Issitt PD, Anstee DJ. Applied blood group serology. 4th ed. Durham, NC: Montgomery Scientific Publications, 1998:581–607,1188.Search in Google Scholar
Daniels G. Human blood groups. Oxford, England: Blackwell Science, 1995:452–65Search in Google Scholar
Zelinski T. Erythrocyte band 3 antigens and the Diego blood group system. Transfus Med Rev 1998;12:36–45.10.1016/S0887-7963(98)80088-6Search in Google Scholar
Zafar M, Reid ME. Review: the Diego blood group system. Immunohematology 1993;9:35–40.10.21307/immunohematology-2019-954Search in Google Scholar
Layrisse M, Arends T, Dominguez Sisico R. Nuevo grupo sanguineo encontrado en descendientes de Indios. Acta Med Venez 1955;3:132-8.Search in Google Scholar
Levine P, Robinson EA, Layrisse M, Arends T, Dominguez Sisico R. The Diego blood factor. Nature 1956;177:40–1.10.1038/177040b0Search in Google Scholar
Thompson PR, Childers DM, Hatcher DE.Anti-Dib— first and second examples, Vox Sang 1967;13:314–8.10.1159/000466470Search in Google Scholar
Spring FA, Bruce LJ,Anstee DJ,Tanner MJA. A red cell band 3 variant with, altered stilbene disulphonate binding is associated with the Diego (Dia) blood group antigen. Biochem J 1992:288:713–6.10.1042/bj2880713Search in Google Scholar
Bruce LJ, Auster DJ, Spring FA, Tanner MJA. Band 5 Memphis Varient LE Altered stilbene disuitonate binding and the diego (Dib) blood group wright antigens are associated with the human erythrocyte bond 3 mution Pro854→Leu . J Biol chem 1994;269:16155-810.1016/S0021-9258(17)33986-8Search in Google Scholar
Bruce LJ, Ring SM, Anstee DI Reid ME. Wilkinson S. Tanner MJA. Changes in the blood group Wright antigens are associated with a mutation at amino acid 658 in human erythrocyte band 3: a site of interaction between band 3 and glycophorin. A under certain conditions. Blood 1995:85:54110.1182/blood.V85.2.541.bloodjournal852541Search in Google Scholar
Holman CA. A new rare human blood group antigen (Wra). Lancet 1953:ii: 119.10.1016/S0140-6736(53)90058-0Search in Google Scholar
Tanner MJA. The structure and function of band 3 (AE1): recent developments (review). Molec Mem Bio 1997; 14:155–65.10.3109/096876897090481789491367Search in Google Scholar
McAlpine PJ, Shows TB, Povey S, et al. The 1994 catalog of approverd genes and report of the nomenclature committee. In: Cuticchia AJ, ed. Human gene mapping 1994, a compendium. Baltimore, MD:The Johns Hopkins University, 1995:6–147.Search in Google Scholar
Hsu L, Morrison M. A new variant of the anion transport protein in human erythrocytes. Biochemistry 1985;24:3086–90.10.1021/bi00334a0034027230Search in Google Scholar
Adams J, Broviac M, Brooks W. Johnson NR, Issitt P.D. An antibody, in the serum of a Wr(a+) individual, reacting with an antigen of very high frequency. Transfusion 1971; 11:290-1.10.1111/j.1537-2995.1971.tb04416.x5099459Search in Google Scholar
Issitt PD, Pavone BG, Goldfinger D, Zwicker H. An En(a-) red cell sample that types as Wr(a-b-). Transfusion 1975;15:353-5.10.1046/j.1537-2995.1975.15476034557.x1166508Search in Google Scholar
Langley JW, Issitt PD, Anstee DJ, et al. Another individual (JR) whose red blood cells appear to carry a hybrid MNSs sialoglycoprotein. Transfusion 1981; 21:15–24.10.1111/j.1537-2995.1981.tb05654.xSearch in Google Scholar
Venegclen-Tyler V, Anstee DJ, Issitt PD, et al. Studies on the blood, of an Miv homozygote. Transfusion 1981;21: 1–14.10.1111/j.1537-2995.1981.tb05653.xSearch in Google Scholar
Ridgwell K,Tanner MJA.Anstee DJ. The Wrb antigen in Sta-positive and Dantu-positive human erythrocytes. J Immunogenet 1984; 11:365–70.10.1111/j.1744-313X.1984.tb00822.x6085695Search in Google Scholar
Ridgwell K,Tanner MJA,Anstee DJ. The Wrb antigen, a receptor for Plasmodium falciparum malaria, is located on a helical region of the major membrane sialoglycoprotein of human red blood cells. Biochem J 1983;209:273–6.10.1042/bj209027311540856342608Search in Google Scholar
Dahr W, Wilkinson S, Issitt PD, Beyreuther K, Hummel M, Morel P. High frequency antigens of human erythrocyte membrane sialoglycoproteins. III. Studies on the EnaFR. Wrb and Wra antigens Bio chem Hoppe-seyler 1986;367:1033–45.10.1515/bchm3.1986.367.2.10333539140Search in Google Scholar
Readern A phospholiped dependence of Wrb antigen expression in erythrocyte membranes vox Sang 1985:49–346.10.1159/000466404Search in Google Scholar
Telen M.J, Chasis JA. Relationship Of the human erythrocyte Wrb antigen to an interaction between glycophorin A and band 3. Blood 1990:76:842–8.10.1182/blood.V76.4.842.842Search in Google Scholar
Reid ME, Lomas Francis C. The blood group antigen facts book. San Diego. CA: Academic Press. 1997:369–71.Search in Google Scholar
Jarolim P, Rubin HL, Zakova D. Storry J, Reid ME. Characterization of seven low incidence blood group antigens carried by erythrocyte band 3 protein. Blood 1998;92:4836–43.10.1182/blood.V92.12.4836Search in Google Scholar
Jarolim P, Murray JL, Rubin HL, Smart E, Moulds JM. Blood group antigens Rba and Wda are located in the third ectoplasmic loop of erythroid band 3. Transfusion 1997;37:607-15.10.1046/j.1537-2995.1997.37697335155.x9191821Search in Google Scholar
Jarolim R, Murray JL, Rubin HL, Coghlan G, Zelinski T. A Thr552→ Ile substitution in erythroid band 3 gives rise to the Warrior blood group antigen. Transfusion 1997; 37:398–405.10.1046/j.1537-2995.1997.37497265340.x9111277Search in Google Scholar
Zelinski T, Pongoski J, Coghlan G. The low incidence erythrocyte antigen NFLD is associated with membrane protein band 3 (abstract). Transfusion 1997;37(Suppl):90S.Search in Google Scholar
McManus K, Coghlan G, Zelinski T. Substitution(s) in erythrocyte membrane protein, band 3, underlie(s) the BOW and NFLD blood group polymorphisms (abstract). Transfusion 1998;38(Suppl):102S.Search in Google Scholar
Bruce LJ, Zelinski T, Ridgwell K, Tanner MJA. The low-incidence blood group antigen Wda is associated with the substitution Val557→Met in human erythrocyte band 3 (AE1). Vox Sang 1996;71:118–20.10.1046/j.1423-0410.1996.7120118.x8873423Search in Google Scholar
Zelinski T, Rusnak A, McManus K, Coghlan G. A G→A mutation in the anion exchanger 1 gene (AE1) accounts for the Swann blood group polymorphism (abstract).Transfusion 1997;37 (Suppl):89S.Search in Google Scholar
Jarolim R, Zakova D, Malde R, Reid ME. A Pro561 →Ser substitution in erythroid band 3 gives rise to the BOW blood group antigen (abstract). Transfusion 1998;38(Suppl):102S.Search in Google Scholar
Coghlan G, Punter R Zelinski T. The anion exchanger 1 gene (AE1) controls the expression of the low incidence erythrocyte antigens ELO and Wu (abstract). Transfusi on 1996; 36(Suppl) :49S.Search in Google Scholar
Poole J, Hallewell H, Bruce L, Tanner MJA, Zupanska B, Kusnierz-Alejska G. Identification of two new Jn(a+) individuals and assignment of JO2 to erythrocyte band 3 (abstract). Transfusion 1997;37 (Suppl):90S.Search in Google Scholar
Poole J, Bruce LJ. Hallwell H, et al. Erythrocyte band 3 motation. Pro 561→Ser give rise to the BOW and Pro 566→Ala to a Novel antigen KREP (abstract). Transfus Med 1998;(Suppl,1):17.Search in Google Scholar
Kusnierz-Aleiska G, Bochenek S. Haemolytic disease of the newborn due to anti-Dia and incidence of the Dia antigen in Poland. Vox Sang 1992:62:124–6.10.1159/000462181Search in Google Scholar
Masourcdis SR, Sudora E, Mahan L, Victoria EJ. Quantitative immunoferritin microscopy of Fya. Fyb Jka. U and Dia antigen site numbers on human red cells. Blood 1980;56:969–77.10.1182/blood.V56.6.969.969Search in Google Scholar
Biro V, Garratty G, Johnson CL Marsh WL. Depressed blood group antigens on red cells from a Mexican donor. Transfusion 1983:23:65–6.10.1046/j.1537-2995.1983.23183147309.x6187110Search in Google Scholar
Booth PB, Serjeantson S, Woodfield DG, Amato D. Selective depression of blood group antigens associated with hereditary ovalocytosis among Melanesians. Vox Sang 1977;32:99-110.10.1111/j.1423-0410.1977.tb00612.x403680Search in Google Scholar
Wren MR, Issitt PD. Evidence that Wra and Wrb are antithetical. Transfusion 1988;28:113-8.10.1046/j.1537-2995.1988.28288179012.x3281333Search in Google Scholar
Ring SM. An immunochemical investigation of the Wra and Wrb blood group antigens. PhD thesis. London: University of London; 1992.Search in Google Scholar
Poole J, Banks J, Bruce LJ, et al. Glycophorin A mutation Ala65→Pro gives rise to a novel pair of MNS alleles ENEP (MNS39) and HAG (MNS41) and altered Wrb expression: direct evidence for GPA/band 3 interaction necessary for normal Wrb expression. Transfus Med 1999;9:167–74.10.1046/j.1365-3148.1999.00185.x10354388Search in Google Scholar
Jarolim P, Moulds JM, Moulds JJ. Rubin HL, Dahr W Molecular basis of the MARS and AVIS blood group antigens (abstract). Transfusion 1997; 37 (Suppl):90S10.1046/j.1537-2995.1997.37697335155.xSearch in Google Scholar
Woodfield G, Anstec DJ, Levene C, et al. Rare blood A report from the International Society of Blood Tranfusion 1997; 77:58–62Search in Google Scholar
Poole J, Banks J, Kjeldsen-Kragh .J, et al. Second example of MiV/MiV phenotype with anti-Wrb. A case study (abstract). Transfus Med 1997: 7 (Suppl 1): P24Search in Google Scholar
Ainsworth BM, Fraser ID, Poole GD. Severe haemolytic anaemia due to anti-Wrb (abstract). 20th Congr lot Soc Blood Transfus, 1988:82.Search in Google Scholar
Dankbar DT, Pierce SR, Issitt PD, Gutgsell NS. Beck ML. Fatal intravascular hemoloysis associated with auto anti-Wrb (abstract). Transfusion 1987;27:534.Search in Google Scholar
Ford DS, Stern DA, Hawksworth DN, et al. Haemolytic disease of the newborn probably due to anti-ELO, an antibody to a low frequency red cell antigen. Vox Sang 1992:62:16910.1159/000462192Search in Google Scholar
Better PJ, Ford DS, Frascarelli A, Stern DA, Confirmation of anti-ELO as a cause of haemolytic disease of the newborn. Vox Sang 1993:65:70.10.1159/000462385Search in Google Scholar
Kay MM. Generation of the senescent cell antigen on old cells initiates IgG binding to a neoantigen. Cell Mol Biol 1993;39:131-53.Search in Google Scholar
