cantidad de cuerpos circulares de 30-40 nm de diámetro. Únicamente en condiciones de fuerza iónica extremadamente baja podemos encontrar la morfología fibrilar, la cual se caracteriza por la abundancia de fibras de 30-40 nm.Los resultados obtenidos con cromosomas parcialmente desnaturalizados nos permiten concluir que existen tres elementos estructurales en el interior de los cromosomas metafásicos: la fibra, el gránulo y la placa.Las fibras gruesas con diámetros que oscilan entre los 100 y los 500 nm son el resultado de la deformación plástica de las cromátidas durante los diferentes procesos de preparación de las muestras. En función de las condiciones iónicas del medio las fibras gruesas muestran gránulos o placas en su interior. Las fibras delgadas están formadas por una sucesión de cuerpos de 30-40 nm de diámetro unidos irregularmente mediante interacciones cabeza-cola. Las fibras delgadas se observan dominantemente en condiciones de concentración salina extremadamente baja.Los gránulos son unos cuerpos circulares compactos de unos 30-40 nm de diámetro. Estos cuerpos compactos descritos previamente por nuestro grupo y se interpretaron como una forma de plegamiento solenoidal de la fibra de 30 nm (Daban y Bermúdez, 1998). Se encuentran presentes en todas las condiciones estudiadas en este trabajo, siendo especialmente abundantes en presencia de iones divalentes a concentración baja y en muestras tratadas con nucleasa micrococal. La placa es un elemento estructural característico de los cromosomas cuando éstos se encuentran en su forma más compacta, en presencia de concentraciones elevadas de cationes divalentes. Esta estructura no había sido descrita previamente por otros laboratorios. Es una estructura cromatínica de gran regularidad y con una superficie muy lisa. Hemos estimado la altura de estas placas a través de muestras sombreadas unidireccionalemente con platino. El promedio de los valores obtenidos es de 6.7 ± 1.4 nm.En conjunto los resultados obtenidos en esta tesis permiten sugerir que el componente principal de la cromatina en los cromosomas metafásicos es el gránulo de 30-40 nm. Dependiendo de las condiciones iónicas, este elemento estructural fundamental se agrega a través de uniones cabeza-cola para formar fibras (fuerza iónica muy baja), o bien se agrega mediante interacciones laterales para formar placas (condiciones salinas próximas a las de la cromatina metafásica). / Our group has studied the chromatin structure in the chicken erythrocyte nuclei (Bartolome et al., 1994; Bartolomé et al., 1995; Bermúdez et al., 1998). The consequences of this studies has been the elaboration of a folding model of the chromatin fiber with a high local concentration of DNA. However, the maximum level of chromatin condensation, is found in the metaphase chromosomes. Although the bibliography has proposed different models to explain the chromatin folding inside the chromosomes, there is a low knowledge about the molecular structure of chromatin in the condensed chromosomes. In this thesis, we have carried out an exhaustive electron microscopy study about the HeLa cells metaphase chromosomes. We have studied a large number of chromosome electron micrographs (4410). Chromosomes were partially denaturated under a wide variety of conditions in order to observe some chromatin structural element inside them.Our studies indicate that chromosomes can adopt three global structural forms in function of the ionic conditions: compact, granular and fibrillar.The compact form is the most frequent and we can observe it in the presence of monovalent and divalent cations in similar concentrations than the ones found in metaphase chromatin (Mg2+ 1.7-40 mM). These chromosomes have highly condensed chromatids and we can appreciate overlapped chromatin plates around the chromosomes edges. When the chromosomes are incubated with solutions containing lower cations concentration (Mg 2+£ 1.7 mM) they become granular. The granular structures seen inside these chromosomes show a diameter of about 35 nm. Fibrillar chromosomes are observed only at very low ionic strength. The fibers seen emanating from the chromatids have a diameter of 30-40 nm.Our results obtained from partially denaturated chromosomes show that there are three structural elements inside the metaphase chromosomes: the fiber, the 30-40 nm chromatin granule and the plate.The largest fibers with a diameter of 100-400 nm, presumably are produced by mechanical deformation of chromosomes during the preparation processes. Depending of the ionic conditions these fibrillar structures are composed by plates or granules. The thinnest fibers are formed by face to face association of the 30-40 nm chromatin granules. These kind of fibers are usually found only at very low ionic strength.The chromatin granules are compact bodies with 35 nm of diameter. These compact bodies were previously described in our laboratory and were modeled as compact solenoids of nucleosomes forming (Daban and Bermúdez, 1998). They are usually seen at low divalent cation concentrations and in chromosome samples treated with micrococal nuclease.The plate is the most frequent structural element when the chromosomes are in their compact form (high ionic strength, similar to physiological conditions). This element has not been described by any group. It is a chromatin element with a regular structure and very smooth surface. We have estimated the height of the steps between layers in unidirectional shadowing experiments. The value obtained is 6.7 ± 1.4 nm.Our results suggest that the fundamental component inside the metaphase is the 30-40 nm chromatin granules. Depending of the ionic conditions, this basic structural element forms fibers through face to face interactions (very low ionic strength) or form plates through side to side interactions (high ionic strength similar to metaphase chromatin). Chromosome structure High order chromatin structure Chromatin structure Ciències Experimentals 577
597	Frequency changes and equilibria in experimental populations of Drosophila melanogaster with three lethal carrying fourth chromosomes Södergren, Agneta January 1979 (has links) Populations where three different lethals are segregating as alleles have been analysed for the conditions of equilibrium and for the trends during elimination of one allele. Early and late selection as well as sexdependent and sexindependent selection has been taken into consideration.Cage populations of Drosophila melanogaster with different fourth chromosome lethals have been followed and compared to the theoretical model. When two marker chromosomes (ciDpol and spaCat) and one out of four recessive lethal chromosomes l(4)5, 1(4)8, 1(4)10 or l(4)14 were used, the same marker chromosome (ciDpol) became extinct in all populations. Early and late selective values which were obtained directly from the populations were compared to estimates of fitness components obtained in specially designed experiments of viability, developmental rate, mating ability and fecundity. When two out of the four recessive lethals and the marker chromosome, spaCat , were combined in new populations, all populations attained equilibrium withôut extinction. A correlation was found between the time of death of the lethal homozygotes and the equilibrium genotype frequencies. Overall selective values at equilibrium were estimated. / digitalisering@umu Drosophila melanogaster cage populations fourth chromosome lethals fitness components equilibrium conditions selective values
598	Symmetric and asymmetric hybridization in citrus spp. Bona, Claudine M. 15 May 2009 (has links) The United States is the second largest producer of oranges and grapefruit. However, the US citrus industry experiences constraints in production due to pests, diseases and environmental concerns. Furthermore, due to the low diversity in current commercial scion cultivars any exotic diseases, if introduced into any of the producing states could be devastating. To maintain the US industry competitiveness it is necessary to improve cold, pest and disease resistance to allow expansion of citrus production areas in the US, and to improve fruit quality characteristics such as sweetness, vitamins and phytochemical contents and seedlessness. Sexual hybridization in most Citrus species is complicated because they are highly apomictic. Polyembryony makes it difficult to create large segregating populations for selection. Somatic hybridization by protoplast fusion circumvents sexual incompatibilities and is a powerful tool in genetic improvement. Symmetric and asymmetric hybdridization (gamma irradiation plus iodoacetamide) via protoplast fusion were performed with the objective of producing somatic hybrids of Citrus paradisi with C. sinensis and C. reticulata with C. sinensis. These hybrids could be used for grapefruit improvement and to create genetic diversity. Furthermore, irradiated Swinglea glutinosa microprotoplasts were fused with ‘Ruby Red’ grapefruit and ‘Mucott’ tangor to assess the possibility of introgression of pieces of S. glutinosa chromosomes into the recipient protoplasts, a possible first step for radiation hybrid mapping. Double-inactivated fusions (irradiation + iodoacetamide) produced tetraploid and aneuploid plants, and hybridity was confirmed by amplified fragment length polymorphism (AFLP) analysis. This is the first report of obtaining rooted Citrus asymmetric hybrid plants, produced by irradiation plus iodoacetamide. AFLP confirmed presence of S. glutinosa into the receptor genomes, showing a possible donor introgression. Citrus somatic hybridization asymmetric hybridization irradiation
599	Telomere Protection and Maintenance in Arabidopsis thaliana Song, Xiangyu 2010 May 1900 (has links) Telomeres are the physical ends of linear chromosomes in eukaryotes. Telomeres not only protect chromosome ends from being recognized as double-strand breaks but also maintain the chromosome terminal sequences. These processes involve a number of telomere-related proteins. A major challenge in the field is to elucidate the full constitution of telomere-associated proteins and to understand how different protein complexes are regulated at chromosome termini. Here, I report the identification and characterization of STN1 (Suppressor of cdc thirteen, 1), CTC1 (Conserved Telomere maintenance Component 1) and TEN1 (Telomeric pathways in association with Stn1, 1) in Arabidopsis. CTC1/STN1/TEN1 (CST) forms a trimeric complex that specifically associates with telomeres. Loss of any component of the CST induces catastrophic telomere loss, disrupted telomere end architecture, and massive chromosome end-to-end fusions. Thus, CST plays an essential role in chromosome end protection. I also show that CST function at telomeres is independent of a previously characterized capping complex KU70/KU80, and that ATR is responsible for a checkpoint response in plants lacking CTC1/STN1. Additionally, I present data showing that Arabidopsis POT1a (Protection Of Telomere 1, a) has evolved as a telomerase recruitment factor. Unlike POT1 in other eukaryotes which binds and protects ss telomeric DNA, AtPOT1a interacts with telomerase RNA (TER). Based on an evolutionary analysis, we found that the POT1a lineage is under positive selection in the Brassicaceae family in which Arabidopsis belongs. Mutations of two positive selection sites significantly reduce POT1a?s activity in vivo. These data suggest POT1a is under pressure to evolve from a telomeric DNA binding protein to a TER binding protein. I also discovered that POT1a interacts with the novel telomere capping protein CTC1 in vitro and in vivo. Thus, I hypothesize that POT1a acts as a telomerase recruitment factor linking this enzyme to the chromosome termini via interacting with TER and CTC1. Finally, I dissected the functional domains of POT1a and demonstrated that both the N-terminus and the C-terminus of POT1a are required for its function in vivo. In summary, my work has uncovered several new and essential telomereassociated proteins that provide new insight into mechanisms of chromosome end protection and maintenance. telomere length telomerase telomere capping chromosome end protection genome stability OB-fold
600	Somatic Sex Determination in D. melanogaster: Insights in the Establishment to Maintenance Transition Gonzalez Rojos, Alejandra Noemi 2012 May 1900 (has links) In Drosophila melanogaster, sex is determined at the preblastoderm stage via an Xchromosome counting mechanism. During this process embryos that carry two X chromosomes begin to develop as females while embryos with one X start the male developmental program. The Xlinked genes involved in sex determination, also called Xsignal elements (XSEs), are: sisterlessA (sisA), sisterlessB (sisB), unpaired (upd), and runt. These genes are responsible for the transcriptional activation of the master regulatory gene Sexlethal (Sxl). Expression of Sxl is initially accomplished only in females through activation of the establishment promoter SxlPe. Later in development, Sxl is transcribed in both sexes through a maintenance promoter, SxlPm, but functional Sxl protein is only produced in female flies. Since Sxl is at the top of the sex determination cascade, understanding its regulation is key to comprehend the process of sex determination. The experiments in this dissertation were designed to better understand two aspects of the sex determination mechanism: How the protein encoded by XSE element sisA interacts with SxlPe, and how the transition from regulation by SxlPe to regulation by SxlPm occurs. The sisA protein (SisA), as part of the bZIP protein family, is thought to bind to its target as a dimer, but a dimerization partner has not yet been found. This work uses knockouts and germline clones to examine interaction between sisA and three SisA partner candidates, atf4, CG16813, and CG16815. Although the evidence described here suggest that none of the three SisA partner candidates genetically interact with Sis, we cannot rule out the possibility of redundancy between the different candidate proteins. This research unravels the timing and regulation of SxlPm expression. I have shown, contrary to previous thought, that expression of SxlPe and SxlPm overlaps for a brief period. Several of the same proteins that are involved in the regulation of SxlPe, including the XSE sisB, also regulate SxlPm. This sex specific regulation leads to a sexually dimorphic pattern of activation and early expression of SxlPm. A common enhancer region was found to regulate SxlPe as well as SxlPm. These results highlight the importance of the transition between SxlPe and SxlPm for the proper establishment of sex determination and have implications for how the sex determination mechanism evolved. Drosophila Sex determination Chromosome counting SisA Sex lethal Establishment SxlPe SxlPm.

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