B. Gahne

Performance of pigs with or without the intestinal receptor for Escherichia coli K88

The adhesion of Escherichia (E.) coli K88ac to epithelial cells of the small intestine was studied after slaughter in 564 crossbred pigs (Swedish Landrace x Swedish Yorkshire). E.coli K88ac adhered to epithelial cells obtained from different parts of the small intestine in 40·8% of the pigs studied. Performance data indicated that presence of the receptor resulted in poorer daily gain during the 1st weeks of life, but that it had a beneficial influence on daily lean growth during the fattening period (24 to 100 kg live weight).

Close linkage between albumin and vitamin D binding protein (gc) loci in chicken: a 300 million year old linkage group.

Evidence for close genetic linkage between the structural loci for serum albumin ( Alb ) and serum vitamin D binding protein ( Gc ) in chicken is presented. The results are based on a study of a single sire family comprising 36 informative offspring. No recombinants have been observed. It is concluded that this linkage in the chicken is homologous to the close linkage of the albumin and Gc loci reported in man and the horse. Thus, this linkage group has most probably been conserved for at least 300 million years.

Pig plasma postalbumin-2 (α1B-Glycoprotein): isolation, partial characterization and immunological cross-reactivity with other mammalian sera

1. Components of pig plasma postalbumin-2 (PO2) protein, after rivanol-ammonium sulphate fractionation of plasma, were separated from other proteins by an easy and rapid method of horizontal double-one dimensional IPG-PAGE. The protein was recovered from polyacrylamide gel by combination of electrophoresis and isoelectric focusing. 2. The mol. wt of PO2 was estimated to be 68,000, using SDS-PAGE. 3. Amino acid and carbohydrate compositions of PO2 were very similar to those of human plasma alpha 1B-glycoprotein (alpha 1B), confirming that PO2 is the porcine homologue of human alpha 1B. 4. Neuraminidase treatment resulted in a decrease of electrophoretic migration velocity of all four studied components of PO2. 5. Homologous proteins to pig PO2 (alpha 1B) were observed, not only in human plasma but also in plasma of dog, horse and rabbit, by immunoblotting.

Genetic polymorphism of human plasma ?1-B-glycoprotein: phenotyping by immunoblotting or by a simple method of 2-D electrophoresis

SummaryGenetic polymorphism of human plasma (serum) α1B-glycoprotein (α1B) was observed using one-dimensional horizontal polyacrylamide gel electrophoresis (PAGE) pH 9.0 of plasma samples followed by Western blotting with specific antiserum to α1B. A simple method of two-dimensional agarose gel electrophoresis (pH 5.4) — horizontal PAGE (pH 9.0) of plasma samples, followed by general protein staining, was reported as an alternative method for α1B typing. The there different phenotypes of α1B observed (designated 1-1, 1-2, and 2-2) were apparently identical to those reported by Altland et al. (1983), who used double one-dimensional electrophoresis. Family data supported the hypothesis that the three α1B phenotypes are determined by two codominant alleles at an autosomal locus, designated A1B. Allele frequencies in a Swedish population were: A1B*1, 0.937; A1B*2, 0.063; PIC, 0.111. For clues on linkage relationships of human A/B, the previously known linkages of A1B in pigs and horses, including the one between A1B and the gene that determines susceptibility to malignant hyperthermia in pigs were discussed.

Pig plasma protease inhibitor gene complex: Isolation and partial characterization of three inhibitors

1. Pig plasma alpha-protease inhibitors (protease inhibitor-1, PI1; protease inhibitor-2, PI2; postalbumin-1A, PO1A; postalbumin-1B, PO1B), all encoded by one gene complex (gene cluster), were isolated by rivanol-ammonium sulphate fractionation and double-one dimensional IPG-PAGE. The proteins were recovered from the polyacrylamide gel by a combination of electrophoresis and isoelectric focusing. 2. Molecular wt estimated by SDS-PAGE under reducing conditions was 63,000 each for PI1 and PI2 and 60,000 each for PO1A and PO1B. The two main components of a genetic variant of PI2 differed in mol. wt by approx. 1000. 3. PO1A, PO1B and PI2 were shown to be glycoproteins. The major component of both PO1A and PO1B contained about 15% carbohydrate and the two components of PI2 had about 24 per cent and 21 per cent carbohydrate, respectively. 4. Neuraminidase treatment showed that the main component of PO1A had 8 sialic acid residues and fast and slow components of PI2 had respectively 11 and 10 residues. 5. Amino acid compositions of PO1A, PO1B and PI2 were very similar to one another, indicating that the genes for these proteins have evolved by regional duplications of a common ancestral gene. 6. The results (mol. wt, amino acid and carbohydrate compositions) confirm that pig PI2 is homologous to human plasma alpha 1-antichymotrypsin.

Polymorphisms of Alpha-1-Acid (Orosomucoid), Alpha-2-HS-Glycoproteins and Alpha-1-B among the Parsis of India

Genetic polymorphisms of plasma alpha 1-acid glycoprotein (oro-somucoid, ORM), alpha 2-HS-glycoprotein (A2HS) and alpha 1-B-glycoprotein (alpha 1B) were studied in a group of Parsis in Bombay, India. The frequencies of ORM1*1, ORM1*2 and ORM1*3 were found to be 0.636, 0.356 and 0.008, respectively. A2HS*1, A2HS*2 and A2HS*3 frequencies were 0.855, 0.135 and 0.010, while the frequencies of A1B*1 and A1B*2 were 0.881 and 0.119, respectively. The phenotype distribution at all three loci was at Hardy-Weinberg equilibrium. The ORM2 locus was monomorphic in the Parsis.

Further Studies of the Plasma α1B-Glycoprotein Polymorphism: Two New Alleles and Allele Frequencies in Caucasians and in American Blacks

Two new alleles (A1 B*3 and A1 B*4) of human plasma alpha 1 B-glycoprotein (alpha 1 B) were reported. alpha 1 B phenotyping was done by using either a simple method of two-dimensional (2-D) agarose gel-horizontal polyacrylamide gel electrophoresis (PAGE) followed by protein staining or by one-dimensional horizontal PAGE and immunoblotting. Seven different alpha 1 B phenotypes (1-1, 1-2, 1-3, 1-4, 2-2, 2-3 and 3-3) were observed; phenotypes 1-3 and 1-4 were differentiated from each other only by the 2-D method. The respective frequencies Af A1 B*1, A1 B*2, A1 B*3 and A1 B*4 alleles in the studied populations were estimated as follows: American Blacks (New York) 0.732, 0.204, 0.064, 0; American Whites (New York) 0.947, 0.053; Czechs (Mĕlník) 0.964, 0.034, 0, 0.002; Slovaks (Bratislava and Trencin) 0.977, 0.023, 0, 0. The population of American Blacks showed a much higher degree of alpha 1 B polymorphism (polymorphism information content = 0.37) than the Caucasian populations that have been studied.

Distribution of Plasma Alpha-1-B-Glycoprotein Phenotypes in Several Mongoloid Populations of East Asia

The distribution of plasma alpha 1B-glycoprotein (alpha 1B) phenotypes was determined by a simple method of two-dimensional electrophoresis followed by protein staining in a group of 1,154 individuals from 8 Mongoloid populations of East Asia. The sample comprised 581 Chinese from different localities (Singapore: 204; Taiwan: 150; Fujien and Hopeh provinces of eastern China: 146 and 81), 155 Koreans, 155 Filipinos, 152 Thais and 111 Malays. Altogether, 6 different alpha 1B phenotypes (1-1, 1-2, 2-2, 1-3, 2-3, and 1-6) were observed. The alpha 1B allele frequencies were very similar in all of the populations. The frequency of A1B*1 varied from 0.89 to 0.91 and that of A1B*2 from 0.08 to 0.10. The A1B*3 allele, reported previously only in American blacks, was observed with a frequency range of 0.003-0.01 in 3 of the Chinese populations, in Koreans and in Malays. A new alpha 1B allele (A1B*6) was observed in 2 Chinese individuals.

Plasma α1B-Glycoprotein Allele Frequencies in Finns and Swedish Lapps: Evidence for a New α1B Allele

A new allele (A1B*5) of human plasma α1B-glycoprotein (α1B) was reported. α1B phenotyping was done by two-dimensional agarose gel (pH 5.4)-horizonta

Distribution of plasma alpha-1-B-glycoprotein (A1BG) polymorphism in several populations of the Indian subcontinent.

The distribution of plasma alpha 1B-glycoprotein (A1BG) was determined by a two-dimensional electrophoresis (agarose-polyacrylamide gel) followed by protein staining in a group of 1099 individuals from 11 populations of the Indian subcontinent. The sample comprised 454 from several tribes of Arunachal Pradesh; 76 Bengali Hundus and 88 Bengali Muslims; 179 Tamil Hindus from Singapore and 107 from India; 81 Tamil Muslims, 48 Sinhalese from Sri Lanka and 66 North Indians. Three common A1BG phenotypes (1-1, 1-2 and 2-2) were observed in this study. One each of a new allele (A1BG*7) in heterozygous form (1-7) was detected respectively among Tamil Hindus of India and Singapore. The phenotypic distribution of A1BG alleles was at Hardy-Weinberg equilibrium in all the populations. The frequency of A1BG*2 was in general lower in the Mongoloid tribes of Arunachal Pradesh (0.043-0.104) and North Indians (0.068) compared to that in other Indian populations (0.130-0.171) and Sinhalese (0.208).