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#generegulation — Public Fediverse posts

Live and recent posts from across the Fediverse tagged #generegulation, aggregated by home.social.

  1. CRISPR crRNA Market in France | Report – IndexBox

    France CRISPR crRNA Market 2026 Analysis and Forecast to 2035 Executive Summary…
    #France #FR #Europe #EU #biopharmamarketreport #Celllineengineering #Chemicalmodificationchemistries #CRISPRcrRNA #forecast #Generegulation(CRISPRi/a) #GMP-compliantnucleicacidmanufacturing #High-throughputgeneticscreens #LC-MS/QCanalyticsforRNA #marketanalysis #Solid-phaseoligonucleotidesynthesis #Targetgeneknockout/knock-in
    europesays.com/france/12741/

  2. 🧬 Could a single metric decode how genes are regulated across cells?

    🔗 Regulation Ratio: A Singular Multi-Omic Measurement of Gene Regulatory Mechanisms. Computational and Structural Biotechnology Journal (CSBJ). DOI: doi.org/10.34133/csbj.0044

    📚 CSBJ - A Science Partner Journal: spj.science.org/journal/csbj

    #GeneRegulation #Genomics #MultiOmics #SystemsBiology #Bioinformatics #ComputationalBiology #MolecularBiology #RNA #GeneExpression #Epigenetics #Transcriptomics

  3. 🧬 Could a single metric decode how genes are regulated across cells?

    🔗 Regulation Ratio: A Singular Multi-Omic Measurement of Gene Regulatory Mechanisms. Computational and Structural Biotechnology Journal (CSBJ). DOI: doi.org/10.34133/csbj.0044

    📚 CSBJ - A Science Partner Journal: spj.science.org/journal/csbj

    #GeneRegulation #Genomics #MultiOmics #SystemsBiology #Bioinformatics #ComputationalBiology #MolecularBiology #RNA #GeneExpression #Epigenetics #Transcriptomics

  4. 🧬 Could a single metric decode how genes are regulated across cells?

    🔗 Regulation Ratio: A Singular Multi-Omic Measurement of Gene Regulatory Mechanisms. Computational and Structural Biotechnology Journal (CSBJ). DOI: doi.org/10.34133/csbj.0044

    📚 CSBJ - A Science Partner Journal: spj.science.org/journal/csbj

    #GeneRegulation #Genomics #MultiOmics #SystemsBiology #Bioinformatics #ComputationalBiology #MolecularBiology #RNA #GeneExpression #Epigenetics #Transcriptomics

  5. 🧬 Could a single metric decode how genes are regulated across cells?

    🔗 Regulation Ratio: A Singular Multi-Omic Measurement of Gene Regulatory Mechanisms. Computational and Structural Biotechnology Journal (CSBJ). DOI: doi.org/10.34133/csbj.0044

    📚 CSBJ - A Science Partner Journal: spj.science.org/journal/csbj

    #GeneRegulation #Genomics #MultiOmics #SystemsBiology #Bioinformatics #ComputationalBiology #MolecularBiology #RNA #GeneExpression #Epigenetics #Transcriptomics

  6. 🧬 Could a single metric decode how genes are regulated across cells?

    🔗 Regulation Ratio: A Singular Multi-Omic Measurement of Gene Regulatory Mechanisms. Computational and Structural Biotechnology Journal (CSBJ). DOI: doi.org/10.34133/csbj.0044

    📚 CSBJ - A Science Partner Journal: spj.science.org/journal/csbj

    #GeneRegulation #Genomics #MultiOmics #SystemsBiology #Bioinformatics #ComputationalBiology #MolecularBiology #RNA #GeneExpression #Epigenetics #Transcriptomics

  7. Climate's Accelerated Evolutionary Pace: Gene Regulation Shifts Fuel Adaptation

    New research shows gene regulation changes, passed down generations, help species adapt to climate change faster than DNA changes alone. Learn how.

    #ClimateAdaptation, #GeneRegulation, #Evolution, #Biodiversity, #EnvironmentalScience

    newsletter.tf/gene-regulation-

  8. Climate's Accelerated Evolutionary Pace: Gene Regulation Shifts Fuel Adaptation

    New research shows gene regulation changes, passed down generations, help species adapt to climate change faster than DNA changes alone. Learn how.

    #ClimateAdaptation, #GeneRegulation, #Evolution, #Biodiversity, #EnvironmentalScience

    newsletter.tf/gene-regulation-

  9. Climate's Accelerated Evolutionary Pace: Gene Regulation Shifts Fuel Adaptation

    New research shows gene regulation changes, passed down generations, help species adapt to climate change faster than DNA changes alone. Learn how.

    #ClimateAdaptation, #GeneRegulation, #Evolution, #Biodiversity, #EnvironmentalScience

    newsletter.tf/gene-regulation-

  10. Climate's Accelerated Evolutionary Pace: Gene Regulation Shifts Fuel Adaptation

    New research shows gene regulation changes, passed down generations, help species adapt to climate change faster than DNA changes alone. Learn how.

    #ClimateAdaptation, #GeneRegulation, #Evolution, #Biodiversity, #EnvironmentalScience

    newsletter.tf/gene-regulation-

  11. Climate's Accelerated Evolutionary Pace: Gene Regulation Shifts Fuel Adaptation

    New research shows gene regulation changes, passed down generations, help species adapt to climate change faster than DNA changes alone. Learn how.

    #ClimateAdaptation, #GeneRegulation, #Evolution, #Biodiversity, #EnvironmentalScience

    newsletter.tf/gene-regulation-

  12. Title: Enhancer Remodeling by OTX2 Directs Specification and Patterning of Mammalian Definitive Endoderm

    🔍 OTX2 is critical for definitive endoderm patterning.

    #OTX2 #DevelopmentalBiology #Endoderm #GeneRegulation #Pub2Post tnyp.me/s3IJY0xx/m

  13. 🌀 How does an embryo’s genome “wake up” and begin steering development on its own?

    🔗 Long-range transcription factor binding sites clustered regions may mediate transcriptional regulation through phase-separation interactions in early human embryo. Computational and Structural Biotechnology Journal, DOI: doi.org/10.1016/j.csbj.2024.09

    📚 CSBJ: csbj.org/

    #GeneRegulation #EmbryonicDevelopment #ChromatinBiology #Epigenetics #DevelopmentalBiology #Genomics #CellBiology

  14. 🌀 How does an embryo’s genome “wake up” and begin steering development on its own?

    🔗 Long-range transcription factor binding sites clustered regions may mediate transcriptional regulation through phase-separation interactions in early human embryo. Computational and Structural Biotechnology Journal, DOI: doi.org/10.1016/j.csbj.2024.09

    📚 CSBJ: csbj.org/

    #GeneRegulation #EmbryonicDevelopment #ChromatinBiology #Epigenetics #DevelopmentalBiology #Genomics #CellBiology

  15. 🌀 How does an embryo’s genome “wake up” and begin steering development on its own?

    🔗 Long-range transcription factor binding sites clustered regions may mediate transcriptional regulation through phase-separation interactions in early human embryo. Computational and Structural Biotechnology Journal, DOI: doi.org/10.1016/j.csbj.2024.09

    📚 CSBJ: csbj.org/

    #GeneRegulation #EmbryonicDevelopment #ChromatinBiology #Epigenetics #DevelopmentalBiology #Genomics #CellBiology

  16. 🌀 How does an embryo’s genome “wake up” and begin steering development on its own?

    🔗 Long-range transcription factor binding sites clustered regions may mediate transcriptional regulation through phase-separation interactions in early human embryo. Computational and Structural Biotechnology Journal, DOI: doi.org/10.1016/j.csbj.2024.09

    📚 CSBJ: csbj.org/

    #GeneRegulation #EmbryonicDevelopment #ChromatinBiology #Epigenetics #DevelopmentalBiology #Genomics #CellBiology

  17. 🌀 How does an embryo’s genome “wake up” and begin steering development on its own?

    🔗 Long-range transcription factor binding sites clustered regions may mediate transcriptional regulation through phase-separation interactions in early human embryo. Computational and Structural Biotechnology Journal, DOI: doi.org/10.1016/j.csbj.2024.09

    📚 CSBJ: csbj.org/

    #GeneRegulation #EmbryonicDevelopment #ChromatinBiology #Epigenetics #DevelopmentalBiology #Genomics #CellBiology

  18. Adenine DNA methylation associated with transcriptionally permissive chromatin is widespread across eukaryotes

    Iyer, L. M., Abhiman, S. & Aravind, L. Natural History of Eukaryotic DNA Methylation Systems, Vol. 101 (Elsevier,…
    #NewsBeep #News #Science #Agriculture #AnimalGeneticsandGenomics #Biomedicine #CancerResearch #epigenetics #Epigenomics #GB #GeneFunction #generegulation #general #HumanGenetics #UK #UnitedKingdom
    newsbeep.com/uk/272070/

  19. Transcriptional interferences ensure one olfactory receptor per ant neuron

    Hanchate, N. K. et al. Single-cell transcriptomics reveals receptor transformations during olfactory neurogenesis. Science 350, 1251–1255 (2015). Article …
    #NewsBeep #News #US #USA #UnitedStates #UnitedStatesOfAmerica #Science #Generegulation #HumanitiesandSocialSciences #multidisciplinary #Neuronaldevelopment #Transcription
    newsbeep.com/us/245073/

  20. Transcriptional interferences ensure one olfactory receptor per ant neuron

    Hanchate, N. K. et al. Single-cell transcriptomics reveals receptor transformations during olfactory neurogenesis. Science 350, 1251–1255 (2015). Article …
    #NewsBeep #News #US #USA #UnitedStates #UnitedStatesOfAmerica #Science #Generegulation #HumanitiesandSocialSciences #multidisciplinary #Neuronaldevelopment #Transcription
    newsbeep.com/us/245073/

  21. Modeling heterogeneity in single-cell perturbation states enhances detection of response eQTLs

    Cohorts We used published data (GEO accession no. GSE162632) to study the effect of 12 h of ex vivo…
    #NewsBeep #News #Genetics #Agriculture #AnimalGeneticsandGenomics #AU #Australia #Biomedicine #CancerResearch #GeneFunction #generegulation #general #HumanGenetics #Science
    newsbeep.com/au/228762/

  22. 🧬 Can cells “remember” their identity without changing their DNA?

    🔗 Epigenetic memory: The role of the crosstalk between histone modifications and DNA methylation. Computational and Structural Biotechnology Journal, DOI: doi.org/10.1016/j.csbj.2025.08

    📚 CSBJ: csbj.org/

    #Epigenetics #Chromatin #GeneRegulation #DNA #MolecularBiology #SyntheticBiology #CellEngineering #Genomics #SystemsBiology #DNAmethylation

  23. 🧬 Can cells “remember” their identity without changing their DNA?

    🔗 Epigenetic memory: The role of the crosstalk between histone modifications and DNA methylation. Computational and Structural Biotechnology Journal, DOI: doi.org/10.1016/j.csbj.2025.08

    📚 CSBJ: csbj.org/

    #Epigenetics #Chromatin #GeneRegulation #DNA #MolecularBiology #SyntheticBiology #CellEngineering #Genomics #SystemsBiology #DNAmethylation

  24. 🧬 Can cells “remember” their identity without changing their DNA?

    🔗 Epigenetic memory: The role of the crosstalk between histone modifications and DNA methylation. Computational and Structural Biotechnology Journal, DOI: doi.org/10.1016/j.csbj.2025.08

    📚 CSBJ: csbj.org/

    #Epigenetics #Chromatin #GeneRegulation #DNA #MolecularBiology #SyntheticBiology #CellEngineering #Genomics #SystemsBiology #DNAmethylation

  25. 🧬 Can cells “remember” their identity without changing their DNA?

    🔗 Epigenetic memory: The role of the crosstalk between histone modifications and DNA methylation. Computational and Structural Biotechnology Journal, DOI: doi.org/10.1016/j.csbj.2025.08

    📚 CSBJ: csbj.org/

    #Epigenetics #Chromatin #GeneRegulation #DNA #MolecularBiology #SyntheticBiology #CellEngineering #Genomics #SystemsBiology #DNAmethylation

  26. 🧬 Can cells “remember” their identity without changing their DNA?

    🔗 Epigenetic memory: The role of the crosstalk between histone modifications and DNA methylation. Computational and Structural Biotechnology Journal, DOI: doi.org/10.1016/j.csbj.2025.08

    📚 CSBJ: csbj.org/

    #Epigenetics #Chromatin #GeneRegulation #DNA #MolecularBiology #SyntheticBiology #CellEngineering #Genomics #SystemsBiology #DNAmethylation

  27. 🌾 New #preprint!
    "Evolutionary Rewiring of Anthocyanin Biosynthesis Pathway in Poaceae" 🎨

    We show how grasses have independently restructured their anthocyanin biosynthesis pathway via:
    🔹 Gene loss
    🔹 Regulatory shifts
    🔹 Convergent evolution

    A case study in how flexible plant metabolic pathways really are.

    🔗 doi.org/10.1101/2025.09.21.677

    #PlantScience #Evolution #Bioinformatics #GeneRegulation #Anthocyanins #Poaceae #OpenScience
    @PuckerLab @samnm

  28. 🌾 New #preprint!
    "Evolutionary Rewiring of Anthocyanin Biosynthesis Pathway in Poaceae" 🎨

    We show how grasses have independently restructured their anthocyanin biosynthesis pathway via:
    🔹 Gene loss
    🔹 Regulatory shifts
    🔹 Convergent evolution

    A case study in how flexible plant metabolic pathways really are.

    🔗 doi.org/10.1101/2025.09.21.677

    #PlantScience #Evolution #Bioinformatics #GeneRegulation #Anthocyanins #Poaceae #OpenScience
    @PuckerLab @samnm

  29. 🌾 New #preprint!
    "Evolutionary Rewiring of Anthocyanin Biosynthesis Pathway in Poaceae" 🎨

    We show how grasses have independently restructured their anthocyanin biosynthesis pathway via:
    🔹 Gene loss
    🔹 Regulatory shifts
    🔹 Convergent evolution

    A case study in how flexible plant metabolic pathways really are.

    🔗 doi.org/10.1101/2025.09.21.677

    #PlantScience #Evolution #Bioinformatics #GeneRegulation #Anthocyanins #Poaceae #OpenScience
    @PuckerLab @samnm

  30. 🌾 New #preprint!
    "Evolutionary Rewiring of Anthocyanin Biosynthesis Pathway in Poaceae" 🎨

    We show how grasses have independently restructured their anthocyanin biosynthesis pathway via:
    🔹 Gene loss
    🔹 Regulatory shifts
    🔹 Convergent evolution

    A case study in how flexible plant metabolic pathways really are.

    🔗 doi.org/10.1101/2025.09.21.677

    #PlantScience #Evolution #Bioinformatics #GeneRegulation #Anthocyanins #Poaceae #OpenScience
    @PuckerLab @samnm

  31. 🌾 New #preprint!
    "Evolutionary Rewiring of Anthocyanin Biosynthesis Pathway in Poaceae" 🎨

    We show how grasses have independently restructured their anthocyanin biosynthesis pathway via:
    🔹 Gene loss
    🔹 Regulatory shifts
    🔹 Convergent evolution

    A case study in how flexible plant metabolic pathways really are.

    🔗 doi.org/10.1101/2025.09.21.677

    #PlantScience #Evolution #Bioinformatics #GeneRegulation #Anthocyanins #Poaceae #OpenScience
    @PuckerLab @samnm

  32. Post-transcriptional #GeneRegulation through #m6A deposition is dysregulated in many diseases. In this #PLOSBiology Unsolved Mystery, Samie Jaffrey &co investigate why the m6A writer complex requires multiple subunits and what roles its individual proteins might have in m6A regulation.
    plos.io/3VjfjWI

  33. Post-transcriptional #GeneRegulation through #m6A deposition is dysregulated in many diseases. In this #PLOSBiology Unsolved Mystery, Samie Jaffrey &co investigate why the m6A writer complex requires multiple subunits and what roles its individual proteins might have in m6A regulation.
    plos.io/3VjfjWI

  34. Post-transcriptional #GeneRegulation through #m6A deposition is dysregulated in many diseases. In this #PLOSBiology Unsolved Mystery, Samie Jaffrey &co investigate why the m6A writer complex requires multiple subunits and what roles its individual proteins might have in m6A regulation.
    plos.io/3VjfjWI

  35. Post-transcriptional #GeneRegulation through #m6A deposition is dysregulated in many diseases. In this #PLOSBiology Unsolved Mystery, Samie Jaffrey &co investigate why the m6A writer complex requires multiple subunits and what roles its individual proteins might have in m6A regulation.
    plos.io/3VjfjWI

  36. Post-transcriptional #GeneRegulation through #m6A deposition is dysregulated in many diseases. In this #PLOSBiology Unsolved Mystery, Samie Jaffrey &co investigate why the m6A writer complex requires multiple subunits and what roles its individual proteins might have in m6A regulation.
    plos.io/3VjfjWI

  37. Profound study on #geneRegulation in E. coli: #transcriptionFactors generally stabilize interaction with RNA polymerase and thus reduce expression range across promoters -> better maintenance of homeostasis. science.org/doi/abs/10.1126/sc

  38. Profound study on #geneRegulation in E. coli: #transcriptionFactors generally stabilize interaction with RNA polymerase and thus reduce expression range across promoters -> better maintenance of homeostasis. science.org/doi/abs/10.1126/sc

  39. Profound study on #geneRegulation in E. coli: #transcriptionFactors generally stabilize interaction with RNA polymerase and thus reduce expression range across promoters -> better maintenance of homeostasis. science.org/doi/abs/10.1126/sc

  40. Profound study on #geneRegulation in E. coli: #transcriptionFactors generally stabilize interaction with RNA polymerase and thus reduce expression range across promoters -> better maintenance of homeostasis. science.org/doi/abs/10.1126/sc

  41. Postdoctoral Research Fellow
    UBC School of Biomedical Engineering

    The SBME at UBC (Canada) is hiring two (2) full-time Postdoctoral Research Fellows in the de Boer Lab for 16 month terms.

    See the full job description on jobRxiv: jobrxiv.org/job/ubc-school-of-

    #biomedicalengineering #generegulation #genomics #mac...
    jobrxiv.org/job/ubc-school-of-