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Items: 27

1.

Disruption of the aortic wall by coelomic lining-derived mesenchymal cells accompanies the onset of aortic hematopoiesis.

Arraf AA, De Bruijn MFTR, Schultheiss TM.

Int J Dev Biol. 2017;61(3-4-5):329-335. doi: 10.1387/ijdb.170012ts.

2.

Nkx2.5 marks angioblasts that contribute to hemogenic endothelium of the endocardium and dorsal aorta.

Zamir L, Singh R, Nathan E, Patrick R, Yifa O, Yahalom-Ronen Y, Arraf AA, Schultheiss TM, Suo S, Han JJ, Peng G, Jing N, Wang Y, Palpant N, Tam PP, Harvey RP, Tzahor E.

Elife. 2017 Mar 8;6. pii: e20994. doi: 10.7554/eLife.20994.

3.

Establishment of the Visceral Embryonic Midline Is a Dynamic Process that Requires Bilaterally Symmetric BMP Signaling.

Arraf AA, Yelin R, Reshef I, Kispert A, Schultheiss TM.

Dev Cell. 2016 Jun 20;37(6):571-80. doi: 10.1016/j.devcel.2016.05.018.

4.

Transport of membrane-bound mineral particles in blood vessels during chicken embryonic bone development.

Kerschnitzki M, Akiva A, Shoham AB, Koifman N, Shimoni E, Rechav K, Arraf AA, Schultheiss TM, Talmon Y, Zelzer E, Weiner S, Addadi L.

Bone. 2016 Feb;83:65-72. doi: 10.1016/j.bone.2015.10.009. Epub 2015 Oct 19.

PMID:
26481471
5.

Fgfr2 is required for the expansion of the early adrenocortical primordium.

Häfner R, Bohnenpoll T, Rudat C, Schultheiss TM, Kispert A.

Mol Cell Endocrinol. 2015 Sep 15;413:168-77. doi: 10.1016/j.mce.2015.06.022. Epub 2015 Jun 30.

PMID:
26141512
6.

Wnt signaling orients the proximal-distal axis of chick kidney nephrons.

Schneider J, Arraf AA, Grinstein M, Yelin R, Schultheiss TM.

Development. 2015 Aug 1;142(15):2686-95. doi: 10.1242/dev.123968. Epub 2015 Jun 26.

7.

Collective cell migration of the nephric duct requires FGF signaling.

Attia L, Schneider J, Yelin R, Schultheiss TM.

Dev Dyn. 2015 Feb;244(2):157-67. doi: 10.1002/dvdy.24241. Epub 2014 Dec 30.

8.

Generation of the podocyte and tubular components of an amniote kidney: timing of specification and a role for Wnt signaling.

Grinstein M, Yelin R, Herzlinger D, Schultheiss TM.

Development. 2013 Nov;140(22):4565-73. doi: 10.1242/dev.097063. Epub 2013 Oct 23.

9.

Parallel waves of inductive signaling and mesenchyme maturation regulate differentiation of the chick mesonephros.

Soueid-Baumgarten S, Yelin R, Davila EK, Schultheiss TM.

Dev Biol. 2014 Jan 1;385(1):122-35. doi: 10.1016/j.ydbio.2013.09.026. Epub 2013 Sep 30.

10.

A role for Vg1/Nodal signaling in specification of the intermediate mesoderm.

Fleming BM, Yelin R, James RG, Schultheiss TM.

Development. 2013 Apr;140(8):1819-29. doi: 10.1242/dev.093740.

11.

Analysis of nephric duct specification in the avian embryo.

Attia L, Yelin R, Schultheiss TM.

Development. 2012 Nov;139(22):4143-51. doi: 10.1242/dev.085258. Epub 2012 Oct 3.

12.

Promotion of avian endothelial cell differentiation by GATA transcription factors.

Kamei CN, Kempf H, Yelin R, Daoud G, James RG, Lassar AB, Tabin CJ, Schultheiss TM.

Dev Biol. 2011 May 1;353(1):29-37. doi: 10.1016/j.ydbio.2011.02.016. Epub 2011 Feb 23.

13.

Dynamic positional fate map of the primary heart-forming region.

Cui C, Cheuvront TJ, Lansford RD, Moreno-Rodriguez RA, Schultheiss TM, Rongish BJ.

Dev Biol. 2009 Aug 15;332(2):212-22. doi: 10.1016/j.ydbio.2009.05.570. Epub 2009 Jun 2.

14.

Developmental origin of a bipotential myocardial and smooth muscle cell precursor in the mammalian heart.

Wu SM, Fujiwara Y, Cibulsky SM, Clapham DE, Lien CL, Schultheiss TM, Orkin SH.

Cell. 2006 Dec 15;127(6):1137-50. Epub 2006 Nov 22.

15.

Odd-skipped related 1 is required for development of the metanephric kidney and regulates formation and differentiation of kidney precursor cells.

James RG, Kamei CN, Wang Q, Jiang R, Schultheiss TM.

Development. 2006 Aug;133(15):2995-3004. Epub 2006 Jun 21.

16.
17.

Cell fate specification along the anterior-posterior axis of the intermediate mesoderm.

Barak H, Rosenfelder L, Schultheiss TM, Reshef R.

Dev Dyn. 2005 Apr;232(4):901-14.

18.

The forkhead genes, Foxc1 and Foxc2, regulate paraxial versus intermediate mesoderm cell fate.

Wilm B, James RG, Schultheiss TM, Hogan BL.

Dev Biol. 2004 Jul 1;271(1):176-89.

20.

Nkx2-5 mutation causes anatomic hypoplasia of the cardiac conduction system.

Jay PY, Harris BS, Maguire CT, Buerger A, Wakimoto H, Tanaka M, Kupershmidt S, Roden DM, Schultheiss TM, O'Brien TX, Gourdie RG, Berul CI, Izumo S.

J Clin Invest. 2004 Apr;113(8):1130-7.

21.

Role of heparan sulfate in dextral heart looping in chick.

Yue X, Schultheiss TM, McKenzie EA, Rosenberg RD.

Glycobiology. 2004 Aug;14(8):745-55. Epub 2004 Apr 7.

PMID:
15070861
22.

Patterning of the avian intermediate mesoderm by lateral plate and axial tissues.

James RG, Schultheiss TM.

Dev Biol. 2003 Jan 1;253(1):109-24.

23.

Regulation of avian cardiogenesis by Fgf8 signaling.

Alsan BH, Schultheiss TM.

Development. 2002 Apr;129(8):1935-43.

24.

Requirement of a novel gene, Xin, in cardiac morphogenesis.

Wang DZ, Reiter RS, Lin JL, Wang Q, Williams HS, Krob SL, Schultheiss TM, Evans S, Lin JJ.

Development. 1999 Mar;126(6):1281-94.

25.

A role for bone morphogenetic proteins in the induction of cardiac myogenesis.

Schultheiss TM, Burch JB, Lassar AB.

Genes Dev. 1997 Feb 15;11(4):451-62.

26.

Induction of chick cardiac myogenesis by bone morphogenetic proteins.

Schultheiss TM, Lassar AB.

Cold Spring Harb Symp Quant Biol. 1997;62:413-9. Review. No abstract available.

PMID:
9598376
27.

Induction of avian cardiac myogenesis by anterior endoderm.

Schultheiss TM, Xydas S, Lassar AB.

Development. 1995 Dec;121(12):4203-14.

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