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Skeletal geometry and niche transitions restore organ size and shape during zebrafish fin regeneration
Scott Stewart, Gabriel A. Yette, Heather K. Le Bleu, Astra L. Henner, Joshua A. Braunstein, Jad W. Chehab, Michael J. Harms, Kryn Stankunas
doi: https://doi.org/10.1101/606970
Scott Stewart
1Institute of Molecular Biology
Gabriel A. Yette
1Institute of Molecular Biology
2Department of Biology
Heather K. Le Bleu
1Institute of Molecular Biology
2Department of Biology
Astra L. Henner
1Institute of Molecular Biology
Joshua A. Braunstein
1Institute of Molecular Biology
2Department of Biology
Jad W. Chehab
1Institute of Molecular Biology
Michael J. Harms
1Institute of Molecular Biology
3Department of Chemistry and Biochemistry University of Oregon. 273 Onyx Bridge, 1318 Franklin Blvd, Eugene, OR 97403-1229, Office: (541) 346-7416, Fax: (541) 346-4854
Kryn Stankunas
1Institute of Molecular Biology
2Department of Biology
Posted October 02, 2019.
Skeletal geometry and niche transitions restore organ size and shape during zebrafish fin regeneration
Scott Stewart, Gabriel A. Yette, Heather K. Le Bleu, Astra L. Henner, Joshua A. Braunstein, Jad W. Chehab, Michael J. Harms, Kryn Stankunas
bioRxiv 606970; doi: https://doi.org/10.1101/606970
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