β¨ Life in motion β¨
π The beating heart of a Xenopus laevis larva at stage 46.
#Xenopus #EvoDevo #DevBio #Science #Neuroscience
04.03.2026 15:58
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β¨ Life in motion β¨
π The beating heart of a Xenopus laevis larva at stage 46.
#Xenopus #EvoDevo #DevBio #Science #Neuroscience
Before thereβs a heartbeat, thereβs this little glowing heart in the neural tube π Chicken neural crest cells in magenta. πΈImage by RocΓo MΓ‘rquez, Strobl-Mazzulla Lab @pstrobl.bsky.social #FluorescentFriday #SciValentine
You can find the full developmental stage series on Xenbase here π
www.xenbase.org/xenbase/anat...
At this stage, the embryos are actively feeding, with a fully developed heart.
β¨ Day 7 post-fertilization β embryos are around stage 46.
πΈβ Follow the development of Xenopus laevis embryos with me!
Read below π
#Xenopus #EvoDevo #DevBio #Science #Neuroscience
New to using Jupyter notebooks for the Allen Brain Cell Atlas?
Join us on Feb. 11 for a beginner-friendly webinar focusing on installation, set-up, and common questions.
Register for the meeting link and recording: https://alleninstitute-org.zoom.us/webinar/register/WN_q0sJzndpRbSZWjrSGblu6A#/
You can find the full developmental stage series on Xenbase here π
www.xenbase.org/xenbase/anat...
β¨ Day 5 post-fertilization β embryos are around stages 39-40.
πΈβ Follow the development of Xenopus laevis embryos with me!
Read below π
#Xenopus #EvoDevo #DevBio #Science #Neuroscience
You can find the full developmental stage series on Xenbase here π
www.xenbase.org/xenbase/anat...
Some embryos show altered development.
β¨ Day 4 post-fertilization β embryos are around stages 37/38.
Obvious heartbeats π, visible blood flow, melanophores along the tail πΈ.
πΈβ Follow the development of Xenopus laevis embryos with me!
Read below π
#Xenopus #EvoDevo #DevBio #Science #Neuroscience
You can find the full developmental stage series on Xenbase here π
www.xenbase.org/xenbase/anat...
β¨ Day 3 post-fertilization β embryos are around stages 25β26 and start showing their first movements.
πΈβ Follow the development of Xenopus laevis embryos with me!
Read below π
#Xenopus #EvoDevo #DevBio #Science #Neuroscience
You can find the full developmental stage series on Xenbase here π
www.xenbase.org/xenbase/anat...
However, embryonic development is not fully synchronizedβsome embryos can still be observed at blastula stages.
β¨ Day 2 post-fertilization: embryos are around stages 17β18.
πΈβ Follow the development of Xenopus laevis embryos with me!
Read below π
#Xenopus #EvoDevo #DevBio #Science #Neuroscience
Fig. 1. IGF2 and Cerberus mRNAs cooperate in ectopic head induction in Xenopus embryos. Embryos were microinjected into the ventral marginal zone of a single blastomere at the 4- to 8-cell stage. (A) Uninjected control sibling at early tailbud stage (n = 81). (B) A single ventral injection of IGF2 mRNA caused a small ectopic head protrusion with a pigmented cement gland on the belly (n = 86, 68 % with ectopic structures). (C) Cerberus mRNA induced a secondary head-like structure (n = 78, 94 % with ectopic heads). (D) Co-injection of IGF2 and Cerberus mRNAs induced a large ectopic head with an expanded cement gland (n = 90, 98 % with ectopic heads). (EβH) Panoramic views of control and injected embryos. Injected mRNA doses per embryo were: Cerberus, 100 pg; IGF2, 2 ng. Results from two experiments. Scale bars are 500 ΞΌm (A-D) and 2 mm (E-H).
Fig. 6. Dominant-negative IGF receptor 1 blocked ectopic head formation by Cerberus mRNA in single ventral injections. (A) Control embryo at stage 24 injected with LacZ (100 pg) mRNA but not stained for Ξ²-galactosidase (n = 50). (B) DN-IGFR (600 pg) and LacZ injected embryos (n = 20, all normal). (C) Cerberus (100 pg) injected embryos with ectopic heads (n = 56, 96 % ectopic heads). (D) DN-IGFR blocked Cerberus ectopic heads (n = 33, 88 % with no ectopic structures, 12 % with small cement glands). (EβF) LacZ staining for (AβD). Scale bar, 500 ΞΌm.
A very curious paper from the De Robertis lab shows how Cerberus - a growth factor that inhibits Wnt signalling, and IGF - a growth factor that activates MAPK signalling, can synergistically induce a new head (aka ectopic archencephalic differentiation) in Xenopus embryos.
doi.org/10.1016/j.cd...
π¨πΏ Not everything in nature is perfect.
Iβll be documenting a recent Xenopus laevis egg laying and following the embryos through their developmental stages.
β¨ Beginning with day 1 after fertilization: the very first hours of Xenopus laevis development.
From the cleavage stage through blastula and early gastrula stages.
πΈβ Follow the development of Xenopus laevis embryos with me!
Read below π
#Xenopus #EvoDevo #DevBio #Science #Neuroscience
First #MicroscopyMonday of 2026 deserves some festive cells.
Merry Christmas & Happy New Year !! β¨π
In my family, Christmas means handmade canelons.
Bones festes!
Weβve highlighted some wonderful images and researchers in our βFeatured imageβ series in 2025. To celebrate, weβre inviting you to vote for your favourite in our image competition!
#FluorescenceFriday
Check them out here: focalplane.biologists.com/2025/12/19/v...
#SnapshotsinNeuroscience | Featured on the #eNeuro blog from Lustig et al., a whole mount view of a young mouse brain with all cortical layer 5 neurons expressing dystonia-related gene Klhl14, highlighted in green.
Photo Credit: Alexander Lammers
https://blog.eneuro.org/2025/11/snapshots_klhl14_gene
Lovely little pre-Christmas present to see this out @natcellbio.nature.com! Some π₯ new results in here since the biorvix incl (1) a new RARE-GFP reporter β³οΈπ, (2) additional NMP quantification π’, (3) no neural tube patterning on RA inhibition π etc. Enjoy! π www.nature.com/articles/s41...
