Tonight @ tearoom
States of Non-Arrival
#Live-Elektronik
#Baek/Schwabe Duo × #Cytokinin
Zustand I: #DASOM x WOLFGANG
Baek/Schwabe Duo
Zustand II: In Transit I
#Baek/Schwabe Duo feat. #Cytokinin
Fr. 20.02.2026 @ tearoom
Einlass 19:30 | Beginn 20:00 Uhr
Weberstr. 9 | Stuttgart
States of Non-Arrival
(on distance, translation and suspended time)
Zwei Zustände zeitgenössischer Klangpraxis für Daegeum, Guqin und #Live-Elektronik
#Baek/Schwabe Duo × #Cytokinin
Zustand I: #DASOM x WOLFGANG
Baek/Schwabe Duo
Der erste Zustand des Abends ist dem Duo von Dasom Baek (Daegeum, Sogeum) und Wolfgang Schwabe (Guqin) gewidmet.
Zustand II: In Transit I
#Baek/Schwabe Duo feat. #Cytokinin
Fr. 20.02.2026 @ tearoom
Einlass 19:30 | Beginn 20:00 Uhr
Weberstr. 9 | Stuttgart
Rhythmic #GeneExpression in #plants is crucial for #symbiosis with nutrient-providing bacteria
https://phys.org/news/2024-07-rhythmic-gene-crucial-symbiosis-nutrient.html
Periodic #cytokinin responses in Lotus japonicus #rhizobium infection and nodule development https://www.science.org/doi/10.1126/science.adk5589
"#Legumes thrive in low-nitrogen environments by partnering with #rhizobia, #soil #bacteria that convert atmospheric #nitrogen into #ammonium, a usable form for the plants. These beneficial bacteria are housed in root nodules formed on legume roots."
Legumes thrive in low-nitrogen environments by partnering with rhizobia, soil bacteria that convert atmospheric nitrogen into ammonium, a usable form for the plants. These beneficial bacteria are housed in root nodules formed on legume roots.
Rhythmic #gene_expression in #plants is crucial for #symbiosis with #nutrient-providing #bacteria, study finds.
#legumes #Rhizobium #Lotus #hormone #cytokinin
https://phys.org/news/2024-07-rhythmic-gene-crucial-symbiosis-nutrient.html
Legumes thrive in low-nitrogen environments by partnering with rhizobia, soil bacteria that convert atmospheric nitrogen into ammonium, a usable form for the plants. These beneficial bacteria are housed in root nodules formed on legume roots.
⛓️🌸 Reproductive Arrest 🌸⛓️
Controlling the end of #flowering allows plants to optimise the size of their offspring and maximise resource allocation.
See this review for a beautifully illustrated update on this process in #monocarpic #plants
https://doi.org/10.1093/jxb/erad213
#APETALA2 #auxin #cytokinin #FRUITFULL #inflorescence #meristem #ProliferativeArrest
'The #transcription factor #BnaWRKY10 regulates #cytokinin dehydrogenase #BnaCKX2 to control cytokinin distribution and #seed size in #Brassica napus'
The transcriptional regulator BnaWRKY10b positively regulates expression of the enzyme cytokinin dehydrogenase BnaCKX2 to reduce cytokinin distribution and incr
'The #transcription factor SPL13 mediates #strigolactone suppression of shoot branching by inhibiting #cytokinin synthesis in Solanum lycopersicum'
➡️ Future potential to alter expression of SPL13 to decrease lateral shoots in tomato and increase #yield
SPL13 acts downstream of strigolactone to suppress lateral bud growth by inhibiting cytokinin synthesis, and also participates in the feedback regulation of str
A #haustorium, the invasive organ of parasitic plants, intercepts water and nutrients from host plants.
This #review compares morphogenesis of three types of haustoria in Striga and Cuscuta, taking a closer look at the role of #auxin and #cytokinin 🔎
Compressive #stress shapes the symmetry of #Arabidopsis #root vascular tissue.
#thigmotropism #sensing #signalling #pressure #cytokinin
https://phys.org/news/2023-03-compressive-stress-symmetry-arabidopsis-root.html
The generation and maintenance of tissue boundaries are fundamental to the development of functional organs in both plants and animals. In general, tissue boundaries are initially set among primordial cells, and their shapes and arrangements are refined during subsequent organ growth.
Marc Somssich
tearoom | werkstatt
Lukas VFN 🇪🇺
CellBioNews
Journal of Experimental Botany
