 | | Vol. 3.37 – 22 September, 2022 |
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| Scientists addressed the lack of knowledge concerning human hepatic development by describing the developmental trajectories of different cell types that make up the human liver at single-cell resolution.
[Nature Cell Biology] |
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| PUBLICATIONSRanked by the impact factor of the journal |
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| Researchers united organoids with organ-on-a-chip technology to unravel disease pathology and develop therapies for autosomal recessive polycystic kidney disease.
[Science Advances] |
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| Investigators reported the development of OptoShroom3, an optogenetic tool that achieved fast spatiotemporal control of apical constriction in mammalian epithelia.
[Nature Communications] |
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| The authors established two strains of patient-derived organoids (PDOs) selected from oxaliplatin-resistant and treatment-naïve CRC patients. To dissect the drug-resistant mechanisms, these colorectal cancer-PDOs were subjected to single-cell RNA sequencing.
[Cellular Oncology] |
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| Scientists used human induced pluripotent stem cell-derived liver organoids to recapitulate and characterize liver pathology following virus exposure.
[iScience] |
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| Researchers identified fibroblast growth factor signaling in feeder-free PSC maintenance as a key factor that determines the differentiation toward cerebral organoids.
[iScience] |
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| “Natural” organoids were obtained by tissue culture from fetal bovine jejunum and enteroids were successfully isolated and cultured from organoids without supplementing exogenous factors and Matrigel.
[Tissue Engineering and Regenerative Medicine] |
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| Investigators presented a method that overcomes the reproducibility and scalability limitations of organoids by using deep-learning-driven analysis for phenotypic drug screens based on highly standardized micropattern-based neural organoids.
[Cell Reports Methods] |
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| Investigators review the role of organoids to decode cancer cell dynamics and tumor microenvironmental complexity with the underlying bi-directional crosstalk.
[International Journal of Cancer] |
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| A program that supports young stem cell companies is launching a new funding opportunity to increase cell therapy manufacturing capacity in Maryland after seeing its state funding more than double.
[MarylandInno] |
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| October 9 – 13, 2022
Cairns, Australia |
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| | Syracuse University – Syracuse, New York, United States |
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| | University of California Santa Cruz – Santa Cruz, California, United States |
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| | European Molecular Biology Laboratory – Barcelona, Spain |
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| | Max Delbrück Center for Molecular Medicine – Berlin, Germany |
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| | Lewis Katz School of Medicine, Temple University – Philadelphia, Pennsylvania, United States |
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