Tobias Jores
@TobiasJores
Plant scientist aiming to make plant gene regulation predictable. #EmmyNoether group leader at @hhu_de
Zählen die Attribute, neugierig, creativ, ausdauernd, motiviert, teamfähig zu deiner Persönlichkeitsbeschreibung? Willst du Grundlagen für zukünftige Projekte in Gerste etablieren, dann ist die folgende Ausschreibung hoffentlich interessant. #CPGE @HHU_de tinyurl.com/4nr7j6u2
We are hiring! Postdoc-position an meinem Lehrstuhl @ruhrunibochum verfügbar. Bitte weiterleiten #PlantScienceJobs jobs.ruhr-uni-bochum.de/jobposting/99f…
Super interesting and highly important work for #PlantSynBio Check out this preprint about high-throughput characterization of enhancer-blocking insulators via plant STARR-seq. This is a major step toward making gene expression in stably transformed plants more predictable! 🌱
Out now on biorxiv: We studied the activity of enhancer-blocking insulators in plants and found that they also act as silencers when placed upstream of moderate to weak enhancers. biorxiv.org/cgi/content/sh…
Small DNA elements that act as both insulators and silencers in plants biorxiv.org/cgi/content/sh… #biorxiv_plants
Thrilled to present our collaboration w/ @stergachislab members “The regulatory potential of transposable elements in maize”. Single-molecule Fiber-seq - accurate and sensitive accessibility in maize. New open chromatin regions in LTRs and much more! biorxiv.org/cgi/content/sh…
Climate change be damned! Out in @NatureComms, we interrogated over 54k plant terminator sequences to synthetically design robust terminators for crop engineering. tinyurl.com/d63n894r
Hi everyone! Please find below our latest collaboration paper with @TobiasJores, dissecting light-responsive plant enhancers. Hope you like/enjoy it! #plantsci #enhancers @plantae_org @WURplant
Our paper on the dissection of three light-responsive plant enhancers is out: academic.oup.com/plcell/advance… My favorite finding: the enhancers rely on suboptimal transcription factor binding sites. This is consistent with the beautiful work on animal enhancers from @EKFarley
Our paper on the dissection of three light-responsive plant enhancers is out: academic.oup.com/plcell/advance… My favorite finding: the enhancers rely on suboptimal transcription factor binding sites. This is consistent with the beautiful work on animal enhancers from @EKFarley
Wrote a 1-pager for @NatureRevGenet on how we should stop pretending transcription factor binding sites are a discrete entity. Just like a cup exists in many states between "full" and "empty", TFBSs are continuous. rdcu.be/dzL8o - feat. sweet new paper from @EKFarley
New paper from our group. Congrats, everyone! Plant enhancers exhibit both cooperative and additive interactions among their functional elements doi.org/10.1093/plcell…
Check out our new work!
Plant enhancers exhibit both cooperative and additive interactions among their functional elements (Tobias Jores, Jackson Tonnies, Nicholas A Mueth, Andrés Romanowski, Stanley Fields, Josh T Cuperus, Christine Queitsch) buff.ly/3vlf2t0 @RNAnerd @ASPB #PlantSci