Aug 15, 2024
More animation stuff + a thing I handed out to my cleanup teammates:
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More animation stuff + a thing I handed out to my cleanup teammates:
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Baby Gap
Life is full of give and take – cells and tissues exchange chemicals with each other, often pushing them through tiny channels in cell membranes. There is another way though, making use of the gaps where cells meet in the epithelium – the skin-like barrier that coats many of our tissues – but what controls this paracellular transport is a little mysterious. Here a mesh of epithelial cells (purple) nestles a developing egg cell in a fruit fly ovary. Pictured under a confocal fluorescence microscope, the cells form triangular junctions that expand or contract to create temporary intercellular spaces (green), long enough for yolk-forming proteins to squeeze through to the egg. With a similar mechanism helping chemicals move from the blood into mammalian testes, future work may unravel the role of paracellular transport in human fertility and development too.
Written by John Ankers
Image from work by Jone Isasti-Sanchez and colleagues
Institute of Animal Physiology, University of Münster, Münster, Germany
Image copyright held by the original authors
Research published in Developmental Cell, April 2021
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Some animations from the past 2 days for the short film I’m directing :-) keys were done by me and inbetweens done by one of my lovely teammates
Also this one that is just keys atm
been working on a shit ton of class work this week (this is like half of it) Working with my little blood cell and helper T cell guys arent they cute
idk what my thought process was around the T cells design but uhh puppy :-)
In your animation post, is the character with the teardrop shaped head a red blood cell? They're very cute.
both characters in the animation post are blood cells yes :-)
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Intercellular Immunisation by Justin Empire, Dance music from London, UK on ReverbNation
Intercellular Immunisation
With the Arabidopsis as an example, a team of researchers showed that systemic signals in plants begin with the release of glutamate, which is perceived by glutamate receptor-like ion channels. The ion channels then set off a cascade of changes in calcium ion concentration that propagate through the phloem vasculature and through intercellular channels called plasmodesmata. This glutamate-based long-distance signaling is rapid.
#merozoite 's of #babesiacanis in a #caninebloodsmear: Babesia canis are #intercellular #haemoprotozoa belonging to the family of #piroplasmida e. The babesial organisms are transmitted by the dog #browntick #rhipicephalussanguineus , which are present as #sporozoites in the salivary glands. During their blood meal the sporozoites are passed on to the vertebrate host and attaches itself on the erythrocytic membranes. The parasites enter the RBCs and multiply by asexual reproduction to form merozoites which are seen as leaf like structures. While feeding again the organisms are transferred to the ticks and the organisms enter the gut mucosa and undergo gametogony to form male and female forms which reproduce by sexual and by asexual reproduction to form more sporozoites. And the cycle continues!! Most common babesial organisms seen in canine are Babesia canis and Babesia Gibsoni. Babesia Gibsoni are more smaller, seen as small ring/ circular structures and lack a pyriform shape. Babesia canis on the other hand have large pyriform merozoites and pointed at one end. #vetpathology #vetpath #vetparasitology #veterinaryparasitology #veterinaryparapathologist #bloodparasite #vetcasestudy #vetcases #vetstudies #vetmed #vetmedicine #vetlife #vetknowledge #vetclinicalpathology #vetcliniclife #vetdiagnosis #vetlabdiagnostic https://www.instagram.com/drdashvetpath/p/Bw82BXIh07-/?utm_source=ig_tumblr_share&igshid=15ay9kvz7f12y