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181	Utilisation de l'espèce sauvage diploide Gossypium australe F. Muell. pour l'amélioration de l'espèce cultivée tétraploïde G. hirsutum L. par la méthode des lignées monosomiques d'addition Sarr, Djibril 12 September 2008 (has links) Summary : The wild diploïd species Gossypium australe carry interesting agronomic characters such as resistance to wilt fusarium and "delay of the gossypol glands morphogenesis in the seed " that makes it an important source of variability for the genetic improvement of the main cultivated cotton species G. hirsutum. One of the approach to introgress these characters is to isolate and exploit monosomic alien addition lines (MAAL). In order to isolate new MAAL of G. australe in G. hirsutum, the [2(G.hirsutum x G.australe)x G.hirsutum] pentaploid was backcrossed as male parent to G. hirsutum. Among the 253 BC1 derivatives obtained, 106 plants (42%) presented morphological alterations attributed to presence of G. australe chromatin. To define an SSR linkage group for each of the 13 G. australe chromosomes, 42 plants representative of the phenotypic variability observed in the BC1 generation and seven alien addition lines already isolated in our laboratory were analyzed using SSR markers developed from the G. hirsutum species. Out of the 150 SSR markers used, 100 % amplified G. australe DNA and 84 (56 %) generated 89 polymorphic loci. All these loci but two have been assigned, by means of an cluster algorithm, to 13 linkage groups assumed to match up to the 13 chromosomes of the diploid species. On this basis, about 60% of the analyzed plants were multisomic addition lines, 20%, MAAL while 20 % carrying no markers were supposed to be euploid. The newly isolated MAAL appeared to be the same as those already available. Five disomic alien addition plants carrying at least one additional chromosome different from the chromosomes of G. australe previously isolated in a monosomic addition configuration were selfed and the BC1S1 progenies obtained have been analyzed with SSR markers and GISH. Five new MAAL of G. australe in G. hirsutum have thus been isolated. In order to monitor the potentialities of using MAAL for the transfer of genetic material from the additional chromosome to the genetic background, the transmission frequency and integrity of the supernumerary chromosome have been analyzed with SSR markers in the self-progeny of five MAAL. Three of them revealed a transmission frequency significantly lower than the 3:1 expected ratio, one MAAL presented an exclusive preferential transmission of the additional chromosome. In these four MAAL the alien chromosome was transmitted almost unaltered. With the fifth MAAL the alien chromosome was normally transmitted but was altered in half of the plants containing G. australe chromatin. One of the investigated MAAL characterized by its brown fiber produced few plants carrying also white fibers. It has been shown that this mosaicism was due to the loss of the alien supernumerary chromosome. The complete loss of this chromosome seems to be linked to its fragmentation. Résumé : L'espèce diploïde sauvage Gossypium australe possède des caractères agronomiques d'intérêt tels que la résistance au fusarium et le "retard à la morphogenèse des glandes à gossypol" qui en font une importante source de variabilité pour l'amélioration génétique de la principale espèce de cotonnier cultivé G. hirsutum. Une des approches pour l'introgression de ces caractères est la production et l'exploitation de lignées monosomiques d'addition (LMA). Pour isoler les LMA de G. australe sur G. hirsutum, le pentaploïde [2(G.hirsutum x G.australe)x G.hirsutum] a été rétrocroisé comme parent mâle avec l'espèce tétraploïde. Sur les 253 graines obtenues, 106 (42%) ont donné des plantes présentant une morphologie nettement distincte de celle de G. hirsutum. Cette différence a été attribuée à la présence de chromosomes de G. australe. Afin de définir des groupes de liaison pour chacun des chromosomes de G. australe, 42 plantes représentatives de la variabilité phénotypique observée ainsi que 7 lignées d'addition déjà isolées ont été sélectionnées et analysées avec des marqueurs SSR développés sur l'espèce tétraploïde. Tous les 150 marqueurs utilisés ont amplifié l'ADN de G. australe et 84 (56%) ont généré 89 loci polymorphes. Tous ces loci, sauf deux, ont pu être assignés, par classification numérique, à 13 groupes de liaison supposés correspondre aux 13 chromosomes de l'espèce diploïde. Sur cette base, 60% des plantes analysées sont des plurisomiques d'addition; 20%, des LMA tandis que 20 % ne portant aucun marqueur ont été supposées euploïdes. Les nouvelles LMA isolées s'étant révélées être identiques à celles déjà isolées, 5 plantes disomiques d'addition portant au moins un chromosome non-encore isolé à l'état monosomique d'addition ont été autofécondées et leur descendance analysée avec des marqueurs SSR et par la GISH. Cinq nouvelles LMA ont pu ainsi être isolées. Afin d'étudier les potentialités d'utilisation de la méthode des LMA pour le transfert de matériel génétique de l'espèce sauvage vers l'espèce cultivée, la fréquence de transmission et l'intégrité du chromosome surnuméraire, a été analysée avec des marqueurs SSR dans une génération autofécondée de cinq LMA. Trois lignées ont donné un taux de transmission inférieur au ratio attendu de 3:1, chez la quatrième lignée le chromosome surnuméraire a été transmis à toute la descendance. Pour ces quatre lignées le chromosome additionnel a été transmis presque inaltéré. Avec la cinquième lignée, le chromosome additionnel a été transmis suivant le taux attendu mais a été altéré dans la moitié des plantes contenant de la chromatine de G. australe. Une des lignées analysées caractérisée par la couleur brune de ses fibres a produit quelques plantes portant également des fibres blanches. Il a été montré que ce mosaïcisme de la couleur des fibres était dû à la perte du chromosome additionnel. Cette perte semble être liée à une fragmentation du chromosome. Cotton/coton Gossypium/Gossypium SSR marker/marqueur microsatellite
182	Neuropeptide Y Receptors in Human, Guinea pig and Chicken : Cloning, in vitro Pharmacology and in situ Hybridization Holmberg, Sara January 2001 (has links) Neuropeptide Y (NPY) is known to influence a vast number of physiological and behavioral processes such as vasoconstriction, circadian rhythms, feeding, anxiety and memory. Peptides of the NPY family bind to five different cloned G-protein coupled receptor subtypes (Y1, 2, 4-6). The studies compiled in this thesis present inter-species comparisons of sequence similarities, binding properties and expression patterns among receptors of the NPY family. Cloning of Y1 and Y2 receptor subtypes from guinea pigs revealed strong binding profile similarity to the corresponding human receptors. Previously demonstrated atypical binding profiles in the caval vein of guinea pigs were concluded to result from other receptors than the cloned Y1 and Y2 receptors, or possibly combinations of distinct receptor subtypes. The guinea pig Y5 receptor was found to be expressed in regions of the brain that have been indicated as important for regulation of food intake. Expression in the hypothalamus, amygdala and brain stem was noticed, similar to studies in rats and humans. In other brain regions, such as the striatum and hippocampus, some species differences were observed. Mutagenesis studies of the human Y1 receptor indicated sites important for binding both of endogenous agonists and synthetic antagonists. Putative new sites of interaction with the Y1 antagonists BIBP3226 and/or SR120819A were recognized. The data were used to construct a three-dimensional structure model, based on a high-resolution bovine rhodopsin model. Cloning of the chicken (Gallus gallus) Y1, Y2 and Y5 receptors revealed high sequence similarities with mammalian receptors. Most endogenous ligands bound with similar affinities as to mammalian receptors. The strongest exception was the discovery of high-affinity binding to chicken Y2 of [Leu31, Pro34]NPY, which was previously considered to bind non-Y2 receptors only. The new human Y1 receptor model provides a basis for further investigations of ligand-receptor interactions which will be aided by information on NPY receptors from other taxa. Guinea pigs are concluded to be a good complement to rats and mice for studying NPY signaling. These results demonstrate the benefits of species comparisons for pharmacological studies. Neurosciences G-protein coupled receptor neuropeptide Y neuropeptide Y receptor ortholog chicken guinea pig mutagenesis receptor computer modeling mRNA in situ hybridization Neurovetenskap Neurology Neurologi
183	Telomere analysis of normal and neoplastic hematopoietic cells : studies focusing on fluorescence in situ hybridization and flow cytometry Hultdin, Magnus January 2003 (has links) The telomeres are specialized structures at the end of the chromosomes composed of the repeated DNA sequence (TTAGGG)n and specific proteins bound to the DNA. The telomeres protect the chromosomes from degradation and end to end fusions. Due to the end-replication problem, the telomeric DNA shortens every cell division, forcing the cells into senescence at a critical telomere length. This process can be counteracted by activating a specialized enzyme, telomerase, which adds telomeric repeats to the chromosome ends leading to an extended or infinite cellular life span. Telomerase activity is absent in most somatic tissues but is found in germ cells, stem cells, activated lymphocytes and the vast majority of tumor cells and permanent cell lines. Hence, telomerase has been suggested as a target for cancer treatment as malignant cells almost exclusively express the enzyme and in that context telomere length measurements will be of great importance. Telomere length is traditionally measured with a Southern blot based technique. A new method for telomere analysis of cells in suspension, called flow-FISH, was developed based on fluorescence in situ hybridization using a telomeric peptide nucleic acid (PNA) probe, DNA staining with propidium iodide and quantification by flow cytometry. Flow-FISH had high reproducibility and the telomere length measurements showed good correlation with Southern blotting results. The flow-FISH technique also allows studies of cells in specific phases of the cell cycle and the replication timing of telomeric, centromeric and other repetitive sequences were analyzed in a number of cells. Like previous studies, centromeres were shown to replicate late in S phase while the telomere repeats were found to replicate early in S phase or concomitant with the bulk DNA, which is opposite to the patterns described in yeast. In benign immunopurified lymphocytes from tonsils, high telomerase activity was found in germinal center (GC) B cells. This population also had high hTERT mRNA levels and displayed a telomere elongation as shown by flow-FISH and Southern blotting. Combined immunophenotyping and flow-FISH on unpurified tonsil cells confirmed the results. Chronic lymphocytic leukemia (CLL), the most common leukemia in adults, can be divided into pre-GC CLL, characterized by unmutated immunoglobulin VH genes and worse prognosis, and post-GC CLL, with mutated VH genes and better prognosis. In 61 cases of CLL, telomere length was measured with Southern blotting and VH gene mutation status was analyzed. A new association was found between VH mutation status and telomere length, where cases with longer telomeres and mutated VH genes (post-GC CLL) had better prognosis than CLL with short telomeres and unmutated VH genes (pre-GC CLL). A larger study of 112 CLL cases was performed using flow-FISH. The same correlation between telomere length and VH mutation status was found but gender seemed to be of importance as telomere length was a significant prognostic factor for the male CLL patients but not in the female group. Age of the patients and spread of disease seemed to affect the prognostic value of VH gene mutation status. Biomedicine telomere telomerase fluorescence in situ hybridization flow cytometry flow-FISH replication timing chronic lymphocytic leukemia immunoglobulin gene prognosis Biomedicin Microbiology Mikrobiologi
184	Cytogenomic Analyses of the genus Sorghum Anderson, Jason C. 2010 May 1900 (has links) A phylogenetic tree based on ITS1, Adh1 and ndhF grouped the species of the genus Sorghum into one distinct monophyletic group, but including two sister lineages, one with x=5, the other with x=10 as basic chromosome numbers. The goal of this study was to elucidate major patterns in Sorghum genome evolution, particularly n=5 vs. n=10 genomes. A very recent molecular cytogenetic study in our laboratory revealed striking structural karyotypic rearrangements between S. bicolor (x=10) and an x=5 Sorghum species, S. angustum; so an immediate objective here was to determine if identical or similar rearrangements exist in other wild Sorghum species. Our approach was [1] to extend similar methods to additional species, i.e., fluorescent in situ hybridization (FISH) analyses of sorghum genomic bacterial artificial chromosome clones and multi-BAC cocktail probes to mitotic chromosomes of S. angustum, S. versicolor, S. brachypodum and S. intrans; and [2] to augment the BAC-FISH findings by comparing telomeric and ribosomal DNA FISH signal distributions to x=5 and x=10 Sorghum species. Signals from in situ hybridizations of BAC-based probes were insufficiently robust and insufficiently localized to delineate FISH signal patterns akin to those discovered previously in S. angustum. Southern blots of the same BACs to restricted DNA of these species revealed relatively moderate affinity to smeared DNA, suggesting homology to non-tandemized sequences. FISH of the A-type TRS (Arabidopsis-like telomeric repeat sequence) revealed its presence is limited to terminal chromosomal regions of the Sorghum species tested, except S. brachypodum, which displayed intercalary signal on one chromosome and no detachable signal at its termini region. The hybridization of 45S and 5S rDNA revealed that the respective sites of tandemized clusters differ among species in terms of size, number and location, except S. angustum versus S. versicolor. Well localized BAC-FISH signals normally occur when signals from low-copy sequences discernibly exceed background signal, including those from hybridization of dispersed repetitive elements. The low level of signal intensity from BAC low-copy sequences relative to the background signal "noise" seems most likely due to low homology and(or) technical constraints. Extensive dispersal of low-copy sequences that are syntenic in S. bicolor seems unlikely, but possible. In conclusion, the result was a lack of clear experimental success with BAC-FISH and an inability to effectively screen for S. angustum-like rearrangements using BAC-FISH. The telomeric and rDNA FISH indicated that the x=5 genomes vary extensively. One can surmise that although the arrangements seen in S. angustum might extend to S. versicolor, they certainly do not extend to S. versicolor, they certainly do not extend to S. intrans or S. brachypodum. It is clear that S. brachypodum has telomeric repeats that are either very short or rely on some sequence other than the A-type TRS. Sorghum genome evolution cytogenetic rDNA A-type TRS 45S rDNA 5S rDNA
185	Έκφραση της λαμινίνης και της εντακτίνης κατά την ανάπτυξη του πρώϊμου εμβρύου / Expression of laminin and entactin during development of the early embryo Σταυρίδης, Βασίλης 24 June 2007 (has links) Οι εξωκυττάριες ουσίες παράγονται από τα κύτταρα, εκκρίνονται από αυτά και αλληλεπιδρώντας τόσο μεταξύ τους όσο και με τα κύτταρα ρυθμίζουν πολλές αναπτυξιακές πορείες. Μελετήσαμε τη χρονική και τοπική εμφάνιση των mRNAs της εντακτίνης και της λαμινίνης, γλυκοπρωτεϊνών των εξωκυττάριων ουσιών, στο πρώϊμο έμβρυο όρνιθας. Χρησιμοποιήσαμε την τεχνική της in situ υβριδοποίησης, που κατέδειξε διαφορική έκφραση της εντακτίνης και των αλυσίδων της λαμινίνης σε ξεχωριστούς κυτταρικούς πληθυσμούς και όργανα σε διαφορετικά στάδια ανάπτυξης του εμβρύου. Επίσης μελετήσαμε την χρονική και τοπική κατανομή του πολυπεπτι- δίου της εντακτίνης από το στάδιο του μοριδίου ως την αρχή της οργανογένεσης με τις τεχνικές του ανοσοφθορισμού και της ανοσοκατακρήμνισης. Ανιχνεύσαμε την παρουσία της εντα-κτίνης ήδη από το στάδιο του όψιμου μοριδίου. Με τη χρήση αντισωμάτων για την εντακτίνη μελετήσαμε το ρόλο της κατά την ανάπτυξη του πρώϊμου εμβρύου. Στα αποτελέσματά μας φάνη-κε οτι η εντακτίνη είναι απαραίτητη για το σωστό προσανατο-λισμό των κυττάρων καθώς μεταναστεύουν κατά την γαστριδίω-ση. Αυτό έχει ως αποτέλεσμα την αναστολή του σχηματισμού του εμβρυϊκού άξονα. / The extracelular matrix is a complex cell product which regulates many developmental processes. We used specific antisense RNA probes for the laminin α1, β1 and γ1 chains and for entactin, two extracellular matrix glycoproteins, to study the tissue specific and temporal patterns of their mRNAs in the early chick embryo. Our work employing in situ hybridization, showed strong signals of the laminin and of entactin mRNAs at the morula stage and differential express-ion of these mRNAs in the forming embryonic tissues and organs in the developing chick embryo. We also studied the time of appearance and subsequent distribution of the entactin polypeptide using immunofluorescence and immunopre-cipitation from the morula stage up to the early organogene-sis in the chick embryo. The first presence of entactin was detected at the late morula stage and showed differential expression in the various cell populations in the develop- ing embryo. To study the role of entactin in the major cell-ular migrations during gastrulation we used blocking anti- bodies in set of functional studies. Entactin seemed to be essential for the directional migrations of cells during gastulation and the embryonic axis was not formed in the embryos treated with the anti-entactin antibodies. Εντακτίνη Λαμινίνη Πρώϊμο έμβρυο Εξωκυττάριες ουσίες Διαφοροποίηση Μορφογένεση In situ υβριδοποίηση 571.86 Entactin/nidogen Laminin Early embryo Extracellular matrix Differentiation Morphogenesis In situ hybridization
186	Μελέτη των υπομονάδων των υποδοχέων διεγερτικών και ανασταλτικών αμινοξέων στον εγκέφαλο ενός γενετικού μοντέλου της νόσου Parkinson / Study of excitatory and inhibitory aminoacid receptor subunits in the brain of a genetic Parkinia model Φραγκιουδάκη, Κλεοπάτρα 27 June 2007 (has links) Η παρούσα διατριβή ασχολήθηκε με τη μελέτη της έκφρασης των υπομονάδων των υποδοχέων του γλουταμινικού οξέος και του γ-αμινοβουτυρικού οξέος (GABA) στα βασικά γάγγλια και τον φλοιό των εγκεφαλικών ημισφαιρίων του μυός weaver. Παράλληλα, μελετήθηκε η έκφραση των νευροπεπτιδίων εγκεφαλίνης και δυνορφίνης στα βασικά γάγγλια του μυός weaver. O μυς weaver χαρακτηρίζεται από προοδευτική, γενετικά επαγόμενη εκφύλιση των ντοπαμινεργικών κυττάρων του μεσεγκεφάλου, κυρίως αυτών οι οποίοι καταλήγουν στο ραβδωτό σώμα. Για αυτόν τον λόγο, θεωρείται ένα καλό μοντέλο της νόσου Parkinson και η μελέτη των νευροχημικών μεταβολών που συμβαίνουν στον εγκέφαλο του παραπάνω μυός, αποτελεί πολύτιμο εργαλείο για τη διερεύνηση των παθογενετικών μηχανισμών της νόσου. Mε την τεχνική του υβριδισμού in situ, προσδιορίστηκαν τα επίπεδα mRNA των υπομονάδων z1, ε1 και ε2 του υποδοχέα NMDA, των υπομονάδων KA2 και GluR6 του υποδοχέα καϊνικού οξέος, των υπομονάδων α1, α2, α4, β2 και β3 του υποδοχέα GABAA, καθώς και των πρόδρομων πολυπεπτιδίων προ-προεγκεφαλίνη και προδυνορφίνη. Η μελέτη πραγματοποιήθηκε σε φυσιολογικούς μύες (+/+) και μύες weaver (wv/wv), στις ηλικίες των 26 ημερών, 3 μηνών και 6 μηνών μετά τη γέννηση. Όσον αφορά στους υποδοχείς του γλουταμινικού οξέος, τα αποτελέσματά μας υπέδειξαν αύξηση στην έκφραση των υπομονάδων z1, ε2, ΚΑ2 και GluR6 στο ραβδωτό σώμα των μυών weaver, σε σχέση με τους φυσιολογικούς. Η αύξηση στο mRNA των υπομονάδων z1, ε2 και GluR6 παρατηρήθηκε μόνο στην ηλικία των 6 μηνών, ενώ το mRNA της υπομονάδας KA2, παρουσίασε αύξηση και στις τρεις ηλικίες που μελετήθηκαν. Οι αυξήσεις της έκφρασης των υπομονάδων z1, ε2, ΚΑ2 και GluR6 συμφωνούν και πιθανόν εξηγούν τις αυξήσεις στα επίπεδα των θέσεων δέσμευσης για τους υποδοχείς NMDA και μη-NMDA, οι οποίες έχουν βρεθεί από παλαιότερες μελέτες του εργαστηρίου μας στο ραβδωτό σώμα των μυών weaver ηλικίας 6 μηνών. Με βάση βιβλιογραφικά δεδομένα, υποστηρίζουμε ότι η καθυστερημένη αύξηση στην έκφραση των υπομονάδων z1, ε2 και GluR6 κατά πάσα πιθανότητα συντελείται μέσω επαγωγής του μεταγραφικού παράγοντα ΔfosB, σε απόκριση προς τη μείωση της ντοπαμίνης. Στον σωματοαισθητικό φλοιό των μυών weaver ηλικίας 26 ημερών, παρατηρήθηκε αύξηση στην έκφραση των υπομονάδων z1, ε1, ε2 και KA2, η οποία θα μπορούσε να οφείλεται στη μειωμένη θαλαμοφλοιϊκή γλουταμινεργική είσοδο. Όσον αφορά στους υποδοχείς GABAA, παρατηρήθηκε αύξηση στα επίπεδα mRNA των υπομονάδων α4 και β3, στο ραβδωτό σώμα των μυών weaver ηλικίας 6 μηνών, η οποία συμφωνεί και μπορεί να εξηγήσει την αύξηση στα επίπεδα των θέσεων δέσμευσης για τους υποδοχείς GABAA, η οποία έχει βρεθεί σε προηγούμενη μελέτη του εργαστηρίου μας, στο ραβδωτό σώμα των μυών weaver ηλικίας 6 μηνών. Σκοπεύουμε να ελέγξουμε την πιθανότητα, η αύξηση της έκφρασης της υπομονάδας α4, να υποδεικνύει μία αύξηση του αριθμού των εξωσυναπτικών υποδοχέων GABAA στους νευρώνες προβολής του ραβδωτού σώματος. Στην ωχρά σφαίρα των μυών weaver ηλικίας 6 μηνών, παρατηρήθηκε μείωση των επιπέδων mRNA των υπομονάδων α1 και β2, υποδεικνύοντας μία μείωση του αριθμού των υποδοχέων GABAA, η οποία ήταν αναμενόμενη, λόγω της αυξημένης GABAεργικής εισόδου στην εν λόγω εγκεφαλική περιοχή του μυός weaver. Στον σωματοαισθητικό φλοιό, παρατηρήθηκε μείωση στην έκφραση των υπομονάδων α2 και β2 και ταυτόχρονα αύξηση στην έκφραση των υπομονάδων α4 και β3. Με βάση βιβλιογραφικά δεδομένα, προτείνουμε ότι οι μεταβολές αυτές μπορεί να αντανακλούν μείωση στον αριθμό των συναπτικών και αύξηση στον αριθμό των εξωσυναπτικών υποδοχέων GABAA, σε απόκριση προς τη μειωμένη GABAεργική είσοδο προς τους νευρώνες του σωματοαισθητικού φλοιού του μυός weaver. Όσον αφορά στην έκφραση των πολυπεπτιδίων, το mRNA της προ-προεγκεφαλίνης, παρουσίασε αύξηση στο ραβδωτό σώμα των μυών weaver, μόνο στην ηλικία των 6 μηνών, ενώ το mRNA της προδυνορφίνης, παρουσίασε μείωση στην παραπάνω περιοχή, στην ηλικία των 26 ημερών και αύξηση στις μεγαλύτερες ηλικίες. Σύμφωνα με τα βιβλιογραφικά δεδομένα υποστηρίζουμε ότι: α) η καθυστερημένη αύξηση της έκφρασης της προ-προεγκεφαλίνης στο ραβδωτό σώμα του μυός weaver, οφείλεται στη μείωση της τονικής ανασταλτικής ρυθμιστικής δράσης της ντοπαμίνης στην έκφραση του εν λόγω γονιδίου και πιθανώς συντελείται μέσω του μεταγραφικού παράγοντα ΔfosB, β) ο παραπάνω μεταγραφικός παράγοντας είναι κατά πάσα πιθανότητα υπεύθυνος και για την καθυστερημένη επαγωγή της έκφρασης της προδυνορφίνης στο ραβδωτό σώμα των μυών weaver και γ) η μείωση του παραπάνω mRNA στην ηλικία των 26 ημερών οφείλεται στη μείωση της τονικής διεγερτικής δράσης της ντοπαμίνης στην έκφραση του εν λόγω γονιδίου. Τέλος, το γεγονός ότι οι μεταβολές των mRNA των διαφόρων υπομονάδων και νευροπεπτιδίων δεν ήταν οι ίδιες στις διάφορες ηλικίες που μελετήθηκαν υποδεικνύει ότι κατά την πρόοδο της ντοπαμινεργικής εκφύλισης των ντοπαμινεργικών νευρώνων του μεσεγκεφάλου διαφορετικοί μηχανισμοί ευθύνονται για την πρόκληση των αλλαγών στην έκφραση των υπό μελέτη γονιδίων. / In the present study we investigated the expression of the subunits of glutamate and γ-aminobutyric acid (GABA) receptors in basal ganglia and cerebral cortex of the weaver mouse. We also studied the expression of striatal neuropeptides, which are important neuromodulators of the synaptic transmission in the basal ganglia circuitry. The weaver mouse is characterized by a progressive, genetically induced degeneration of the mesencephalic dopaminergic neurons, especially those that project to the striatum. For this reason, the weaver mouse is a useful model for clarifying the pathogenetic mechanisms that underly Parkinson’s disease. Using the in situ hybridization method, the mRNA levels of the ΝΜDA subunits z1, ε1 and ε2, the kainate subunits KΑ2 and GluR6, the GABAA subunits α1, α2, α4, β2 and β3, as well as the mRNA levels of the precursor polypeptides pre-proenkephalin and prodynorphin, were estimated. The study was performed using wild-type (+/+) and weaver mice (wv/wv) of the following ages: 26 days, 3 months and 6 months. Concerning the glutamate receptors, an increase in the mRNA levels of z1, ε2, KA2 and GluR6 subunits was indicated in the weaver striatum, compared to the wild type. The z1, ε2 and GluR6 mRNA increases were observed only at the age of 6 months, whereas the KA2 mRNA increase was observed at all three ages studied. The increases in z1, ε2, ΚΑ2 and GluR6 mRNA expression are in agreement and probably explain the increased levels of ΝΜDA- and non-NMDA-sensitive binding sites that we had previously found in the 6 months old weaver striatum. Based on bibliographic data, we suggest that the delayed increases in z1, ε2 and GluR6 mRNA levels, are probably mediated by the delayed induction of the ΔfosB transcription factor, in response to the reduction of striatal dopamine levels. In the somatosensory cortex of 26 day old weaver mice, an increase in the levels of z1, ε1, ε2 and ΚΑ2 mRNAs was observed. The above increases can be attributed to the decreased thalamocortical glutamatergic imput. Concerning the GABAA receptors, the observed increases of the α4 and β3 mRNA levels in the 6 months old weaver striatum are in agreement and probably explain the increased levels of GABAA binding sites that we had previously found in the 6 months old weaver striatum. We are going to test the hypothesis, that the α4 mRNA increase might indicate an increase in the number of extrasynaptic GABAA receptors in striatal projection neurons. In the 6 months old weaver globus pallidus, the observed decrease in α1 and β2 mRNA levels was expected, since the GABAergic transmission is increased in the above region of the weaver brain. In the weaver somatosensory cortex, a decrease in the α2 and β2 mRNA levels and an increase in the α4 and β3 mRNA levels were observed. Based on bibliographic data, we suggest that the above alterations probably indicate a differential regulation of the synaptic versus extrasynaptic cortical GABAA receptors, in response to the decreased GABAergic presynaptic input to the weaver cortical neurons. Concerning the expression of the striatal neuropeptides, the pre-proenkephalin mRNA was increased in the weaver striatum, only at the age of 6 months. In contrast, prodynorphin mRNA was decreased in the 26 day old weaver striatum, whereas it was increased in the 3 and 6 months old weaver striatum. Based on bibliographic data, we suggest that: a) the delayed increase in the expression of pre-proenkephalin could be caused by the reduction of the tonic dopaminergic inhibitory control on the expression of the above gene in the dopamine-depleted weaver striatum and is probably mediated by the ΔfosB transcription factor; b) the above transcription factor could be responsible for the delayed induction of the prodynorphin expression in the weaver striatum as well, and c) the decrease of prodynorphin mRNA in the 26 day old weaver striatum could be attributed to the reduction of the dopaminergic stimulatory control on the expression of the above gene. Finally, the different pattern of expression alterations among the three ages studied indicates that distinct mechanisms are responsible for the observed changes, during the progress of the dopaminergic degeneration of the weaver brain. Παρκινσονικό μοντέλο Βασικά γάγγλια Υποδοχείς GABA Υβριδισμός in situ 572.65 Parkinsonian model Basal ganglia Glutamate receptors GABA receptors In situ hybridization
187	MHC-Klasse-I-Gene von Weißbüschelaffen (Callithrix jacchus) und deren Expression im Gehirn / Differential expression of major histocompatibility complex class I molecules in the brain of a New World monkey, the common marmoset (Callithrix jacchus) Rölleke, Ulrike 31 October 2007 (has links) No description available. 500 Naturwissenschaften allgemein Mathematics and Computer Science MHC-Klasse-I neuronale Expression In-situ-Hybridisierung Immunhistologie MHC class I neuronal expression in situ hybridization immunohistology 42.13 44.45 WF 200: Molekularbiologie
188	Expression and Functional Analysis of pthrp1 and ihha in the Regeneration of Bones in Zebrafish Caudal Fin Al-Rewashdy, Ali 18 September 2013 (has links) The parathyroid hormone related protein (PTHrP) and Indian Hedgehog (IHH) are two secreted molecules, acting as paracrine factors during embryonic development and post-natal growth of endochondral bones. PTHrP and IHH are essential factors for the regulation of chondrocyte proliferation and differentiation. However, it has previously been shown that PTHrP and IHH are also expressed in the chick and mouse embryos intramembranous bones, which do not form through a cartilage intermediate and in which chondrocytes are absent. Similarly, the zebrafish orthologs, pthrp1 and ihha, are also expressed during the regeneration of the intramembranous bones of the fin rays of the zebrafish caudal fin. This surprising observation led us to further analyze the expression and function of pthrp1 and ihha in the regenerating fin rays. Gene expression analysis using in situ hybridization shows that pthrp1 is expressed in a stripe of cells located within the domain of expression of ihha in the newly differentiating osteoblasts in the regenerating fin rays. Also, pthrp1 expression is observed at the level of the joints between the bone segments forming the rays and co-localizes with the expression domain of evx1, a transcription factor that has been implicated in the formation of joints in the caudal fin. Furthermore, RT-PCR analyses show that pthrp2 and the pthrp receptors mRNA (pth1r, pth2r and pth3r) are also present in the fin regenerate. Finally, functional analysis shows that the knockdown of pthrp1 or ihha expression by electroporation of morpholinos induces a delay of the regenerative outgrowth of the fin. These results suggest that pthrp1 and ihha may be involved in the regulation of proliferation and differentiation of chondrocyte-like osteoblasts in the fin rays, playing a role similar to that described in the mammalian growth plate of endochondral bones. In addition, pthrp1 is possibly an important factor involved in the formation and maintenance of joints of the dermal bones of the fin rays. Indian Hedgehog (IHH) Bone Zebrafish Regeneration Endochondral ossification Intramembranous ossification Morpholino knockdown In situ hybridization RT-PCR EVX1 Pthrp1 Ihha
189	Analysis of HER2 testing in breast cancer: disparities, cost-effectiveness, and patterns of care Ashok, Mahima 01 July 2009 (has links) HER2 breast cancer is an aggressive disease that occurs in 20 - 30% of the breast cancer population. Treatment for HER2 breast cancer includes use of an anti-HER2 monoclonal antibody, trastuzumab. Testing for HER2 is of critical importance due to the adverse side effects and substantial costs associated with this anti-HER2 treatment. Currently, two kinds of tests, Fluorescence In Situ Hybridization (FISH) and Immunohistochemistry (IHC), are FDA approved for determination of HER2 status in breast cancers. Clinical and non clinical factors that affect the choice HER2 test and the use of anti-HER2 therapy in breast cancer were analyzed using a data set containing information from six outpatient oncology clinics in the United States. The analysis showed that geographic location, cancer stage, and diagnosis date (pre- or post-publication of testing guidelines) have significant effects on choice of test. With regard to trastuzumab prescription, geographic location and HER2 status have significant effects on the prescription of trastuzumab. In addition, there was a non-significant trend for certain Medicare patients not to receive trastuzumab therapy. These findings indicate that disparities are present in breast cancer care based on geography and cancer stage, and highlight the importance of testing guidelines. The cost effectiveness of FISH vs. IHC was determined, by considering the financial and health-related costs associated with testing and subsequent treatment as well as the accuracy of each test. The results show that FISH is the optimal choice for HER2 testing and is more cost-effective than IHC. QALY Decision making Targeted therapy Monoclonal antibody HER2 breast cancer IHC FlSH Herceptin Trastuzumab Fluorescence in situ hybridization Fluorescence microscopy Immunohistochemistry Diagnostic immunohistochemistry
190	Characterization of human chromosome 22 : cloning of breakpoints of the constitutional translocation t(11;22)(q23;q11) and detection of small constitutional deletions by microarray CGH / Tapia Páez, Isabel, January 2003 (has links) Diss. (sammanfattning) Stockholm : Karol. inst., 2003. / Härtill 6 uppsatser.

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