Thanks for tweeting this @MengChen_Lab! After all of these years we finally got to collaborate on a project! And congratulations to Wei and the team!

New paper! Circadian clocks in the field. Wonderful collaboration with Hiroshi Kudoh at Kyoto University, studying #circadian signalling in a natural plant population. Congrats to first authors Haruki Nishio and @Dodka_ 1/2 @JohnInnesCentre #chronobiology

PhD opportunity in my lab @JohnInnesCentre Ticking clocks, thriving crops: developing climate-resilient crops through circadian biology ⏰ Fully funded for UK students, by @NRPBIODTP. 9 May deadline. Link to apply⬇️ #chronobiology #plantsci https://t.co/COj0DAuhYk

MCDB Major Moreen Ng Awarded the Tom & Joan Steitz RNA Fellowship. To learn more about Moreen's winning essay, visit: https://t.co/agYiFZu7RE Congratulations Moreen!

Fantastic trip to @UmeaPlantSci! Lots of friends, fun, and science.

Congratulations to Craig Crews for being Elected as an AACR Fellow! To learn more, visit: https://t.co/h3uLMi2FzN

Thank you to @CellChemBiol for the opportunity to write this! It was fun to put to paper and maybe it'll resonate with some folks. Shoutouts to @StanfordBiochem @RohatgiLab and @UChiChemistry, and also my dad who can now cite a paper in which I say 'My father was right' 😆

¼ This week’s fanart is from a paper by Wang et al., published recently on Science ° @GendronLab @Yale @YaleMed @MCDB_Yale @Science #biology #research #plant #plantbiology #growth #molecular #art #sciart #digital #yale #researchpaper

Thanks @PlantTeaching for the fantastic write up of the paper! Seasonal flowering and seasonal growth measure light duration differently

Well deserved!!

The bacterial OLE #noncoding RNA is needed for cells to grow on most carbon/energy sources (except glucose or citrate) and to secrete proteins. This find suggests OLE (#ribozyme?) is part of a major regulatory apparatus of many Gram+ species. @PNASNexus https://t.co/nEvzoBL25V

How plant flowering is controlled by daylength is well understood. However, less understood is how daylength controls plant growth. Using some classic photoperiod experiments, @GendronLab reveal the daylength-sensitive metabolic cues that control growth: https://t.co/B14cdmIFxX

Light duty: Distinct molecular pathways control growth, flowering in plants

Researchers found that plants use their circadian clocks to respond to changes in external water and salt levels throughout the day. Controlled by a protein known as ABF, this clock helps plants adapt to extreme conditions such as drought.

Plants distinguish different photoperiods to independently control seasonal flowering and growth @ScienceMagazine from @GendronLab https://t.co/uhpzvQzZiy

Congrats to Qingqing and the rest of the team! Check out our new paper showing plants can sense two seasons simultaneously to control growth and flowering.

Thanks Ant!

Thank you for the kind words! Obviously inspired by the work from @alexwebblab!

Agreed! Fantastic summary of the paper!