Hao Pang

Extensive polymorphism of the FUT2 gene in an African (Xhosa) population of South Africa

The human secretor type α(1,2)fucosyltrans-ferase gene (FUT2) polymorphism was investigated in Xhosa and Caucasian populations of South Africa by polymerase chain reaction–restriction fragment length polymorphism and DNA sequencing. Six new base substitutions were found in the coding region of FUT2. A single base (C) deletion at nucleotide 778, which led to a frame shift and produced a stop codon at codon 275, was responsible for the enzyme inactivation. Three nonsynonymous base substitutions, A40G (Ile14Val), C379T (Arg127Cys), and G481A (Asp161Asn), and two synonymous base substitutions, A375G (Glu125) and C480T (His160), were also identified in functional alleles. As a result, seven new alleles, Se40, Se481, Se40,481, Se357,480, Se357,379,480, Se375, and se357,480,778 were identified. Population studies revealed that an allele containing a nonsense mutation G428A (Trp143stop) (se428) was the common null allele in both Xhosa and Caucasian populations, whereas an allele containing a missense A385T (Ile129Phe) mutation (se357,385), which is the common null allele in Orientals, was found to be absent from both populations. The heterozygosity rates of FUT2 genotypes were as high as 0.75 in the Xhosa population and 0.65 in the Caucasian population. Therefore, the extensive polymorphism and race specificity of the FUT2 gene make it suitable for application as a new tool in genetic studies of modern human evolutionary history.

The fusion gene at the ABO-secretor locus (FUT2): absence in Chinese populations.

AbstractThe fusion gene (sefus) is a null allele of the secretor type α (1, 2) fucosyltransferase gene (FUT2) and was first found in a Japanese population. It has not yet been reported in any other ethnic population. In the present study, we investigated the distribution of the fusion gene of the FUT2 locus in five populations from three ethnic groups in East Asia. The fusion gene was found in two additional Japanese populations with a high frequency (0.0551 in Okinawa and 0.0792 in Akita) and, for the first time outside Japan, in a Korean population, at a very low frequency (0.0063 in Seoul). In contrast, we found no fusion gene in two Chinese populations. These findings showed that the FUT2 fusion gene was ubiquitous in Japanese, but was rare in neighboring populations, suggesting that the FUT2 fusion gene had emerged from within the Japanese. Additionally, a new null allele with a C-to-T substitution at nucleotide 658 was found in one individual native of southern China.

A-61C and C-101G Hp gene promoter polymorphisms are, respectively, associated with ahaptoglobinaemia and hypohaptoglobinaemia in Ghana.

We have investigated the genetic basis for the Hp0 phenotype amongst 123 randomly selected Ghanaians. A total of 17 individuals were determined to be Hp0 phenotype, based on the classical method for Hp phenotyping of Hb‐supplemented plasma. Out of the 17 Hp0 individuals, nine subjects were further classified as ahaptoglobinaemic and eight as hypohaptoglobinaemic by Western blots and double immunodiffusion. We identified three previously known base substitutions (A−55G, A−61C and T−104A) and three new ones (C−101G, T−191G and C−242T) within the 5′ flanking region of the Hp gene. The A−61C base substitution significantly decreased transcriptional activity and was associated strongly with Hp2 allele and ahaptoglobinaemia. The C−101G substitution was similar in transcriptional activity to the wild‐type and was associated with Hp1S allele and hypohaptoglobinaemia. The Hpdel allele seen in Asian populations was absent. We conclude that the Hp0 phenotype in Ghana has a genetic basis that differs significantly from that seen in Asia.

Five novel missense mutations of the Lewis gene ( FUT3 ) in African (Xhosa) and Caucasian populations in South Africa

Abstract Five novel missense mutations, viz., C304 A, T370 G, G484 A, G667 A, and G808 A, in the Lewis gene (FUT3) were detected in African (Xhosa) and Caucasian individuals in South Africa. These single base substitutions may result in changes in amino acid residues from Gln102 to Lys in the 304 mutation, Ser124 to Ala in the 370 mutation, Asp162 to Asn in the 484 mutation, Gly223 to Arg in the 667 mutation, and Val270 to Met in the 808 mutation. Out of the five novel mutations identified in this investigation, four new alleles (le484,667, le484,667,808, Le304, and Le370) were determined in the Xhosa population and two new alleles (le202,314,484 and Le304) in the Caucasian population. The determination of α(1,3/1,4)fucosyltransferase activity, after transfection of plasmids containing the new alleles into COS7 cells, suggested that alleles le484,667 and le484,667,808 encoded an inactive enzyme, and that alleles Le304 and Le370 encoded a functional enzyme. In addition, we also examined the incidence of five common alleles, Le59, le59,508, le59,1067, le202,314, and le1067 in two populations by the polymerase chain reaction/restriction fragment length polymorphism method and compared differences in the allele frequencies of FUT3 among three ethnic groups (Orientals, Africans, and Caucasians).

Identification of human phosphoglucomutase 3 (PGM3) as N‐acetylglucosamine‐phosphate mutase (AGM1)

We performed phenotyping of human phosphoglucomutase 3 (PGM(3)) and screening for mutations in the human N-acetylglucosamine-phosphate mutase gene (AGM(1)) to identify PGM(3) as AGM(1). By sequencing the coding region of AGM(1), two alleles containing a G or A base at nucleotide 1396, that can respectively encode aspartic acid or asparagine at codon 466, were identified. Cell extracts of COS7 cells after transfection with the pcDNA 3.1(+) plasmid containing an AGM(1) allele with 1396G or 1396A showed similar electrophoretic patterns to the PGM(3) 1 or PGM(3) 2 protein, respectively, with the isozyme detection method used for PGM(3) phenotyping. The genotypes determined by the two alleles of AGM(1) coincided exactly with the PGM(3) phenotypes in 20 individuals. We also investigated the allele frequency of the AGM(1) nucleotide polymorphism in a Japanese population by DNA sequencing and found that the frequencies of alleles 1396G and 1396A were similar to previously reported PGM(3) *1 and PGM(3) *2 frequencies. Overall, the facts that the AGM(1) gene product shows PGM activity, AGM(1) is polymorphic, the electrophoretic mobility is similar between AGM(1) allele-specific products and PGM(3) 1 and 2 proteins, PGM(3) phenotypes and AGM(1) genotypes completely coincide in 20 individuals, and AGM(1) allele frequencies are similar to those of PGM(3) *1 and PGM(3) *2 in Japanese populations, suggest that PGM(3) is identical to AGM(1).

Polymorphism of the human ABO-Secretor locus (FUT2) in four populations in Asia: indication of distinct Asian subpopulations

The polymorphic alleles of the human ABO‐Secretor locus (FUT2 or Se) show high heterogeneity and overt ethnic specificity. To provide additional data for analysis to elucidate the origins of populations, we have investigated the allelic polymorphism of FUT2 in 40 unrelated Tibetan and 53 Tamang individuals from Nepal, 42 Indonesian individuals from Surabaya, and 55 Uygur individuals from Urumqi, using DNA sequencing. In Tibetan, Tamang and Indonesian populations, the frequency of a nonfunctional allele, se357,385, which is found only in Asian populations, was 0·638, 0·509 and 0·631, respectively. In Uygur, the se428, which is common in Caucasian populations, and the se357,385 consisting of two common nonfunctional FUT2 alleles, had frequencies of 0·3 and 0·145, respectively. The fixation index (FST) based on genetic differentiation was obtained pairwise among the four populations in this study and six populations in our previous studies. The results suggested that genetic differentiation among Tibetan, Tamang, Indonesian and East Asian populations is very low, while the distribution feature of the FUT2 alleles in the Uygur population implied an admixture of European with Asian. The distribution of nonfunctional alleles at the FUT2 locus provided further evidence of human migration among the Asian populations.

Identification of human phosphoglucomutase 3 (PGM3) as N-acetylglucosamine-phosphate mutase (AGM1). PGM3 is equivalent to AGM1

We performed phenotyping of human phosphoglucomutase 3 (PGM3) and screening for mutations in the human N‐acetylglucosamine‐phosphate mutase gene (AGM1) to identify PGM3 as AGM1. By sequencing the coding region of AGM1, two alleles containing a G or A base at nucleotide 1396, that can respectively encode aspartic acid or asparagine at codon 466, were identified. Cell extracts of COS7 cells after transfection with the pcDNA 3·1(+) plasmid containing an AGM1 allele with 1396G or 1396A showed similar electrophoretic patterns to the PGM3 1 or PGM3 2 protein, respectively, with the isozyme detection method used for PGM3 phenotyping. The genotypes determined by the two alleles of AGM1 coincided exactly with the PGM3 phenotypes in 20 individuals. We also investigated the allele frequency of the AGM1 nucleotide polymorphism in a Japanese population by DNA sequencing and found that the frequencies of alleles 1396G and 1396A were similar to previously reported PGM3*1 and PGM3*2 frequencies. Overall, the facts that the AGM1 gene product shows PGM activity, AGM1 is polymorphic, the electrophoretic mobility is similar between AGM1 allele‐specific products and PGM3 1 and 2 proteins, PGM3 phenotypes and AGM1 genotypes completely coincide in 20 individuals, and AGM1 allele frequencies are similar to those of PGM3*1 and PGM3*2 in Japanese populations, suggest that PGM3 is identical to AGM1.

Two distinct Alu-mediated deletions of the human ABO-secretor (FUT2) locus in Samoan and Bangladeshi populations.

The human secretor α(1,2) fucosyltransferase encoded by the FUT2 determines the production of ABO(H) antigens in secretions. Recent studies demonstrated the presence of several nonfunctional alleles in the FUT2. During the analysis for inactivating mutations at the FUT2 locus from 24 Samoan and 47 Bangladeshi individuals, we found two distinct Alu‐mediated deletions of FUT2. The FUT2 deletion in a Bangladeshi population was identical with that found in Indian individuals with the Bombay phenotype (sedel), but not associated with the null allele (T725G) of the H gene (FUT1). The FUT2 deletion in Samoans is a novel null allele (sedel2). The junction region of sedel2 was successfully amplified using the same primers for the sedel amplification. DNA sequencing of the junction region of the sedel2 indicated that there was a 32‐bp sequence identity between DNA sequences surrounding the 5′ and 3′ breakpoints. The size of the deletion of the sedel2 was 9.3 kb, including the full coding region of FUT2. The frequency of the sedel in a Bangladeshi population was 0.074, and that of the sedel2 in a Samoan population was 0.104. Hum Mutat 16:274, 2000.

Lewis ( FUT3 ) Genotypes in Two Different Chinese Populations

The allelic frequencies of the alpha (1,3/4)fucosyltransferase gene (FUT3) in two different Chinese populations (138 individuals in Shenyang and 154 in Guangzhou) were investigated using PCR-RFLP and nucleotide sequencing methods. The common alleles in the Oriental population, Le (wild type allele), le59,508 (with the mutations at nucleotide (nt) 59T-->G and nt 508G-->A) and le59,1067 (with the mutations at nt 59T-->G and nt 1067T-->A) were encountered, and also the rare alleles, le1067 (with the mutation at nt 1067T-->A) and Le59 (with the mutation at 59T-->G), were observed in these Chinese populations. In addition, the common allele in Caucasians, le202,314 (with the mutations at nt 202T-->C and nt 314C-->T), was found in the Oriental population for the first time. The allelic frequencies of the Le, Le59, le59,508, le59,1067, le202,314, and le1067, were 0.750, 0.011, 0.145, 0.054, 0.036, and 0.004 in the Shenyang population and 0.675, 0.026, 0.14, 0.123, 0.026, and 0.010 in the Guangzhou population, respectively. The presence of the alleles containing either the 59 mutation (Le59) or the 1067 mutation (le1067) suggested that the allele le59,1067 may have originated by recombination between them.

Haptoglobin Gene Promoter Polymorphism and Haplotypes Are Unique in Different Populations

ABSTRACT We investigated the distribution of haptoglobin (HP) alleles and haplotypes among Africans (Ghanaians), Europeans (from South Africa), and Chinese. HP*1F was present only in Africans and Europeans, whereas HP*del was unique to Chinese. Six base substitutions at the promoter region were population specific. Only 3 out of 18 haplotypes were shared among the populations. A probable application of HP in human population genetics appears legitimate.