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all cells to regulate genes and the piRNA pathway in the germline for repression of mobile elements and occasional gene control. This PhD project will capitalize on previous research of the group and
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, Molecular analysis of growth regulation in animals Tutor: David Sabatini,MD/PhD Field of study: Biochemistry, Cell biology, Biology How to apply: At the Institute of Organic Chemistry and Biochemistry
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signals and transcription factor networks govern self-renewal, cell specification, differentiation, and reprogramming is a key step for advances in cell-based therapy and perspectives for medicine. Using
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utilize the microRNA pathway in almost all cells to regulate genes and the piRNA pathway in the germline for repression of mobile elements and occasional gene control. This PhD project will capitalize
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focuses on the development of innovative human mammary organoids as an advanced in vitro model to investigate breast morphogenesis, a fundamental process in mammary gland development and a critical factor
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of mechanical deformation on the structural, electrical, and optoelectronic properties of nanoribbons prepared from 2D materials, mainly graphene and transition metal dichalcogenides. Our teams are part of a
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Neural Network Potential to Meet your Neutral, Charged, Organic, and Elemental-Organic Needs. ChemRxiv2024,. doi:10.26434/chemrxiv-2023-296ch-v3Zhang, S.; Makoś, M. Z.; Jadrich, R. B.; Kraka, E.; Barros, K
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transition metal dichalcogenides. Our teams are part of a larger collaboration, focusing on various aspects of 2D and other nanomaterials and sharing cutting-edge equipment and facilities. Qualifications
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. Commun. 2024, 15, 6539. doi:10.1038/s41467-024-50620-6 Anstine, D.; Zubatyuk, R.; Isayev, O. AIMNet2: A Neural Network Potential to Meet your Neutral, Charged, Organic, and Elemental-Organic Needs
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gland development and a critical factor in breast cancer progression. The aims are to optimize protocols for generating human mammary organoids that faithfully recapitulate key aspects of mammary gland