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[{VerifyArticle user='vbruns' template='Standard' date='11. Juli 2015' page-date='2015' comment='Überprüft, nach Biegl, C.-E., Begegnungen mit der Natur 5; Schäfer U., Molekularbiologie der Zelle' funder='53' }]
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!!!License Information of Images on page
||Image Description||Credit||Artist||License Name||File
| | | | [{Image src='https://www.austria-forum.org/cc/images/slim/by-sa.png' alt='CC BY-SA 3.0' align='center' link='https://www.austria-forum.org/cc/by-sa-30.html' target='_blank'}]| Datei:Axopodium Mikrotubuli.jpg
| Transmission electron microscope image, showing an example of green algae (Chlorophyta). Chlamydomonas reinhardtii is a unicellular flagellate used as a model system in molecular genetics work and flagellar motility studies. This image is a thin x-section cut through the isolated axoneme. Chlamydomonas flagella have the "9+2" structure characteristic of all eukaryotic cells. The axoneme has a central unit containing two single microtubules and nine peripheral doublet microtubules (known as the "9+2"). Dynein sidearms project from the A tubule of each doublet. Also visible in this image are the radial spokes and the inner sheath.| Source and public domain notice at http://remf.dartmouth.edu/imagesindex.html| Dartmouth Electron Microscope Facility, Dartmouth College| [{Image src='https://www.austria-forum.org/cc/images/slim/publicdomain.png' alt='Public domain' align='center' link='https://www.austria-forum.org/cc/public-domain-10.html' target='_blank'}]| Datei:Chlamydomonas TEM 17.jpg
| The Wikimedia Commons logo, SVG version.| Original created by Reidab ( PNG version ) SVG version was created by Grunt and cleaned up by 3247 . Re-creation with SVG geometry features by Pumbaa , using a proper partial circle and SVG geometry features. (Former versions used to be slightly warped.)| Reidab , Grunt , 3247 , Pumbaa| [{Image src='https://www.austria-forum.org/cc/images/slim/by-sa.png' alt='CC BY-SA 3.0' align='center' link='https://www.austria-forum.org/cc/by-sa-30.html' target='_blank'}]| Datei:Commons-logo.svg
| Endothelzellen aus der Inneren Wand (Endothel) von Lungenarterien des Rindes unter dem Mikroskop. Die Zellkerne sind mit DAPI blau markiert. Die Mikrotubuli wurden über einen Antikörper grün markiert. Mit rot fluoreszierendem Phalloidin wurden die Aktinfilamente markiert.| http://rsb.info.nih.gov/ij/images/| | [{Image src='https://www.austria-forum.org/cc/images/slim/publicdomain.png' alt='Public domain' align='center' link='https://www.austria-forum.org/cc/public-domain-10.html' target='_blank'}]| Datei:FluorescentCells.jpg
| Dimeres Kinesin-1 (z.B. KIF5A) bewegt sich entlang eines Protofilamentes, wobei die einzelnen Köpfe alternierend am beta-Tubulin binden.| Eigenes Werk| Kboehm| [{Image src='https://www.austria-forum.org/cc/images/slim/by-sa.png' alt='CC BY-SA 4.0' align='center' link='https://www.austria-forum.org/cc/by-sa-40.html' target='_blank'}]| Datei:Mechanismus der Bewegung eines Kinesinmoleküls entlang eines Mikrotubulus .gif
| Aufbau eukaryotischer Mikrotubuli aus 13 Protofilamenten, ihrerseits zusammengesetzt aus α-und-β-Tubulin-Dimeren| Eigenes Werk , inspired by initial file File:Mikrotubula007.PNG as posted by User:Karol007 in 2006| Qniemiec| [{Image src='https://www.austria-forum.org/cc/images/slim/by-sa.png' alt='CC BY-SA 4.0' align='center' link='https://www.austria-forum.org/cc/by-sa-40.html' target='_blank'}]| Datei:Mikrotubula007 de.png
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