Swanson J, Polesky HF, Tippett P, Sanger R. A ‘new’ blood group antigen, Doa (abstract). Nature 1965;206:313.10.1038/206313a0Search in Google Scholar
Molthan L, Crawford MN, Tippett P. Enlargement of the Dombrock blood group system: the finding of anti-Dob. Vox Sang 1973;24:382–4.10.1111/j.1423-0410.1973.tb02659.x4691236Search in Google Scholar
Smart EA, Fogg P, Abrahams M. The first case of the Dombrock-null phenotype reported in South Africa (abstract). Vox Sang 2000;78(Suppl 1):P015.Search in Google Scholar
Polesky HF, Swanson JL. Studies on the distribution of the blood group antigen Doa (Dombrock) and the characteristics of anti-Doa. Transfusion 1966;6:294–6.Search in Google Scholar
Nakajima H, Moulds JJ. Doa (Dombrock) blood group antigen in the Japanese: tests on further population and family samples. Vox Sang 1980;38:294–6.Search in Google Scholar
Chandanayingyong D, Sasaki TT, Greenwalt TJ. Blood groups of the Thais. Transfusion 1967;7:269–76.10.1111/j.1537-2995.1967.tb05516.x4961890Search in Google Scholar
Lewis M, Allen FH Jr, Anstee DJ, et al. ISBT Working Party on Terminology for Red Cell Surface Antigens: Munich report. Vox Sang 1985;49:171–5.10.1111/j.1423-0410.1985.tb00788.x4036085Search in Google Scholar
Swanson J, Zweber M, Polesky HF. A new public antigenic determinant Gya (Gregory). Transfusion 1967;7:304–6.10.1111/j.1537-2995.1967.tb05522.x4166210Search in Google Scholar
Schmidt RP, Frank S, Baugh M. New antibodies to high incidence antigenic determinants (anti-So, anti-E1, anti-Hy and anti-Dp) (abstract). Transfusion 1967;7:386.Search in Google Scholar
Moulds JJ, Polesky HF, Reid M, Ellisor SS. Observations on the Gya and Hy antigens and the antibodies that define them. Transfusion 1975;15:270–4.10.1046/j.1537-2995.1975.15375160364.x1129835Search in Google Scholar
Lewis M, Anstee DJ, Bird GWG, et al. Blood group terminology 1990. ISBT Working Party on Terminology for Red Cell Surface Antigens. Vox Sang 1990;58:152–69.10.1159/000461106Search in Google Scholar
Spring FA, Reid ME. Evidence that the human blood group antigens Gya and Hy are carried on a novel glycosylphosphatidylinositol-linked erythrocyte membrane glycoprotein. Vox Sang 1991;60:53–9.10.1111/j.1423-0410.1991.tb00871.x1828922Search in Google Scholar
Jensen L, Scott EP, Marsh WL, et al. Anti-Joa: an antibody defining a high-frequency erythrocyte antigen. Transfusion 1972;12:322–4.10.1111/j.1537-2995.1972.tb04452.x19013859Search in Google Scholar
Weaver T, Kavitsky D, Carty L, et al. An association between the Joa and Hy phenotypes (abstract). Transfusion 1984;24:426.Search in Google Scholar
Brown D. Reactivity of anti-Joa with Hy- red cells (abstract). Transfusion 1985;25:462.Search in Google Scholar
Spring FA, Reid ME, Nicholson G. Evidence for expression of the Joa blood group antigen on the Gya/Hyactive glycoprotein. Vox Sang 1994;66:72–7.10.1159/000462475Search in Google Scholar
Daniels GL, Moulds JJ, Anstee DJ, et al. ISBT Working Party on Terminology for Red Cell Surface Antigens. Sao Paulo report. Vox Sang 1993;65:77–80.Search in Google Scholar
Daniels GL, Anstee DJ, Cartron J-P, et al. Blood group terminology 1995. ISBT Working Party on terminology for red cell surface antigens. Vox Sang 1995;69:265–79.Search in Google Scholar
Laird-Fryer B, Moulds MK, Moulds JJ, et al. Subdivision of the Gya-Hy phenotypes (abstract). Transfusion 1981;21:633.Search in Google Scholar
Weaver T, Lacey P, Carty L. Evidence that Joa and Jca are synonymous (abstract). Transfusion 1986;26:561.Search in Google Scholar
Rios M, Hue-Roye K, Øyen R, Miller J, Reid ME. Insights into the Holley- and Joseph- phenotypes. Transfusion 2002;42:52–8.10.1046/j.1537-2995.2002.00004.x11896313Search in Google Scholar
Banks JA, Parker N, Poole J. Evidence to show that Dombrock (Do) antigens reside on the Gya/Hy glycoprotein (abstract). Transfus Med 1992;2(Suppl 1):68.Search in Google Scholar
Banks JA, Hemming N, Poole J. Evidence that the Gya, Hy and Joa antigens belong to the Dombrock blood group system. Vox Sang 1995;68:177–82.10.1111/j.1423-0410.1995.tb03923.x7625075Search in Google Scholar
Telen MJ, Rosse WF, Parker CJ, Moulds MK, Moulds JJ. Evidence that several high-frequency human blood group antigens reside on phosphatidylinositol-linked erythrocyte membrane proteins. Blood 1990;75:1404–7.10.1182/blood.V75.7.1404.1404Search in Google Scholar
Gubin AN, Njoroge JM, Wojda U, et al. Identification of the Dombrock blood group glycoprotein as a polymorphic member of the ADP-ribosyltransferase gene family. Blood 2000;96:2621–7.10.1182/blood.V96.7.2621Search in Google Scholar
Koch-Nolte F, Haag F. Mono (ADP-ribosyl) transferases and related enzymes in animal tissues. In: Haag F, Koch-Nolte F, eds. ADP ribosylation in animal tissues: structure, function, and biology of mono (ADP-ribosyl) transferases and related enzymes. New York, NY: Plenum Press, 1997;1-13.Search in Google Scholar
Okazaki IJ, Moss J. Characterization of glycosylphosphatidylinositiol-anchored, secreted, and intracellular vertebrate mono-ADP-ribosyltransferases. Annu Rev Nutr 1999;19:485–509.10.1146/annurev.nutr.19.1.48510448534Search in Google Scholar
Kruskall MS, Greene MJ, Strycharz DM, et al. Acute hemolytic transfusion reaction due to anti-Dombrocka (Doa) (abstract). Transfusion 1986;26:545.Search in Google Scholar
Polesky HF, Swanson J, Smith R. Anti-Doa stimulated by pregnancy. Vox Sang 1968;14:465–6.Search in Google Scholar
Webb AJ, Lockyer JW, Tovey GH. The second example of anti-Doa. Vox Sang 1966;11:637–9.10.1111/j.1423-0410.1966.tb04263.x5971093Search in Google Scholar
Williams CH, Crawford MN. The third examples of anti-Doa. Transfusion 1966;6:310.10.1111/j.1537-2995.1966.tb04745.x5965697Search in Google Scholar
Moulds J, Futrell E, Fortez P, McDonald C. Anti-Doa— Further clinical and serological observations (abstract). Transfusion 1978;18:375.Search in Google Scholar
Judd WJ, Steiner EA. Multiple hemolytic transfusion reactions caused by anti-Doa. Transfusion 1991;31:477–8.10.1046/j.1537-2995.1991.31591263209.x2048189Search in Google Scholar
Roxby DJ, Paris JM, Stern DA, Young SG. Pure anti-Doa stimulated by pregnancy. Vox Sang 1994;66:49–50.Search in Google Scholar
Moheng MC, McCarthy P, Pierce SR. Anti-Dob implicated as the cause of a delayed hemolytic transfusion reaction. Transfusion 1985;25:44–6.10.1046/j.1537-2995.1985.25185116501.x3969700Search in Google Scholar
Halverson G, Shanahan E, Santiago I, et al. The first reported case of anti-Dob causing an acute hemolytic transfusion reaction. Vox Sang 1994;66:206–9.Search in Google Scholar
Strupp A, Cash K, Uehlinger J. Difficulties in identifying antibodies in the Dombrock blood group system in multiply alloimmunized patients. Transfusion 1998;38:1022–5.10.1046/j.1537-2995.1998.38111299056310.x9838931Search in Google Scholar
Beattie KM, Castillo S. A case report of a hemolytic transfusion reaction caused by anti-Holley. Transfusion 1975;15:476–80.Search in Google Scholar
Mak KH, Lin CK, Ford DS, Cheng G, Yuen C. The first example of anti-Gya detected in Hong Kong. Immunohematology 1995;11:20–1.10.21307/immunohematology-2019-782Search in Google Scholar
Costa FP, Hue-Roye K, Sausais L, et al. Absence of DOMR, a new antigen in the Dombrock blood group system that weakens expression of Do, Gy, Hy, Jo, and DOYA antigens. Transfusion 2010 (in press).10.1111/j.1537-2995.2010.02654.x20412531Search in Google Scholar
Eiberg H, Mohr J. Dombrock blood group (DO): assignment to chromosome 12p. Hum Genet 1996;98:518–21.10.1007/s0043900502518882867Search in Google Scholar
Lögdberg L, Reid ME, Miller JL. Cloning and genetic characterization of blood group carrier molecules and antigens. Transfus Med Rev 2002;16:1–10.10.1053/tmrv.2000.2934711788925Search in Google Scholar
Koch-Nolte F, Haag F, Braren R, et al. Two novel human members of an emerging mammalian gene family related to mono-ADP-ribosylating bacterial toxins [erratum published in Genomics 1999;55:130]. Genomics 1997;39:370–6.10.1006/geno.1996.45209119374Search in Google Scholar
Scarborough RM. Structure-activity relationships of beta-amino acid-containing integrin antagonists. Curr Med Chem 1999;6:971–81.10.2174/092986730610220401161259Search in Google Scholar
Halverson GR, Schawalder A, Miller JL, Reid ME. Production of a monoclonal antibody shows the conservation of epitopes on the Dombrock glycoprotein in the great apes (abstract). Transfusion 2001;41(Suppl):24S.Search in Google Scholar
Ruiz-Jarabo CM, Sevilla N, Dávila M, Gómez-Mariano G, Baranowski E, Domingo E. Antigenic properties and population stability of a foot-and-mouth disease virus with an altered Arg-Gly-Asp receptor-recognition motif. J Gen Virol 1999;80:1899–909.10.1099/0022-1317-80-8-189910466785Search in Google Scholar
Rios M, Hue-Roye K, Lee AH, Chiofolo JT, Miller JL, Reid ME. DNA analysis for the Dombrock polymorphism. Transfusion 2001;41:1143–6.10.1046/j.1537-2995.2001.41091143.x11552072Search in Google Scholar
Warke N, Poole J, Mayer B, et al. New antigen in the Dombrock blood group system: DOYA (abstract). Transfusion 2008;48 (Suppl.):209A.Search in Google Scholar
Vege S, Nance S, Westhoff C. Genotyping for the Dombrock DO1 and DO2 alleles by PCR-RFLP (abstract). Transfusion 2002;42(Suppl):110S–11S.Search in Google Scholar
Wu G-G, Jin S-Z, Deng Z-H, Zhao T-M. Polymerase chain reaction with sequence-specific primers-based genotyping of the human Dombrock blood group DO1 and DO2 alleles and the DO gene frequencies in Chinese blood donors. Vox Sang 2001;81:49–51.10.1046/j.1423-0410.2001.00052.x11520417Search in Google Scholar
Rios M, Hue-Roye K, Storry JR, Lee T, Miller JL, Reid ME. Molecular basis of the Dombrock null phenotype. Transfusion 2001;41:1405–7.10.1046/j.1537-2995.2001.41111405.x11724986Search in Google Scholar
Rios M, Storry JR, Hue-Roye K, Chung A, Reid ME. Two new molecular bases for the Dombrock null phenotype. Br J Haematol 2002;117:765–7.10.1046/j.1365-2141.2002.03524.xSearch in Google Scholar
Lucien N, Celton JL, Le Pennec PY, Cartron JP, Bailly P. Short deletion within the blood group Dombrock locus causing a Donull phenotype. Blood 2002;100:1063–4.10.1182/blood-2001-12-0298Search in Google Scholar
Westhoff C, Vege S, Yazdanbakhsh K, et al. A DOB allele encoding an amino acid substitution (Phe62Ser) resulting in a Dombrock null phenotype. Transfusion 2007;47:1356–62.10.1111/j.1537-2995.2007.01279.xSearch in Google Scholar
Hashmi G, Shariff T, Seul M, et al. A flexible array format for large-scale, rapid blood group DNA typing. Transfusion 2005;45:680–8·10.1111/j.1537-2995.2005.04362.xSearch in Google Scholar
Scofield TL, Miller JP, Storry JR, Rios M, Reid ME. Evidence that Hy- RBCs express weak Joa antigen. Transfusion 2004;44:170–2.10.1111/j.1537-2995.2004.00627.xSearch in Google Scholar
Mayer B, Thornton N, Yürek S, et al. New antigen in the Dombrock blood group system, DOYA, ablates expression of Do and weakens expression of Hy, Jo, and Gy antigens. Transfusion 2010;50:1295–1302.10.1111/j.1537-2995.2009.02560.xSearch in Google Scholar
Baleotti W Jr, Rios M, Reid ME, et al. Dombrock gene analysis in Brazilian people reveals novel alleles. Vox Sang 2006;91:81–7.10.1111/j.1423-0410.2006.00787.xSearch in Google Scholar
Baleotti W, Suzuki RB, Castilho L. A PCR-based strategy for Dombrock screening in Brazilian blood donors reveals a novel allele (abstract). Transfusion 2009;49(Suppl):118A.Search in Google Scholar
Chapel-Fernandes S, Callebaut I, Halverson GR, Reid ME, Bailly P, Chiaroni J. Dombrock genotyping in a native Congolese cohort reveals two novel alleles. Transfusion 2009;49:1661–71.10.1111/j.1537-2995.2009.02193.xSearch in Google Scholar
Glowacki G, Braren R, Cetkovic-Cvrlje M, Leiter EH, Haag F, Koch-Nolte F. Structure, chromosomal localization, and expression of the gene for mouse ecto-mono(ADP-ribosyl)transferase ART5. Gene 2001;275:267–77.10.1016/S0378-1119(01)00608-4Search in Google Scholar
Scofield T, Miller J, Storry JR, et al. An example of anti-Joa suggests that Holley-negative red cells do express some Joa antigen (abstract). Transfusion 2001;41(Suppl):24S.Search in Google Scholar
Storry JR, Olsson ML, Reid ME. Application of DNA analysis to the quality.Search in Google Scholar