Phosphoglucomutase-1 polymorphism among Chinese in Taiwan.

Phosphoglucomutase-1 (PGM1) phenotyping of 1,128 Chinese blood donors was performed by thin-layer isoelectric focusing on agarose. The PGM1 gene frequencies were: 1A, 0.6005; 1B, 0.1500; 2A, 0.1510; 2B, 0.0973, and rare variants, 0.0058. The rare variants found in this series were PGM1 W21, W2, W3, W6 and W9 (or W10) with PGM1 W21 being the most common variant among Chinese with a phenotype frequency of 0.8%.     

A new partially deficient variant in the phosphoglucomutase 1 system,PGM1*W31

Summary In a case of disputed paternity an inherited hyposynthetical variant of the PGM1^*1A gene was identified. This variant could not be detected by conventional electrophoresis on cellulose acetate membranes but clearly appeared on polyacrylamide gels after isoelectric focusing. The enzyme activity of this variant was about 25% of the normal PGM1^*1A protein. The variant was designated PGM1^*W31.     

Phosphoglucomutase phenotyping among Chinese in Taiwan.

Phosphoglucomutase 1 (PGM1) phenotyping was performed in 1,128 Chinese blood donors by thin-layer isoelectric focusing on agarose. The PGM1 gene frequencies were as follows: 1A, 0.6005; 1B, 0.1500; 2A, 0.1510, 2B, 0.0973; variants, 0.0058, with W21, 0.0040. The variants found in this series were PGM1 W21, W2, W3, W6 and W9 (or W10) with PGM1 W21 being the most common variant among Chinese, having a phenotype frequency of 0.8%.     

Phosphoglucomutase-1 subtypes in two populations in Adriatic islands: presence of PGM1*W3 (PGM1*7+) allele.

Allele frequencies at the phosphoglucomutase-1 (PGM1) locus have been investigated in two Croatian (Yugoslavian) populations from neighboring islands, Silba and Olib. The genotype distributions are significantly different though the two islands are only 2 km apart. In the light of demographic and historical data, a few hypotheses explaining these results are discussed. A rare variant, PGM1*W3, usually found in Asia, is present in 4 inhabitants from the Olib island.     

Distribution of red cell phosphoglucomutase-1 subtypes in several Mongoloid populations of East Asia

The distribution of red cell phosphoglucomutase (PGM) subtypes was determined by starch-gel electrophoresis and isoelectric focusing in a group of 2,484 unrelated individuals from ten Mongoloid populations of East Asia. The sample comprised 998 Chinese from various localities--Singapore, 325; Malaysia, 270; Taiwan, 276; Hong Kong, 67; Fouzhou, 60--as well as 342 Koreans; 252 Filipinos; 529 Thais; 336 Malays, and 27 Indonesians. Altogether 15 phenotypes controlled by four common and five rare alleles at the PGM1 locus were observed in these populations. The frequency of the most frequent allele (PGM1+) varied from 0.56 to 0.74, with the highest frequency observed in the Singapore Chinese and the lowest in the Malays. Within the Chinese from different localities a significant degree of heterogeneity was observed at the PGM1 locus. The rare allele (PGM17)6 was observed only among the Chinese, Thais, and Malays, while the PGM1 was lacking in the Filipinos. A new allele with ahigh pI (6.5) was observed in a low frequency in all the populations but the Malays.     

中国广东人红细胞PGM_1亚型遗传性多态现象

采用薄层聚丙烯酰胺凝胶等电聚焦技术,调查了中国(广东)406名无亲缘关系的正常人红细胞磷酸葡萄糖变位酶-1(PGM_1)亚型的遗传多态性。除了常见的10种亚型外,还发现了由一个新的变异型等位基因和常见的4个等位基因杂合产生的9例变异型。PGM_1位点的等位基因频率PGM_1~(1+)、PGM_1~(1-)、PGM_1~(2+)、PGM-1~(2-)和PGM_1~(V丰)(变异型等位基因)分别为0.5973、0.1256、0.1724、0.0936和0.0111;群体处于Hardy-Weinberg式平衡状态。变异型等位基因以多态频率出现,可能成为该群体的一个重要的遗传性特征。     

中国人红细胞PGM(PGM位点1)多态性的等电聚焦电泳研究

用等电聚焦电泳技术对北京地区180人进行红细胞葡萄糖磷酸变位酶(PGM_1)遗传表型的分析鉴定。共检测出九个PGM_1亚型,可能由于检测样本数还不够多,目前尚未检测到PGM_1 2-亚型。根据测定结果,观察了我国人群中PGM_1亚型的分布情况,并计算出决定PGM_1亚型的四个等位基因频率为:PGM~(1+)_10617,PGM~(1-)_1 0.100,PGM~(2+)_1 0.236,PGM~(2-)_10.047。采用等电聚焦电泳可将PGM_1的个体识别能力(DP值)由用普通淀粉胶电泳分型的0.558提高到0.742。结果与世界上其他国家和地区人群相似,PGM_1在我国人群中同样是一个个体识别能力很高的多态性酶类。     

Phosphoglucomutase-1 subtypes in the Albanian ethnic minority of the province of Cosenza (Calabria-Southern Italy): Presence of a new variant

Allele frequencies of the phosphoglucomutase-1 (PGM1), in the Albanian ethnic minority of province of Cosenza (Calabria-Southern Italy) were compared with the corresponding data from neighbouring non-Albanian sample groups. The isoelectrofocusing evaluation in the two populations revealed the presence of a new variant PGM1^*W31 in Albanian sample group. Furthermore, a significant heterogeneity was observed between Albanian allele frequencies and those of the surrounding groups.     

Genetic studies of phosphoglucomutase-1 (PGM1) subtypes: population aspects]

Distribution of the subtypes and gene frequencies of phosphoglucomutase-1 among some populations of Buryats, Kirghizes of the Pamir and Russians of Moscow district was analysed. The frequencies of PGM1 genes vary in Buryats being PGM1+(1) 0.647-0.743, PGM1-(1)-0.100-0.132, PGM2+(1)-0.122-0.199 and PGM2-(1)-0.007-0.037. Following frequencies of PGM1 genes were established for Kirghizes: PGM1+(1) = 0.614, PGM1-(1) = 0.114, PGM2+(1) = 0.217 and PGM2-(1) = 0.054; in Russian populations the frequencies were: PGM1+(1) = 0.578, PGM1-(1) = 0.110, PGM2+(1) = 0.253 and PGM2-(1) = 0.059. Peculiarities of PGM1 polymorphism in the USSR and all over the world were analysed. Parallel biodemographic investigations in Buryat population demonstrated differences in intensities of selection, related to concrete PGM genotypes.     

Subtyping of human red cell phosphoglucomutase locus 1 (PGM1) polymorphism: a third PGM1(1) allele common among Twa Pygmies from North Rwanda.

Seventy-eight Twa Pygmies from North Rwanda have been subtyped by acid starch gel electrophoresis for the polymorphism at the phosphoglucomutase locus 1 (PGM1). A third common PGM1(1) allele that has been named PGM1(1Twa) was detected in heterozygous association with both PGM1(1S) and PGM1(1F) alleles. The PGM1(1Twa) product is faster than those of the other two PGM1(1) alleles and has the same electrophoretic mobility as the rare PGM1(6) enzyme. The frequency of PGM1(1Twa) was found to be 0.45.     

Electrophoretic subtyping of phosphoglucomutase locus 1 (PGM1) polymorphism in the Italian and Czechoslovakian populations

About 3,500 subjects from Italy and Czechoslovakia have been analyzed by acid starch gel electrophoresis for the subtyping of PGM1 polymorphism. The Italian sample included three different subgroups, from Northern, Central and Southern Italy. The allele frequencies found in the three groups do not differ significantly from each other; the observed values in the pooled sample are: PGM1S1 = 0.594, PGM1F1 = 0.118, PGM2S1 = 0.231, PGM2F1 = 0.057. In the Czechoslovakian group, which differs significantly from the Italian population, the following allele frequencies were found: PGM1S1 = 0.639, PGM1F1 = 0.118, PGM2S1 = 0.180, PGM2F1 = 0.063. The analysis of 217 families did not show any exception to Mendelian inheritance of the patterns.     

Distribution of adenylate kinase and phosphoglucomutase isoenzymes in the population of the city of New York.

Blood samples from unrelated persons living in New York, N.Y., were examined for phosphoglucomutase (PGM) and adenylate kinase (AK) phenotypes, the sample consisting of 164 Caucasians, 133 Negroes, 129 persons of Spanish origin or descent, and 156 Chinese for PGM and 136 Caucasians, 134 Negroes, 136 persons of Spanish origin or descent, and 156 Chinese for AK. The PGM1 gene frequency was found to be 0.7774 for Caucasians, 0.8083 for Negroes, 0.7461 for Hispanic persons, and 0.7917 for Chinese. One Hispanic person had a very rare type, PGM 8-1-FAST. The AK1 gene frequency was found to be 0.9669 for Caucasians, 0.9813 for Negroes, 0.9779 for Hispanic persons, and 1.000 for Chinese.     

我国几个民族中毛发根葡糖磷酸变位酶—1的亚型分布

本文报道了利用等电聚焦的方法,从毛发根鞘细胞分析了我国汉、苗、土家、撒拉、土、达斡尔和赫哲等民族的葡糖磷酸变位酶-1(PGM_1)10亚型的分布,并且与其他人群的基因频率作了比较。     

Isoelectric subtyping of the PGM1 in the Icelandic population

Phenotypes for the red blood cell enzyme phosphoglucomutase (PGM1) were determined by isoelectric focusing for a population of 2,501 Icelandic individuals. All ten phenotypes were observed, and the frequencies of four alleles at the PGM1 locus were as follows: PGM1 1+=0.6875; PGM1 1−=0.1124; PGM1 2+=0.1419, and PGM1 2−=0.0582. These results have been compared with those found in other northern European populations.     

Subtyping of phosphoglucomutase locus 1 (PGM1) polymorphism in some populations of Rwanda: description of variant phenotypes, "haplotype" frequencies,and linkage disequilibrium data.

Some populations of Rwanda (South Twa Pygmies, Hutu, and Tutsi) have been analyzed by acid starch gel electrophoresis for the subtyping of PGM1 polymorphism. The new polymorphic third PGM11 allele, the PGM1(1Twa), which we recently detected in Twa Pygmies from North Rwanda, has not been found in this survey, whereas the rare PGM1(6) allele attains subpolymorphic frequencies in all groups. Comparison between the various populations of Rwanda shows that they differ significantly from each other with the exception of South Twa Pygmies and Tutsi. A relatively low frequency (9.6%) of the PGM1(2S) allele appears to be typical of North Twa Pygmies; a low frequency of PGM1(2F) (1.2%-3.6%) has been found in all these groups but not in the Hutu (6.4%); and a particularly high incidence of the PGM1(1F) allele (the highest so far reported) has been observed in the South Twa Pygmies (20%) and in the Tutsi (18%). The PGM1(1Twa) and PGM1(6) enzymes, which in acid starch gel are not distinguishable, can be clearly differentiated by isoelectric focusing. In addition, the same technique has shown that the rare PGM1(7) allele observed in one Hutu is different from that found at polymorphic frequency in the Japanese and from a rare PGM1(7) allele found in Germany. On the very likely hypothesis that the PGM1(1S), PGM1(1F), PGM1(2S), and PGM1(2F) result from variations at two different polymorphic sites, 1/2 and F/S, within the PGM1 structural gene, all the available population data have been analyzed to investigate whether preferential combinations (haplotypes) were identifiable. Whereas Caucasians show a prevalence of 2F and 1S combination with an 8.02% mean value of linkage disequilibrium expressed as % Dmax, from the very few and scattered African data, it is impossible to draw any inference at present.     

Phosphoglucomutase1 is necessary for sustained cell growth under repetitive glucose depletion

Phosphoglucomutase (PGM)1 catalyzes the reversible conversion reaction between glucose-1-phosphate (G-1-P) and glucose-6-phosphate (G-6-P). Although both G-1-P and G-6-P are important intermediates for glucose and glycogen metabolism, the biological roles and regulatory mechanisms of PGM1 are largely unknown. In this study we found that T553 is obligatory for PGM1 stability and the last C-terminal residue, T562, is critical for its activity. Interestingly, depletion of PGM1 was associated with declined cellular glycogen content and decreased rates of glycogenolysis and glycogenesis. Furthermore, PGM1 depletion suppressed cell proliferation under long-term repetitive glucose depletion. Our results suggest that PGM1 is required for sustained cell growth during nutritional changes, probably through regulating the balance of G-1-P and G-6-P in order to satisfy the cellular demands during nutritional stress.     

Isoelectric focusing studies of human red cell PGM1 in Japanese, with special reference to the characterization of PGM17

The distribution of phosphoglucomutase (PGM1) subtypes in human red cells was determined by isoelectric focusing in 218 Japanese samples. Nine common phenotypes were observed corresponding to the following frequencies of the four alleles at the PGM1 locus: PGM11+ 0.6560, PGM11- 0.1170, PGM12+ 0.1674 and PGM12- 0.0505. In addition, a characterization of the PGM17 allele was performed. Our results obtained in the present study revealed the possibility that the PGM17 allele may be differentiated in the two alleles of PGM17+ and PGM17- through an investigation of isoelectric focusing.     

PGM1 system. Report on the international workshop, October 10-11, 1983, Munich, West Germany.

Because of the increase in the number of PGM1 polymorphisms and the existence of four distinct nomenclatures for expressing subtypes by isoelectric focusing, a nomenclature workshop was held in 1983 to compare variants and arrive at a single method for reporting PGM1 data. A total of 30 rare variants were identified and the recommended method for expressing the four common alleles is PGM1*1A, PGM1*1B, PGM1*2A, and PGM1*2B.     

Human erythrocyte phosphoglucomutase: comparison of the kinetic properties of PGM1 and PGM2 isoenzymes

Kinetic properties of PGM1 and PGM2 phosphoglucomutase "primary" isoenzymes from human erythrocytes were studied. The two enzyme forms share a "ping-pong" kinetic mechanism and show similar Km for substrate (glucose 1-P) and cofactor (glucose 1,6-P2). Micromolar concentrations of fructose 1,6-P2 and glycerate 2,3-P2 inhibit both PGM1 and PGM2 isoenzymes to a similar extent. The sole PGM2 form is affected by ribose monophosphates (ribose 1-P and ribose 5-P) that act as mutase inhibitors vs. glucose 1,6-P2 and as apparent activators vs. glucose 1-P. The interaction between PGM2 isoenzyme and ribose monophosphates is discussed in the light of the ability of this form to also display phosphoribomutase activity.     

The Russian gene pool. Genogeography of erythrocyte genetic markers (ACP1, PGM1, ESD, GLO1, 6-PGD)

The study continues the series of works on the Russian gene pool. Gene geographic analysis of five erythrocytic gene markers best studied in the Russian population (ACP1, PGM1, ESD, GLO1, and 6-PGD) has been performed. Gene-geographic electronic maps have been constructed for 13 alleles of these loci and their correlations with geographic latitude and longitude. For all maps, statistical characteristics are presented, including the variation range and mean gene frequencies, partial and multiple correlations with latitude and longitude, and parameters of heterozygosity and interpopulation diversity. The maps of eight alleles (ACP1*A, ACP1*C, PGM1*2+, PGM1*2-, PGM1*1-, ESD*1, GLO1*1, and PGD*C) are shown and analyzed in detail. The genetic relief and structural elements of the maps are compared with the ecumenical trends, main variation patterns of these genes in northern Eurasia, and genetic characteristics of the indigenous populations of the Urals and Europe.