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Review | 14-March-2020

The Cromer blood group system: a review

The antigens of the Cromer blood group system reside on decay-accelerating factor (DAF), a protein belonging to the regulators of complement activation family. The blood group system consists of 12 high-prevalence and three lowprevalence antigens. The molecular basis for the antigens is known, and with the exception of IFC, each antigen is the product of a single nucleotide change in the DAF gene and has been localized to one of the four complement control protein (CCP) domains on the DAF

Jill R. Storry, Marion E. Reid, Mark H. Yazer

Immunohematology, Volume 26 , ISSUE 3, 109–117

Review | 14-October-2020

The Cromer blood group system: a review

The antigens of the Cromer blood group system reside on decay accelerating factor (DAF), a protein belonging to the regulators of complement activation family. The blood group system consists of eight high-incidence antigens and three low-incidence antigens. The molecular basis for the antigens is known and, with the exception of IFC, each antigen is the product of a single nucleotide polymorphism in the DAF gene and has been localized to one of the four short consensus repeat regions on the

Jill R. Storry, Marion E. Reid

Immunohematology, Volume 18 , ISSUE 4, 95–103

Article | 21-April-2020

Novel molecular basis of an Inab phenotype  

The Cromer blood group system consists of ten high-prevalence and three low-prevalence antigens carried on decay-accelerating factor (DAF). DAF is found in the cell membranes of RBCs, granulocytes,platelets,and lymphocytes and is widely represented in other body tissues. Sequence analyses of DNA were performed on a blood sample from a 91-year-old Japanese woman whose serum contained an alloantibody to a high-prevalence antigen in the Cromer blood group system (anti-IFC). A blood sample from her

Kim Hue-Roye, Vivien E. Powell, Gita Patel, Debra Lane, Mariska Maguire, Amy Chung, Marion E. Reid

Immunohematology, Volume 21 , ISSUE 2, 53–55

Article | 21-April-2020

Analysis of SERF in Thai blood donors

The Cromer blood group system consists of nine high-prevalence and three low-prevalence antigens carried on decay-accelerating factor (DAF). We recently described one of these Cromer highprevalence antigens,SERF,the absence of which was found in a Thai woman.The lack of SERF antigen in this proband was associated with a substitution of nucleotide 647C>T in exon 5 of DAF, which is predicted to be a change of proline to leucine at amino acid position 182 in short consensus repeat (SCR) 3 of

Poonsub Palacajornsuk, Kim Hue-Roye, Oytip Nathalang, Srisurang Tantimavanich, Sasitorn Bejrachandra, Marion Reid

Immunohematology, Volume 21 , ISSUE 2, 66–69

Review | 21-April-2020

Review: Cromer and DAF: role in health and disease

The antigens of the Cromer blood group system are located on the protein decay-accelerating factor (DAF). This system consists of ten high-prevalence and three low-prevalence antigens; the molecular basis for all of these antigens is a single nucleotide polymorphism in the DAF gene. DAF is a 70,000-Da plasma membrane protein that is widely distributed on all blood cells and on endothelial and epithelial tissues. The physiological role of DAF is to inhibit the complement cascade at the level of

Douglas M. Lublin

Immunohematology, Volume 21 , ISSUE 2, 39–47

Article | 16-November-2020

A second example of anti-Esa, an antibody to a high-incidence Cromer antigen

A blood sample contained an antibody to a high-incidence antigen that reacted with all red blood cells (RBCs) tested by the indirect antiglobulin test (IAT). The antibody reacted with papain-, ficin-, and trypsin-treated RBCs, but not with α-chymotrypsin-treated RBCs. This pattern of reactivity suggested the possibility that the antibody was recognizing an antigen in the Cromer blood group system. Tests against RBCs deficient in decay-accelerating factor (which carries the Cromer antigens

Marion E. Reid, Roselyn Marfoe, Anita Mueller, Patricia A. Arndt, Laima Sausais, Peggy Spruell

Immunohematology, Volume 12 , ISSUE 3, 112–114

Article | 28-April-2020

Persistent anti-Dra in two pregnancies

Cromer blood group system, including anti-Dra, have never been reported to cause HDN. In most of the cases with anti-Dra examined in Israel, the antibodies have been subtyped as IgG2 and IgG4. This report is of a woman with Dr(a–) phenotype and an anti-Dra titer of 256 to 512 in her serum, observed during two successive pregnancies. At birth, the RBCs of the first- and second-born child were negative and positive in the DAT, respectively, and neither manifested clinical signs of HDN. The

Naomi Rahimi-Levene, Abraham Kornberg, Gabriela Siegel, Valery Morozov, Eilat Shinar, Orna Asher, Cyril Levene, Vered Yahalom

Immunohematology, Volume 21 , ISSUE 3, 126–128

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