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The totality of bacteria, viruses and fungi that exist in and on a multicellular organism forms its natural microbiome. The interactions between the body and these microorganisms significantly ...
And so we’ve been caring about it.” C. elegans under a microscope. / Photo By ГП – Own work, CC BY-SA 4.0, via Wikicommons ...
To solve the problem, some species of nematodes have been known to assemble into bridge-like towers, but it’s been seen only ...
The shape of C. elegans is typically represented as its central body line and reduced to eigenworms 4 that enable quantification e.g. of the motion features and dynamics. However, this approach fails ...
3.2 Data pre-processing The background of the C. elegans images downloaded from Zenodo 15 is masked with black pixels. In some images the masking contains errors with background objects not masked out ...
One of the simplest, most over-studied organisms in the world is the C. elegans nematode. For 13 years, a project called OpenWorm has tried—and utterly failed—to simulate it.
This paper presents the single evaluation of Caenorhabditis Elegans (C. Elegans) by the nanorobotic manipulation system inside an Environmental-Scanning Electron Microscope (E-SEM). C. Elegans has ...
The team examined live embryos of C. elegans using two instruments invented at the MBL: the centrifuge polarizing microscope (CPM), developed by the late MBL Distinguished Scientist Shinya Inoué ...
While accepting the Nobel Prize in Physiology or Medicine this year, molecular biologist Gary Ruvkun spent a few minutes lauding his experimental subject: a tiny worm named Caenorhabditis elegans.
A staple in laboratories worldwide, C. elegans is “an experimental dream,” said one scientist. Caenorhabditis elegans, one millimeter long, has just 959 cells.
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