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Items: 1 to 20 of 135

1.

"Maturational" globin switching in primary primitive erythroid cells.

Kingsley PD, Malik J, Emerson RL, Bushnell TP, McGrath KE, Bloedorn LA, Bulger M, Palis J.

Blood. 2006 Feb 15;107(4):1665-72. Epub 2005 Nov 1.

2.

A transient definitive erythroid lineage with unique regulation of the β-globin locus in the mammalian embryo.

McGrath KE, Frame JM, Fromm GJ, Koniski AD, Kingsley PD, Little J, Bulger M, Palis J.

Blood. 2011 Apr 28;117(17):4600-8. doi: 10.1182/blood-2010-12-325357. Epub 2011 Mar 4.

3.

Yolk sac-derived primitive erythroblasts enucleate during mammalian embryogenesis.

Kingsley PD, Malik J, Fantauzzo KA, Palis J.

Blood. 2004 Jul 1;104(1):19-25. Epub 2004 Mar 18.

4.

Haemoglobin switching in human embryos: asynchrony of zeta----alpha and epsilon----gamma-globin switches in primitive and definite erythropoietic lineage.

Peschle C, Mavilio F, Carè A, Migliaccio G, Migliaccio AR, Salvo G, Samoggia P, Petti S, Guerriero R, Marinucci M, et al.

Nature. 1985 Jan 17-23;313(5999):235-8.

PMID:
2578614
5.

Ontogeny of erythropoiesis.

Palis J.

Curr Opin Hematol. 2008 May;15(3):155-61. doi: 10.1097/MOH.0b013e3282f97ae1. Review.

PMID:
18391778
6.

Erythropoietin-receptor expression and function during the initiation of murine yolk sac erythropoiesis.

McGann JK, Silver L, Liesveld J, Palis J.

Exp Hematol. 1997 Oct;25(11):1149-57.

PMID:
9328451
7.

Mechanisms of developmental control of transcription in the murine alpha- and beta-globin loci.

Trimborn T, Gribnau J, Grosveld F, Fraser P.

Genes Dev. 1999 Jan 1;13(1):112-24.

8.

Embryonic hemoglobins are expressed in definitive cells.

Luo HY, Liang XL, Frye C, Wonio M, Hankins GD, Chui DH, Alter BP.

Blood. 1999 Jul 1;94(1):359-61.

9.

Ontogeny of erythropoiesis in the mammalian embryo.

McGrath K, Palis J.

Curr Top Dev Biol. 2008;82:1-22. doi: 10.1016/S0070-2153(07)00001-4. Review.

PMID:
18282515
10.

Globin switches in yolk sac-like primitive and fetal-like definitive red blood cells produced from human embryonic stem cells.

Qiu C, Olivier EN, Velho M, Bouhassira EE.

Blood. 2008 Feb 15;111(4):2400-8. Epub 2007 Nov 16.

12.

Genomic footprinting and sequencing of human beta-globin locus. Tissue specificity and cell line artifact.

Reddy PM, Stamatoyannopoulos G, Papayannopoulou T, Shen CK.

J Biol Chem. 1994 Mar 18;269(11):8287-95.

13.

Enucleation of primitive erythroid cells generates a transient population of "pyrenocytes" in the mammalian fetus.

McGrath KE, Kingsley PD, Koniski AD, Porter RL, Bushnell TP, Palis J.

Blood. 2008 Feb 15;111(4):2409-17. Epub 2007 Nov 21.

14.
15.

Hemoglobin switching in Rana/Xenopus erythroid heterokaryons: factors mediating the metamorphic hemoglobin switch are conserved.

Broyles RH, Ramseyer LT, Do TH, McBride KA, Barker JC.

Dev Genet. 1994;15(4):347-55.

PMID:
7923938
16.

Expression of an anti-sickling beta-globin in human erythroblasts derived from retrovirally transduced primitive normal and sickle cell disease hematopoietic cells.

Oh IH, Fabry ME, Humphries RK, Pawliuk R, Leboulch P, Hoffman R, Nagel RL, Eaves C.

Exp Hematol. 2004 May;32(5):461-9.

PMID:
15145214
17.

Coexpression of embryonic, fetal, and adult globins in erythroid cells of human embryos: relevance to the cell-lineage models of globin switching.

Stamatoyannopoulos G, Constantoulakis P, Brice M, Kurachi S, Papayannopoulou T.

Dev Biol. 1987 Sep;123(1):191-7.

PMID:
2442050
20.

Control of the simian fetal hemoglobin switch at the progenitor cell level.

Alter BP, Jackson BT, Lipton JM, Piasecki GJ, Jackson PL, Kudisch M, Nathan DG.

J Clin Invest. 1981 Feb;67(2):458-66.

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