Communications

1.Cleghorn TE. Very low incidence blood group antigens. In: CRC handbook series in clinical laboratory science. Cleveland, OH: CRC Press, 1977:379–86.Search in Google Scholar

2.Dahr W Miltenberger subsystem of the MNSs blood group system. Vox Sang 1992;62:129–35.10.1159/000462185Search in Google Scholar

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8.Tippett R Reid ME, Poole J, Green CA, Daniels GL, Anstee DJ. The Miltenberger subsystem: is it obsolescent? Transfus Med Rev 1992;6:170–82.10.1016/S0887-7963(92)70167-9Search in Google Scholar

1.Daniels GL, Moulds JJ, Anstee DJ, et al. ISBT Working Party on Terminology for Red Cell Surface Antigens: Sao Paulo report. Vox Sang 1993 (in press).10.1111/j.1423-0410.1993.tb04534.x8362523Search in Google Scholar

2.Lewis M, Anstee DJ, Bird GWG, et al. Blood group terminology 1990: from the ISBT Working Party on Terminology for Red Cell Surface Antigens. Vox Sang 1990;58:152–69.10.1159/000461106Search in Google Scholar

1.Daniels GL, Green CA, Okubo X et al. SAT, a ‘new’ low frequency blood group antigen, which may be associated with two different MNS variants. Transfusion Medicine 1991;1:39–45.10.1111/j.1365-3148.1991.tb00007.x9259825Search in Google Scholar

2.Daniels GL, Green CA, Poole J, et al. ERIK, a low frequency red cell antigen of the MNS blood group system associated with St^a. Transfusion Medicine 1993 (in press).10.1111/j.1365-3148.1993.tb00050.x7690638Search in Google Scholar

3.Reid ME, Moore BPL, Poole J, et al. TSEN: a novel MNS-related blood group antigen. Vox Sang 1992;63:122–8.10.1111/j.1423-0410.1992.tb02498.x1441305Search in Google Scholar

4.Reid ME, Poole J, Green C, Neill G, Banks J. MINY: a novel MNS-related blood group antigen. Vox Sang 1992;63:129–32.10.1111/j.1423-0410.1992.tb02499.x1441306Search in Google Scholar

5.Skov F, Green C, Daniels G. Miltenberger class IX of the MNSs blood group system. Vox Sang 1991;61:130–6.10.1111/j.1423-0410.1991.tb00258.x1722368Search in Google Scholar

1.Contreras M, Stebbing B, Blessing M, Gavin J. The Rh antigen Evans. Vox Sang 1978;34:203–11.10.1111/j.1423-0410.1978.tb02469.x414453Search in Google Scholar

2.Kornstad L. A rare blood group antigen Ol^a (Oldeide), associated with weak Rh antigens. Vox Sang 1986;50:335–9.10.1111/j.1423-0410.1986.tb04888.x2425489Search in Google Scholar

3.Lomas C, Poole J, Salaru N, et al. A low-incidence red cell antigen JAL associated with two unusual Rh gene complexes. Vox Sang 1990;59:39–43.10.1111/j.1423-0410.1990.tb02112.x2118698Search in Google Scholar

4.Marais I, Moores R Smart E, Martell R. STEM, a new low frequency antigen associated with the e variant phenotype hr⁵ (Rh:-18,-19) Transfusion Medicine 1993;3:35–32.10.1111/j.1365-3148.1993.tb00102.x8038895Search in Google Scholar

5.Poole J, Hustinx H, Gerber H, et al. The red cell antigen JAL in the Swiss population: family studies showing that JAL is an Rh antigen (RH48). Vox Sang 1990;59:44–7.10.1111/j.1423-0410.1990.tb02113.x2118699Search in Google Scholar

1.Bizot M, Lomas C, Rubio F, et al. An antiserum identifying a red cell determinant expressed by Rh:33 and by some ‘new’ depressed Rh phenotypes. Transfusion 1988;28:342-5. (Note: refers to the antigen ‘FPTT’).10.1046/j.1537-2995.1988.28488265263.x2455369Search in Google Scholar

2.Chaves MA, Leak MR, Poole J, Giles CM. A new low-frequency antigen BOW (Bowyer). Vox Sang 1988;55:241–3.10.1111/j.1423-0410.1988.tb04705.x3218170Search in Google Scholar

3.Coghlan G, Kaita H, Zelinski T. Inheritance of the low incidence antigen ELO (abstract). ISBT/AABB Joint Congress 1990; 124.Search in Google Scholar

4.Contreras M, Teesdale R Moulds M, et al. SW^a: a subdivision. Vox Sang 1987;52:115–9.10.1111/j.1423-0410.1987.tb03004.x3604156Search in Google Scholar

5.Contreras M, Stebbing B, Armitage SE, Lubenko A. Further data on the Pt^a antigen. Vox Sang 1978;35:181–3.10.1111/j.1423-0410.1978.tb02919.x97864Search in Google Scholar

6.Copeland TR, Smith JH, Wheeling RM, Rudolph MG. The incidence of WES^a in 3,072 donors in the United States. Immunohematology 1991;7:73–5.10.21307/immunohematology-2019-1016Search in Google Scholar

7.Hoffman JJML, Overbeeke MAM, Kaita H, et al. A new low-incidence red cell antigen (HOFM), associated with depressed C antigen. Vox Sang 1990;59:240–3.10.1111/j.1423-0410.1990.tb00245.x2127329Search in Google Scholar

8.Rowe GR Bowell P. Two further examples of the low-frequency antigen Re^a (Reid). Vox Sang 1985;49:400–2.Search in Google Scholar

1.Bacon JM, Macdonald EB, Young SG, Connell T. Evidence that the low frequency antigen Orriss is part of the MN blood group system. Vox Sang 1987;52:330–4.10.1111/j.1423-0410.1987.tb04902.x2442891Search in Google Scholar

2.Daniels G, Green C, Poole J, et al. The associated low incidence MNS antigens St^a and ERIK are located on different glycophorin molecules (abstract). Transfusion 1992;32:48S.Search in Google Scholar

3.Daniels GL, Khalid G, Cedergren B. The low frequency red cell antigen An^a is located on glycophorin D (abstract). ISBT/AABB Joint Congress 1990:194.Search in Google Scholar

4.Herron R, Smith GA, Young D, Smith DS. Partial characterization of the human erythrocyte antigen Pt^a. Vox Sang 1989;56:112–6.Search in Google Scholar

5.Macdonald EB, Condon J, Ford D, Fisher B, Gems LM. An abnormal β associated with the low frequency antigen Ls^a (abstract). ISBT, Wembley Proc 1988;PT8-56:156.Search in Google Scholar

6.Macdonald EB, Gems LM. An unusual sialoglycoprotein associated with the Webb-positive phenotype. Vox Sang 1986;50:112–6.10.1111/j.1423-0410.1986.tb04859.x3962279Search in Google Scholar

7.Marsh WL, Redman CM, Kessler A, et al. K23, a low incidence antigen in the Kell blood group system identified by biochemical characterization. Transfusion 1987;27:36–40.10.1046/j.1537-2995.1987.27187121470.x3810821Search in Google Scholar

8.Moulds JM, Nickells MW Moulds JJ, Brown MC, Atkinson JP The C3b/C4b receptor is recognized by the Knops, McCoy, Swain-Langley, and York blood group antisera. J Exp Med 1991; 173:1159-63. (Note: This is relevant for the antigen Kn^b.)10.1084/jem.173.5.115921188661708809Search in Google Scholar

9.Reid ME, Shaw M-A, Rowe G, et al. Abnormal minor human erythrocyte membrane sialoglycoprotein (β) in association with the rare blood-group antigen Webb (Wb). Biochem J 1985;232:289–91.10.1042/bj232028911528734084234Search in Google Scholar

10.Spring F, Poole J, Liew YW et al. The low incidence antigen Dh^a: serological and immunochemical studies (abstract). ISBT/AABB Joint Congress 1990:124.Search in Google Scholar

11.Spring FA, Anstee DJ. Evidence that the Yt blood group antigens are located on human erythrocyte acetylcholinesterase (AChE) (abstract). Transfusion Medicine 1991; 1:42.Search in Google Scholar

12.Spring FA, Bruce LJ, Anstee DJ, Tanner MJA. A red cell band 3 variant with altered stilbene disulphonate binding is associated with the Diego (Di^a) blood group antigen. Biochem J 1992;288:713–6.10.1042/bj288071311319431471983Search in Google Scholar

13.Spring FA, Dalchau R, Daniels GL, et al. The In^a and In^b blood group antigens are located on a glycoprotein of 80,000 MW (the CDw44 glycoprotein) whose expression is influenced by the In (Lu) gene. Immunology 1988;54:37–43.Search in Google Scholar

14.Spring FA, Herron R, Rowe G. An erythrocyte glycoprotein of apparent Mr 60,000 expresses the Scl and Sc2 antigens. Vox Sang 1990;58:122–5.Search in Google Scholar

15.Telen MJ, Hall SE, Green AM, Moulds JJ, Rosse WF. Identification of human erythrocyte blood group antigens on decay accelerating factor (DAF) and an erythrocyte phenotype negative for DAF. J Exp Med 1988; 167:1993–8. (Note: This is relevant for the antigens Tc^b, Tc^c and WES^a.)10.1084/jem.167.6.199321896702455016Search in Google Scholar

1.Brown A, Plantos M, Moore BPL, Jones T. RASM, a ‘new’ low frequency blood group antigen. Vox Sang 1986;51: 133–5.10.1111/j.1423-0410.1986.tb00229.x2430363Search in Google Scholar

2.Contreras M, Barbolla A, Lubenko A, Armitage SE. The incidence of antibodies to low frequency antigens in plasmapheresis donors with hyperimmune Rh antisera. Br J Haematol 1979;41:413–6.10.1111/j.1365-2141.1979.tb05875.x106872Search in Google Scholar

3.Dzik WH, Blank J. Accelerated destruction of radio-labelled red cells due to anti-Colton^b. Transfusion 1981;21:15–24.Search in Google Scholar

4.Ford DS, Stern DA, Hawksworth DN, et al. Haemolytic disease of the newborn associated with anti-ELO, an antibody to a low frequency red cell antigen. Vox Sang 1992;62:169–72.10.1111/j.1423-0410.1992.tb01192.x1609518Search in Google Scholar

5.Giles CM, Metaxas MN. Identification of the predicted blood group antibody anti-Yt^b. Nature 1964;202:1122–3.10.1038/2021122a014207215Search in Google Scholar

6.HabashJ, Lubenko A, Pizzaro I, Daniels G, Powell Y Contreras M. Studies on a Chilean Mi^v/M^k proposi-ta and her family (abstract). ISBT/AABB Joint Congress 1990;155.Search in Google Scholar

7.Ichikawa Y Sato C, McCareary J, Lubenko A. Kg, a new low frequency red cell antigen responsible for hemolytic disease of the newborn. Vox Sang 1988;56:98–100.10.1111/j.1423-0410.1989.tb04958.x2501936Search in Google Scholar

8.Ikin EW, Giles CM, Plant G. A second example of anti-Yt^b. Vox Sang 1965;10:212–3.10.1111/j.1423-0410.1965.tb04340.x14339230Search in Google Scholar

9.Judd WJ, Griesland JR, Issitt PD, et al. Studies on the blood of an Mi^v/M^k proposita and her family. Transfusion 1983;23:33–6.10.1046/j.1537-2995.1983.23183147301.x6829056Search in Google Scholar

10.Kluge A, Roelcke D, Tontan E. et al. Two examples of new low frequency red cell antigen, JFV Vox Sang 1988;55:44–7.Search in Google Scholar

11.Langley JW Issitt PD, Anstee DJ, et al. Another individual (J.R.) 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

12.Lubenko A. Anti-S sera and their co-existing “private” antibodies (abstract). Book of Abstracts. British Blood Transfusion Society 5th Annual Meeting, Sterling, 1987.Search in Google Scholar

13.Lubenko A, Contreras M. The incidence of HDN attributable to anti-Wr³. Transfusion 1992;32:87–8.10.1046/j.1537-2995.1992.32192116442.x1731445Search in Google Scholar

14.Metaxas MN, Metaxas-Buhler M. Studies on the Wright blood group system. Vox Sang 1963;8:707–16.10.1111/j.1423-0410.1963.tb02377.x14080391Search in Google Scholar

15.Molthan L. Intravascular haemolytic transfusion reaction due to anti-V^w + Mi^a with fatal outcome. Vox Sang 1981;40:105–8.Search in Google Scholar

16.Pavonne BG, Issitt PD. Anti-Bg antibodies in sera used for red cell typing. Br J Haematol 1974;27:609–11.Search in Google Scholar

17.Powell V, Habash J, Pizzaro I, Lubenko A, Daniels G, Contreras M. Anti-Wr^b and/or-En^a FR detected in the serum of an Mi^v/M^k antenatal patient. (British Blood Transfusion Society, 8th Annual Meeting, Bristol). Transfusion Medicine 1990;1(Suppl 1):28.Search in Google Scholar

18.Reid M, Fischer ML, Green C, et al. A private red cell antigen Jones, causing haemolytic disease of the newborn. Vox Sang 1989;57:77–80.10.1111/j.1423-0410.1989.tb04989.x2800470Search in Google Scholar

19.Speiser P, Kuhbock J, Mickerts D, et al. ‘Kamhuber,’ a new human blood group antigen of familiar occurrence, revealed by a severe transfusion reaction. Vox Sang 1966;11:113–5.Search in Google Scholar

20.Spruell P, Moulds J, Martin M, Gilcher RO, Benson P Blumenfeld O. Alloantibody to a high frequency antigen detected in the serum of an Mi¹ homozygote (abstract). ISBT/AABB Joint Congress 1990:154.Search in Google Scholar

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22.van Loghem JJ, van der Hart M, Bok J, Brinkerink PC. Two further examples of the antibody anti-Wr³. Vox Sang 1955;5:130–4.Search in Google Scholar

23.Vengelen-Tyler Y Anstee DJ, Issitt PD, et al. Studies on the blood of an Mi^v homozygote. Transfusion 1981;21:1–14.10.1111/j.1537-2995.1981.tb05653.xSearch in Google Scholar

24.Vengelen-Tyler V. The serologic investigation of hemolytic disease of the newborn caused by antibodies other than anti-D. In: Garratty G, ed. Hemolytic disease of the newborn. Arlington: American Association of Blood Banks, 1984.Search in Google Scholar

25.Winkler M. A case report: anti-D^w and anti-Rh32. Immunohematology 1987; 3:38–9.10.21307/immunohematology-2019-1135Search in Google Scholar