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Items: 1 to 20 of 48

1.

Endocardial Notch Signaling Promotes Cardiomyocyte Proliferation in the Regenerating Zebrafish Heart through Wnt Pathway Antagonism.

Zhao L, Ben-Yair R, Burns CE, Burns CG.

Cell Rep. 2019 Jan 15;26(3):546-554.e5. doi: 10.1016/j.celrep.2018.12.048.

PMID:
30650349
2.

Failed Progenitor Specification Underlies the Cardiopharyngeal Phenotypes in a Zebrafish Model of 22q11.2 Deletion Syndrome.

Guner-Ataman B, González-Rosa JM, Shah HN, Butty VL, Jeffrey S, Abrial M, Boyer LA, Burns CG, Burns CE.

Cell Rep. 2018 Jul 31;24(5):1342-1354.e5. doi: 10.1016/j.celrep.2018.06.117.

3.

Myocardial Polyploidization Creates a Barrier to Heart Regeneration in Zebrafish.

González-Rosa JM, Sharpe M, Field D, Soonpaa MH, Field LJ, Burns CE, Burns CG.

Dev Cell. 2018 Feb 26;44(4):433-446.e7. doi: 10.1016/j.devcel.2018.01.021.

PMID:
29486195
4.

Complement Receptor C5aR1 Plays an Evolutionarily Conserved Role in Successful Cardiac Regeneration.

Natarajan N, Abbas Y, Bryant DM, Gonzalez-Rosa JM, Sharpe M, Uygur A, Cocco-Delgado LH, Ho NN, Gerard NP, Gerard CJ, MacRae CA, Burns CE, Burns CG, Whited JL, Lee RT.

Circulation. 2018 May 15;137(20):2152-2165. doi: 10.1161/CIRCULATIONAHA.117.030801. Epub 2018 Jan 18.

PMID:
29348261
5.

Unique developmental trajectories and genetic regulation of ventricular and outflow tract progenitors in the zebrafish second heart field.

Paffett-Lugassy N, Novikov N, Jeffrey S, Abrial M, Guner-Ataman B, Sakthivel S, Burns CE, Burns CG.

Development. 2017 Dec 15;144(24):4616-4624. doi: 10.1242/dev.153411. Epub 2017 Oct 23.

6.

Zebrafish heart regeneration: 15 years of discoveries.

González-Rosa JM, Burns CE, Burns CG.

Regeneration (Oxf). 2017 Sep 28;4(3):105-123. doi: 10.1002/reg2.83. eCollection 2017 Jun. Review.

7.

TGF-β Signaling Is Necessary and Sufficient for Pharyngeal Arch Artery Angioblast Formation.

Abrial M, Paffett-Lugassy N, Jeffrey S, Jordan D, O'Loughlin E, Frederick CJ 3rd, Burns CG, Burns CE.

Cell Rep. 2017 Jul 25;20(4):973-983. doi: 10.1016/j.celrep.2017.07.002.

8.

Differential Lectin Binding Patterns Identify Distinct Heart Regions in Giant Danio ( Devario aequipinnatus) and Zebrafish ( Danio rerio) Hearts.

Manalo T, May A, Quinn J, Lafontant DS, Shifatu O, He W, Gonzalez-Rosa JM, Burns GC, Burns CE, Burns AR, Lafontant PJ.

J Histochem Cytochem. 2016 Nov;64(11):687-714. doi: 10.1369/0022155416667928. Epub 2016 Sep 30.

9.

Coordinating cardiomyocyte interactions to direct ventricular chamber morphogenesis.

Han P, Bloomekatz J, Ren J, Zhang R, Grinstein JD, Zhao L, Burns CG, Burns CE, Anderson RM, Chi NC.

Nature. 2016 Jun 30;534(7609):700-4. doi: 10.1038/nature18310.

10.

The AP-1 transcription factor component Fosl2 potentiates the rate of myocardial differentiation from the zebrafish second heart field.

Jahangiri L, Sharpe M, Novikov N, González-Rosa JM, Borikova A, Nevis K, Paffett-Lugassy N, Zhao L, Adams M, Guner-Ataman B, Burns CE, Burns CG.

Development. 2016 Jan 1;143(1):113-22. doi: 10.1242/dev.126136.

11.

Chamber identity programs drive early functional partitioning of the heart.

Mosimann C, Panáková D, Werdich AA, Musso G, Burger A, Lawson KL, Carr LA, Nevis KR, Sabeh MK, Zhou Y, Davidson AJ, DiBiase A, Burns CE, Burns CG, MacRae CA, Zon LI.

Nat Commun. 2015 Aug 26;6:8146. doi: 10.1038/ncomms9146.

12.

Nerves Regulate Cardiomyocyte Proliferation and Heart Regeneration.

Mahmoud AI, O'Meara CC, Gemberling M, Zhao L, Bryant DM, Zheng R, Gannon JB, Cai L, Choi WY, Egnaczyk GF, Burns CE, Burns CG, MacRae CA, Poss KD, Lee RT.

Dev Cell. 2015 Aug 24;34(4):387-99. doi: 10.1016/j.devcel.2015.06.017. Epub 2015 Aug 6.

13.

Chemokine-guided angiogenesis directs coronary vasculature formation in zebrafish.

Harrison MR, Bussmann J, Huang Y, Zhao L, Osorio A, Burns CG, Burns CE, Sucov HM, Siekmann AF, Lien CL.

Dev Cell. 2015 May 26;33(4):442-54. doi: 10.1016/j.devcel.2015.04.001.

14.

Geographic Variation in Zygomaxillary Suture Morphology and its Use in Ancestry Estimation.

Maddux SD, Sporleder AN, Burns CE.

J Forensic Sci. 2015 Jul;60(4):966-73. doi: 10.1111/1556-4029.12774. Epub 2015 Mar 26.

PMID:
25817798
15.

Notch1 acts via Foxc2 to promote definitive hematopoiesis via effects on hemogenic endothelium.

Jang IH, Lu YF, Zhao L, Wenzel PL, Kume T, Datta SM, Arora N, Guiu J, Lagha M, Kim PG, Do EK, Kim JH, Schlaeger TM, Zon LI, Bigas A, Burns CE, Daley GQ.

Blood. 2015 Feb 26;125(9):1418-26. doi: 10.1182/blood-2014-04-568170. Epub 2015 Jan 13.

16.

Development. A crowning achievement for deciphering coronary origins.

Burns CG, Burns CE.

Science. 2014 Jul 4;345(6192):28-9. doi: 10.1126/science.1256866. No abstract available.

PMID:
24994633
17.

Plant community response to loss of large herbivores differs between North American and South African savanna grasslands.

Koerner SE, Burkepile DE, Fynn RW, Burns CE, Eby S, Govender N, Hagenah N, Matchett KJ, Thompson DI, Wilcox KR, Collins SL, Kirkman KP, Knapp AK, Smith MD.

Ecology. 2014 Apr;95(4):808-16.

PMID:
24933802
18.

Loss of a large grazer impacts savanna grassland plant communities similarly in North America and South Africa.

Eby S, Burkepile DE, Fynn RW, Burns CE, Govender N, Hagenah N, Koerner SE, Matchett KJ, Thompson DI, Wilcox KR, Collins SL, Kirkman KP, Knapp AK, Smith MD.

Oecologia. 2014 May;175(1):293-303. doi: 10.1007/s00442-014-2895-9. Epub 2014 Feb 20.

PMID:
24554031
19.

Notch signaling regulates cardiomyocyte proliferation during zebrafish heart regeneration.

Zhao L, Borikova AL, Ben-Yair R, Guner-Ataman B, MacRae CA, Lee RT, Burns CG, Burns CE.

Proc Natl Acad Sci U S A. 2014 Jan 28;111(4):1403-8. doi: 10.1073/pnas.1311705111. Epub 2014 Jan 13.

20.

Heart field origin of great vessel precursors relies on nkx2.5-mediated vasculogenesis.

Paffett-Lugassy N, Singh R, Nevis KR, Guner-Ataman B, O'Loughlin E, Jahangiri L, Harvey RP, Burns CG, Burns CE.

Nat Cell Biol. 2013 Nov;15(11):1362-9. doi: 10.1038/ncb2862. Epub 2013 Oct 27.

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