Combs MR. Lewis blood group system review. Immunohematology 2009;25:112–8.CombsMR.Lewis blood group system review. 2009;25:112–8.10.21307/immunohematology-2019-243Search in Google Scholar
Ewald D, Sumner S. Blood type biochemistry and human disease. Wiley Interdiscip Rev Syst Biol Med 2016;8:517–35.EwaldDSumnerS.Blood type biochemistry and human disease. 2016;8:517–35.10.1002/wsbm.1355506161127599872Search in Google Scholar
Arifuzzaman M, Ahmed T, Rahman MA, et al. Individuals with Le(a+b–) blood group have increased susceptibility to symptomatic Vibrio cholera O1 infection. PLoS NTDS 2011;5:e1413.ArifuzzamanMAhmedTRahmanMA, Individuals with Le(a+b–) blood group have increased susceptibility to symptomatic Vibrio cholera O1 infection. 2011;5:e1413.10.1371/journal.pntd.0001413324645122216364Search in Google Scholar
Blackwell CC, Jonsdottir K, Weir DM, et al. Blood group, secretor status and susceptibility to bacterial meningitis. FEMS Microbiol Immunol 1989;1:351–6.BlackwellCCJonsdottirKWeirDM, Blood group, secretor status and susceptibility to bacterial meningitis. 1989;1:351–6.10.1111/j.1574-6968.1989.tb02420.x2698730Search in Google Scholar
Greenwell P. Blood group antigens: molecules seeking a function? Glycoconj J 1997;14:159–73.GreenwellP.Blood group antigens: molecules seeking a function?1997;14:159–73.10.1023/A:1018581503164Search in Google Scholar
Smyth DJ, Cooper JD, Howson JM, et al. FUT2 nonsecretor status links type 1 diabetes susceptibility and resistance to infection. Diabetes 2011;60:3081–4.SmythDJCooperJDHowsonJM, FUT2 nonsecretor status links type 1 diabetes susceptibility and resistance to infection. 2011;60:3081–4.10.2337/db11-0638319805722025780Search in Google Scholar
Cooling L. Blood groups in infection and host susceptibility. Clin Microbiol Rev 2015;28:801–70.CoolingL.Blood groups in infection and host susceptibility. 2015;28:801–70.10.1128/CMR.00109-14447564426085552Search in Google Scholar
Nanthakumar NN, Dai D, Newburg DS, Walker WA. The role of indigenous microflora in the development of murine intestinal fucosyl- and sialyltransferases. FASEB J 2003;17:44–6.NanthakumarNNDaiDNewburgDSWalkerWA.The role of indigenous microflora in the development of murine intestinal fucosyl- and sialyltransferases. 2003;17:44–6.10.1096/fj.02-0031fje12475916Search in Google Scholar
Höglund P, Ragnhild R-L, Wikman AT. A severe haemolytic transfusion reaction caused by anti-Lea active at 37°C. Blood Transfus 2013;11:456–9.HöglundPRagnhildR-LWikmanAT.A severe haemolytic transfusion reaction caused by anti-Lea active at 37°C. 2013;11:456–9.Search in Google Scholar
Duncan V, Pham H, Williams L III. A possible case of a haemolytic transfusion reaction caused by anti-Lea antibody. Blood Transfus 2015;13:535–6.DuncanVPhamHWilliamsLIII.A possible case of a haemolytic transfusion reaction caused by anti-Lea antibody. 2015;13:535–6.Search in Google Scholar
Irani MS, Figueroa D, Savage G. Acute hemolytic transfusion reaction due to anti-Leb. Transfusion 2015;55:2486–8.IraniMSFigueroaDSavageG.Acute hemolytic transfusion reaction due to anti-Leb. 2015;55:2486–8.10.1111/trf.1317826018602Search in Google Scholar