The β-globin nuclear compartment in development and erythroid differentiationPALSTRA, Robert-Jan; TOLHUIS, Bas; SPLINTER, Erik et al.Nature genetics. 2003, Vol 35, Num 2, pp 190-194, issn 1061-4036, 5 p.Article

LRF Is an Essential Downstream Target of GATA1 in Erythroid Development and Regulates BIM-Dependent ApoptosisMAEDA, Takahiro; ITO, Keisuke; LUZZATTO, Lucio et al.Developmental cell. 2009, Vol 17, Num 4, pp 527-540, issn 1534-5807, 14 p.Article

Relationship between transient DNA hypomethylation and erythroid differentiation of murine erythroleukemia cellsRAZIN, A; LEVINE, A; KAFRI, T et al.Proceedings of the National Academy of Sciences of the United States of America. 1988, Vol 85, Num 23, pp 9003-9006, issn 0027-8424Article

Carbonic anhydrase I is an early specific marker of normal human erythroid differentiationVILLEVAL, J. L; TESTA, U; VAINCHENKER, W et al.Blood. 1985, Vol 66, Num 5, pp 1162-1170, issn 0006-4971Article

Hypomethylation of DNA derived from purified human erythroid cells correlates with gene activity of the β-globin clusterOPPENHEIM, A; KATZIR, Y; FIBACH, E et al.Blood. 1985, Vol 66, Num 5, pp 1202-1207, issn 0006-4971Article

Preferential associations between co-regulated genes reveal a transcriptional interactome in erythroid cellsSCHOENFELDER, Stefan; SEXTON, Tom; ESKIW, Christopher H et al.Nature genetics. 2010, Vol 42, Num 1, pp 53-61, issn 1061-4036, 9 p.Article

Integrin expression profiles during erythroid differentiationPAPAYNNAOPOULOU, T; BRICE, M.Blood. 1992, Vol 79, Num 7, pp 1686-1694, issn 0006-4971Article

Identification of a ferrireductase required for efficient transferrin-dependent iron uptake in erythroid cellsOHGAMI, Robert S; CAMPAGNA, Dean R; GREER, Eric L et al.Nature genetics. 2005, Vol 37, Num 11, pp 1264-1269, issn 1061-4036, 6 p.Article

Glucose uptake by rat erythroid cells : the effects of erythropoietin and dexamethasoneBILLAT, C; JACQUOT, R.Experimental hematology. 1992, Vol 20, Num 7, pp 925-929, issn 0301-472XArticle

Influence of histone H5 on mononucleosome structure during differentiation in the avian erythroid seriesHAYE, K. R; SCHLEGEL, R. A.Experimental cell research. 1985, Vol 157, Num 2, pp 504-510, issn 0014-4827Article

Acquired pure red cell aplasiaAMMUS, S. S; YUNIS, A. A.American journal of hematology. 1987, Vol 24, Num 3, pp 311-326, issn 0361-8609Article

Erythroid/Myeloid Progenitors and Hematopoietic Stem Cells Originate from Distinct Populations of Endothelial CellsCHEN, Michael J; YAN LI; DE OBALDIA, Maria Elena et al.Cell stem cell. 2011, Vol 9, Num 6, pp 541-552, issn 1934-5909, 12 p.Article

The role of transcription factors in erythroid developmentBUNGERT, J; ENGEL, J. D.Annals of medicine (Helsinki). 1996, Vol 28, Num 1, pp 47-55, issn 0785-3890Article

Erythroid-specific nuclease-hypersensitivie sites flanking the human β-globin domainDHAR, V; NANDI, A; SCHILDKRAUT, C. L et al.Molecular and cellular biology (Print). 1990, Vol 10, Num 8, pp 4324-4333, issn 0270-7306Article

Kidney cell lysates contain an activity that stimulates mature erythroid burst-forming-unit (mBFU-E) proliferationROYET, J; MOUCHIROUD, G; ARNAUD, S et al.Blood. 1990, Vol 76, Num 10, pp 1965-1971, issn 0006-4971Article

Coexpression of embryonic, fetal, and adult globins in erythroid cells of human embryos: relevance to the cell-lineage models of globin switchingSTAMATOYANNOPOULOS, G; CONSTANTOULAKIS, P; BRICE, M et al.Developmental biology (Print). 1987, Vol 123, Num 1, pp 191-197, issn 0012-1606Article

Inhibition of hemoglobin accumulation by monoclonal antibodies to the human transferrin receptor is reversed by heminVIOLA, L; BIAGINI, R; BARBIERI, R et al.Experimental hematology. 1987, Vol 15, Num 11, pp 1145-1152, issn 0301-472XArticle

The miR-144/451^eGFP allele, a novel tool for resolving the erythroid potential of hematopoietic precursorsRASMUSSEN, Kasper D; O'CARROLL, Dónal.Blood. 2011, Vol 118, Num 11, pp 2988-2992, issn 0006-4971, 5 p.Article

Identification of an alternate δ-globin mRNA in adult human erythroid cellsGOH, Sung-Ho; JACKSON, Kaedrea A; LEE, Y. Terry et al.Genomics (San Diego, Calif.). 2004, Vol 84, Num 2, pp 431-434, issn 0888-7543, 4 p.Article

Tissue-specific regulation of iron metabolism and heme synthesis : Distinct control mechanisms in erythroid cellsPONKA, P.Blood. 1997, Vol 89, Num 1, pp 1-25, issn 0006-4971Article

Erythropoietin receptor : subunit structure and activationD'ANDREA, A. D; ZON, L. I.The Journal of clinical investigation. 1990, Vol 86, Num 3, pp 681-687, issn 0021-9738Article

Characterization of «fetal-type» acetylcholinesterase in hemin-treated k562 cell culture. CommentaryBARTHA, E; OLAH, E; SZELENYI, J. G et al.Blood cells. 1987, Vol 12, Num 3, pp 647-655, issn 0340-4684, 8 p.Article

Cytochemical method for demonstrating magnesium-activated adenosine triphosphatase in haemic cellsKHALAF, M. R; HAYHOE, F. G. J.Acta haematologica. 1987, Vol 77, Num 3, pp 166-169, issn 0001-5792Article

γ-interferon alters globin gene expression in neonatal and adult erythroid cellsMILLER, B. A; PERRINE, S. P; ANTOGNETTI, G et al.Blood. 1987, Vol 69, Num 6, pp 1674-1681, issn 0006-4971Article

Global transcription analysis of immature avian erythrocytic progenitors: from self-renewal to differentiationDAMIOLA, Francesca; KEIME, Céline; GONIN-GIRAUD, Sandrine et al.Oncogene (Basingstoke). 2004, Vol 23, Num 46, pp 7628-7643, issn 0950-9232, 16 p.Article