Amorie, J. R. B. d., Betjes, M. A., Bernink, J. H., Hageman, J. H., Geurts, V. E., Begthel, H., . . . Snippert, H. J. G. Intestinal tuft cell subtypes represent successive stages of maturation driven by crypt-villus signaling gradients. Nature Portfolio.
Chicago Style (17th ed.) CitationAmorie, Julian R. Buissant des, et al. Intestinal Tuft Cell Subtypes Represent Successive Stages of Maturation Driven by Crypt-villus Signaling Gradients. Nature Portfolio.
MLA (9th ed.) CitationAmorie, Julian R. Buissant des, et al. Intestinal Tuft Cell Subtypes Represent Successive Stages of Maturation Driven by Crypt-villus Signaling Gradients. Nature Portfolio.
Warning: These citations may not always be 100% accurate.