We just took another step closer to understanding plant grafting! Now we report a new discovery- how warm temp. speeds up graft regeneration!☀️🌱 @BartuschKai@CharlesMelnyk @_SLU @Dev_journal
Check it out!
https://t.co/ZFlJSejVUl
Our paper “High temperature perception in leaves promotes vascular regeneration and graft formation in distant tissues” is now published in @Dev_journal. A huge effort lead by @TSerivichyaswat and @BartuschKai. Thread 👇 1/6
https://t.co/i35DExYTwC
I’m pleased to present my latest work on methods that solves monocot grafting which has been a problem lasting many thousands of years! Thanks everybody for all your helping getting this tremendous work done!
https://t.co/LVLqSH2YVo
“Monocotyledonous plants graft at the embryonic root–shoot interface” our collaborative paper with @greggiereeves@jmhibber et al is out in @Nature. We overturn a dogma and show grafting is possible in monocots. Surprisingly, distantly related monocots graft well to each other.👇
Monocots graft. May be ancestral character of all vascular plants. Useful for discovery science and possibly improving perennial monocot crops. @plantsci@Thepallavisingh@greggiereeves
Monocotyledonous plants graft at the embryonic root–shoot interface https://t.co/NeGQD3TX5e
Monocots graft. May be ancestral character of all vascular plants. Useful for discovery science and possibly improving perennial monocot crops. @plantsci@Thepallavisingh@greggiereeves
Monocotyledonous plants graft at the embryonic root–shoot interface https://t.co/NeGQD3TX5e
SLUPA is pleased to invite to our monthly fika series for Sept- 22nd/15.00! Fill your coffee mugs and join to learn about the effects of collaboration beyond borders on your research!
Zoom Meeting ID: 984 0373 3694
Passcode: rpXv2a
#DYK 48.1% of doctoral graduates in the 🇪🇺 are women ♀️ ?
Women are close to reaching #gender parity among doctoral graduates, but are still under-represented in #STEM👩💻
See the 🆕 #SheFigures infographic & stay tuned for the upcoming full report! 👀
👉https://t.co/uPigu4gHbe
The parasitic plant Phtheirospermum japonicum monitors nitrate levels in its environment to regulate haustorial numbers and the extent of parasitism. Our latest research in bioRxiv. 1/n 🧵👇 https://t.co/fHQahtvOGT
https://t.co/j7MaTGfIJ1 Dear postdocs, you have worked hard to be where you are! Value your accomplishments! Ward off that #impostersyndrome with these #Tips@nature
“Have you ever heard that the #stories we tell ourselves are incredibly important?”
Rosa Goodman,an associate Senior Lecturer @_SLU gives a workshop on how to re-write your story, manage ur mind & change ur thoughts in SLUPA’s online fika on 20th Jan.Join us!
I am very happy that our work on Kinesin-12E in spindle assembly went online. A big thank you to my team and in-house collaborator @ZMBP_Tuebingen @ArvidHema, https://t.co/GBNa8uvG4U @ThePlantCell
CRISPR-TSKO to the power of 6! We simultaneously mutated six genes either ubiquitously or in a specific plant tissue. Mutagenesis efficiencies across all targets were positively correlated irrespective of gRNA position in the vector. Read the preprint on https://t.co/X3nkpoUIKg