Alonso-Stepanova Lab

Congrats to Anna Yaschenko on the 6th paper from her dissertation work that is out today. It's a review on plant synthetic promoters that stems from the intro chapter of her PhD thesis. One more to go! https://t.co/9TnXodT50k

We attempted to "clean up" the model of the auxin biosynthesis pathway in Arabidopsis using genetic, pharmacological, and metabolomic approaches. We show that the CYP71A, NIT, AMI, and IAMH gene families are all dispensable for auxin production via IAOx. https://t.co/VhvImSHMPk

And last but not least, Chengsong and Katie's wonderful collaboration with Chase Beisel's group on a new genome editing tool based on targeted DNA ADP-ribosylation, is now published in Nature Biotechnology. https://t.co/sDi5UKZghu

It was a busy summer at the Alonso-Stepanova Lab with four manuscripts now published. Pathy, Mario, and Anna's EBSn ethylene reporter paper is now available in the Plant Biotechnology Journal. https://t.co/hysTNa0sVP

Chengsong's DASH cloning system for high-cargo gene stacking has also been published in the Plant Biotechnology Journal. https://t.co/j8or9YGkPj

The Alonso-Stepanova lab at NC State is hiring a postdoc! Join us to study plant regeneration in Arabidopsis using cutting-edge molecular genetics and synthetic biology. We're looking for a driven and ambitious recent PhD graduate. Apply here: https://t.co/XRUuBRw9OV

Our work points to an undiscovered auxin biosynthesis pathway involving IAOx, particularly active in sur2 mutants. 🔎 Uncovering the genes and metabolic steps of this new route could improve our understanding of IAA synthesis in plants!

In the latest Mario's preprint, we show that the CYP71A, NIT, AMI, and IAMH gene families do not play a role in the IAOx-mediated auxin biosynthesis https://t.co/EBo8g9uXSk

Our genetic and metabolic analysis shows that knocking out the CYP71A, NIT, and AMI gene families doesn't lead to auxin-deficient phenotypes or suppress the high-auxin defects of the sur2 mutant. This questions the physiological role of these genes in auxin production.

Development of this new genetic tool was sparked by a spontaneous discussion at a scientific conference. One two-year NSF EAGER grant to jump-start the work and 5 more years of "side projects" by 18 talented scientists made EBSn possible. https://t.co/yjkfhCepDF

Mario's vitamin C study uncovers an interesting link between this essential metabolite and the regulation of local auxin biosynthesis https://t.co/E9ASVwak6j

Katie Vollen's PhD prelim exam writeup transformed into a nice review article on large DNA manipulation: Way to go, Katie! Beyond a few bases: methods for large DNA insertion and gene targeting in plants - Vollen - 2025 - The Plant Journal - https://t.co/9KD4b0lyVL

If you're struggling to assemble large DNA constructs, check out Chengsong's DASH system, which combines Golden Gate cloning, recombineering, and site-specific recombinases to build multigene constructs of ~100kb. https://t.co/kM5wSAm35G