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Items: 1 to 20 of 33

1.

Endoderm Jagged induces liver and pancreas duct lineage in zebrafish.

Zhang D, Gates KP, Barske L, Wang G, Lancman JJ, Zeng XI, Groff M, Wang K, Parsons MJ, Crump JG, Dong PDS.

Nat Commun. 2017 Oct 3;8(1):769. doi: 10.1038/s41467-017-00666-6.

2.

Uncovering stem cell differentiation factors for salivary gland regeneration by quantitative analysis of differential proteomes.

Park YJ, Koh J, Kwon JT, Park YS, Yang L, Cha S.

PLoS One. 2017 Feb 3;12(2):e0169677. doi: 10.1371/journal.pone.0169677. eCollection 2017.

3.

ptf1a+ , ela3l- cells are developmentally maintained progenitors for exocrine regeneration following extreme loss of acinar cells in zebrafish larvae.

Schmitner N, Kohno K, Meyer D.

Dis Model Mech. 2017 Mar 1;10(3):307-321. doi: 10.1242/dmm.026633. Epub 2017 Jan 30.

4.

Transcriptional Maintenance of Pancreatic Acinar Identity, Differentiation, and Homeostasis by PTF1A.

Hoang CQ, Hale MA, Azevedo-Pouly AC, Elsässer HP, Deering TG, Willet SG, Pan FC, Magnuson MA, Wright CV, Swift GH, MacDonald RJ.

Mol Cell Biol. 2016 Nov 28;36(24):3033-3047. Print 2016 Dec 15.

5.

A pancreatic exocrine-like cell regulatory circuit operating in the upper stomach of the sea urchin Strongylocentrotus purpuratus larva.

Perillo M, Wang YJ, Leach SD, Arnone MI.

BMC Evol Biol. 2016 May 26;16(1):117. doi: 10.1186/s12862-016-0686-0.

6.

A novel subset of enteric neurons revealed by ptf1a:GFP in the developing zebrafish enteric nervous system.

Uribe RA, Gu T, Bronner ME.

Genesis. 2016 Mar;54(3):123-8. doi: 10.1002/dvg.22927. Epub 2016 Feb 29.

7.

Notch Signaling in Pancreatic Development.

Li XY, Zhai WJ, Teng CB.

Int J Mol Sci. 2015 Dec 30;17(1). pii: E48. doi: 10.3390/ijms17010048. Review.

8.

Transcription factor regulation of pancreatic organogenesis, differentiation and maturation.

Dassaye R, Naidoo S, Cerf ME.

Islets. 2016;8(1):13-34. doi: 10.1080/19382014.2015.1075687. Epub 2015 Sep 24. Review.

9.

Progenitor potential of nkx6.1-expressing cells throughout zebrafish life and during beta cell regeneration.

Ghaye AP, Bergemann D, Tarifeño-Saldivia E, Flasse LC, Von Berg V, Peers B, Voz ML, Manfroid I.

BMC Biol. 2015 Sep 2;13:70. doi: 10.1186/s12915-015-0179-4.

10.

Apoc2 loss-of-function zebrafish mutant as a genetic model of hyperlipidemia.

Liu C, Gates KP, Fang L, Amar MJ, Schneider DA, Geng H, Huang W, Kim J, Pattison J, Zhang J, Witztum JL, Remaley AT, Dong PD, Miller YI.

Dis Model Mech. 2015 Aug 1;8(8):989-98. doi: 10.1242/dmm.019836. Epub 2015 Jun 4.

11.

The basic helix-loop-helix transcription factor E47 reprograms human pancreatic cancer cells to a quiescent acinar state with reduced tumorigenic potential.

Kim S, Lahmy R, Riha C, Yang C, Jakubison BL, van Niekerk J, Staub C, Wu Y, Gates K, Dong DS, Konieczny SF, Itkin-Ansari P.

Pancreas. 2015 Jul;44(5):718-27. doi: 10.1097/MPA.0000000000000328.

12.

Differential levels of Neurod establish zebrafish endocrine pancreas cell fates.

Dalgin G, Prince VE.

Dev Biol. 2015 Jun 1;402(1):81-97. doi: 10.1016/j.ydbio.2015.03.007. Epub 2015 Mar 20.

13.

Fate mapping of ptf1a-expressing cells during pancreatic organogenesis and regeneration in zebrafish.

Wang YJ, Park JT, Parsons MJ, Leach SD.

Dev Dyn. 2015 Jun;244(6):724-35. doi: 10.1002/dvdy.24271. Epub 2015 May 22.

14.

The E3 ubiquitin ligase thyroid hormone receptor-interacting protein 12 targets pancreas transcription factor 1a for proteasomal degradation.

Hanoun N, Fritsch S, Gayet O, Gigoux V, Cordelier P, Dusetti N, Torrisani J, Dufresne M.

J Biol Chem. 2014 Dec 19;289(51):35593-604. doi: 10.1074/jbc.M114.620104. Epub 2014 Oct 29.

15.

Retinoic acid plays an evolutionarily conserved and biphasic role in pancreas development.

Huang W, Wang G, Delaspre F, Vitery Mdel C, Beer RL, Parsons MJ.

Dev Biol. 2014 Oct 1;394(1):83-93. doi: 10.1016/j.ydbio.2014.07.021. Epub 2014 Aug 13.

16.

Ectopic Ptf1a expression in murine ESCs potentiates endocrine differentiation and models pancreas development in vitro.

Nair GG, Vincent RK, Odorico JS.

Stem Cells. 2014 May;32(5):1195-207. doi: 10.1002/stem.1616.

17.

Aldh1-expressing endocrine progenitor cells regulate secondary islet formation in larval zebrafish pancreas.

Matsuda H, Parsons MJ, Leach SD.

PLoS One. 2013 Sep 17;8(9):e74350. doi: 10.1371/journal.pone.0074350. eCollection 2013.

18.

Distinct enhancers of ptf1a mediate specification and expansion of ventral pancreas in zebrafish.

Pashos E, Park JT, Leach S, Fisher S.

Dev Biol. 2013 Sep 15;381(2):471-81. doi: 10.1016/j.ydbio.2013.07.011. Epub 2013 Jul 20.

19.

Specification of hepatopancreas progenitors in zebrafish by hnf1ba and wnt2bb.

Lancman JJ, Zvenigorodsky N, Gates KP, Zhang D, Solomon K, Humphrey RK, Kuo T, Setiawan L, Verkade H, Chi YI, Jhala US, Wright CV, Stainier DY, Dong PD.

Development. 2013 Jul;140(13):2669-79. doi: 10.1242/dev.090993. Epub 2013 May 29.

20.

Translating discovery in zebrafish pancreatic development to human pancreatic cancer: biomarkers, targets, pathogenesis, and therapeutics.

Yee NS, Kazi AA, Yee RK.

Zebrafish. 2013 Jun;10(2):132-46. doi: 10.1089/zeb.2012.0817. Epub 2013 May 17.

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