Global ETD Search

21	The Corn Snake Yolk Sac Becomes a Solid Tissue Filled With Blood Vessels and Yolk-Rich Endodermal Cells Elinson, Richard P., Stewart, James R. 01 January 2014 (has links) The amniote egg was a key innovation in vertebrate evolution because it supports an independent existence in terrestrial environments. The egg is provisioned with yolk, and development depends on the yolk sac for the mobilization of nutrients. We have examined the yolk sac of the corn snake Pantherophis guttatus by the dissection of living eggs. In contrast to the familiar fluid-filled sac of birds, the corn snake yolk sac invades the yolk mass to become a solid tissue. There is extensive proliferation of yolk-filled endodermal cells, which associate with a meshwork of blood vessels. These novel attributes of the yolk sac of corn snakes compared with birds suggest new pathways for the evolution of the amniote egg. amniote egg corn snake endoderm yolk sac Biological Sciences
22	Generation of Pharyngeal Foregut Endoderm from Pluripotent Stem Cells Kearns, Nicola A. 19 June 2017 (has links) The pharyngeal foregut endoderm (PFE) gives rise to several important organs including the thyroid, thymus and parathyroid glands. In mice and humans, defects in the development of PFE can lead to thymic aplasia and aberrations in thymic epithelial cell (TEC) function can lead to immunodeficiency or autoimmune disease. Successful differentiation of pluripotent stem cells (PSCs) to PFE could provide a renewable cell source that enables the study of human diseases that originate in the PFE. Here, I identify signaling pathways that influence the differentiation of PSCs to PFE. Firstly, using a novel mouse reporter PSC line we develop a protocol that generates a Pax9 expressing population that is enriched for PFE markers and upon transplantation can form organized epithelial structures. However, since this protocol was inefficient for human PSCs, we subsequently identified additional signaling pathways required for the efficient generation of human PFE and determined a key role for retinoic acid. Upon transplantation, the human PFE gives rise to TECs, a ventral PFE derivative. Finally, to facilitate future investigation into the gene regulatory networks in PFE, we develop a CRISPR-effector system to modulate endogenous gene expression in PSCs. We demonstrate that developmentally relevant genes can be repressed or induced, thereby influencing the cellular state. These data present strategies to generate cells of the PFE lineage from PSCs, facilitating the production of cells for patient-specific disease modeling or cell replacement therapies, and a method to interrogate gene and regulatory element function in PFE and its derivatives. pluripotent stem cells pharyngeal endoderm Other Cell and Developmental Biology
23	Mesenchymal Analysis of Human Pluripotent Stem Cell-Derived Gastrointestinal Organoids Haines, Lauren E. 04 November 2019 (has links) No description available. Developmental Biology mesenchyme organoids pluripotent stem cells gut tube endoderm
24	Mechanisms of endoderm patterning and directed differentiation of human stem cells into foregut tissues McCracken, Kyle W. 18 September 2014 (has links) No description available. Biology endoderm foregut stem cells stomach H pylori
25	Functions of Zinc-finger Transcription Factors Gli and Osr during Foregut Development in Mouse Han, Lu 05 December 2017 (has links) No description available. Developmental Biology Hedgehog Gli Odd-skipped foregut endoderm mesenchyme
26	Dinâmica da inversão do saco vitelino em preás Galea spixii Wagler, 1831 / Dynamic of the yolk sac inversion in Preas Galea spixii Wagler, 1831 Vale, André Menezes do 12 October 2011 (has links) Made available in DSpace on 2016-08-15T20:31:06Z (GMT). No. of bitstreams: 1 AndreMV_DISSERT.pdf: 26149415 bytes, checksum: 8052cd9f22e05a0bada5a1c6b968c995 (MD5) Previous issue date: 2011-10-12 / The inversion period of the yolk sac as the dynamic which results from this process was studied in 30 female of prea on days 6, 10, 11 to 15, 20, 25, and 30 of gestation. Six groups of animals (one male for five females) were formed and kept in boxes of 5m2. Vaginal cytology was performed daily for detection of copulation. Pregnant females were separated of the other individuals of the group. They were euthanized using a specific anesthetic protocol for collection of the gestational sacs. Then, the material was processed for histology, immunohistochemistry, scanning electron microscopy, and transmission electron microscopy. At days 11 to 13 of gestation was observed the development of the parietal and visceral endoderm delimiting the yolk sac cavity. The parietal endoderm was coating the surface of the fetal side of the chorioallantoic placenta and surrounding the space bounded by the capsular decidua. These endoderm layers showed a prismatic shape and were separated of the trophoblast by a developed Reichert s membrane. The visceral endoderm contained vitelline vessels and villi in some areas. On the 13th day it was possible to establish as a basic condition before the inversion of teh yolk sac, the permanence of at least one of the three elements that characterized the bilaminar omphalopleure. On the 14th day of gestation the complete inversion of the yolk sac, which was characterized by the degeneration of both parietal endoderm and mural trophoblast, coupled with the gradual disappearance of the Reichert s membrane was observed. As a consequence of this, the visceral endoderm constitutes the interface with the uterine epithelium. After the inversion of the yolk sac, the parietal endoderm remained intact was the one which rested on the surface of the chorioallantoic placenta, which showed high columnar cells, characteristic of the pseudostratified epithelium. The visceral endoderm showed numerous apical villi mainly in regions close to the chorioallantoic placenta. The intense vascularization was confirmed by the immunohistochemistry reaction for vimentin associated with the scanning electron microscopy. During the continuous development of the embryo and chorioallantoic placenta it was also observed the development of an important area of apposition of both visceral and parietal endoderm whose proliferative capacity of these cells was demonstrated by immunohistochemistry using PCNA antibody. Therefore, we concluded the inversion of the yolk sac represents an anatomical arrangement in favor of embryonic development as well as an evolutionary characteristic in this rodent specie. / O período de inversão do saco vitelino bem como a dinâmica resultante deste processo foi estudado em 30 fêmeas de preás nos dias 6, 10, 11 a 15, 20, 25 e 30 de gestação. Foram formados seis grupos de animais numa relação de um macho para cinco fêmeas, mantidos em boxes de 5m2. Após formação dos grupos, diariamente eram realizados exames de citologia vaginal, para verificação de cópula, separando-se dos grupos as fêmeas que eram cobertas. A partir da ocorrência da cópula programaram-se as coletas dos sacos gestacionais mediante sacrifício das fêmeas gestantes através de protocolo anestésico específico. O material, então, era processado segundo técnicas para histologia convencional, imunohistoquímica, microscopia eletrônica de varredura e de transmissão. Nos dias de 11 a 13 de gestação observou-se o desenvolvimento dos endodermas parietal e visceral delimitando a cavidade do saco vitelino. O endoderma parietal foi evidenciado revestindo a superfície fetal da placenta corioalantoide bem como contornando o espaço delimitado pela decídua capsular. Estes endodermas apresentaram formato prismático e encontraram-se separados do trofoblasto por uma desenvolvida membrana de Reichert. Já o endoderma visceral continha vasos vitelínicos e possuía vilosidades apenas em determinadas áreas. No décimo terceiro dia, foi possível estabelecer como condição primordial antes da inversão, a permanência de pelo menos um dentre os três elementos que caracterizavam a onfalopleura bilaminar. No décimo quarto dia de gestação verificou-se a inversão do saco vitelino, caracterizada pela degeneração do endoderma parietal e trofoblasto mural, associado ao desaparecimento gradual da membrana de Reichert. Como consequência deste fenômeno, o endoderma visceral passou a constituir interface com o epitélio uterino. Após a inversão, o endoderma parietal que permaneceu íntegro foi aquele que se apoiava na superfície da placenta principal, apresentando células em formato colunar alto e característica de epitélio pseudoestratificado. O endoderma visceral apresentou numerosas vilosidades apicais principalmente em regiões próximas a placenta principal. A intensa vascularização desse endoderma foi evidenciada pela reação imunohistoquímica para vimentina e microscopia eletrônica de varredura. Com o contínuo desenvolvimento do embrião e placenta principal, observou-se o surgimento de importante área de aposição entre os endodermas visceral e parietal cuja capacidade proliferativa destas células foi demonstrada pela reação imunohistoquímica para o PCNA. Por conseguinte, concluiu-se que a inversão do saco vitelino representou uma disposição anatômica favorável ao desenvolvimento embrionário além de uma característica evolutiva nesta espécie de roedor. Saco vitelino Endoderma visceral Endoderma parietal Inversão Yolk sac Visceral endoderm Parietal endoderm Inversion CNPQ::CIENCIAS BIOLOGICAS
27	Induction and Selection of Sox17-Expressing Endoderm Cells Generated from Murine Embryonic Stem Cells Schroeder, Insa S., Sulzbacher, Sabine, Nolden, Tobias, Fuchs, Jörg, Czarnota, Judith, Meisterfeld, Ronny, Himmelbauer, Heinz, Wobus, Anna M. 04 March 2014 (has links) (PDF) Embryonic stem (ES) cells offer a valuable source for generating insulin-producing cells. However, current differentiation protocols often result in heterogeneous cell populations of various developmental stages. Here we show the activin A-induced differentiation of mouse ES cells carrying a homologous dsRed-IRES-puromycin knock-in within the Sox17 locus into the endoderm lineage. Sox17-expressing cells were selected by fluorescence-assisted cell sorting (FACS) and characterized at the transcript and protein level. Treatment of ES cells with high concentrations of activin A for 10 days resulted in up to 19% Sox17-positive cells selected by FACS. Isolated Sox17-positive cells were characterized by defini- tive endoderm-specific Sox17/Cxcr4/Foxa2 transcripts, but lacked pluripotency-associated Oct4 mRNA and protein. The Sox17-expressing cells showed downregulation of extraembryonic endoderm (Sox7, Afp, Sdf1)-, mesoderm (Foxf1, Meox1)- and ectoderm (Pax6, NeuroD6)-specific transcripts. The presence of Hnf4α, Hes1 and Pdx1 mRNA demonstrated the expression of primitive gut/foregut cell-specific markers. Ngn3, Nkx6.1 and Nkx2.2 transcripts in Sox17-positive cells were determined as properties of pancreatic endocrine progenitors. Immunocytochemistry of activin A-induced Sox17-positive embryoid bodies revealed coexpression of Cxcr4 and Foxa2. Moreover, the histochemical demonstration of E-cadherin-, Cxcr4-, Sox9-, Hnf1β- and Ngn3-positive epithelial-like structures underlined the potential of Sox17-positive cells to further differentiate into the pancreatic lineage. By reducing the heterogeneity of the ES cell progeny, Sox17-expressing cells are a suitable model to evaluate the effects of growth and differentiation factors and of culture conditions to delineate the differentiation process for the generation of pancreatic cells in vitro. / Dieser Beitrag ist mit Zustimmung des Rechteinhabers aufgrund einer (DFG-geförderten) Allianz- bzw. Nationallizenz frei zugänglich. embryonale Stammzellen Mäuse Invitro-Differenzierung Activin A Endoderm Pankreas endokrin Abstammung Mouse embryonic stem cells In vitro differentiation Activin A Definitive endoderm Pancreatic endocrine lineage ddc:610 rvk:XA 10000
28	The embryonic development of Elminius modestus Darwin, 1854 / (Thecostraca: Cirripedia) Ponomarenko, Ekaterina 04 August 2014 (has links) Die vorliegende Arbeit behandelt die Embryonalentwicklung des Rankenfußkrebses Elminius modestus (Thecostraca: Cirripedia). Der Entwicklungsprozess wurde mithilfe unterschiedlicher Methoden wie 4D Mikroskopie, in vivo Einzelzellmarkierungen, Fluoreszenzhistochemie und konfokaler Laserscanningmikroskopie in Verbindung mit 3D Rekonstruktionen untersucht. Die Furchung von E. modestus ist total, inequal in Bezug auf die Dotterzelle und asynchron mit einem anterior-posterioren Gradienten. Der gesamte Prozess folgt einem strengen Teilungsmuster mit nur sehr geringer Variabilität. Eine davon stellt das Auftreten spiegelbildlicher Embryonen ab dem 4-Zell. Die Keimblattdifferenzierung wurde vor allem mittels in vivo Zellmarkierungen untersucht. Die Trennung der endodermalen und endomesodemalen Keimblätter erfolgt nach der vierten Furchungsteilung, die Trennung des Ectomesoderm nach der sechsten Teilung. Die Urkeimzellen sind aller Wahrscheinlichkeit nach ein Produkt der siebten Furchungsteilung der Dotterzellen (3Da und 3Dp). Im Zuge der Untersuchung konnte die Zelllinie jedes Keimblattes rekonstruiert werden, die Zellschicksale der Abkömmlinge der Quadranten wurde bis zum 16-Zell Stadium beschrieben. Das Ectoderm entspringt allen vier Quadranten, ebenso das Ectomesoderm (die letzten identifizierten Mesectoblasten sind 3A, 3B, 3C, 1drp und 1dlp). Endoderm und Endomesoderm entwickeln sich aus einzelnen Vorläuferzellen im 16-Zell Stadium (2D bzw. 2d). Das Auftreten nur eines einzelnen Endoblasten stellt eine mögliche Apomorphie aller Ecdysozoa dar. Das Vorhandensein eines einzelnen Mesendoblasten wird als mögliches Merkmal des Grundmusters aller Protostomia in Betracht gezogen. / The present work is devoted to the embryonic development of the thoracican barnacle Elminius modestus (Thecostraca: Cirripedia). The developmental process was investigated by means of different techniques like 4D microscopy, in vivo labelling, fluorescent histochemistry, and confocal laser scanning microscopy combined with 3D reconstructions. The cleavage of E. modestus is total, unequal with regards to the yolky cell, and asynchronous with an anterior-posterior gradient. The entire process appears to follow a strict pattern of divisions with very little variability, one of which includes the occurrence of mirror image embryos from the 4-cell stage on. The germ layer differentiation was mainly studied by means of in vivo labelling. The segregation of the endodermal and the endomesodemal germ layers are shown to happen after the fourth division, whereas the ectomesoderm segregates after the sixth division. The primordial germ cells are suggested to be a product of the seventh cleavage division of the yolky cells (3Da and 3Dp). During the research the cell lineage of each germ layer was established, the fates of the quadrant descendants are described up to the 16-cell stage. The ectoderm originates from four quadrants, as does the ectomesoderm (the last identified mesectoblasts are 3A, 3B, 3C, 1drp, and 1dlp). The endoderm and the endomesoderm develop from single precursors at the 16-cell stage (2D and 2d, respectively). The presence of only a single endoblastic cell, might represent an apomorphy for the entire group of Ecdysozoa. A singular mesendoblast is suggested to be a possible feature in the developmental ground pattern of all Protostomia. Rankenfußkrebse Krebstiere Zelllinie Spiralfurchung Blastoporus Endoderm Ektomesoderm Endomesoderm cirripedes crustaceans cell lineage spiral cleavage blastopore endoderm ectomesoderm endomesoderm 570 Biologie 32 Biologie WQ 2350 ddc:570
29	The role of Shb in ES cell differentiation, angiogenesis and tumor growth Funa, Nina January 2008 (has links) <p>Shb is a ubiquitously expressed adaptor protein with the ability to bind several tyrosine kinase receptors and intracellular signaling proteins. Previous studies have implied a wide spectrum of Shb-mediated cellular responses, which motivated me to further investigate the role of Shb in differentiation and angiogenesis. Embryonic stem (ES) cells differentiate into endoderm and mesoderm from a bipotent mesendodermal cell population. Interregulatory signals between these germlayers are required for further specification. ES cells overexpressing Shb with an inactive SH2 domain (R522K-Shb) altered the expression of endodermal genes as a consequence of upregulated FGF expression. This response was enhanced by addition of activin A, suggesting a synergistic mechanism operative between FGF and activin A signaling in endoderm specification. To investigate a role for Shb in mesodermal specification, Shb knockout ES cells were established. These cells showed a reduced ability to form blood vessels after VEGF stimulation and delayed downregulation of genes associated with mesendoderm, indicating a reduced capacity for these cells to enter later stages.</p><p>To assess a role for Shb in tumor cell apoptosis, Shb expression was silenced in angiosarcoma endothelial cells. FAK-phosphorylation was reduced in Shb knockdown cells and this made them more susceptible to apoptotic stimuli both in vitro and in vivo.</p><p>Shb knockout microvasculature in mouse kidney, liver, and heart showed irregular endothelial linings with cytoplasmic projections toward the lumen, a feature that was also related to increased vascular permeability. VEGF treatment failed to stimulate vascular permeability in Shb knockout mice.</p><p>In order to elucidate whether these features relate to reduced angiogenesis, tumor growth was examined. Tumors grown in knockout mice showed reduced growth capacity and lower vessel density. In conclusion, Shb is a multifunctional adaptor protein that may be involved in several cellular responses both during embryonic development and adult life. </p> Cell biology Shb tyrosine kinase signaling ES endoderm mesoderm apoptosis microvasculature tumor growth Cellbiologi
30	Dentální a orofaryngeální morfogeneze: Stabilita zárodečných vrstev, homologie a evoluce / Dental and Oropharyngeal Morphogenesis: Germ-layer Stability, Homology and Evolution. Soukup, Vladimír January 2013 (has links) No description available.

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