ちょっとずつきれいなイメージングの画像を集める
Experience our re-scan confocal imagery for yourself!
— Confocal.nl (@confocal_nl) June 30, 2022
HUVECs stained for SPY650 Fast-Act and PK Mito Red. Imaged with RCM2 and 40x 1.4NA objective. pic.twitter.com/MaLmEavZ2H
Neuronal cells under the microscope.
— Hugo Chrost (@chrost_hugo) July 3, 2022
By @AstarMicroscopy #neuroscience #NeuroTwitter #Neurology #biology #Bioinformatics #biochemistry #MedTwitter pic.twitter.com/CbBNnMyfTO
Depth-coded ER (StayGold-KDEL) in a Cos7 cell. Almost no bleaching and the ER seemed quite happy. So far this FP is working really well for us! pic.twitter.com/EWS08fbDfH
— Andy Moore (@aaandmoore) June 30, 2022
Check out our newest paper from postdoc Bisco Hill describing the Mycobacterium marinum actin-based motility factor and its interesting ability to drive lipid droplet movement! https://t.co/6s99eaeRwe pic.twitter.com/kHyXfdDM47
— Matt Welch (@MattWelchLab) June 27, 2022
In @JCellBiol, Ani Michaud, @GoryachevAndrew, George von Dassow, William Bement et al. identify Ect2 and RGA-3/4 as core components of the cortical excitability circuit associated with #cytokinesis. https://t.co/bKotIfJgqB#CellCycle #CellDivision #cytoskeleton pic.twitter.com/s0jpDq47zw
— Rockefeller U. Press (@RockUPress) June 16, 2022
Two neurons sensing each other. And trying to connect:#neuroscience by @rockatscientist pic.twitter.com/zNIF1qGD6x
— 🧠Slava Bobrov (@slava__bobrov) June 15, 2022
I never get tired of watching embryogenesis. GFP chicken embryo, 5 hour incubation timelapse. @NARFroslin @roslininstitute @BBSRC @zeiss_micro pic.twitter.com/PxuSH1d7Uh
— Dr Megan Davey (@twobluechickens) June 9, 2022
We are excited to share our latest paper where we developed an imaging and computational platform BEHAV3D to uncover the mode of action of engineered T cells in patient #cancer #organoids. Out today in Nature Biotechnology. Check out this thread. #immunotherapy #microscopy pic.twitter.com/CdhfKI5aCg
— Dream3D Lab (@Dream3DLab) July 25, 2022
Growing microtubule plus-ends (EB3, orange) and endoplasmic reticulum (KDEL, blue) in a cultured cell. 6 min movie acquired at ~ 1 fps. #TubuleTuesday pic.twitter.com/5DwOkszR9i
— Andy Moore (@aaandmoore) July 13, 2022
This is why we like killing cells with light.#optogenetic induction of #pyroptosis in a single-cell in 3D intestinal organoid-like cultures. pic.twitter.com/ZCTMiMTMOa
— Kateryna Shkarina 🇺🇦 (@kat_shkarina) June 27, 2022
A cell videoed through a microscope. DNA in the nucleus (cyan), the powerhouses/overlords of the cell, mitochondria (yellow), and actin filaments (magenta) are shown.#Science #Biology #CellBiology #Art pic.twitter.com/3v3ysgAdCY
— Dylan Burnette (@MAG2ART) June 26, 2022
With all the incredible technology at @MBLScience #Embryo22 I'm amused that one of my highlights was imaging a Drosophila egg chamber for my first time with DIC. You can see so much! It makes comparative work feel more approachable. pic.twitter.com/KnleIfzmj6
— Audrey Williams (@awilliams_sci) June 21, 2022
The Cerebellum influences sociability & social novelty. Involves Dopamine & DR2 in Purkinje cells
— Alain Chédotal (@AlainChedotal) June 16, 2022
Happy to see it out, submitted 01/2020😱
Amazing work from Laura Cutando et al Valjent lab #IGF Montpellier & @_mameli_ with a little 3D contribution from ushttps://t.co/zDBSijYiDm pic.twitter.com/4r4n2sa1uH
Look at this cell division! 3D Ortho Viewer made with @FijiSc and @pietzscht 's BigVolumeViewer(x3). Cells by @romainGuiet imaged with @LeBIOP's @zeiss_micro LLS7. pic.twitter.com/Jypoqg0tc8
— Nicolas Chiaruttini (@nKiaru) June 16, 2022
Our collection of #openscience gene-edited, fluorescently tagged human iPS cells illuminate cellular structures with unprecedented clarity— helping researchers better understand what makes cells healthy and what goes wrong in disease. 🌟 Find us at #ISSCR2022 #AllenCellCollection pic.twitter.com/QTJQU6UDii
— Allen Institute (@AllenInstitute) June 15, 2022
Glad to report our Translation n’ Tethering Paper is now out in Nature Communications. Check it out here: https://t.co/ao66R5IYJP It's DYNOMITE! Congrats @ccialek, @MorisakiTatsuya, @NingInScience, Gabe Galindo, and the Tai Montgomery lab! pic.twitter.com/WHu1bSVaRX
— Timothy (@tim_stasevich) June 15, 2022
Whoa, the apical surface of this CACO-2BBE cell looks like liquid sloshing around. 🤯
— Matt Tyska (@TyskaLabActual) June 11, 2022
Alt caption: Oomph, oomph, oomph, oomph 🔊🪩
🔬:@MeenderinkLab @VanderbiltCDB @VUCellImaging #cellbiology #realcells #justaconfocal pic.twitter.com/ca3PRH9xk5
This is what cell division of algae looks like:#biology by W. Egmond pic.twitter.com/plgZhKNaqC
— 🧠Slava Bobrov (@slava__bobrov) June 6, 2022
Neuronal growth cones videoed through a DIC microscope.#Science #Biology #CellBiology pic.twitter.com/hlBs6cmJx9
— Dylan Burnette (@MAG2ART) June 2, 2022
Neuronal activity in a zebrafish brain:#neuroscience pic.twitter.com/5liBnExkxJ
— 🧠Slava Bobrov (@slava__bobrov) May 30, 2022
Migrating cell leaves a trail:
— 🧠Slava Bobrov (@slava__bobrov) May 26, 2022
The migrasome is an organelle produced by migrating cells. As cells migrate, they leave long and thin retraction fibers#biology by L. Chen pic.twitter.com/oBJAH66rYC
Happy #FluorescenceFriday! Look at that beautiful neural tube closing 😍. Imaged by the very talented @wang_jianxiong. #DevBio is alive and well @IMBatUQ. pic.twitter.com/VTUuM3tM6k
— Melanie D. White (@MelanieDWhite) May 27, 2022
Dying melanoma cancer cells videoed through a microscope. I find the moment when they finally "pop" quite satisfying.#Science #Biology #CellBiology #Art pic.twitter.com/m11ls1uwWi
— Dylan Burnette (@MAG2ART) May 26, 2022
Researchers investigate the driving forces in the leading edge of a migrating cell. https://t.co/12HXTaeDKU pic.twitter.com/bpCpukrpcU
— eLife - the journal (@eLife) May 30, 2022