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Search results: 22 item(s) for: Celldance2008     
 Image: Title: Creator: Description:
1. Celldance 2008, 1st Place Image: Human Cell Segregating DNA during Division Celldance 2008, 1st Place Image: Human Cell Segregating DNA during DivisionAlexander Bird (Max Planck Institute of Molecular Cell Biology and Genetics)A human U2OS cell in anaphase. TPX2 protein (green) specifically associates with those microtubules that attach to kinetochores (i.e. k-fibers) Green: TPX2 protein (anti-TPX2 antibody) Red: Kinetochor
2. Celldance 2008, 1st Place Image: Human Cell in Metaphase Celldance 2008, 1st Place Image: Human Cell in MetaphaseAlexander Bird (Max Planck Institute of Molecular Cell Biology and Genetics)A human U2OS cell in metaphase. Purple: Microtubules (anti-alpha-tubulin antibody) Green: DNA (DAPI)
3. Celldance 2008, 1st Place Public Outreach Video: The Golgi Apparatus Celldance 2008, 1st Place Public Outreach Video: The Golgi ApparatusRachid Sougrat (NICHD)In mammalian cells, the very complex architecture of the membrane system makes understanding the interrelationship of the different organelles within the cell difficult. Their dynamic relationship exi
4. Celldance 2008, 1st Place Video: Clathrin-mediated endocytosis Celldance 2008, 1st Place Video: Clathrin-mediated endocytosisJanet Iwasa (Harvard Medical School)This animation shows the process of clathrin-mediated endocytosis of transferrin receptors, focusing on the assembly and disassembly of the clathrin cage.
5. Celldance 2008, 2nd Place Image: Respiratory Fireflies and Currents Celldance 2008, 2nd Place Image: Respiratory Fireflies and CurrentsAlok S Shah (University of Iowa)This image depicts the path traced by quantum dots that were placed on the surface of human airway. The quantum dots were displaced by the movement of motile cilia, and the current formed by the movem
6. Celldance 2008, 2nd Place Video: Microtubule depolymerization as a biological machine Video 7. When Fibrils Celldance 2008, 2nd Place Video: Microtubule depolymerization as a biological machine Video 7. When Fibrils Bind Strongly, a Fibril-Based Coupler Enables Processive Cargo Motion.Ekaterina Grishchuk (University of Colorado, Boulder)This video depicts a model 'experiment' carried out in essentially the same way as in Video 6, except that the protofilament-fibril binding was assumed to be stronger. The cargo moves steadily, driven
7. Celldance 2008, 2nd Place Video: Microtubule Depolymerization as a Biological Machine Video 5. A Ring Celldance 2008, 2nd Place Video: Microtubule Depolymerization as a Biological Machine Video 5. A Ring Coupler Transports a MicrobeadEkaterina Grishchuk (University of Colorado, Boulder)This video shows results from a theoretical analysis of a shortening microtubule end (green) and a ring-shaped coupler (red), which was modeled after the Dam1/DASH kinetochore complex from budding yea
8. Celldance 2008, 2nd Place Video: Microtubule Depolymerization as a Biological Machine Part 6. A Fibril-Based Celldance 2008, 2nd Place Video: Microtubule Depolymerization as a Biological Machine Part 6. A Fibril-Based Coupler: Cargo Fails to Move Processively if the Fibrils Attach Weakly.Ekaterina Grishchuk (University of Colorado, Boulder)This video and part 7 show the results of theoretical work that examines the possibility of processive cargo motion at the end of a shortening microtubule with the help of a coupler that does not enci
9. Celldance 2008, 3rd Place Image: Let's Build a Spindle Celldance 2008, 3rd Place Image: Let's Build a SpindleNasser M Rusan (University of North Carolina, Chapel Hill)Here is a mammalian somatic cell in prophase stained for Tubulin. The cell has formed two robust microtubule asters, which will morph into the poles of the future mitotic spindle.
10. Celldance 2008, 3rd Place Video: Sequential Waves of Retroviral Transmission from Cell to Cell Celldance 2008, 3rd Place Video: Sequential Waves of Retroviral Transmission from Cell to CellJing Jin (Yale University School of Medicine)Fluorescently labeled murine leukemia virus (red) is transferred from infected dynamin-expressing Cos cells (green, to the right) to receptor expressing uninfected target cells (green, to the left). F
11. Celldance 2008, Honorable Mention Image: Loss of Bardet Biedl Syndrome Protein Results in Abnormal Motile Celldance 2008, Honorable Mention Image: Loss of Bardet Biedl Syndrome Protein Results in Abnormal Motile Cilia in Human AirwayAlok S Shah (University of Iowa)Loss of BBS2 causes motile cilia to adopt an abnormal morphology. Image is a scanning electron micrograph of the surface of differentiated airway epithelia from Bbs2-/- mouse trachea. Motile cilia are
12. Celldance 2008, Honorable Mention Image: Localization of Bardet Biedl Syndrome Proteins in Human Airway Celldance 2008, Honorable Mention Image: Localization of Bardet Biedl Syndrome Proteins in Human Airway EpitheliaAlok S Shah (University of Iowa)Localization of BBS2 in differentiated human airway epithelia. The 3-dimensional surface view rendering of a confocal z-series localizes BBS2 (red) to the basal body and within the cilia (acetylated a
13. Celldance 2008, Honorable Mention Image: Localization of Bardet Biedl Syndrome Proteins in Human Airway Celldance 2008, Honorable Mention Image: Localization of Bardet Biedl Syndrome Proteins in Human Airway EpitheliaAlok S Shah (University of Iowa)Localization of BBS2 in differentiated human airway epithelia. The 3-dimensional surface view rendering of a confocal z-series localizes BBS2 (red) to the basal body and within the cilia (acetylated a
14. Celldance 2008, Honorable Mention Image: Loss of Bardet Biedl Syndrome Protein Results in Abnormal Motile Celldance 2008, Honorable Mention Image: Loss of Bardet Biedl Syndrome Protein Results in Abnormal Motile Cilia in Human AirwayAlok S Shah (University of Iowa)Loss of BBS4 causes motile cilia to adopt an abnormal morphology. Image is a transmission electron micrograph of cilia at the apical surface of differentiated airway epithelia from Bbs4-/- mouse trach
15. Celldance 2008, Honorable Mention Image: Loss of Bardet Biedl Syndrome Protein Results in Abnormal Motile Celldance 2008, Honorable Mention Image: Loss of Bardet Biedl Syndrome Protein Results in Abnormal Motile Cilia in Human AirwayAlok S Shah (University of Iowa)Loss of BBS2 causes motile cilia to adopt an abnormal morphology. Image is a scanning electron micrograph of the surface of differentiated airway epithelia from Bbs2-/- mouse trachea. Motile cilia of
16. Celldance 2008, Honorable Mention Image: Blood Clot in Hamster Oocyte Cumulus Complex Celldance 2008, Honorable Mention Image: Blood Clot in Hamster Oocyte Cumulus ComplexPrue Talbot (University of California, Riverside)Clotted red blood cells in an oocyte cumulus complex from a hamster.
17. Celldance 2008, Honorable Mention Image: Budding Yeast Endocytic Cortical Patches Celldance 2008, Honorable Mention Image: Budding Yeast Endocytic Cortical PatchesSandra Lemmon (University of Miami)Budding yeast expressing endocytic cortical patch proteins Sla2-GFP and Abp1-RFP. Cell in upper left corner shows original fluorescence image. A series of Z-sectioned images (0.25-0.3 microns) were ac
18. Celldance 2008, Honorable Mention Public Outreach Video: Synchronized Swimming Mitosis Celldance 2008, Honorable Mention Public Outreach Video: Synchronized Swimming MitosisBenjamin Engel (University of California, San Francisco)We originally made this video for the annual UCSF Tetrad program retreat, but it has since made its way into several college and high school classrooms around the country, and even onto the multimedia
19. Celldance 2008, Honorable Mention Video: MCF10A on Collagen-I Celldance 2008, Honorable Mention Video: MCF10A on Collagen-IGhassan Mouneimne (Harvard Medical School)Mammary epithelial MCF10A cells transitioning from 2D to 3D collagen by grabbing and crawling on collagen-I fibers. scale bar = 50 microns.
20. Celldance 2008, Honorable Mention Video: A 'Lovely' Example of Growth Factor-Induced Membrane Ruffles Celldance 2008, Honorable Mention Video: A 'Lovely' Example of Growth Factor-Induced Membrane Ruffles - ModifiedHongying (Hoy) Shen (Yale University)Description:
Circular dorsal ruffles are dynamic, F-actin-enriched plasma membrane structures that transiently occur on the dorsal surface of fibroblasts in response to mitogenic stimuli such as
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