Skip to main content
  • About Us
  • Image Credits
  • Contributor Info
  • RSS
  • Log In
  • Join
  • TwitterTwitter
  • E-Alerts
  • Visit StemJournal

Main menu

  • About
    • Image Credits
    • Contributor Info
    • E-Alerts
  • Chapters
    • Cellular and nuclear reprogramming
    • Ectoderm specification and differentiation
    • Endoderm specification and differentiation
    • Epigenetics
    • Genomics and proteomics
    • Germ cell and somatic stem cell biology in reproduction
    • Manufacturing
    • Mesoderm specification and differentiation
    • Niche biology, homing, and migration
    • Renewal
    • Stem cell immunology
    • Therapeutic prospects
    • Tissue engineering
  • Protocols
    • Ectoderm differentiation
    • Endoderm differentiation
    • Genome editing
    • Mesoderm differentiation
    • Pluripotent stem cells
    • PSC characterization
    • PSC genetic stability
    • Reprogramming
  • Stem Cell COREdinates
    • Core Facility Profiles
      • Boston Children's Hospital Human Neuron Core
      • Boston University Center for Regenerative Medicine iPSC Core
      • Harvard Stem Cell Institute iPS Core Facility
    • Other Resources
  • News & Commentaries
    • Latest News
  • Journal Stream
  • Forums

    Search form

    You are here

    Home

    Biblio

    Author Title [ Type(Desc)] Year
    Filters: Author is van Es, Johan  [Clear All Filters]
    Journal Article
    Kundu, P., Genander, M., Strååt, K., Classon, J., Ridgway, R.A., Tan, E.Hong, Björk, J., Martling, A., van Es, J., Sansom, O.J., et al. (2015). An EphB-Abl signaling pathway is associated with intestinal tumor initiation and growth.Sci Transl Med7, 281ra44.
    • PubMed
    • Google Scholar
    Aden, K., Bartsch, K., Dahl, J., Reijns, M.A.M., Esser, D., Sheibani-Tezerji, R., Sinha, A., Wottawa, F., Ito, G., Mishra, N., et al. (2018). Epithelial RNase H2 Maintains Genome Integrity and Prevents Intestinal Tumorigenesis in Mice.Gastroenterology.
    • PubMed
    • Google Scholar
    Schmitt, M., Schewe, M., Sacchetti, A., Feijtel, D., van de Geer, W.S., Teeuwssen, M., Sleddens, H.F., Joosten, R., van Royen, M.E., van de Werken, H.J.G., et al. (2018). Paneth Cells Respond to Inflammation and Contribute to Tissue Regeneration by Acquiring Stem-like Features through SCF/c-Kit Signaling.Cell Rep24, 2312-2328.e7.
    • PubMed
    • Google Scholar

    Disclaimer | Privacy Policy | StemBook is published by IOS Press, Copyright © 2019
    Copyright 2013 by the Massachusetts General Hospital. Some sections copyright 2008–2009 by The President and Fellows of Harvard College.

    IOS Press logoHSCI logoNIH logoMIND logo


    Creative Commons License
    All content unless otherwise noted is licensed under a Creative Commons Attribution 3.0 Unported License