Glycophorin A - Knowledge (XXG)

1124:->threonine). M-VIII shares the Anek determinant with MiVII. Mi-III, Mi-VI and Mi-X are due to rearrangements of glycophorin A and B in the order GlyA (alpha)-GlyB (delta)-GlyA (alpha). Mil-IX in contrast is a reverse alpha-delta-alpha hybrid gene. Mi-V, MiV(J.L.) and St are due to unequal but homologous crossing-over between alpha and delta glycophorin genes. The MiV and MiV(J.L.) genes are arranged in the same 5' alpha-delta 3' frame whereas St gene is in a reciprocal 5'delta-alpha 3' configuration. 184: 209: 3740: 431: 424: 417: 215: 29: 928:. In addition to the M or N and S or s antigens, that commonly occur in all populations, about 40 related variant phenotypes have been identified. These variants include all the variants of the Miltenberger complex and several isoforms of Sta; also, Dantu, Sat, He, Mg, and deletion variants Ena, S-s-U- and Mk. Most of the variants are the result of gene recombinations between GYPA and GYPB. 940:

The GypA gene itself consists of 7 exons and has 97% sequence homology with GypB and GypE from the 5' untranslated transcription region (UTR) to the coding sequence encoding the first 45 amino acids. The exon at this point encodes the transmembrane domain. Within the intron downstream of this pint is

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Anti-M although occurring naturally has rarely been implicated in transfusion reactions. Anti-N is not considered to cause transfusion reactions. Severe reactions have been reported with anti-Miltenberger. Anti Mi-I (Vw) and Mi-III has been recognised as a cause of haemolytic disease of the newborn.

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The Miltenberger (Mi) subsystem originally consisting of five phenotypes (Mi, V, Mur, Hil and Hut) now has 11 recognised phenotypes numbered I to XI (The antigen 'Mur' is named after to the patient the original serum was isolated from - a Mrs Murrel.) The name originally given to this complex refers

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The Dantu antigen was described in 1984. The Dantu antigen has an apparent molecular weight of 29 kilodaltons (kDa) and 99 amino acids. The first 39 amino acids of the Dantu antigen are derived from glycophorin B and residues 40-99 are derived from glycophorin A. Dantu is associated with very weak s

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The M and N antigens differ at two amino acid residues: the M allele has serine at position 1 (C at nucleotide 2) and glycine at position 5 (G at nucleotide 14) while the N allele has leucine at position 1 (T at nucleotide 2) and glutamate at position 5 (A at nucleotide 14). Both glycophorin A and B

936:

GypA, GypB and GypE are members of the same family and are located on the long arm of chromosome 4 (chromosome 4q31). The family evolved via two separate gene duplication events. The initial duplication gave rise to two genes one of subsequently evolved into GypA and the other which give rise via a

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residue into a serine at the positions 49 and 52 respectively. The threonine-49 residue is glycosylated. This appears to be the origin of one of the Mi-VII specific antigens (Anek) which is known to lie between residues 40-61 of glycophorin A and comprises sialic acid residue(s) attached to

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There are about 40 known variants in the MNS blood group system. These have arisen largely as a result of mutations within the 4 kb region coding for the extracellular domain. These include the antigens Mg, Dantu, Henshaw (He), Miltenberger, Ny, Os, Orriss (Or), Raddon (FR) and Stones (St).

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A related antigen is Sat. This gene has six exons of which exon I to exon IV are identical to the N allele of glycophorin A whereas its 3' portion, including exon V and exon VI, are derived from the glycophorin B gene. The mature protein SAT protein contains 104 amino acid residues.

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Flower R, Lin P-H, Heathcote D, Chan M, Teo D, Selkirk A, Shepherd R, Henry S. Insertion of KODE peptide constructs into red cell membranes: Creating artificial variant MNS blood group antigens. ISBT Regional Congress, Macao SAR China, 2008. (P-396) Vox Sanguinis 2008; 95:Suppl 1,

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Stones (St) has been shown to be the product of a hybrid gene of which the 5'-half is derived from the glycophorin B whereas the 3'-half is derived from the glycophorin A. Several isoforms are known. This antigen is now considered to be part of the Miltenberger complex.

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Tokunaga E, Sasakawa S, Tamaka K, Kawamata H, Giles CM, Ikin EW, Poole J, Anstee DJ, Mawby W, Tanner MJ (December 1979). "Two apparently healthy Japanese individuals of type MkMk have erythrocytes which lack both the blood group MN and Ss-active sialoglycoproteins".

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antigen, a protease-resistant N antigen and either very weak or no U antigen. There are at least three variants: MD, NE and Ph. The Dantu phenotype occurs with a frequency of Dantu phenotype is ~0.005 in American Blacks and < 0.001 in Germans.

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Heathcote D, Flower R, Henry S (2008). "Development of novel alloantibody screening cells – the first example of the addition of peptide antigens to human red cells using KODE technology. ISBT Regional Congress, Macao SAR China, 2008". (P-303)".

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O-glycosidically linked oligosaccharide(s). This also explains the loss of a high frequency antigen ((EnaKT)) found in normal glycophorin A which is located within the residues 46–56. Mi-VIII is due to a mutation at amino acid residue 49 (

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Daniels GL, Bruce LJ, Mawby WJ, Green CA, Petty A, Okubo Y, Kornstad L, Tanner MJ (May 2000). "The low-frequency MNS blood group antigens Ny(a) (MNS18) and Os(a) (MNS38) are associated with GPA amino acid substitutions".

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Unger P, Procter JL, Moulds JJ, Moulds M, Blanchard D, Guizzo ML, McCall LA, Cartron JP, Dahr W (July 1987). "The Dantu erythrocyte phenotype of the NE variety. II. Serology, immunochemistry, genetics, and frequency".

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Mi-I (Mi), Mi-II(V), Mi-VII and Mi-VIII are carried on glycophorin A. Mi-I is due to a mutation at amino acid 28 (threonine to methionine: C→T at nucleotide 83) resulting in a loss of the glycosylation at the

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Johnson ST, McFarland JG, Kelly KJ, et al. (2002). "Transfusion support with RBCs from an Mk homozygote in a case of autoimmune hemolytic anemia following diphtheria-pertussis-tetanus vaccination".

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Reid ME, Lomas-Francis C, Daniels GL, Chen V, Shen J, Ho YC, Hare V, Batts R, Yacob M, Smart E (1995). "Expression of the erythrocyte antigen Henshaw (He; MNS6): serological and immunochemical studies".

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second duplication event to GypB and GypE. These events appear to have occurred within a relatively short time span. The second duplication appears to have occurred via an unequal crossing over event.

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Rearden A, Frandson S, Carry JB (1987). "Severe hemolytic disease of the newborn due to anti-Vw and detection of glycophorin A antigens on the Miltenberger I sialoglycoprotein by Western blotting".

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Heathcote D, Carroll T, Wang JJ, Flower R, Rodionov I, Tuzikov A, Bovin N, Henry S (2010). "Novel antibody screening cells, MUT+Mur kodecytes, created by attaching peptides onto erythrocytes".

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Vignal A, Rahuel C, el Maliki B, et al. (1989). "Molecular analysis of glycophorin A and B gene structure and expression in homozygous Miltenberger class V (Mi. V) human erythrocytes".

2930:"Molecular genetics of the glycophorin gene family, the antigens for MNSs blood groups: multiple gene rearrangements and modulation of splice site usage result in extensive diversification" 4698: 1111:

residue. This alteration in glycoslation is detectable by the presence of a new 32kDa glycoprotein stainable with PAS. Mi-VII is due to a double mutation in glycophorin A converting an

3254:"Molecular genetics of human erythrocyte MiIII and MiVI glycophorins. Use of a pseudoexon in construction of two delta-alpha-delta hybrid genes resulting in antigenic diversification" 1982:"Molecular genetics of human erythrocyte MiIII and MiVI glycophorins. Use of a pseudoexon in construction of two delta-alpha-delta hybrid genes resulting in antigenic diversification" 3837: 2602:"A malaria invasion receptor, the 175-kilodalton erythrocyte binding antigen of Plasmodium falciparum recognizes the terminal Neu5Ac(alpha 2-3)Gal- sequences of glycophorin A" 2219:

Mak KH, Banks JA, Lubenko A, Chua KM, Torres de Jardine AL, Yan KF (March 1994). "A survey of the incidence of Miltenberger antibodies among Hong Kong Chinese blood donors".

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to the reaction erythrocytes gave to the standard Miltenberger antisera used to test them. The subclasses were based on additional reactions with other standard antisera.

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Dean L. Blood Groups and Red Cell Antigens . Bethesda (MD): National Center for Biotechnology Information (US); 2005. Chapter 12, The MNS blood group. Available from:

3559:"Characterization of cDNA clones for human glycophorin A. Use for gene localization and for analysis of normal of glycophorin-A-deficient (Finnish type) genomic DNA" 974:

The MNS blood group was the second set of antigens discovered. M and N were identified in 1927 by Landsteiner and Levine. S and s in were described later in 1947.

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Ohyama K, Endo T, Ohkuma S, Yamakawa T (May 1993). "Isolation and influenza virus receptor activity of glycophorins B, C and D from human erythrocyte membranes".

3739: 2526:"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" 2023:"Molecular analysis of human glycophorin MiIX gene shows a silent segment transfer and untemplated mutation resulting from gene conversion via sequence repeats" 1867:

Dahr W, Beyreuther K, Moulds JJ (July 1987). "Structural analysis of the major human erythrocyte membrane sialoglycoprotein from Miltenberger class VII cells".

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Contreras M, Green C, Humphreys J, Tippett P, Daniels G, Teesdale P, Armitage S, Lubenko A (1984). "Serology and genetics of an MNSs-associated antigen Dantu".

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The Henshaw (He) antigen is due to a mutation of the N terminal region. There are three differences in the first three amino acid residues: the usual form has

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Tavakkol A, Burness AT (November 1990). "Evidence for a direct role for sialic acid in the attachment of encephalomyocarditis virus to human erythrocytes".

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aboriginal tribes (up to 90%). In contrast its frequency is 2-3% in Han Taiwanese (Minnan). The Mi-III phenotype occurs in 6.28% of Hong Kong Chinese.

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Dahr W, Pilkington PM, Reinke H, Blanchard D, Beyreuther K (May 1989). "A novel variety of the Dantu gene complex (DantuMD) detected in a Caucasian".

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Dahr W, Vengelen-Tyler V, Dybkjaer E, Beyreuther K (August 1989). "Structural analysis of glycophorin A from Miltenberger class VIII erythrocytes".

3594:"Isolation and characterization of human glycophorin A cDNA clones by a synthetic oligonucleotide approach: nucleotide sequence and mRNA structure" 3520:

Huang CH, Puglia KV, Bigbee WL, et al. (1989). "A family study of multiple mutations of alpha and delta glycophorins (glycophorins A and B)".

5261: 1079:. This antigen is rare in Caucasians but occurs at a frequency of 2.1% in US and UK of African origin. It occurs at the rate of 7.0% in blacks in 1380:

Blumenfeld OO, Adamany AM, Puglia KV, Socha WW (April 1983). "The chimpanzee M blood-group antigen is a variant of the human M-N glycoproteins".

5249: 5027: 3329:

Dill K, Hu SH, Berman E, et al. (1990). "One- and two-dimensional NMR studies of the N-terminal portion of glycophorin A at 11.7 Tesla".

5313: 5308: 5254: 5034: 3815: 3719: 1333: 5867: 5862: 4767: 4693: 3823: 2305:

Bacon JM, Macdonald EB, Young SG, Connell T (1987). "Evidence that the low frequency antigen Orriss is part of the MN blood group system".

5796: 5791: 5786: 5781: 4708: 825: 3368:"Structural organization of glycophorin A and B genes: glycophorin B gene evolved by homologous recombination at Alu repeat sequences" 3155:"Gene conversion confined to a direct repeat of the acceptor splice site generates allelic diversity at human glycophorin (GYP) locus" 5761: 1242: 4997: 2735:

Wybenga LE, Epand RF, Nir S, Chu JW, Sharom FJ, Flanagan TD, Epand RM (July 1996). "Glycophorin as a receptor for Sendai virus".

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Matsui Y, Natori S, Obinata M (1989). "Isolation of the cDNA clone for mouse glycophorin, erythroid-specific membrane protein".

5565: 5059: 4745: 1320: 5204: 4740: 3219:"Identification of recombination events resulting in three hybrid genes encoding human MiV, MiV(J.L.), and Sta glycophorins" 2481:

Baldwin ML, Barrasso C, Gavin J (1981). "The first example of a Raddon-like antibody as a cause of a transfusion reaction".

2064:"Identification of recombination events resulting in three hybrid genes encoding human MiV, MiV(J.L.), and Sta glycophorins" 208: 183: 5701: 5173: 5168: 5113: 4847: 4296: 2103:

Chandanyingyong D, Pejrachandra S (1975). "Studies on the Miltenberger complex frequency in Thailand and family studies".

1316: 924:) are major sialoglycoproteins of the human erythrocyte membrane which bear the antigenic determinants for the MN and Ss 5395: 5118: 133: 4713: 3798:

https://web.archive.org/web/20161008211618/http://users.rcn.com/jkimball.ma.ultranet/BiologyPages/G/Glycoproteins.html

1104::C->A at nucleotide 83). Similar to the case of Mi-I this mutation results in a loss of the glycosylation at the 221: 5425: 3850: 1277: 909: 1937:

Dybkjaer E, Poole J, Giles CM (1981). "A new Miltenberger class detected by a second example of Anek type serum".

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Os (MNS38) is due to a mutation at nucleotide 273 (C->T) lying within exon 3 resulting in the replacement of a

4291: 3712: 3647:"Molecular cloning of a human glycophorin B cDNA: nucleotide sequence and genomic relationship to glycophorin A." 214: 1134:

Peptide constructs representative of Mi mutations MUT and MUR have been attached onto red blood cells (known as

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Skov F, Green C, Daniels G, Khalid G, Tippett P (1991). "Miltenberger class IX of the MNS blood group system".

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repeat. The cross over event which created the genes ancestral to GypA and GypB/E occurred within this region.

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Barton P, Collins A, Hoogenraad N (1991). "A variant of glycophorin A resulting from the deletion of exon 4".

52: 5439: 643: 3120:"Molecular basis for the human erythrocyte glycophorin specifying the Miltenberger class I (MiI) phenotype" 1735:"Molecular basis for the human erythrocyte glycophorin specifying the Miltenberger class I (MiI) phenotype" 4782: 4777: 4772: 4762: 4069: 3997: 2573:

Facer CA (November 1983). "Merozoites of P. falciparum require glycophorin for invasion into red cells".

124:, CD235a, GPA, GPErik, GPSAT, HGpMiV, HGpMiXI, HGpSta(C), MN, MNS, PAS-2, glycophorin A (MNS blood group) 4126: 4044: 1779:"Structures of Miltenberger class I and II specific major human erythrocyte membrane sialoglycoproteins" 1237: 1182:

Orriss (Or) appears to be a mutant of glycophorin A but its precise nature has not yet been determined.

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The Wright b antigen (Wrb) is located on glycophorin A and acts as a receptor for the malaria parasite

5363: 5076: 3705: 3657: 3605: 3379: 2348:

Green C, Daniels G, Skov F, Tippett P (1994). "Mg+ MNS blood group phenotype: further observations".

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Ny (MNS18) is due to a mutation at nucleotide 194 (T->A) which results in the substitution of an

197: 120: 5390: 5209: 3085:"Glycophorin A dimerization is driven by specific interactions between transmembrane alpha-helices" 785: 781: 732: 728: 2651:"Capsid region involved in hepatitis A virus binding to glycophorin A of the erythrocyte membrane" 4797: 4531: 3786: 3545: 3354: 3026: 2959: 2506: 2463: 2420: 2373: 2330: 2287: 2244: 2191: 2128: 1962: 1715: 1623: 1579: 1535: 1492: 1449: 1405: 157: 1777:

Dahr W, Newman RA, Contreras M, Kordowicz M, Teesdale P, Beyreuther K, Krüger J (January 1984).

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and some of the higher primates suggesting that the duplication events occurred only recently.

3766: 3685: 3633: 3580: 3537: 3508: 3465: 3436: 3407: 3346: 3317: 3275: 3240: 3205: 3176: 3141: 3106: 3071: 3018: 2988: 2951: 2906: 2871: 2836: 2787: 2752: 2717: 2680: 2631: 2582: 2555: 2498: 2455: 2412: 2365: 2322: 2279: 2236: 2183: 2120: 2085: 2044: 2003: 1954: 1919: 1884: 1849: 1800: 1756: 1707: 1672: 1615: 1571: 1527: 1484: 1441: 1397: 1023: 113: 45: 5570: 5303: 5224: 4787: 3980: 3906: 3675: 3665: 3623: 3613: 3570: 3529: 3498: 3490: 3479:"Isolation of cDNA clones for human erythrocyte membrane sialoglycoproteins alpha and delta" 3457: 3428: 3397: 3387: 3338: 3307: 3299: 3265: 3230: 3197: 3166: 3131: 3096: 3061: 3051: 3010: 2980: 2941: 2898: 2863: 2826: 2818: 2779: 2744: 2707: 2670: 2662: 2621: 2613: 2545: 2537: 2490: 2447: 2404: 2357: 2314: 2271: 2228: 2175: 2112: 2075: 2034: 1993: 1946: 1911: 1876: 1839: 1831: 1790: 1746: 1699: 1662: 1654: 1607: 1563: 1519: 1476: 1433: 1389: 430: 423: 301: 232: 3040:"Amino-acid sequence and oligosaccharide attachment sites of human erythrocyte glycophorin" 2889:

Paul RW, Lee PW (July 1987). "Glycophorin is the reovirus receptor on human erythrocytes".

2494: 2232: 5630: 4166: 4161: 4084: 884: 416: 276: 153: 3661: 3609: 3383: 2408: 1026:

also have an MN blood antigen system. In chimpanzees M reacts strong but N only weakly.

5415: 4837: 4348: 4151: 3575: 3558: 3503: 3478: 3461: 2626: 2601: 2550: 2525: 2451: 2361: 2318: 2275: 2116: 1950: 1880: 1844: 1819: 1795: 1778: 1703: 1667: 1642: 1611: 1480: 1437: 1080: 1014: 3680: 3646: 3628: 3593: 3402: 3367: 3312: 3288: 3270: 3253: 3171: 3154: 3101: 3084: 3066: 3039: 2984: 2831: 2806: 2675: 2650: 1998: 1981: 1034:

In individuals who lack both glycophorin A and B the phenotype has been designated M.

534: 529: 524: 508: 503: 498: 482: 477: 472: 28: 5856: 5385: 4842: 3933: 3809: 3775: 3432: 3201: 3014: 2902: 2783: 2666: 2179: 1190:

The Mg antigen is carried on glycophorin A and lacks three O-glycolated side chains.

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and 2.7% in West Africans. At least 3 variants of this antigen have been identified.

459: 3549: 3030: 2963: 2822: 2510: 2467: 2377: 2334: 2291: 2248: 2195: 1966: 1583: 1539: 1496: 1453: 1409: 1241:. Cells lacking glycophorins A (En) are resistant to invasion by this parasite. The 5741: 5049: 5039: 4570: 4536: 3358: 2649:

Sánchez G, Aragonès L, Costafreda MI, Ribes E, Bosch A, Pintó RM (September 2004).

2424: 2132: 1627: 1261: 943: 294: 174: 3235: 3218: 2971:

Blumenfeld OO, Huang CH (1997). "Molecular genetics of glycophorin MNS variants".

2807:"Group C rotavirus requires sialic acid for erythrocyte and cell receptor binding" 2080: 2063: 2039: 2022: 1915: 1719: 161: 5751: 5400: 5178: 5153: 4852: 4474: 4400: 3874: 3136: 3119: 2712: 2699: 1751: 1734: 1338:

National Center for Biotechnology Information, U.S. National Library of Medicine

1293: 1269: 1265: 1253: 925: 5681: 5405: 5086: 4827: 4703: 4336: 4331: 4326: 4181: 3965: 1368: 1257: 1105: 1052: 191: 141: 3303: 5520: 5515: 5510: 5500: 5495: 5490: 5485: 3670: 3392: 2946: 2929: 1273: 1215: 1073: 982: 564: 394: 315: 260: 247: 149: 3618: 3056: 3022: 2684: 2416: 2187: 1820:"Miltenberger Class I and II erythrocytes carry a variant of glycophorin A" 1676: 1658: 3689: 3637: 3584: 3541: 3512: 3469: 3440: 3411: 3350: 3321: 3279: 3244: 3209: 3180: 3145: 3110: 3075: 2992: 2955: 2910: 2875: 2840: 2791: 2756: 2721: 2700:"Binding of bovine parvovirus to erythrocyte membrane sialylglycoproteins" 2635: 2617: 2586: 2559: 2502: 2459: 2369: 2326: 2283: 2240: 2124: 2089: 2048: 2007: 1958: 1923: 1888: 1853: 1804: 1760: 1711: 1619: 1575: 1531: 1488: 1401: 868: 5826: 5726: 5540: 5525: 4728: 4723: 4631: 4321: 3748:: DIMERIC TRANSMEMBRANE DOMAIN OF HUMAN GLYCOPHORIN A, NMR, 20 STRUCTURES 1445: 1281: 1249:

recognises the terminal Neu5Ac(alpha 2-3)Gal-sequences of glycophorin A.

1135: 1128: 1121: 1116: 1112: 951: 857: 686: 3289:"The mechanism of production of multiple mRNAs for human glycophorin A." 2867: 1138:) and are able to detect antibodies against these Miltenberger antigens 5776: 5771: 5766: 5666: 5480: 5470: 5297: 5276: 5271: 5239: 5044: 4964: 4959: 4954: 4949: 4944: 4862: 4555: 4395: 4390: 4385: 4380: 4375: 3846: 3780: 3770: 3533: 3342: 2021:

Huang CH, Skov F, Daniels G, Tippett P, Blumenfeld OO (November 1992).

1567: 1523: 1393: 1199: 1153: 1066: 1059: 986: 955: 894: 672: 629: 3494: 2748: 2541: 1835: 90: 86: 82: 78: 74: 5716: 5676: 5661: 5645: 5640: 5620: 5615: 5550: 5358: 5328: 5292: 5283: 5096: 5064: 4928: 4923: 4893: 4872: 4832: 4792: 4658: 4636: 4595: 4519: 4514: 4509: 4504: 4499: 4494: 4363: 4358: 4353: 4301: 4286: 4156: 4146: 4109: 4104: 4022: 4017: 1690:

Cleghorn TE (1966). "A memorandum on the Miltenberger blood groups".

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There are about one million copies of this protein per erythrocyte.

1145:(0.006%), the frequency of Mi-III is exceptionally high in several 1100:

residue. Mi-II is due to a mutation at amino acid 28 (threonine to

5841: 5816: 5736: 5731: 5721: 5711: 5696: 5691: 5686: 5671: 5625: 5610: 5575: 5560: 5555: 5545: 5465: 5460: 5455: 5434: 5430: 5420: 5333: 5234: 5229: 5188: 5138: 5133: 5128: 5123: 5108: 5101: 5081: 5069: 5012: 5007: 5002: 4992: 4987: 4980: 4918: 4908: 4903: 4898: 4888: 4867: 4857: 4822: 4817: 4812: 4807: 4802: 4757: 4752: 4718: 4683: 4678: 4673: 4663: 4651: 4646: 4626: 4621: 4616: 4611: 4565: 4457: 4452: 4271: 4255: 4248: 4243: 4238: 4233: 4228: 4223: 4198: 4176: 4171: 4064: 3990: 3985: 3975: 1142: 549: 545: 5836: 5831: 5821: 5811: 5806: 5801: 5756: 5746: 5706: 5635: 5605: 5600: 5595: 5590: 5585: 5580: 5535: 5505: 5410: 5378: 5373: 5353: 5343: 5338: 5323: 5318: 5219: 5214: 5183: 5163: 5158: 5148: 5143: 5022: 4975: 4935: 4590: 4585: 4580: 4575: 4560: 4551: 4546: 4541: 4526: 4484: 4479: 4469: 4464: 4447: 4442: 4437: 4432: 4427: 4422: 4417: 4412: 4407: 4343: 4316: 4311: 4306: 4281: 4276: 4213: 4208: 4203: 4193: 4188: 4141: 4136: 4131: 4121: 4116: 4099: 4094: 4089: 4079: 4074: 4059: 4054: 4049: 4039: 4034: 4029: 4012: 4007: 4002: 3953: 3921: 3916: 3911: 3894: 3889: 3884: 3879: 921: 901: 137: 3819: 3701: 439: 5348: 3960: 3948: 3943: 3938: 3928: 3901: 3869: 3697: 1818:

Blanchard D, Asseraf A, Prigent MJ, Cartron JP (August 1983).

1643:"A study of two unusual blood-group antigens in West Africans" 1227:

Raddon has been associated with severe transfusion reactions.

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Overview of all the structural information available in the

1733:

Huang CH, Spruell P, Moulds JJ, Blumenfeld OO (July 1992).

284: 3153:

Huang CH, Kikuchi M, McCreary J, Blumenfeld OO (1992).

3118:

Huang CH, Spruell P, Moulds JJ, Blumenfeld OO (1992).

3083:

Lemmon MA, Flanagan JM, Hunt JF, et al. (1992).

406: 3557:

Rahuel C, London J, d'Auriol L, et al. (1988).

5654: 5448: 5197: 4881: 4604: 4264: 3862: 1355:"Entrez Gene: GYPA glycophorin A (MNS blood group)" 803: 774: 750: 721: 1312: 1310: 1308: 1152:Mi-IX (MNS32) occurs with a frequency of 0.43% in 2600:Orlandi PA, Klotz FW, Haynes JD (February 1992). 2524:Ridgwell K, Tanner MJ, Anstee DJ (January 1983). 231: 1252:Several viruses bind to glycophorin A including 2389: 2387: 16:Protein-coding gene in the species Homo sapiens 1641:Chalmers JN, Ikin EW, Mourant AE (July 1953). 1141:Although uncommon in Caucasians (0.0098%) and 3831: 3713: 8: 1772: 1770: 1369:https://www.ncbi.nlm.nih.gov/books/NBK2274/ 1317:GRCh38: Ensembl release 89: ENSG00000170180 920:Glycophorins A (GYPA; this protein) and B ( 3838: 3824: 3816: 3806:United States National Library of Medicine 3720: 3706: 3698: 560: 455: 272: 169: 63: 3855:list of human clusters of differentiation 3789:at the U.S. National Library of Medicine 3679: 3669: 3627: 3617: 3574: 3502: 3401: 3391: 3311: 3269: 3234: 3170: 3135: 3100: 3065: 3055: 2945: 2830: 2711: 2698:Thacker TC, Johnson FB (September 1998). 2674: 2625: 2549: 2079: 2038: 1997: 1843: 1794: 1750: 1666: 904:. GYPA has also recently been designated 3804:This article incorporates text from the 1349: 1347: 3735: 1304: 1115:residue into a threonine residue and a 2495:10.1046/j.1537-2995.1981.21181127491.x 2233:10.1046/j.1537-2995.1994.34394196622.x 2062:Huang CH, Blumenfeld OO (April 1991). 1980:Huang CH, Blumenfeld OO (April 1991). 977:The frequencies of these antigens are 18: 236: 195: 190: 7: 2409:10.1046/j.1537-2995.2000.40050555.x 3576:10.1111/j.1432-1033.1988.tb13866.x 3462:10.1111/j.1432-1033.1989.tb15024.x 2973:Transfusion Clinique et Biologique 2452:10.1111/j.1423-0410.1987.tb04900.x 2362:10.1111/j.1423-0410.1994.tb00316.x 2319:10.1111/j.1423-0410.1987.tb04902.x 2276:10.1111/j.1423-0410.1991.tb00258.x 2117:10.1111/j.1423-0410.1975.tb02753.x 1951:10.1111/j.1423-0410.1981.tb01053.x 1881:10.1111/j.1432-1033.1987.tb13478.x 1796:10.1111/j.1432-1033.1984.tb07910.x 1704:10.1111/j.1423-0410.1966.tb04226.x 1612:10.1111/j.1423-0410.1995.tb03924.x 1481:10.1111/j.1423-0410.1984.tb00102.x 1438:10.1111/j.1744-313X.1979.tb00693.x 1426:European Journal of Immunogenetics 897:which in humans is encoded by the 800: 771: 747: 718: 696: 677: 653: 634: 610: 591: 411: 372: 310: 289: 14: 3738: 3252:Huang CH, Blumenfeld OO (1991). 3217:Huang CH, Blumenfeld OO (1991). 3015:10.1046/j.1537-2995.2002.00093.x 2928:Blumenfeld OO, Huang CH (1996). 2667:10.1128/JVI.78.18.9807-9813.2004 2180:10.1111/j.1537-2995.2009.02480.x 429: 422: 415: 220: 213: 207: 182: 27: 2823:10.1128/JVI.66.9.5582-5585.1992 1256:virus (via its capsid), bovine 1243:erythrocyte binding antigen 175 3038:Tomita M, Marchesi VT (1976). 2706:. 79. 79 ( Pt 9) (9): 2163–9. 499:integral component of membrane 440:More reference expression data 395:More reference expression data 1: 3645:Siebert PD, Fukuda M (1987). 3592:Siebert PD, Fukuda M (1986). 3271:10.1016/S0021-9258(20)89637-9 3236:10.1182/blood.V77.8.1813.1813 3172:10.1016/S0021-9258(19)50736-0 3102:10.1016/S0021-9258(18)42569-0 2985:10.1016/s1246-7820(97)80041-9 2805:Svensson L (September 1992). 2575:Bull Soc Pathol Exot Filiales 2081:10.1182/blood.V77.8.1813.1813 2040:10.1182/blood.V80.9.2379.2379 1999:10.1016/S0021-9258(20)89637-9 997:s: 89% Caucasoid; 93% Negroid 994:S: 55% Caucasoid; 31% Negroid 991:N: 72% Caucasoid; 75% Negroid 205: 3650:Proc. Natl. Acad. Sci. U.S.A 3598:Proc. Natl. Acad. Sci. U.S.A 3433:10.1016/0378-1119(89)90080-2 3372:Proc. Natl. Acad. Sci. U.S.A 3287:Hamid J, Burness AT (1990). 3202:10.1016/0167-4781(91)90115-3 3044:Proc. Natl. Acad. Sci. U.S.A 2903:10.1016/0042-6822(87)90351-5 2784:10.1016/0005-2736(93)90170-5 1916:10.1515/bchm3.1989.370.2.855 1072:-Serine-Threonine-Threonine- 954:. GypB can be found only in 5868:Clusters of differentiation 5863:Genes on human chromosome 4 3851:clusters of differentiation 3796:Cartoon of glycophorin A - 3477:Tate CG, Tanner MJ (1988). 3137:10.1182/blood.V80.1.257.257 2713:10.1099/0022-1317-79-9-2163 1752:10.1182/blood.V80.1.257.257 5884: 1278:encephalomyocarditis virus 1218:residue with a glutamate. 910:cluster of differentiation 525:viral entry into host cell 3733: 3366:Kudo S, Fukuda M (1989). 1334:"Human PubMed Reference:" 1127:The incidence of Mi-I in 1058:-Serine-Threonine-Serine- 950:GypA can be found in all 872: 867: 863: 856: 837: 826:Chr 4: 144.11 – 144.14 Mb 820: 807: 778: 767: 754: 725: 714: 703: 699: 684: 680: 671: 660: 656: 641: 637: 628: 617: 613: 598: 594: 585: 570: 563: 559: 543: 473:identical protein binding 458: 454: 437: 414: 405: 392: 379: 375: 322: 313: 283: 275: 271: 254: 241: 204: 181: 172: 168: 131: 128: 118: 111: 106: 71: 66: 49: 44: 39: 35: 26: 21: 3791:Medical Subject Headings 1904:Biol. Chem. Hoppe-Seyler 3779:(Glycophorin-A) at the 3671:10.1073/pnas.84.19.6735 3393:10.1073/pnas.86.12.4619 2947:10.1002/humu.1380060302 1231:Relevance for infection 1159: 478:virus receptor activity 3619:10.1073/pnas.83.6.1665 3304:10.1093/nar/18.19.5829 3190:Biochim. Biophys. Acta 3057:10.1073/pnas.72.8.2964 2772:Biochim. Biophys. Acta 1659:10.1136/bmj.2.4829.175 1087:Miltenberger subsystem 50:Human UniProt search: 2618:10.1083/jcb.116.4.901 1238:Plasmodium falciparum 1007:Transfusion medicine 198:Chromosome 4 (human) 67:List of PDB id codes 40:Available structures 3787:GYPA+protein,+human 3662:1987PNAS...84.6735S 3610:1986PNAS...83.1665S 3384:1989PNAS...86.4619K 2868:10.1021/bi00499a016 535:leukocyte migration 354:ganglionic eminence 3808:, which is in the 3534:10.1007/BF00283724 3343:10.1007/BF01025303 1568:10.1007/BF00319639 1524:10.1007/BF00320913 1394:10.1007/BF00499143 1065:while Henshaw has 1002:Molecular medicine 518:Biological process 492:Cellular component 466:Molecular function 5850: 5849: 3756: 3755: 3495:10.1042/bj2540743 3292:Nucleic Acids Res 2749:10.1021/bi9606152 2542:10.1042/bj2090273 1836:10.1042/bj2130399 962:Molecular biology 880: 879: 876: 875: 852: 851: 816: 815: 797: 796: 763: 762: 744: 743: 710: 709: 693: 692: 667: 666: 650: 649: 624: 623: 607: 606: 555: 554: 450: 449: 446: 445: 401: 400: 388: 387: 369: 368: 334:bone marrow cells 267: 266: 102: 101: 98: 97: 5875: 3840: 3833: 3826: 3817: 3742: 3722: 3715: 3708: 3699: 3693: 3683: 3673: 3641: 3631: 3621: 3588: 3578: 3553: 3516: 3506: 3473: 3444: 3415: 3405: 3395: 3362: 3325: 3315: 3283: 3273: 3248: 3238: 3213: 3184: 3174: 3149: 3139: 3114: 3104: 3079: 3069: 3059: 3034: 2996: 2967: 2949: 2915: 2914: 2886: 2880: 2879: 2862:(47): 10684–90. 2851: 2845: 2844: 2834: 2802: 2796: 2795: 2767: 2761: 2760: 2732: 2726: 2725: 2715: 2695: 2689: 2688: 2678: 2646: 2640: 2639: 2629: 2597: 2591: 2590: 2570: 2564: 2563: 2553: 2521: 2515: 2514: 2478: 2472: 2471: 2435: 2429: 2428: 2391: 2382: 2381: 2345: 2339: 2338: 2302: 2296: 2295: 2259: 2253: 2252: 2216: 2210: 2206: 2200: 2199: 2163: 2157: 2156: 2143: 2137: 2136: 2100: 2094: 2093: 2083: 2059: 2053: 2052: 2042: 2018: 2012: 2011: 2001: 1977: 1971: 1970: 1934: 1928: 1927: 1899: 1893: 1892: 1864: 1858: 1857: 1847: 1815: 1809: 1808: 1798: 1774: 1765: 1764: 1754: 1730: 1724: 1723: 1687: 1681: 1680: 1670: 1638: 1632: 1631: 1594: 1588: 1587: 1550: 1544: 1543: 1507: 1501: 1500: 1464: 1458: 1457: 1420: 1414: 1413: 1377: 1371: 1365: 1359: 1358: 1351: 1342: 1341: 1330: 1324: 1314: 889:, also known as 865: 864: 848: 833: 828: 811: 801: 792: 772: 768:RefSeq (protein) 758: 748: 739: 719: 697: 678: 654: 635: 611: 592: 561: 456: 442: 433: 426: 419: 412: 397: 373: 318: 316:Top expressed in 311: 290: 273: 263: 250: 239: 224: 217: 211: 200: 186: 170: 164: 162:GYPA - orthologs 123: 116: 93: 64: 58: 37: 36: 31: 19: 5883: 5882: 5878: 5877: 5876: 5874: 5873: 5872: 5853: 5852: 5851: 5846: 5650: 5444: 5193: 4877: 4600: 4260: 3858: 3844: 3762: 3757: 3752: 3749: 3743: 3729: 3726: 3696: 3644: 3591: 3563:Eur. J. Biochem 3556: 3519: 3476: 3450:Eur. J. Biochem 3447: 3418: 3378:(12): 4619–23. 3365: 3331:J. Protein Chem 3328: 3298:(19): 5829–36. 3286: 3264:(11): 7248–55. 3251: 3216: 3187: 3152: 3117: 3082: 3037: 2999: 2970: 2927: 2923: 2921:Further reading 2918: 2888: 2887: 2883: 2853: 2852: 2848: 2804: 2803: 2799: 2769: 2768: 2764: 2734: 2733: 2729: 2697: 2696: 2692: 2661:(18): 9807–13. 2648: 2647: 2643: 2599: 2598: 2594: 2572: 2571: 2567: 2523: 2522: 2518: 2480: 2479: 2475: 2437: 2436: 2432: 2393: 2392: 2385: 2347: 2346: 2342: 2304: 2303: 2299: 2261: 2260: 2256: 2218: 2217: 2213: 2207: 2203: 2165: 2164: 2160: 2155:(Suppl 1): 174. 2145: 2144: 2140: 2102: 2101: 2097: 2061: 2060: 2056: 2020: 2019: 2015: 1992:(11): 7248–55. 1979: 1978: 1974: 1936: 1935: 1931: 1901: 1900: 1896: 1869:Eur. J. Biochem 1866: 1865: 1861: 1817: 1816: 1812: 1783:Eur. J. Biochem 1776: 1775: 1768: 1732: 1731: 1727: 1689: 1688: 1684: 1653:(4829): 175–7. 1640: 1639: 1635: 1596: 1595: 1591: 1552: 1551: 1547: 1509: 1508: 1504: 1466: 1465: 1461: 1422: 1421: 1417: 1388:(3–4): 333–48. 1379: 1378: 1374: 1366: 1362: 1353: 1352: 1345: 1332: 1331: 1327: 1315: 1306: 1302: 1290: 1233: 1224: 1212: 1202:residue with a 1196: 1188: 1180: 1171: 1162: 1160:Stone's antigen 1110: 1099: 1089: 1078: 1071: 1064: 1057: 1049: 1047:Henshaw antigen 1040: 1032: 1018:anti-N lectin. 1009: 1004: 972: 964: 934: 918: 885:MNS blood group 883:Glycophorin A ( 869:View/Edit Human 846: 831: 824: 821:Location (UCSC) 809: 788: 784: 780: 756: 735: 731: 727: 644:ENSG00000170180 539: 513: 504:plasma membrane 487: 483:protein binding 438: 428: 427: 421: 420: 393: 384: 365: 360: 356: 352: 350:Achilles tendon 348: 344: 340: 336: 332: 328: 326:trabecular bone 314: 258: 245: 237: 227: 226: 225: 218: 196: 173:Gene location ( 132: 119: 112: 73: 51: 17: 12: 11: 5: 5881: 5879: 5871: 5870: 5865: 5855: 5854: 5848: 5847: 5845: 5844: 5839: 5834: 5829: 5824: 5819: 5814: 5809: 5804: 5799: 5794: 5789: 5784: 5779: 5774: 5769: 5764: 5759: 5754: 5749: 5744: 5739: 5734: 5729: 5724: 5719: 5714: 5709: 5704: 5699: 5694: 5689: 5684: 5679: 5674: 5669: 5664: 5658: 5656: 5652: 5651: 5649: 5648: 5643: 5638: 5633: 5628: 5623: 5618: 5613: 5608: 5603: 5598: 5593: 5588: 5583: 5578: 5573: 5568: 5563: 5558: 5553: 5548: 5543: 5538: 5533: 5528: 5523: 5518: 5513: 5508: 5503: 5498: 5493: 5488: 5483: 5478: 5473: 5468: 5463: 5458: 5452: 5450: 5446: 5445: 5443: 5442: 5437: 5428: 5423: 5418: 5413: 5408: 5403: 5398: 5393: 5388: 5383: 5382: 5381: 5376: 5366: 5361: 5356: 5351: 5346: 5341: 5336: 5331: 5326: 5321: 5316: 5311: 5306: 5301: 5295: 5286: 5281: 5280: 5279: 5274: 5264: 5259: 5258: 5257: 5252: 5242: 5237: 5232: 5227: 5222: 5217: 5212: 5207: 5201: 5199: 5195: 5194: 5192: 5191: 5186: 5181: 5176: 5171: 5166: 5161: 5156: 5151: 5146: 5141: 5136: 5131: 5126: 5121: 5116: 5111: 5106: 5105: 5104: 5099: 5089: 5084: 5079: 5074: 5073: 5072: 5067: 5062: 5052: 5047: 5042: 5037: 5032: 5031: 5030: 5025: 5015: 5010: 5005: 5000: 4995: 4990: 4985: 4984: 4983: 4978: 4968: 4962: 4957: 4952: 4947: 4938: 4933: 4932: 4931: 4926: 4921: 4911: 4906: 4901: 4896: 4891: 4885: 4883: 4879: 4878: 4876: 4875: 4870: 4865: 4860: 4855: 4850: 4845: 4840: 4835: 4830: 4825: 4820: 4815: 4810: 4805: 4800: 4795: 4790: 4785: 4780: 4775: 4770: 4765: 4760: 4755: 4750: 4749: 4748: 4743: 4733: 4732: 4731: 4726: 4716: 4711: 4706: 4701: 4696: 4691: 4686: 4681: 4676: 4671: 4666: 4661: 4656: 4655: 4654: 4649: 4639: 4634: 4629: 4624: 4619: 4614: 4608: 4606: 4602: 4601: 4599: 4598: 4593: 4588: 4583: 4578: 4573: 4568: 4563: 4558: 4549: 4544: 4539: 4534: 4529: 4524: 4523: 4522: 4517: 4512: 4507: 4502: 4497: 4487: 4482: 4477: 4472: 4467: 4462: 4461: 4460: 4455: 4445: 4440: 4435: 4430: 4425: 4420: 4415: 4410: 4405: 4404: 4403: 4398: 4393: 4388: 4383: 4378: 4368: 4367: 4366: 4361: 4356: 4346: 4341: 4340: 4339: 4334: 4329: 4319: 4314: 4309: 4304: 4299: 4294: 4289: 4284: 4279: 4274: 4268: 4266: 4262: 4261: 4259: 4258: 4253: 4252: 4251: 4246: 4241: 4236: 4231: 4226: 4216: 4211: 4206: 4201: 4196: 4191: 4186: 4185: 4184: 4179: 4174: 4169: 4159: 4154: 4149: 4144: 4139: 4134: 4129: 4124: 4119: 4114: 4113: 4112: 4107: 4097: 4092: 4087: 4082: 4077: 4072: 4067: 4062: 4057: 4052: 4047: 4042: 4037: 4032: 4027: 4026: 4025: 4020: 4010: 4005: 4000: 3995: 3994: 3993: 3988: 3983: 3978: 3968: 3963: 3958: 3957: 3956: 3946: 3941: 3936: 3931: 3926: 3925: 3924: 3919: 3914: 3904: 3899: 3898: 3897: 3892: 3887: 3882: 3877: 3866: 3864: 3860: 3859: 3845: 3843: 3842: 3835: 3828: 3820: 3801: 3800: 3794: 3784: 3761: 3760:External links 3758: 3754: 3753: 3751: 3750: 3744: 3737: 3734: 3731: 3730: 3727: 3725: 3724: 3717: 3710: 3702: 3695: 3694: 3656:(19): 6735–9. 3642: 3589: 3554: 3517: 3474: 3445: 3416: 3363: 3326: 3284: 3249: 3229:(8): 1813–20. 3214: 3185: 3165:(5): 3336–42. 3150: 3115: 3095:(11): 7683–9. 3080: 3035: 2997: 2968: 2940:(3): 199–209. 2924: 2922: 2919: 2917: 2916: 2881: 2846: 2797: 2762: 2743:(29): 9513–8. 2727: 2690: 2641: 2592: 2565: 2516: 2473: 2430: 2383: 2340: 2297: 2254: 2211: 2201: 2174:(3): 635–641. 2158: 2138: 2095: 2074:(8): 1813–20. 2054: 2033:(9): 2379–87. 2013: 1972: 1945:(5–6): 302–5. 1929: 1894: 1859: 1830:(2): 399–404. 1810: 1766: 1725: 1682: 1633: 1589: 1545: 1502: 1459: 1415: 1382:Biochem. Genet 1372: 1360: 1343: 1325: 1303: 1301: 1298: 1297: 1296: 1289: 1286: 1232: 1229: 1223: 1220: 1211: 1208: 1195: 1192: 1187: 1184: 1179: 1178:Orriss antigen 1176: 1170: 1167: 1161: 1158: 1108: 1097: 1088: 1085: 1076: 1069: 1062: 1055: 1048: 1045: 1039: 1036: 1031: 1028: 1015:Vicia graminea 1008: 1005: 1003: 1000: 999: 998: 995: 992: 989: 971: 968: 963: 960: 933: 930: 917: 914: 878: 877: 874: 873: 871: 861: 860: 854: 853: 850: 849: 844: 842: 835: 834: 829: 822: 818: 817: 814: 813: 805: 804: 798: 795: 794: 776: 775: 769: 765: 764: 761: 760: 752: 751: 745: 742: 741: 723: 722: 716: 712: 711: 708: 707: 701: 700: 694: 691: 690: 682: 681: 675: 669: 668: 665: 664: 658: 657: 651: 648: 647: 639: 638: 632: 626: 625: 622: 621: 615: 614: 608: 605: 604: 596: 595: 589: 583: 582: 577: 572: 568: 567: 557: 556: 553: 552: 541: 540: 538: 537: 532: 527: 521: 519: 515: 514: 512: 511: 506: 501: 495: 493: 489: 488: 486: 485: 480: 475: 469: 467: 463: 462: 452: 451: 448: 447: 444: 443: 435: 434: 409: 403: 402: 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4779: 4776: 4774: 4771: 4769: 4766: 4764: 4761: 4759: 4756: 4754: 4751: 4747: 4744: 4742: 4739: 4738: 4737: 4734: 4730: 4727: 4725: 4722: 4721: 4720: 4717: 4715: 4712: 4710: 4707: 4705: 4702: 4700: 4697: 4695: 4692: 4690: 4687: 4685: 4682: 4680: 4677: 4675: 4672: 4670: 4667: 4665: 4662: 4660: 4657: 4653: 4650: 4648: 4645: 4644: 4643: 4640: 4638: 4635: 4633: 4630: 4628: 4625: 4623: 4620: 4618: 4615: 4613: 4610: 4609: 4607: 4603: 4597: 4594: 4592: 4589: 4587: 4584: 4582: 4579: 4577: 4574: 4572: 4569: 4567: 4564: 4562: 4559: 4557: 4553: 4550: 4548: 4545: 4543: 4540: 4538: 4535: 4533: 4530: 4528: 4525: 4521: 4518: 4516: 4513: 4511: 4508: 4506: 4503: 4501: 4498: 4496: 4493: 4492: 4491: 4488: 4486: 4483: 4481: 4478: 4476: 4473: 4471: 4468: 4466: 4463: 4459: 4456: 4454: 4451: 4450: 4449: 4446: 4444: 4441: 4439: 4436: 4434: 4431: 4429: 4426: 4424: 4421: 4419: 4416: 4414: 4411: 4409: 4406: 4402: 4399: 4397: 4394: 4392: 4389: 4387: 4384: 4382: 4379: 4377: 4374: 4373: 4372: 4369: 4365: 4362: 4360: 4357: 4355: 4352: 4351: 4350: 4347: 4345: 4342: 4338: 4335: 4333: 4330: 4328: 4325: 4324: 4323: 4320: 4318: 4315: 4313: 4310: 4308: 4305: 4303: 4300: 4298: 4295: 4293: 4290: 4288: 4285: 4283: 4280: 4278: 4275: 4273: 4270: 4269: 4267: 4263: 4257: 4254: 4250: 4247: 4245: 4242: 4240: 4237: 4235: 4232: 4230: 4227: 4225: 4222: 4221: 4220: 4217: 4215: 4212: 4210: 4207: 4205: 4202: 4200: 4197: 4195: 4192: 4190: 4187: 4183: 4180: 4178: 4175: 4173: 4170: 4168: 4165: 4164: 4163: 4160: 4158: 4155: 4153: 4150: 4148: 4145: 4143: 4140: 4138: 4135: 4133: 4130: 4128: 4125: 4123: 4120: 4118: 4115: 4111: 4108: 4106: 4103: 4102: 4101: 4098: 4096: 4093: 4091: 4088: 4086: 4083: 4081: 4078: 4076: 4073: 4071: 4068: 4066: 4063: 4061: 4058: 4056: 4053: 4051: 4048: 4046: 4043: 4041: 4038: 4036: 4033: 4031: 4028: 4024: 4021: 4019: 4016: 4015: 4014: 4011: 4009: 4006: 4004: 4001: 3999: 3996: 3992: 3989: 3987: 3984: 3982: 3979: 3977: 3974: 3973: 3972: 3969: 3967: 3964: 3962: 3959: 3955: 3952: 3951: 3950: 3947: 3945: 3942: 3940: 3937: 3935: 3932: 3930: 3927: 3923: 3920: 3918: 3915: 3913: 3910: 3909: 3908: 3905: 3903: 3900: 3896: 3893: 3891: 3888: 3886: 3883: 3881: 3878: 3876: 3873: 3872: 3871: 3868: 3867: 3865: 3861: 3856: 3852: 3848: 3841: 3836: 3834: 3829: 3827: 3822: 3821: 3818: 3814: 3813: 3811: 3810:public domain 3807: 3799: 3795: 3792: 3788: 3785: 3782: 3778: 3777: 3772: 3768: 3764: 3763: 3759: 3747: 3741: 3736: 3732: 3723: 3718: 3716: 3711: 3709: 3704: 3703: 3700: 3691: 3687: 3682: 3677: 3672: 3667: 3663: 3659: 3655: 3651: 3648: 3643: 3639: 3635: 3630: 3625: 3620: 3615: 3611: 3607: 3604:(6): 1665–9. 3603: 3599: 3595: 3590: 3586: 3582: 3577: 3572: 3569:(1): 147–53. 3568: 3564: 3560: 3555: 3551: 3547: 3543: 3539: 3535: 3531: 3527: 3523: 3518: 3514: 3510: 3505: 3500: 3496: 3492: 3489:(3): 743–50. 3488: 3484: 3480: 3475: 3471: 3467: 3463: 3459: 3456:(2): 337–44. 3455: 3451: 3446: 3442: 3438: 3434: 3430: 3427:(2): 325–32. 3426: 3422: 3417: 3413: 3409: 3404: 3399: 3394: 3389: 3385: 3381: 3377: 3373: 3369: 3364: 3360: 3356: 3352: 3348: 3344: 3340: 3337:(2): 129–36. 3336: 3332: 3327: 3323: 3319: 3314: 3309: 3305: 3301: 3297: 3293: 3290: 3285: 3281: 3277: 3272: 3267: 3263: 3259: 3258:J. Biol. Chem 3255: 3250: 3246: 3242: 3237: 3232: 3228: 3224: 3220: 3215: 3211: 3207: 3203: 3199: 3195: 3191: 3186: 3182: 3178: 3173: 3168: 3164: 3160: 3159:J. Biol. Chem 3156: 3151: 3147: 3143: 3138: 3133: 3130:(1): 257–63. 3129: 3125: 3121: 3116: 3112: 3108: 3103: 3098: 3094: 3090: 3089:J. Biol. Chem 3086: 3081: 3077: 3073: 3068: 3063: 3058: 3053: 3050:(8): 2964–8. 3049: 3045: 3041: 3036: 3032: 3028: 3024: 3020: 3016: 3012: 3009:(5): 567–71. 3008: 3004: 2998: 2994: 2990: 2986: 2982: 2979:(4): 357–65. 2978: 2974: 2969: 2965: 2961: 2957: 2953: 2948: 2943: 2939: 2935: 2931: 2926: 2925: 2920: 2912: 2908: 2904: 2900: 2897:(1): 94–101. 2896: 2892: 2885: 2882: 2877: 2873: 2869: 2865: 2861: 2857: 2850: 2847: 2842: 2838: 2833: 2828: 2824: 2820: 2817:(9): 5582–5. 2816: 2812: 2808: 2801: 2798: 2793: 2789: 2785: 2781: 2777: 2773: 2766: 2763: 2758: 2754: 2750: 2746: 2742: 2738: 2731: 2728: 2723: 2719: 2714: 2709: 2705: 2704:J. Gen. Virol 2701: 2694: 2691: 2686: 2682: 2677: 2672: 2668: 2664: 2660: 2656: 2652: 2645: 2642: 2637: 2633: 2628: 2623: 2619: 2615: 2611: 2607: 2603: 2596: 2593: 2588: 2584: 2580: 2576: 2569: 2566: 2561: 2557: 2552: 2547: 2543: 2539: 2535: 2531: 2527: 2520: 2517: 2512: 2508: 2504: 2500: 2496: 2492: 2488: 2484: 2477: 2474: 2469: 2465: 2461: 2457: 2453: 2449: 2446:(4): 318–21. 2445: 2441: 2434: 2431: 2426: 2422: 2418: 2414: 2410: 2406: 2402: 2398: 2390: 2388: 2384: 2379: 2375: 2371: 2367: 2363: 2359: 2356:(3): 237–41. 2355: 2351: 2344: 2341: 2336: 2332: 2328: 2324: 2320: 2316: 2312: 2308: 2301: 2298: 2293: 2289: 2285: 2281: 2277: 2273: 2269: 2265: 2258: 2255: 2250: 2246: 2242: 2238: 2234: 2230: 2227:(3): 238–41. 2226: 2222: 2215: 2212: 2205: 2202: 2197: 2193: 2189: 2185: 2181: 2177: 2173: 2169: 2162: 2159: 2154: 2150: 2149:Vox Sanguinis 2142: 2139: 2134: 2130: 2126: 2122: 2118: 2114: 2110: 2106: 2099: 2096: 2091: 2087: 2082: 2077: 2073: 2069: 2065: 2058: 2055: 2050: 2046: 2041: 2036: 2032: 2028: 2024: 2017: 2014: 2009: 2005: 2000: 1995: 1991: 1987: 1986:J. Biol. Chem 1983: 1976: 1973: 1968: 1964: 1960: 1956: 1952: 1948: 1944: 1940: 1933: 1930: 1925: 1921: 1917: 1913: 1909: 1905: 1898: 1895: 1890: 1886: 1882: 1878: 1874: 1870: 1863: 1860: 1855: 1851: 1846: 1841: 1837: 1833: 1829: 1825: 1821: 1814: 1811: 1806: 1802: 1797: 1792: 1789:(2): 259–65. 1788: 1784: 1780: 1773: 1771: 1767: 1762: 1758: 1753: 1748: 1745:(1): 257–63. 1744: 1740: 1736: 1729: 1726: 1721: 1717: 1713: 1709: 1705: 1701: 1698:(2): 219–22. 1697: 1693: 1686: 1683: 1678: 1674: 1669: 1664: 1660: 1656: 1652: 1648: 1644: 1637: 1634: 1629: 1625: 1621: 1617: 1613: 1609: 1605: 1601: 1593: 1590: 1585: 1581: 1577: 1573: 1569: 1565: 1561: 1557: 1549: 1546: 1541: 1537: 1533: 1529: 1525: 1521: 1518:(5): 247–53. 1517: 1513: 1506: 1503: 1498: 1494: 1490: 1486: 1482: 1478: 1475:(6): 377–86. 1474: 1470: 1463: 1460: 1455: 1451: 1447: 1443: 1439: 1435: 1432:(6): 383–90. 1431: 1427: 1419: 1416: 1411: 1407: 1403: 1399: 1395: 1391: 1387: 1383: 1376: 1373: 1370: 1364: 1361: 1356: 1350: 1348: 1344: 1339: 1335: 1329: 1326: 1322: 1318: 1313: 1311: 1309: 1305: 1299: 1295: 1292: 1291: 1287: 1285: 1283: 1279: 1275: 1271: 1267: 1263: 1259: 1255: 1250: 1248: 1247:P. falciparum 1244: 1240: 1239: 1230: 1228: 1221: 1219: 1217: 1209: 1207: 1205: 1201: 1193: 1191: 1185: 1183: 1177: 1175: 1168: 1166: 1157: 1155: 1150: 1148: 1144: 1139: 1137: 1132: 1130: 1125: 1123: 1118: 1114: 1107: 1103: 1093: 1086: 1084: 1082: 1075: 1068: 1061: 1054: 1046: 1044: 1038:Dantu antigen 1037: 1035: 1029: 1027: 1025: 1019: 1017: 1016: 1006: 1001: 996: 993: 990: 988: 984: 980: 979: 978: 975: 969: 967: 961: 959: 957: 953: 948: 946: 945: 938: 931: 929: 927: 923: 915: 913: 911: 907: 903: 900: 896: 892: 888: 886: 870: 866: 862: 859: 855: 845: 843: 840: 836: 830: 827: 823: 819: 812: 806: 802: 799: 793: 791: 787: 783: 777: 773: 770: 766: 759: 753: 749: 746: 740: 738: 734: 730: 724: 720: 717: 715:RefSeq (mRNA) 713: 706: 702: 698: 695: 689: 688: 683: 679: 676: 674: 670: 663: 659: 655: 652: 646: 645: 640: 636: 633: 631: 627: 620: 616: 612: 609: 603: 602: 597: 593: 590: 588: 584: 581: 578: 576: 573: 569: 566: 562: 558: 551: 547: 542: 536: 533: 531: 530:viral process 528: 526: 523: 522: 520: 517: 516: 510: 507: 505: 502: 500: 497: 496: 494: 491: 490: 484: 481: 479: 476: 474: 471: 470: 468: 465: 464: 461: 460:Gene ontology 457: 453: 441: 436: 432: 425: 418: 413: 410: 408: 404: 396: 391: 381: 378: 374: 371: 361: 358:apex of heart 357: 353: 349: 345: 341: 337: 333: 329: 325: 324: 321: 317: 312: 309: 308: 305: 303: 299: 297: 296: 292: 291: 288: 286: 282: 278: 274: 270: 262: 257: 253: 249: 244: 234: 230: 223: 216: 210: 203: 199: 193: 189: 185: 180: 176: 171: 167: 163: 159: 155: 151: 147: 143: 139: 135: 127: 122: 115: 110: 105: 94: 92: 88: 84: 80: 76: 70: 65: 62: 61: 57: 54: 47: 43: 38: 34: 30: 25: 20: 5368: 5288: 5266: 5244: 5091: 5054: 5017: 4970: 4940: 4913: 4735: 4641: 4489: 4218: 3970: 3803: 3802: 3774: 3745: 3653: 3649: 3601: 3597: 3566: 3562: 3528:(1): 26–30. 3525: 3521: 3486: 3482: 3453: 3449: 3424: 3420: 3375: 3371: 3334: 3330: 3295: 3291: 3261: 3257: 3226: 3222: 3196:(2): 265–6. 3193: 3189: 3162: 3158: 3127: 3123: 3092: 3088: 3047: 3043: 3006: 3002: 2976: 2972: 2937: 2933: 2894: 2890: 2884: 2859: 2856:Biochemistry 2855: 2849: 2814: 2810: 2800: 2778:(1): 133–8. 2775: 2771: 2765: 2740: 2737:Biochemistry 2736: 2730: 2703: 2693: 2658: 2654: 2644: 2612:(4): 901–9. 2609: 2606:J. Cell Biol 2605: 2595: 2581:(5): 463–9. 2578: 2574: 2568: 2536:(1): 273–6. 2533: 2529: 2519: 2486: 2482: 2476: 2443: 2439: 2433: 2403:(5): 555–9. 2400: 2396: 2353: 2349: 2343: 2313:(4): 330–4. 2310: 2306: 2300: 2270:(2): 130–6. 2267: 2263: 2257: 2224: 2220: 2214: 2204: 2171: 2167: 2161: 2152: 2148: 2141: 2111:(2): 152–5. 2108: 2104: 2098: 2071: 2067: 2057: 2030: 2026: 2016: 1989: 1985: 1975: 1942: 1938: 1932: 1910:(8): 855–9. 1907: 1903: 1897: 1875:(1): 27–30. 1872: 1868: 1862: 1827: 1823: 1813: 1786: 1782: 1742: 1738: 1728: 1695: 1691: 1685: 1650: 1646: 1636: 1606:(3): 183–6. 1603: 1599: 1592: 1562:(1): 33–43. 1559: 1555: 1548: 1515: 1511: 1505: 1472: 1468: 1462: 1429: 1425: 1418: 1385: 1381: 1375: 1363: 1337: 1328: 1262:Sendai virus 1251: 1246: 1236: 1234: 1225: 1213: 1197: 1189: 1181: 1172: 1163: 1151: 1140: 1133: 1126: 1094: 1090: 1050: 1041: 1033: 1030:Null mutants 1020: 1013: 1010: 976: 973: 970:Blood groups 965: 949: 942: 939: 935: 926:blood groups 919: 905: 898: 890: 882: 881: 808: 786:NP_001295119 782:NP_001295116 779: 755: 733:NM_001308190 729:NM_001308187 726: 704: 685: 661: 642: 618: 599: 579: 574: 300: 293: 259:144,140,751 246:144,109,303 129:External IDs 72: 3728:PDB gallery 3003:Transfusion 2489:(1): 86–9. 2483:Transfusion 2397:Transfusion 2221:Transfusion 2168:Transfusion 1294:Glycophorin 1266:influenza A 1254:hepatitis A 1169:Sat antigen 1024:Chimpanzees 330:bone marrow 107:Identifiers 5857:Categories 3853:(see also 3522:Hum. Genet 3483:Biochem. J 2934:Hum. Mutat 2530:Biochem. J 1824:Biochem. J 1323:, May 2017 1300:References 1282:reoviruses 1272:, group C 1258:parvovirus 1210:Ny antigen 1194:Os antigen 1186:Mg antigen 1106:asparagine 1096:asparagine 1053:Tryptophan 304:(ortholog) 142:HomoloGene 1274:rotavirus 1222:Reactions 1216:aspartate 1147:Taiwanese 1136:kodecytes 1131:is 9.7%. 1074:Glutamate 1012:bind the 983:Caucasoid 790:NP_002090 737:NM_002099 565:Orthologs 150:GeneCards 3847:Proteins 3550:23151179 3031:34052803 3023:12084164 2964:34245274 2891:Virology 2811:J. Virol 2685:15331714 2655:J. Virol 2511:39840648 2468:33092281 2440:Vox Sang 2417:10827258 2378:83905143 2350:Vox Sang 2335:36810910 2307:Vox Sang 2292:24337520 2264:Vox Sang 2249:38287351 2196:20952307 2188:19912581 2105:Vox Sang 1967:27162982 1939:Vox Sang 1692:Vox Sang 1677:13059432 1647:Br Med J 1600:Vox Sang 1584:10130228 1540:21559983 1497:10869726 1469:Vox Sang 1454:21109436 1410:23990336 1319:– 1288:See also 1143:Japanese 1129:Thailand 1122:arginine 1117:tyrosine 1113:arginine 956:gorillas 952:primates 932:Genomics 916:Function 858:Wikidata 544:Sources: 509:membrane 342:monocyte 338:testicle 5655:301–350 5449:251–300 5401:CD240CE 5198:201–250 4882:151–200 4605:101–150 3781:PDBe-KB 3771:UniProt 3690:3477806 3658:Bibcode 3638:3456608 3606:Bibcode 3585:3345758 3542:3198123 3513:3196288 3504:1135146 3470:2792104 3441:2753361 3412:2734312 3380:Bibcode 3359:2911581 3351:2386609 3322:2216775 3280:2016325 3245:2015404 3210:1932122 3181:1737789 3146:1611092 3111:1560003 3076:1059087 2993:9269716 2956:8535438 2911:3604060 2876:2176879 2841:1380096 2792:8499461 2757:8755731 2722:9747725 2636:1310320 2627:2289329 2587:6370471 2560:6342608 2551:1154085 2503:7466911 2460:2442890 2425:6891686 2370:8036795 2327:2442891 2284:1722368 2241:8146897 2209:203-204 2133:7483916 2125:1114793 2090:2015404 2049:1421409 2008:2016325 1959:6172902 1924:2590469 1889:2439339 1854:6615443 1845:1152141 1805:6697986 1761:1611092 1712:5955790 1668:2028931 1628:2642482 1620:7625076 1576:3607294 1532:2470445 1489:6431691 1402:6860297 1321:Ensembl 1200:proline 1154:Denmark 1067:Leucine 1060:Glycine 987:Negroid 981:M: 78% 912:235a). 895:protein 893:, is a 673:UniProt 630:Ensembl 571:Species 550:QuickGO 279:pattern 238:4q31.21 114:Aliases 5662:CD300A 5621:CDw293 5406:CD240D 5267:CD213a 5245:CDw210 5210:CD202b 5184:CDw199 5179:CDw198 4833:CD140b 4265:51–100 3793:(MeSH) 3776:P02724 3688: 3681:299158 3678: 3636: 3629:323144 3626: 3583: 3548: 3540: 3511: 3501: 3468: 3439: 3410: 3403:287322 3400: 3357: 3349: 3320: 3313:332322 3310: 3278: 3243: 3208: 3179: 3144: 3109: 3074: 3067:432899 3064: 3029: 3021: 2991: 2962: 2954: 2909: 2874: 2839: 2832:289118 2829: 2790: 2755: 2720: 2683: 2676:514964 2673: 2634: 2624: 2585: 2558: 2548: 2509: 2501: 2466: 2458: 2423: 2415: 2376: 2368: 2333: 2325: 2290: 2282: 2247: 2239: 2194: 2186: 2131: 2123: 2088: 2047: 2006: 1965: 1957: 1922: 1887: 1852: 1842: 1803: 1759: 1718: 1710: 1675: 1665: 1626: 1618: 1582: 1574: 1538: 1530: 1495: 1487: 1452: 1446:521666 1444: 1408: 1400: 1204:serine 1102:lysine 985:; 74% 906:CD235a 841:search 839:PubMed 687:P02724 587:Entrez 407:BioGPS 362:spleen 138:617922 5842:CD350 5837:CD349 5832:CD344 5827:CD340 5822:CD339 5817:CD338 5812:CD337 5807:CD336 5802:CD335 5797:CD334 5792:CD333 5787:CD332 5782:CD331 5777:CD329 5772:CD328 5767:CD327 5762:CD326 5757:CD325 5752:CD324 5747:CD322 5742:CD321 5737:CD320 5732:CD318 5727:CD317 5722:CD316 5717:CD315 5712:CD314 5707:CD312 5702:CD309 5697:CD307 5692:CD306 5687:CD305 5682:CD304 5677:CD303 5672:CD302 5667:CD301 5646:CD299 5641:CD298 5636:CD297 5631:CD295 5626:CD294 5616:CD292 5611:CD290 5606:CD289 5601:CD288 5596:CD286 5591:CD284 5586:CD283 5581:CD282 5576:CD281 5571:CD280 5566:CD279 5561:CD278 5556:CD276 5551:CD275 5546:CD274 5541:CD273 5536:CD272 5531:CD271 5526:CD269 5521:CD268 5516:CD267 5511:CD266 5506:CD265 5501:CD264 5496:CD263 5491:CD262 5486:CD261 5481:CD258 5476:CD257 5471:CD256 5466:CD254 5461:CD253 5456:CD252 5440:CD249 5435:CD248 5431:CD247 5426:CD246 5421:CD244 5416:CD243 5411:CD241 5396:CD239 5391:CD238 5386:CD236 5369:CD235 5364:CD234 5359:CD233 5354:CD230 5349:CD229 5344:CD228 5339:CD227 5334:CD226 5329:CD225 5324:CD224 5319:CD223 5314:CD222 5309:CD221 5304:CD220 5289:CD218 5284:CD217 5262:CD212 5240:CD209 5235:CD208 5230:CD207 5225:CD206 5220:CD205 5215:CD204 5205:CD201 5189:CD200 5174:CD197 5169:CD196 5164:CD195 5159:CD194 5154:CD193 5149:CD192 5144:CD191 5139:CD186 5134:CD185 5129:CD184 5124:CD183 5119:CD182 5114:CD181 5109:CD180 5092:CD179 5087:CD178 5082:CD177 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