I am a plant researcher with a focus on genetics and molecular biology, but at heart, I am an explorer. I am fascinated by the interconnectedness of different fields of science and love exploring how ideas from various areas intersect and evolve. Beyond research, I’m passionate about communicating the wonders of science and breaking down complex concepts for a broader audience. With so many exciting areas of study and brilliant minds shaping the field, I’m driven to play my part in helping others appreciate the intricate ways everything works, from the microscopic to the cosmic scale.
Inhibition of the gut ceramidase Asah2 decelerates the vertebrate ageing rate
Jeny Jose
A drought stress-induced MYB transcription factor regulates pavement cell shape in leaves of European aspen (Populus tremula)
Jeny Jose
Loss of MGST1 during fibroblast differentiation enhances vulnerability to oxidative stress in human heart failure
Jeny Jose
Actin Counters Geometry to Guide Plant Cell Division
Jeny Jose
The nucleus follows an internal cellular scale during polarized root hair cell development
Jeny Jose
How infant brains fold: Sulcal deepening is linked to development of sulcal span, thickness, curvature, and microstructure
Jeny Jose, Jawdat Sandakly
Spurring and Siloing: Identity Navigation in Scientific Writing Among Asian Early-Career Researchers
Jeny Jose
Prenatal exposure to environmental stressors alters gut macrophage development and gastrointestinal function of male offspring
Jeny Jose
Conservation and divergence of regulatory architecture in nitrate-responsive plant gene circuits
Jeny Jose
A drought stress-induced MYB transcription factor regulates pavement cell shape in leaves of European aspen (Populus tremula)
This work has now been published in New Phytologist (doi: 10.1111/nph.71399), with its central findings intact: using the SwAsp collection and a GWAS approach, the authors identify and validate MYB305a as a regulator of leaf pavement cell shape complexity in European aspen, linking both drought and climate of origin to cell shape. The revisions, however,…
| Posted on | 16 July 2026 |
Conservation and divergence of regulatory architecture in nitrate-responsive plant gene circuits
This work has now been published in The Plant Cell with no major changes to the scientific findings. The published paper has improved in terms of clarity by explicitly highlighting the exodermis as a key cell layer involved in the regulatory network, sharpening the biological narrative. Methodological details and citations were expanded, enhancing reproducibility and rigor. Supplementary materials are…
| Posted on | 9 June 2025 |






