Detection and Characterization of Lewis Antigens in Plasma of Lewis‐Negative Individuals Evidence of Chain Extension as a Result of Reduced Fucosyltransferase Competition

Henry, S.M.; Oriol, Rafaël; Samuelsson, Bo E.

doi:10.1111/j.1423-0410.1994.tb01279.x

Cited by 27 publications

(24 citation statements)

References 32 publications

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“…Evidence of Le a and Le b antigens in plasma of Le(ab-) individuals has already been reported by Henry et al [23]. In our experiment, the levels of Lewis antigens in plasma and bloodstains of Le(a-b-) blood type were due to the high detectability of our time-resolved fluoroimmunoassay using a new europium chelate as a label.…”

Section: Discussionsupporting

confidence: 58%

Lewis and Secretor Gene Effects on Lewis Antigen and Postnatal Development of Lewis Blood Type

et al. 2001

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Lewis (Le) and Secretor (Se) gene effects on postnatal change in Lewis antigens are described based on the quantitative analysis of Lewis antigens in blood. Genuine Lewis blood types were determined by Le and Se genotyping in DNA samples obtained from umbilical cord blood and infant blood. Lewis^a (Le^a) and Lewis^b (Le^b) antigen levels were measured by a time-resolved fluoroimmunoassay. We found that Lewis phenotypes in infants over 9 months of age agreed with the genuine types. In cord blood, the dosage effect of the Se gene on antigen levels was observed, but the Le gene effect was not observed. Both Se and Le gene effects were observed in newborn babies’ blood 3–6 days after birth.

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Section: Discussionsupporting

confidence: 58%

Lewis and Secretor Gene Effects on Lewis Antigen and Postnatal Development of Lewis Blood Type

et al. 2001

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“…These samples have been extensively Lewis and secretory phenotyped and in some instances glycolipids were immunochemically profiled [12][13][14][15], Lewis phenotypes reported are those based on red cell serol ogy; however, for 3 samples, the Le(a+b-) phenotype was not support ed by glycolipid analysis of plasma [15, unpubl. obs.]. These 3 samples (033, 057 and 114) arc examples of the Le(a+b+) phenotype in which the Leb reaction on red cells cannot be serologically demonstrated rou tinely, and these samples have been classified here as Le(a+b+).…”

Section: Samples and Phenotypesmentioning

confidence: 99%

A Second Nonsecretor Allele of the Blood Group a(1,2)Fucosyltransferase Gene (FUT2)

Henry¹,

Mollicone²,

Lowe³

et al. 1996

Vox Sanguinis

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While screening Le(a+b+) Polynesian DNA samples for a candidate SeK allele, a point mutation (C(57I)→AT) resulting in a new stop codon (Arg(191)→stop) in the a(l,2)fucosyltransferase gene (FUT2) was identified. This point mutation resulted in the gaining of a new restriction enzyme cleavage site (Dde I), which allowed restriction enzyme cleavage screening of 40 selected Polynesians and 42 random Caucasians. The nonsecretor phenotype in two of the three nonsecretor Polynesians analyzed was due to homozygosity for the ‘new’ mutation, whereas the third Polynesian nonsecretor (with Caucasian ancestors) was due to homozygosity of the ‘old’ (Trp(143)→stop) mutation. The nonsecretor phenotype in all Caucasians analyzed was a consequence of homozygosity for the ‘old’ mutation. Both the new and the old nonsecretor mutations were identified in the heterozygous state in some secretor-positive Polynesians, while only the old mutation was found in the heterozygous state in Caucasians of the same phenotype.

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“…The latter condition is uncommon among whites (5-10% in Caucasian populations) but up to 5 times more common among black people [8]. The Lewis negativity, Le(a-b-), refers strictly to the serological reac tions of erythrocytes, since Lea or Leb antigens may be found in Lewis-negative individuals either in serum, plasma [9,10], saliva [11,12], on uroepithelial cells, or in colonic intestinal tissues [13], Until recently the allelic representation of Lewis blood group status was described as LeLe or Lele for Lewis-posi tive and lele for Lewis-negative individuals [8]. However, the cloning by Kukowska-Latallo et al [14] of the human Lewis a( 1,3/1,4)-fucosyltransferase [15,16] has opened up a new chapter for allelic characterisation and genotyping of human individuals for the Lewis blood group system.…”

Section: Introductionmentioning

confidence: 99%

DNA Sequencing and Screening for Point Mutations in the Human Lewis (FUT3) Gene Enables Molecular Genotyping of the Human Lewis Blood Group System

Elmgren¹,

Björnsen²,

Svensson³

et al. 1996

Vox Sanguinis

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The human Lewis gene encodes an α(1l,3/1,4)-fucosyltransferase responsible for synthesis of the Lea and Leb antigens. To define the molecular background for non-functional Lewis genes we have sequenced PCR-amplified DNA fragments from two Le(a-b-) individuals. One was homozygously mutated at nucleotides 202 (T→C)and 314 (C→T), altering Trp^68 to Arg and Thr^105 to Met, and the other was homozygously mutated at nucleotides 59 (T→G) and 1067 (T→A), altering Leu20 to Arg and lie356 to Lys. Using PCR we screened for these and additionally one other mutation at nucleotide 508 (G→A) among 40 Caucasians. Of 15 Le(a-b-) individuals, 7 typed as le^59;1067 le^202;314, 4 as le^202;314 and 1 as le^59;1067 le^59;1067. Of 21 Le(a-b+) and 4 Le(a+b-), 17 typed as LeLe and 7 as Lele^202;314. A pedigree study of 8 Lewis-positive individuals showed that the mu- tarions at nucleotides 202 and 314 were located on the same allele.

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Detection and Characterization of Lewis Antigens in Plasma of Lewis‐Negative Individuals Evidence of Chain Extension as a Result of Reduced Fucosyltransferase Competition

Cited by 27 publications

References 32 publications

Lewis and Secretor Gene Effects on Lewis Antigen and Postnatal Development of Lewis Blood Type

Lewis and Secretor Gene Effects on Lewis Antigen and Postnatal Development of Lewis Blood Type

A Second Nonsecretor Allele of the Blood Group a(1,2)Fucosyltransferase Gene (FUT2)

DNA Sequencing and Screening for Point Mutations in the Human Lewis (FUT3) Gene Enables Molecular Genotyping of the Human Lewis Blood Group System

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