Daniels GL, Anstee DJ, Cartron JP, et al. Blood group terminology 1995. Vox Sang 1995;69:265–79.10.1159/000462855Search in Google Scholar
Giles CM, Huth MC, Wilson TE, Lewis HBM, Grove GEB. Three examples of a new antibody, anti-Csa, which reacts with 98% of red cell samples. Vox Sang 1965;10:405–15.10.1111/j.1423-0410.1965.tb04354.x5851803Search in Google Scholar
Molthan L, Giles CM. A new antigen, Yka, and its relationship to Csa (Cost). Vox Sang 1975;29:145–53.10.1111/j.1423-0410.1975.tb00488.x1146279Search in Google Scholar
Helgeson M, Swanson J, Polesky HF. Knops-Helgeson (Kna), a high frequency erythrocyte antigen. Transfusion 1970;10:737–8.10.1111/j.1537-2995.1970.tb00720.x4192883Search in Google Scholar
Mallan MT, Grimm W, Hindley L, Knighton G, Moulds MK, Moulds JJ. The Hall serum: detecting Knb, the antithetical allele to Kna (abstract). Transfusion 1980;20:630.Search in Google Scholar
Molthan L, Moulds J. A new antigen, McCa (McCoy), and its relationship to Kna (Knops). Transfusion 1978;18:566–8.10.1046/j.1537-2995.1978.18579036386.x705863Search in Google Scholar
Lacey P, Laird-Fryer B, Block U, Lair J, Guilbeau L. Moulds JJ. A new high incidence blood group factor, Sla; and its hypothetical allele. (abstract).Transfusion 1980;20:632.Search in Google Scholar
Molthan L. Expansion of the York, Cost, McCoy, Knops blood group system: the new McCoy antigens McCc and McCd. Med Lab Sci 1983;40:113–21.Search in Google Scholar
Daniels GL, Cartron JP, Fletcher A, et al. International Society of Blood Transfusion Committee on terminology for red cell surface antigens: Vancouver report. Vox Sang 2003;84:244–7.10.1046/j.1423-0410.2003.00282.x12670376Search in Google Scholar
Moulds JM, Pierce S, Peck KB, Tulley ML, Doumbo O, Moulds JJ. KAM: a new allele in the Knops Blood Group System (abstract). Transfusion 2005;45(Suppl):27A.Search in Google Scholar
Daniels G, Castilho L, Flegel WA. International Society of Blood Transfusion Committee on terminology for red cell surface antigens: Cape Town report. Vox Sang 2007;92:250–3.10.1111/j.1423-0410.2007.00887.x17348875Search in Google Scholar
Covas DT, de Oliveira FS, Rodrigues ES, Abe-Sandes K, Silva WA Jr, Fontes AM. Knops blood group haplotypes among distinct Brazilian populations. Transfusion 2007;47:147–53.10.1111/j.1537-2995.2007.01077.x17207243Search in Google Scholar
Molthan L. The serology of the York-Cost-McCoy-Knops red blood cell system. Am J Med Technol 1983;49:49–56.Search in Google Scholar
Moulds JM, Kassambara L, Middleton JJ. Identification of complement receptor one (CR1) polymorphisms in west Africa. Genes Immun 2000;1:325–9.10.1038/sj.gene.636367611196694Search in Google Scholar
Moulds JM, Nickells MW, Moulds JJ, Brown M, Atkinson JP. The C3b/C4b receptor is recognized by the Knops, McCoy, Swain-Langley, and York blood group sera. J Exp Med 1991;173:1159–63.10.1084/jem.173.5.115921188661708809Search in Google Scholar
Rao N, Ferguson DJ, Lee SF, Telen MJ. Identification of human erythrocyte blood group antigens on the C3b/C4b receptor. J Immunol 1991;146:3501–7.Search in Google Scholar
Petty AC, Green CA, Poole J, Daniels GL. Analysis of Knops blood group antigens on CR1 (CD35) by the MAIEA test and by immunoblotting. Transfus Med 1997;7:55–62.10.1046/j.1365-3148.1997.d01-71.xSearch in Google Scholar
Moulds MK. Serological investigation and clinical significance of high-titer, low-avidity (HTLA) antibodies. Am J Med Technol 1981;10:789–95.Search in Google Scholar
Reid ME, Lomas-Francis C. Knops blood group system. In: The blood group antigen factsbook. 2nd ed. San Diego, CA: Academic Press, 2004:439–54.Search in Google Scholar
Holme E, Fyfe A, Zoma A, Veitch J, Hunter J, Whaley K. Decreased C3b receptors (CR1) on erythrocytes from patients with systemic lupus erythematosus. Clin Exp Immunol 1986;63:41–8.Search in Google Scholar
Pascual M, Lutz HU, Steiger G, Stammler P, Schifferli JA. Release of vesicles enriched in complement receptor 1 from human erythrocytes. J Immunol 1993;151:397–404.Search in Google Scholar
Daniels GL, Shaw MA, Lomas CG, Leak MR, Tippett P. The effect of In(Lu) on some high-frequency antigens. Transfusion 1986;26:171–2.10.1046/j.1537-2995.1986.26286152909.xSearch in Google Scholar
Race RR, Sanger R. Some very frequent antigens. In: Blood groups in man. 6th ed. Oxford: Blackwell Scientific Publications, 1975:410–30.Search in Google Scholar
Pascual M, Steiger G, Sadallah S, et al. Identification of membrane-bound CR1 (CD35) in human urine: evidence for its release by glomerular podocytes. J Exp Med 1994;179:889–99.10.1084/jem.179.3.889Search in Google Scholar
Yoon SH, Fearon DT. Characterization of a soluble form of the C3b/C4b receptor (CR1) in human plasma. J Immunol 1985;134:3332–8.Search in Google Scholar
Danielsson C, Pascual M, Larsen B, Steiger G, Schifferli JA. Soluble complement receptor type 1 (CD35) is released from leukocytes by surface cleavage. Eur J Immunol 1994;24:2725–31.10.1002/eji.1830241123Search in Google Scholar
Pascual M, Duchosal MA, Steiger G, et al. Circulating soluble CR1 (CD35). J Immunol 1993;151:1702–11.Search in Google Scholar
Moulds JM, Rowe KE. Neutralization of Knops system antibodies using soluble complement receptor 1. Transfusion 1996;36:517–20.10.1046/j.1537-2995.1996.36696269510.xSearch in Google Scholar
Moulds JM, Zimmerman PA, Doumbo OK, et al. Molecular identification of Knops blood group polymorphisms found in long homologous region D of complement receptor 1. Blood 2001;97:2879–85.10.1182/blood.V97.9.2879Search in Google Scholar
Arndt PA, Garratty G. A retrospective analysis of the value of monocyte monolayer assay results for predicting the clinical significance of blood group alloantibodies. Transfusion 2004;44:1273–81.10.1111/j.1537-2995.2004.03427.xSearch in Google Scholar
Vik DP, Wong WW. Structure of the gene for the F allele of complement receptor type 1 and sequence of the coding region unique to the S allele. J Immunol 1993;151:6214–24.Search in Google Scholar
Wilson JG, Murphy EE, Wong WW, Klickstein LB, Weis JH, Fearon DT. Identification of a restriction fragment polymorphism by a CR1 cDNA that correlates with the number of CR1 on erythrocytes. J Exp Med 1986;164:50–9.10.1084/jem.164.1.50Search in Google Scholar
Cornillet P, Philbert F, Kazatchkine MD, Cohen JHM. Genomic determination of the CR1 (CD35) density polymorphism on erythrocytes using polymerase chain reaction amplification and HindIII restriction enzyme digestion. J Immunol Methods 1991;136:193–7.10.1016/0022-1759(91)90006-2Search in Google Scholar
Moulds JM, Brai M, Cohen JHM, et al. Reference typing report for complement receptor 1 (CR1). Exp Clin Immunogenet 1998;15:291–4.10.1159/00001908410072640Search in Google Scholar
Herrera AH, Xiang L, Martin SG, Lewis J, Wilson JG. Analysis of complement receptor type 1 (CR1) expression on erythrocytes and of CR1 allelic markers in Caucasian and African American populations. Clin Immunol Immunopathol 1998;87:176–83.10.1006/clin.1998.45299614933Search in Google Scholar
Rowe JA, Plowe CV, Diallo DA, et al. Erythrocyte complement receptor 1 expression level does not correlate with HindIII restriction fragment length polymorphism in; implications for studies on malaria susceptibility. Genes Immun 2002;8:497–500.10.1038/sj.gene.636389912486610Search in Google Scholar
Cockburn IA, Rowe JA. Erythrocyte complement receptor 1 (CR1) expression level is not associated with polymorphisms in the promoter or 3’ untranslated regions of the CR1 gene. Int J Immunogenet 2006;33:17–20.10.1111/j.1744-313X.2005.00552.x286902216426237Search in Google Scholar
Daniels GL, Anstee DJ, Cartron JP, et al. International Society of Blood Transfusion working party on terminology for red cell surface antigens. Vox Sang 2001;80:193–6.10.1046/j.1423-0410.2001.00024.x11449960Search in Google Scholar
Moulds JM, Zimmerman PA, Doumbo OK, et al. Expansion of the Knops blood group system and subdivision of Sla. Transfusion 2002;42:251–6.10.1046/j.1537-2995.2002.00002.x11896343Search in Google Scholar
Rowe JA, Moulds JM, Newbold CI, Miller LH. P. falciparum rosetting mediated by a parasite-variant erythrocyte protein and complement-receptor 1. Nature 1997;388:292–5.10.1038/408889230440Search in Google Scholar
Rowe JA, Obeiro J, Newbold CI, Marsh K. Plasmodium falciparum rosetting is associated with malaria severity in Kenya. Infect Immun 1995;63:2323–6.10.1128/iai.63.6.2323-2326.19951733047768616Search in Google Scholar
Da Silva RP, Hall BF, Joiner KA, Sacks DL. CR1, the C3b receptor, mediates binding of infective Leishmania major metacyclic promastigotes to human macrophages. J Immunol 1989;143:617–22.Search in Google Scholar
Payne NR, Horwitz MA. Phagocytosis of legionella pneumophila is mediated by human monocyte complement receptors. J Exp Med 1987;166:1377–89.10.1084/jem.166.5.137721896473316470Search in Google Scholar
Robledo S, Wozencraft A, Valencia AZ, Saravia N. Human monocyte infection by Leishmania (viannia) panamensis. J Immunol 1994;152:1265–75.Search in Google Scholar
Schlesinger LS, Bellinger-Kawahara CG, Payne NR, Horwitz MA. Phagocytosis of Mycobacterium tuberculosis is mediated by human monocyte complement receptors and complement component C3. J Immunol 1990;144:2771–80·Search in Google Scholar
Noumsi GT, Tounkara A, Diallo D, Moulds JM. Knops blood group polymorphism and protection from Mycobacterium tuberculosis (abstract). Transfusion 2006;46(Suppl):19A.Search in Google Scholar
