🧬 Early gastric cancer cells can grow on their own.
Excited to share our new work published in Molecular Cancer: https://t.co/et3EqBXU3n
We show that MAPK activation (KRAS/HER2) drives autonomous WNT signaling via WNT7B, allowing gastric cancer cells to escape from their niche.
Today in @CellCellPress!
Scientists at Peking University (@PKU1898) detailed the spatiotemporal and genetic lineage differentiation of the endoderm at single-cell resolution.
🔎 Discover their findings: https://t.co/sgaLmZz0YN
Thrilled to share that our paper https://t.co/rHqjGXGRVk is featured in a fantastic Nature News & Views piece by @ThomasTueting! 🎉 Grateful for the spotlight on our research and its impact on understanding cancer immunology. https://t.co/jsGF3MzRHW 👀👉 https://t.co/uJ55116T55
Postdoc position in Singapore! RNA modifications and epitranscriptomics for cell fate reprogramming. :) For more details, please visit Jon's lab webpage. 😊
https://t.co/fMgbVERpj6
Tomo Mizutani & Matteo Boretto selected 4 spontaneous colon #cancer mutations by sequential withdrawal of growth factors from mismatch repair-deficient #organoids. Mutations resemble those of Lynch syndrome & MSI-H patients tumors. https://t.co/FKokUczHGk
#Cellsize is important for many cellular processes, including biosynthesis, organelle homeostasis and development. If you need an overview of how cell size is controlled, and how it affects cell function, we have you covered: https://t.co/oSmHKzWzMv @YagyaChadha@arohikhurana1
Super happy to share that our paper is published in @Nature today! We've discovered how the breast is protected against tumor initiation—though it comes at a cost. 📰Read all about it here: https://t.co/VmJdPNt7AW 🏥@vib_ccb@Onco_KULeuven@NKI_nl@vanRheenen_Lab@BenSimons_Lab
Much of the impact of alternative splicing is mediated by nonsense-mediated decay-induced changes in gene expression rather than diversification of the proteome @NatureGenet@yang_i_li
https://t.co/r5MfnmC1I2
Do you know how the injury response is resolved after regeneration? We found a nuclear regulator Phf16 that reinstates homeostasis after tissue regeneration upon intestinal injury. Find more details from the following link: https://t.co/SUR9uiVfS7
Do you know how the injury response is resolved after regeneration? We found a nuclear regulator Phf16 that reinstates homeostasis after tissue regeneration upon intestinal injury. Find more details from the following link: https://t.co/SUR9uiVfS7
Beyond elated to drop our new hit on the latest @CellStemCell album: “Zero to Hero: ERRgamma trains gastric stem cells to be parietal cells”. Using new mouse models and cell lines, we explore how ERRg regulates acid-secreting parietal cells regeneration from stem cells!!
Today in @Science_Magazine we report the laboratory evolution of compact degrons that enable targeted protein degradation triggered by an otherwise-inert small molecule, a multidisciplinary study that integrates organic chemistry, molecular glues, protein evolution, genome editing, and structural biology.
PDF: https://t.co/cCVLKL0w8Y
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