PhD candidate in Plant-Microbe Interactions group in Utrecht University studying the genetics of rhizosphere competence. Bioinformatics & coding lover 👨🏾💻🦠
So excited that our work lead by @beeobanion is out for your reading pleasure @CurrentBiology!
https://t.co/poUoVNWy8J
Please also check out work from our collaborators, @JJSanchezGil and @dejongepmi who discovered a similar mechanism at the same time!
https://t.co/gtcybmGlLL
Our method paper about the techniques to study root responses to microbes and iron deficiency was published online last week 🥳🥳🥳 It was a joyful experience to publish together with @MaxStassen , @Corne_Pieterse and @GStringlis .Please give it a read!https://t.co/v0GQlyMhCE
And independently, @beeobanion and @Slebiomes found that plant-derived inositol acts as a signal that impacts microbial colonization. Thank you two for this inspiring interaction! It's really cool how our findings converge, so please go read their stuff!
https://t.co/bt3AmFU4QL
Excited to announce my first experimental work in the PhD at @utrechtpmi next to my great supervisor @dejongepmi! We found that plant-derived inositol impacts 𝘗𝘴𝘦𝘶𝘥𝘰𝘮𝘰𝘯𝘢𝘴 rhizosphere competence through the 𝘪𝘰𝘭 genes. Go check it out!
https://t.co/85x7cmeTdm
Our manuscript https://t.co/VeICXduKWG among most influential and cited in the field of root exudation (2012-2021) according to analysis by https://t.co/cW9IYe3o4z @utrechtpmi @Corne_Pieterse @UU_Plants
Excited to announce our new paper in Science! @jeffchengore@Daniel_R_Amor
We found that community-level parameters representing species diversity and interactions are sufficient to predict the dynamical behaviors of complex ecological communities.
https://t.co/KISjJsaJR7
In 2020, several research teams showed that tumors are home to various blends of bacteria. And on Thursday, two studies published in the journal Cell found that tumors are also home to many species of fungi. @carlzimmer@nytimes#MyGiftArticle
https://t.co/RnZRldQqLH
The Parafilm Elongase Complex consists of two enantiomeric major subunits, each consisting of a scaffolding subunit and 5 subunits with enzymatic activity. The truncated subunit 1 and subunit 2 are responsable for the majority of the activity.