A professor at Hokkaido University (Hokudai), working on plant-microbiota interactions. Always searching for students and postdocs to join my group.
Ryohei Thomas Nakano (Hokudai)
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It was lovely to meet and share what we’ve been up to! Happy to be part of Nakano lab alumni! 🤗
Such an honor to be a part of this amazing team!
Finally published!
Our new study in Curr Biol @currentbiology.bsky.social analyzes how CYP707A1 promoter variation drives an evolutionary trade-off between stomatal defense and gas exchange across Brassicaceae species.
Free-access link:
authors.elsevier.com/a/1m7H93QW8S...
Read Nakano's latest review in PCP discussing 'Long-Term Consequences of PTI Activation and Its Manipulation by Root-Associated Microbiota'
🆓 doi.org/10.1093/pcp/...
#PlantMicrobiome
Faculty position in Plant Molecular Biology (Associate Professor or Tenure-Track Assistant Professor) at Aarhus University, Denmark
mbg.au.dk/aktuelt/ledi...
By combining molecular genetics with cell-ablation experiments, we found that vascular cambium stem cells and xylem-identity cells form an interchangeable unit, a stem cell niche. Meticulous work by @xixizhang9001.bsky.social, Ondrej Smetana, Jing Zhang & Xiaoyu Wang 1/x www.pnas.org/doi/10.1073/...
Riyohei Thomas Nakano (@luckystrike1984.bsky.social) is presenting new work about the mechanisms of disease suppressive microbes. Have identified AhcY mutant and looking into downstream effects.
#2025ISMPMI
New members in the lab! RTNakanoLab is growing and is eager to explore the frontiers in the field of plant-microbiota interactions. If you are interested on joining us, do not hesitate to let us know!
Was great visiting Ka-Wai @kawaima.bsky.social at Academia Sinica, Taiwan. Thanks for having me and for all the joyful, fruitful, and productive discussions!!
authors.elsevier.com
The vascular cambium contains bifacial stem cells producing secondary phloem in one
and secondary xylem to the opposite direction. In Arabidopsis r...
Microbiome session at #2025ISMPMI: @dorruss12.bsky.social kicks off the session.
Using barcoded mutant libraries, he identified bacterial colonization genes.
Among them was an efflux pump family - hypothesize that they help commensals survive glucosinolate breakdown products during plant defense.
Ryohei Thomas Nakano (Hokudai)
doi.org
Abstract. In nature, plants are constantly colonized by a massive diversity of microbes engaged in mutualistic, pathogenic or commensal relationships with
Finally published!
Our new study in Curr Biol @currentbiology.bsky.social analyzes how CYP707A1 promoter variation drives an evolutionary trade-off between stomatal defense and gas exchange across Brassicaceae species.
Free-access link:
authors.elsevier.com/a/1m7H93QW8S...
Ryohei Thomas Nakano (Hokudai)
Ákos T Kovács
Ari Pekka Mähönen
Ryohei Thomas Nakano (Hokudai)
Morgan Carter
Kenichi Tsuda
RTNakano Lab Reunion - it’s always good to see the former members of the lab enjoying their life. Gözde and Zoe are doing their PhD with Stan Kopriva and Bart Thomma, stay tuned for their upcoming work!!
Riyohei Thomas Nakano (@luckystrike1984.bsky.social) is presenting new work about the mechanisms of disease suppressive microbes. Have identified AhcY mutant and looking into downstream effects.
#2025ISMPMI
