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Vor allem die Marvel Slots erfreuen sich Richard Yong Beliebtheit. - Ähnliche ArtikelReference lists Add a list of references Goldentigercasino, and to record detail pages. Richard Yong | Sydney, Australia | General Manager Tech and Cyber Risk 2nd Line | + connections | View Richard's homepage, profile, activity, articlesTitle: General Manager Tech and Cyber . others named Richard Yong are on LinkedIn. See others named Richard Yong Richard’s public profile badge. Include this LinkedIn profile on other websites. Richard Yong. System Administration Manager at Bank of China (Hong Kong) harshhy.com: System Administration Manager at . Education PhD, , Yale University BS, , Biological Sciences, Indiana University Research Summary We use experimental and computational technologies to determine how signaling pathways, transcription factors, chromatin regulators and small RNAs regulate gene expression in healthy and diseased cells. Our interests range from the basic molecular mechanisms behind gene control to drug. Insulated Lottoknacker.Net Erfahrungen structural and functional units of mammalian gene control. Exploring gene regulation in health and disease. In cancer, disruption of these regulatory chromosome structures occurs at driver oncogenes and contributes to their dysregulation Hnisz et al. These studies provide a foundation for our current studies of the relationships between chromosome structure and gene control in development and disease. Postdocs Isaac Klein and Ann Boija discuss their discovery that cancer therapeutics selectively partition in nuclear condensates. Sabari, B. How Much Have You Seen? We found that MeCP2 is a dynamic component of heterochromatin condensates in cells and that both its DNA-binding domain and its C-terminal intrinsically disordered domain contribute to condensate formation Li et al. Richard A. Mol Cell Pubmed Database. Transcriptional condensates Spiel Hase discovered that large clusters of Billard Kaiserslautern, which we call super-enhancers, regulate genes that play the most prominent roles in cell identity Whyte et al. Our studies have revealed The Jigsaw Puzzle for specific chromosome structures in regulation of gene expression in healthy cells and in cancer. This high-density Richard Yong at super-enhancers was found to exhibit sharp transitions of formation Mad Gamble Ip dissolution, forming as the consequence of a single nucleation event and collapsing when concentrated factors are depleted from chromatin or when nucleation sites are deleted.
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Edit Did You Know? Science — PMID: Postdocs Isaac Klein and Ann Boija discuss their discovery that cancer therapeutics selectively partition in nuclear condensates.
Our studies have revealed roles for specific chromosome structures in regulation of gene expression in healthy cells and in cancer.
We found that DNA loops between the enhancers and core promoters of active genes are formed and maintained by Mediator and cohesin in mammalian cells Kagey et al.
In cancer, disruption of these regulatory chromosome structures occurs at driver oncogenes and contributes to their dysregulation Hnisz et al.
We also discovered that the transcription factor YY1 contributes to enhancer-promoter interactions by forming multimers analogous to the CTCF-CTCF interactions that contribute to chromosome neighborhoods Weintraub et al.
These studies provide a foundation for our current studies of the relationships between chromosome structure and gene control in development and disease.
Kagey, M. J, Bilodeau, S. Mediator and cohesin connect gene expression and chromatin architecture. Dowen, J. Control of cell identity genes occurs in insulated neighborhoods in mammalian chromosomes.
S, Day, D. P, Sigova, A. Activation of proto-oncogenes by disruption of chromosome neighborhoods. Weintraub, A. YY1 is a structural regulator of enhancer-promoter loops.
MeCP2 methyl CpG binding protein 2 is a key component of constitutive heterochromatin, which plays important roles in chromosome maintenance and transcriptional silencing.
Mutations in MeCP2 cause Rett syndrome RTT , a postnatal progressive neurodevelopmental disorder associated with severe mental disability and autism-like symptoms that manifests in girls during early childhood.
We found that MeCP2 is a dynamic component of heterochromatin condensates in cells and that both its DNA-binding domain and its C-terminal intrinsically disordered domain contribute to condensate formation Li et al.
MeCP2 manifests physicochemical properties that selectively concentrate heterochromatin cofactors compared to components of transcriptionally active condensates, and when altered by RTT-causing mutations, is disrupted in its ability to form condensates.
We are now studying the properties of nuclear condensate-promoting proteins such as MeCP2 to determine if their physicochemical properties contribute to the separation of euchromatic and heterochromatic condensates, and thereby ensure transcriptional silencing of heterochromatin.
Li, C. MeCP2 links heterochromatin condensates and neurodevelopmental disease. We are scientists with diverse backgrounds and affiliations that bring rich experience to our laboratory and community.
Our collective training is in basic biology, chemistry, physics, computing and medicine. We strive to contribute to our community and advance a new generation of scientific leaders.
Victoria is a senior neurosurgery resident physician at MGH. She is currently performing a research fellowship in the Young lab characterizing the epigenomic drivers of meningioma formation, with the goal of identifying novel medical treatments for patients with brain tumors.
My goal is to identify altered nuclear condensate properties in disease, including cancer and type 2 diabetes.
I am a cellular and molecular biologist with an emphasis on human genetics, gene regulation, and the genetic basis of human disease.
My current research goals are to identify the master gene regulatory pathways that control human glial cell identity and state, and to use this information to produce superior stem cell-based models of human glia to study neurodegenerative disease.
I am a stem cell and molecular biologist exploring how RNA regulates biomolecular condensates and gene expression in both native and disease states.
I am interested in quantifying the chemical features and properties underlying the complex thermodynamic and kinetic phenomenon of condensate molecular grammar.
I am a molecular biologist who has a background in gene regulation, chromatin biology and epigenetics.
My research focuses on understanding i how RNA regulates transcription by dynamically controlling transcriptional condensates and ii how RNA-mediated control of transcription could be leveraged in treatment of human diseases.
Mediator condensates localize signaling factors to key cell identity genes. Mol Cell Regulation and dysregulation of chromosome structure in cancer.
Ann Rev Cancer Biol. Science , , eaar Schuijers, J. Transcriptional dysregulation of MYC reveals common enhancer-docking mechanism.
Cell Reports Insulated neighborhoods: structural and functional units of mammalian gene control. C, Sharp, P. Transcription factor trapping by RNA in gene regulatory elements.
Wang, Y. Cell — Super-enhancers in the control of cell identity and disease. The New York Times , October 9, Eliot Coffey, Richard Young.
Whitehead Institute, September 8, Richard Young. Whitehead Institute, August 12, Victoria Clark, Isaac Klein.
Whitehead Institute, October 21, Regina Barzilay MIT. Linda Griffith MIT. Anthony Hyman Max Plank Institute. Wendy Salmon Whitehead.
Phillip A. Kimberly Stegmaier Harvard. Tom Volkert Whitehead. Jinghui Zhang St. Thomas Zwaka NYU.