APA
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Broxmeyer, H. E., Ropa, J., Capitano, M. L., Cooper, S., Racioppi, L., & Sankar, U. (2022). CaMKK2 knockout bone marrow cells collected/processed in low oxygen (Physioxia) suggests CaMKK2 as a hematopoietic stem to progenitor differentiation fate determinant. Stem Cell Reviews and Reports, 18, 2513–2521.
Chicago/Turabian
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Broxmeyer, Hal E, James Ropa, Maegan L Capitano, Scott Cooper, Luigi Racioppi, and Uma Sankar. “CaMKK2 Knockout Bone Marrow Cells Collected/Processed in Low Oxygen (Physioxia) Suggests CaMKK2 as a Hematopoietic Stem to Progenitor Differentiation Fate Determinant.” Stem cell reviews and reports 18 (2022): 2513–2521.
MLA
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Broxmeyer, Hal E., et al. “CaMKK2 Knockout Bone Marrow Cells Collected/Processed in Low Oxygen (Physioxia) Suggests CaMKK2 as a Hematopoietic Stem to Progenitor Differentiation Fate Determinant.” Stem Cell Reviews and Reports, vol. 18, Springer, 2022, pp. 2513–21.
BibTeX Click to copy
@article{broxmeyer2022a,
title = {CaMKK2 knockout bone marrow cells collected/processed in low oxygen (Physioxia) suggests CaMKK2 as a hematopoietic stem to progenitor differentiation fate determinant},
year = {2022},
journal = {Stem cell reviews and reports},
pages = {2513--2521},
publisher = {Springer},
volume = {18},
author = {Broxmeyer, Hal E and Ropa, James and Capitano, Maegan L and Cooper, Scott and Racioppi, Luigi and Sankar, Uma}
}
