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Oriented Cell Division

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https://www.readbyqxmd.com/read/28335590/roles-of-budding-yeast-hrr25-in-recombination-and-sporulation
#1
Min-Su Lee, Jeong Hwan Joo, Keunpil Kim
Hrr25, a casein kinase 1 δ/ε homolog in budding yeast, is essential to set up mono-orientation of sister kinetochores during meiosis. Hrr25 kinase activity coordinates sister chromatid cohesion via cohesin phosphorylation. Here, we investigated the prophase roles of Hrr25 using the auxin-inducible degron system and by ectopic expression of Hrr25 during yeast meiosis. Hrr25 mediates nuclear division in meiosis I but does not affect DNA replication. We also found that initiation of meiotic double-strand breaks as well as joint molecule formation were normal in HRR25-deficient cells...
March 24, 2017: Journal of Microbiology and Biotechnology
https://www.readbyqxmd.com/read/28285992/tissue-wide-mechanical-forces-influence-the-polarity-of-stomatal-stem-cells-in-arabidopsis
#2
Martin Bringmann, Dominique C Bergmann
Mechanical information is an important contributor to cell polarity in uni- and multicellular systems [1-3]. In planar tissues like the Drosophila wing, cell polarity reorients during growth as cells divide and reorganize [4]. In another planar tissue, the Arabidopsis leaf epidermis [5], polarized, asymmetric divisions of stomatal stem cells (meristemoid mother cells [MMCs]) are fundamental for the generation and patterning of multiple cell types, including stomata. The activity of key transcription factors, polarizing factors [6], and peptide signals [7] explains some local stomatal patterns emerging from the behavior of a few lineally related cells [6, 8-11]...
March 20, 2017: Current Biology: CB
https://www.readbyqxmd.com/read/28285879/lineage-specification-from-prostate-progenitor-cells-requires-gata3-dependent-mitotic-spindle-orientation
#3
Maxwell E R Shafer, Alana H T Nguyen, Mathieu Tremblay, Sophie Viala, Mélanie Béland, Nicholas R Bertos, Morag Park, Maxime Bouchard
During prostate development, basal and luminal cell lineages are generated through symmetric and asymmetric divisions of bipotent basal cells. However, the extent to which spindle orientation controls division symmetry or cell fate, and the upstream factors regulating this process, are still elusive. We report that GATA3 is expressed in both prostate basal progenitor and luminal cells and that loss of GATA3 leads to a mislocalization of PRKCZ, resulting in mitotic spindle randomization during progenitor cell division...
March 7, 2017: Stem Cell Reports
https://www.readbyqxmd.com/read/28269158/detecting-cell-division-of-pseudomonas-aeruginosa-bacteria-from-bright-field-microscopy-images-with-hidden-conditional-random-fields
#4
Lee-Ling S Ong, Xinghua Zhang, Binu Kundukad, Justin Dauwels, Patrick Doyle, H Harry Asada
An approach to automatically detect bacteria division with temporal models is presented. To understand how bacteria migrate and proliferate to form complex multicellular behaviours such as biofilms, it is desirable to track individual bacteria and detect cell division events. Unlike eukaryotic cells, prokaryotic cells such as bacteria lack distinctive features, causing bacteria division difficult to detect in a single image frame. Furthermore, bacteria may detach, migrate close to other bacteria and may orientate themselves at an angle to the horizontal plane...
August 2016: Conference Proceedings: Annual International Conference of the IEEE Engineering in Medicine and Biology Society
https://www.readbyqxmd.com/read/28246178/signaling-networks-in-epithelial-tube-formation
#5
Ilenia Bernascone, Mariam Hachimi, Fernando Martin-Belmonte
Epithelial tubes are crucial to the function of organ systems including the excretory, gastrointestinal, cardiovascular, and pulmonary. Studies in the last two decades using in vitro organotypic systems and a variety of animal models have substantiated a large number of the morphogenetic mechanisms required to form epithelial tubes in development and regeneration. Many of these mechanisms modulate the differentiation and proliferation events necessary for generating the cell movements and changes in cell shape to delineate the wide variety of epithelial tube sizes, lengths, and conformations...
February 28, 2017: Cold Spring Harbor Perspectives in Biology
https://www.readbyqxmd.com/read/28237780/computer-evaluation-of-vire2-protein-complexes-for-ssdna-transfer-ability
#6
Irina Volokhina, Yury Gusev, Svyatoslav Mazilov, Yelizaveta Moiseeva, Mikhail Chumakov
The single-stranded transfer DNA from the Ti plasmid of the soil bacteria Agrobacterium nonspecifically integrates into the plant chromosome and is inherited at subsequent cell divisions. How it is transferred across host membranes is unknown, but it is believed that VirE2 proteins form a membrane-spanning pore or channel in a lipid bilayer and possibly mediate the delivery of the single-stranded transfer DNA-VirD2-VirE2 complex to the plant cell chromosomes. The aim of this work was to perform a computer simulation of VirE2's pore-forming capacity and an evaluation of constructed VirE2 complexes...
February 9, 2017: Computational Biology and Chemistry
https://www.readbyqxmd.com/read/28231465/time-specific-effects-of-spindle-positioning-on-embryonic-progenitor-pool-composition-and-adult-neural-stem-cell-seeding
#7
Sven Falk, Stéphane Bugeon, Jovica Ninkovic, Gregor-Alexander Pilz, Maria Pia Postiglione, Harold Cremer, Jürgen A Knoblich, Magdalena Götz
The developmental mechanisms regulating the number of adult neural stem cells (aNSCs) are largely unknown. Here we show that the cleavage plane orientation in murine embryonic radial glia cells (RGCs) regulates the number of aNSCs in the lateral ganglionic eminence (LGE). Randomizing spindle orientation in RGCs by overexpression of Insc or a dominant-negative form of Lgn (dnLgn) reduces the frequency of self-renewing asymmetric divisions while favoring symmetric divisions generating two SNPs. Importantly, these changes during embryonic development result in reduced seeding of aNSCs...
February 22, 2017: Neuron
https://www.readbyqxmd.com/read/28231457/a-butterfly-effect-on-neural-stem-cells
#8
Pierre Vanderhaeghen
Adult neural stem cells originate from the embryonic brain, but the underlying mechanisms remain poorly known. In this issue of Neuron, Falk et al. (2017) reveal how the timely control of cleavage plane orientation during division of embryonic neural progenitors has a specific and long-lasting impact on adult neurogenesis.
February 22, 2017: Neuron
https://www.readbyqxmd.com/read/28227387/detecting-cell-division-of-pseudomonas-aeruginosa-bacteria-from-bright-field-microscopy-images-with-hidden-conditional-random-fields
#9
Lee-Ling S Ong, Xinghua Zhang, Binu Kundukad, Justin Dauwels, Patrick Doyle, H Harry Asada, Lee-Ling S Ong, Xinghua Zhang, Binu Kundukad, Justin Dauwels, Patrick Doyle, H Harry Asada, Binu Kundukad, Lee-Ling S Ong, Xinghua Zhang, Justin Dauwels, Patrick Doyle, H Harry Asada
An approach to automatically detect bacteria division with temporal models is presented. To understand how bacteria migrate and proliferate to form complex multicellular behaviours such as biofilms, it is desirable to track individual bacteria and detect cell division events. Unlike eukaryotic cells, prokaryotic cells such as bacteria lack distinctive features, causing bacteria division difficult to detect in a single image frame. Furthermore, bacteria may detach, migrate close to other bacteria and may orientate themselves at an angle to the horizontal plane...
August 2016: Conference Proceedings: Annual International Conference of the IEEE Engineering in Medicine and Biology Society
https://www.readbyqxmd.com/read/28213553/automated-cell-tracking-identifies-mechanically-oriented-cell-divisions-during-drosophila-axis-elongation
#10
Michael F Z Wang, Miranda Hunter, Gang Wang, Christopher McFaul, Christopher M Yip, Rodrigo Fernandez-Gonzalez
Embryos extend their anterior-posterior (AP) axis in the conserved process of axis elongation. Drosophila axis elongation occurs in an epithelial monolayer, the germband, and is driven by cell intercalation, cell shape changes, and oriented cell divisions at the posterior germband. Anterior germband cells also divide during axis elongation. We developed image analysis and pattern recognition methods to track dividing cells from confocal microscopy movies in a generally-applicable approach. Mesectoderm cells, forming the ventral midline, divided parallel to the AP axis, while lateral cells displayed a uniform distribution of division orientations...
February 17, 2017: Development
https://www.readbyqxmd.com/read/28205312/essential-roles-of-tbx3-in-embryonic-skin-development-during-epidermal-stratification
#11
Ryo Ichijo, Yui Iizuka, Hirokazu Kubo, Fumiko Toyoshima
Stepwise differentiation of epidermal cells is essential for development of stratified epithelium, but the underlying mechanisms remain unclear. Here, we show that Tbx3, a member of the T-box family of transcription factors, plays a pivotal role in this mechanism. Tbx3 is expressed in both basal and suprabasal cells in the interfollicular epidermis of mouse embryos. Epidermis-specific Tbx3 conditional knockout (cKO) embryos are small in size and display a thinner epidermis with an impaired barrier function...
February 16, 2017: Genes to Cells: Devoted to Molecular & Cellular Mechanisms
https://www.readbyqxmd.com/read/28202734/proper-division-plane-orientation-and-mitotic-progression-together-allow-normal-growth-of-maize
#12
Pablo Martinez, Anding Luo, Anne Sylvester, Carolyn G Rasmussen
How growth, microtubule dynamics, and cell-cycle progression are coordinated is one of the unsolved mysteries of cell biology. A maize mutant, tangled1, with known defects in growth and proper division plane orientation, and a recently characterized cell-cycle delay identified by time-lapse imaging, was used to clarify the relationship between growth, cell cycle, and proper division plane orientation. The tangled1 mutant was fully rescued by introduction of cortical division site localized TANGLED1-YFP. A CYCLIN1B destruction box was fused to TANGLED1-YFP to generate a line that mostly rescued the division plane defect but still showed cell-cycle delays when expressed in the tangled1 mutant...
March 7, 2017: Proceedings of the National Academy of Sciences of the United States of America
https://www.readbyqxmd.com/read/28202453/parenchymatous-cell-division-characterizes-the-fungal-cortex-of-some-common-foliose-lichens
#13
William B Sanders, Asunción de Los Ríos
PREMISE OF THE STUDY: Lichen-forming fungi produce diverse vegetative tissues, some closely resembling those of plants. Yet it has been repeatedly affirmed that none is a true parenchyma, in which cellular compartments are subdivided from all adjacent neighbors by cross walls adjoining older cross walls. METHODS: Using transmission electron microscopy (TEM), we tested this assumption by examining patterns of septum formation in the parenchyma-like cortex of three lichens of different phylogenetic affinities: Sticta canariensis, Leptogium cyanescens, and Endocarpon pusillum...
February 15, 2017: American Journal of Botany
https://www.readbyqxmd.com/read/28191668/inflammatory-demyelination-induces-ependymal-modifications-concomitant-to-activation-of-adult-svz-stem-cell-proliferation
#14
Fereshteh Pourabdolhossein, Sara Gil-Perotín, Paula Garcia-Belda, Aurelien Dauphin, Sabah Mozafari, Vanja Tepavcevic, Jose Manuel Garcia Verdugo, Anne Baron-Van Evercooren
Ependymal cells (E1/E2) and ciliated B1cells confer a unique pinwheel architecture to the ventricular surface of the subventricular zone (SVZ), and their cilia act as sensors to ventricular changes during development and aging. While several studies showed that forebrain demyelination reactivates the SVZ triggering proliferation, ectopic migration, and oligodendrogenesis for myelin repair, the potential role of ciliated cells in this process was not investigated. Using conventional and lateral wall whole mount preparation immunohistochemistry in addition to electron microscopy in a forebrain-targeted model of experimental autoimmune encephalomyelitis (tEAE), we show an early decrease in numbers of pinwheels, B1 cells, and E2 cells...
February 13, 2017: Glia
https://www.readbyqxmd.com/read/28174250/direct-conversion-of-root-primordium-into-shoot-meristem-relies-on-timing-of-stem-cell-niche-development
#15
Olga Rosspopoff, Liudmila Chelysheva, Julie Saffar, Lena Lecorgne, Delphine Gey, Erwann Caillieux, Vincent Colot, François Roudier, Pierre Hilson, Richard Berthomé, Marco Da Costa, Philippe Rech
To understand how the identity of an organ can be switched, we studied the transformation of lateral root primordia (LRP) into shoot meristems in Arabidopsis root segments. In this system, the cytokinin-induced conversion does not involve the formation of callus-like structures. Detailed analysis showed that the conversion sequence starts with a mitotic pause and is concomitant with the differential expression of regulators of root and shoot development. The conversion requires the presence of apical stem cells and only LRP at stages VI or VII can be switched...
February 7, 2017: Development
https://www.readbyqxmd.com/read/28167779/integrity-of-the-human-centromere-dna-repeats-is-protected-by-cenp-a-cenp-c-and-cenp-t
#16
Simona Giunta, Hironori Funabiki
Centromeres are highly specialized chromatin domains that enable chromosome segregation and orchestrate faithful cell division. Human centromeres are composed of tandem arrays of α-satellite DNA, which spans up to several megabases. Little is known about the mechanisms that maintain integrity of the long arrays of α-satellite DNA repeats. Here, we monitored centromeric repeat stability in human cells using chromosome-orientation fluorescent in situ hybridization (CO-FISH). This assay detected aberrant centromeric CO-FISH patterns consistent with sister chromatid exchange at the frequency of 5% in primary tissue culture cells, whereas higher levels were seen in several cancer cell lines and during replicative senescence...
February 6, 2017: Proceedings of the National Academy of Sciences of the United States of America
https://www.readbyqxmd.com/read/28121291/the-invariant-cleavage-pattern-displayed-by-ascidian-embryos-depends-on-spindle-positioning-along-the-cell-s-longest-axis-in-the-apical-plane-and-relies-on-asynchronous-cell-divisions
#17
Rémi Dumollard, Nicolas Minc, Gregory Salez, Sameh Ben Aicha, Faisal Bekkouche, Céline Hebras, Lydia Besnardeau, Alex McDougall
The ascidian embryo is an ideal system to investigate how cell position is determined during embryogenesis. Using 3D timelapse imaging and computational methods we analyzed the planar cell divisions in ascidian early embryos and found that spindles in every cell tend to align at metaphase in the long length of the apical surface except in cells undergoing unequal cleavage. Furthermore, the invariant and conserved cleavage pattern of ascidian embryos was found to consist in alternate planar cell divisions between ectoderm and endomesoderm...
January 25, 2017: ELife
https://www.readbyqxmd.com/read/28119022/quantifying-the-relationship-between-cell-division-angle-and-morphogenesis-through-computational-modeling
#18
Emma Lejeune, Christian Linder
When biological cells divide, they divide on a given angle. It has been shown experimentally that the orientation of cell division angle for a single cell can be described by a probability density function. However, the way in which the probability density function underlying cell division orientation influences population or tissue scale morphogenesis is unknown. Here we show that a computational approach, with thousands of stochastic simulations modeling growth and division of a population of cells, can be used to investigate this unknown...
April 7, 2017: Journal of Theoretical Biology
https://www.readbyqxmd.com/read/28095623/xenopus-as-a-model-for-studies-in-mechanical-stress-and-cell-division
#19
REVIEW
Georgina A Stooke-Vaughan, Lance A Davidson, Sarah Woolner
We exist in a physical world, and cells within biological tissues must respond appropriately to both environmental forces and forces generated within the tissue to ensure normal development and homeostasis. Cell division is required for normal tissue growth and maintenance, but both the direction and rate of cell division must be tightly controlled to avoid diseases of over-proliferation such as cancer. Recent studies have shown that mechanical cues can cause mitotic entry and orient the mitotic spindle, suggesting that physical force could play a role in patterning tissue growth...
January 2017: Genesis: the Journal of Genetics and Development
https://www.readbyqxmd.com/read/28079247/dynamic-location-changes-of-bub1-phosphorylated-h2athr133-with-cenh3-nucleosome-in-maize-centromeric-regions
#20
Handong Su, Yalin Liu, Qianhua Dong, Chao Feng, Jing Zhang, Yang Liu, James A Birchler, Fangpu Han
The genomic stability of all organisms requires precise cell division with proper chromosome orientation. The Bub1-H2Aph-Sgo1 pathway and spindle assembly checkpoint (SAC) components have been identified in yeast and mammals that are important for sister centromere orientation and chromosome segregation. However, their roles in plants are not clear. Maize meiotic mutants and minichromosomes were used to study the role of H2AThr133 phosphorylation and SAC components in sister centromere orientation and chromosome segregation...
January 12, 2017: New Phytologist
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