The swine histo compatibility system SLA: serological studies in the common Swiss and Danish swine breeds

Alloantisera were produced in common Swiss and Danish swine breeds by immunization with leucocytes or skin-grafts. Out of the 126 antisera, 66 were chosen for further study based on titrations employing lymphocytes from unrelated pigs typed with French SLA antisera (Vaiman, Chardon & Renard, 1979). The 66 selected antisera and the French reagents defining 26 SLA specificities were used to type lymphocytes from 595 unrelated pigs of the common Swiss and Danish breeds. The reaction-patterns of the French, Swiss and Danish antisera were adequately correlated for the French SLA specificities Nos FJ 2, 3, 6, 7, 8, 9, 11, 14, 19, 20 and 24 and for the haplotypes FJ 15.1.18 and FJ 5.4. In addition, a cluster of correlated Danish and Swiss antisera characterized a new specificity, provisionally designated CPH 31. This specificity was frequent in the Danish Landrace pigs.
Using the reagents identified in this report, the segregation of SLA markers was studied. Back-cross families demonstrated segregation of 15 distinct SLA haplotypes of which 14 are common in French Landrace or Large White. Differences were found in haplotype frequencies in both the Swiss and the Danish Landrace and Large White breeds.     

The swine histocompatibility system SLA: serological studies in the common Swiss and Danish swine breeds

Alloantisera were produced in common Swiss and Danish swine breeds by immunization with leucocytes or skin-grafts. Out of the 126 antisera, 66 were chosen for further study based on titrations employing lymphocytes from unrelated pigs typed with French SLA antisera (Vaiman, Chardon & Renard, 1979). The 66 selected antisera and the French reagents defining 26 SLA specificities were used to type lymphocytes from 595 unrelated pigs of the common Swiss and Danish breeds. The reaction-patterns of the French, Swiss and Danish antisera were adequately correlated for the French SLA specificities Nos FJ 2, 3, 6, 7, 8, 9, 11, 14, 19, 20 and 24 and for the haplotypes FJ 15.1.18 and FJ 5.4. In addition, a cluster of correlated Danish and Swiss antisera characterized a new specificity, provisionally designated CPH 31. This specificity was frequent in the Danish Landrace pigs. Using the reagents identified in this report, the segregation of SLA markers was studied. Back-cross families demonstrated segregation of 15 distinct SLA haplotypes of which 14 are common in French Landrace or Large White. Differences were found in haplotype frequencies in both the Swiss and the Danish Landrace and Large White breeds.     

The pig histocompatibility system SLA: Serological study on a group of antigenic specificities

The report presents an analysis of a group of class I SLA reagents which were highly correlated within one cluster in a previous analysis. Further population and family studies, and selected purification of several of these reagents led to the identification of 4 distinct specificities, namely SLA A 15, B 18, C 1 and A 16. Three of them, SLA A 15, B 18 and C 1, are actually in strong linkage disequilibrium and represent the main SLA haplotype in the Large White breed. SLA A 16 is present essentially in the Landrace breeds. SLA A 16 displays a strong cross-reaction with SLA A 15 and there is another specificity in linkage disequilibrium with SLA A 16 which cross-reacts with SLA B 18. Altogether, the strong linkage disequilibrium and the high degree of cross-reactivity among the allelic products of the SLA complex explain the failure to detect the diversity of our reagents in previous studies.     

The pig histocompatibility system SLA: serological study on a group of antigenic specificities

The report presents an analysis of a group of class I SLA reagents which were highly correlated within one cluster in a previous analysis. Further population and family studies, and selected purification of several of these reagents led to the identification of 4 distinct specificities, namely SLA A 15, B 18, C 1 and A 16. Three of them, SLA A 15, B 18 and C 1, are actually in strong linkage disequilibrium and represent the main SLA haplotype in the Large White breed. SLA A 16 is present essentially in the Landrace breeds. SLA A 16 displays a strong cross-reaction with SLA A 15 and there is another specificity in linkage disequilibrium with SLA A 16 which cross-reacts with SLA B 18. Altogether, the strong linkage disequilibrium and the high degree of cross-reactivity among the allelic products of the SLA complex explain the failure to detect the diversity of our reagents in previous studies.     

Allozymic variation as an estimate of heterozygosity in Belgian pig breeds

An electrophoretic survey of 13 enzymes corresponding to 19 loci has been carried out in Belgian Landrace and Pietrain pig breeds. Four of these enzymes have been shown to exhibit electrophoretically detectable polymorphism. The average heterozygosity per locus was found to be 0.066 in the Belgian Landrace and 0.028 in the Pietrain pigs.     

Molecular characterization of swine leukocyte antigen gene diversity in purebred Pietrain pigs

The porcine major histocompatibility complex (MHC) harbors the highly polymorphic swine leukocyte antigen (SLA) class I and II gene clusters encoding glycoproteins that present antigenic peptides to T cells in the adaptive immune response. In Austria, the majority of commercial pigs are F ₂ descendants of F ₁ Large White/Landrace hybrids paired with Pietrain boars. Therefore, the repertoire of SLA alleles and haplotypes present in Pietrain pigs has an important influence on that of their descendants. In this study, we characterized the SLA class I ( SLA‐1 , SLA‐2 , SLA‐3 ) and class II ( SLA‐DRB1 , SLA‐DQB1 , SLA‐DQA ) genes of 27 purebred Pietrain pigs using a combination of the high‐resolution sequence‐based typing (SBT) method and a low‐resolution (Lr) PCR‐based method using allele‐group, sequence‐specific primers (PCR‐SSP). A total of 15 class I and 13 class II haplotypes were identified in the studied cohort. The most common SLA class I haplotype Lr‐43.0 ( SLA‐1 *11XX– SLA‐3 *04XX– SLA‐2 *04XX) was identified in 11 animals with a frequency of 20%. For SLA class II, the most prevalent haplotype, Lr‐0.14 [ SLA‐DRB1 *0901– SLA‐DQB1 *0801– SLA‐DQA *03XX], was found in 14 animals with a frequency of 26%. Two class II haplotypes, tentatively designated as Lr‐Pie‐0.1 [ SLA‐DRB1 *01XX/be01/ha04– SLA‐DQB1 *05XX– SLA ‐ DQA*blank] and Lr‐Pie‐0.2 [ SLA‐DRB1 *06XX– SLA‐DQB1 *03XX– SLA‐DQA *03XX], appeared to be novel and have never been reported so far in other pig populations. We showed that SLA genotyping using PCR‐SSP‐based assays represents a rapid and cost‐effective way to study SLA diversity in outbred commercial pigs and may facilitate the development of more effective vaccines or identification of disease‐resistant pigs in the context of SLA antigens to improve overall swine health.     

Joint Report of the First International Comparison Test on Swine Lymphocyte Alloantigens (SLA)

The first international comparison test on swine lymphocyte alloantigens (SLA) was held in Helsinki, Finland in July 1986. The results reported were based on a comparison of 157 alloantisera originating from six laboratories. The antisera were tested against a selected panel of 264 lymphocyte samples belonging to four laboratories. The most common breeds in Europe were chosen for this first comparison test (Landrace and Large White). Eighteen of the 31 previously known specificities were confirmed and a new nomenclature was established.     

Polymorphism of adenosine deaminase in the pig: allelic variation in erythrocytes

Within the frame of our investigations on genetic variation of pig red cell enzymes, by means of enzymo-electrophoresis and spectrophotometric measurements, four kinds of adenosine deaminase phenotypic patterns were identified in haemolysates from 542 Belgian Landrace and 502 Pietrain pigs. Segregation data are consistent with the hypothesis that these phenotypes are determined by two codominant alleles ADA ^A and ADA ^B and a recessive silent allele ADA ^O, at an autosomal locus. Differences in gene frequencies between the two breeds are highly significant.     

用焦磷酸测序技术研究猪线粒体细胞色素B基因单倍型

选择43头大白猪,79头长白猪,66头皮特兰猪和60头清平猪作试验材料,采用焦磷酸测序技术分析猪线粒体细胞色素b(CytB)基因单倍型。研究结果显示CytB基因可分为4种单倍型E1,E2,A1和A2。清平猪仅存在于A1单倍型(100%),大白猪和长白猪存在于E1(49.19%,79.25%)和A1(55.81%,20.25%)单倍型,皮特兰则存在于E1(57.58%)和A2(42.42%)单倍型。 Abstract：To detect porcine mitochondrial cytochrome b (CytB) gene haplotypes, Pyrosequencing, which is a novel DNA sequencing method, has been used to analyze SNPs selected Large White, Landrace, Pietrain and Qingping pigs. The pyrosequencing analysis of CytB gene displayed four distinct haplotypes E1, E2, A1 and A2 respectively. Qingping pigs are only present in haplotype A1, Large White and Landrace pigs are present in haplotype E1 and A1, and Pietrain pigs are present in haplotupe E1 and A2.     

Microsatellite diversity and crossover regions within homozygous and heterozygous SLA haplotypes of different pig breeds

Our aim was to investigate microsatellite (MS) diversity and find crossover regions at 42 polymorphic MS loci in the swine leukocyte antigen (SLA) genomic region of 72 pigs with different well-defined homozygous and heterozygous SLA haplotypes. We analyzed the genetic polymorphisms of 42 MS markers in 23 SLA homozygous-heterozygous, common pig breeds with 12 SLA serological haplotypes and 49 National Institutes of Health (NIH) and Clawn homozygous-heterozygous miniature pigs with nine SLA serological or genotyped haplotypes including four recombinant haplotypes. In comparing the same and different haplotypes, both haplospecific patterns and allelic variations were observed at the MS loci. Some of the shared haplotype blocks extended over 2 Mb suggesting the existence of strong linkage disequilibrium (LD) in the entire SLA region. Crossover regions were easily defined by the MS markers within the class I and/or III region in the NIH and Clawn recombinant haplotypes. The present haplotype comparison shows that our set of MS markers provides a fast and cost-efficient alternative, or complementary, method to the serological or sequence-based determination of the SLA alleles for the characterization of SLA haplotypes and/or the crossover regions between different haplotypes.     

A comparative study of major histocompatibility complex antigens in East African and European cattle breeds

An account is given of the serologically defined class I specificities encoded by the bovine MHC (expressed as the BoLA system) in two populations of African cattle and in European breeds. The BoLA typing was performed using alloantisera raised against tissue antigens of both European and African breeds of cattle. All of the specificities agreed in the first two international BoLA workshops were found in the African cattle, although there were significant differences in the frequency of some specificities between the African and European animals. Many of the European antisera, which are operationally monospecific in Bos taurus cattle, were multispecific in the African animals. Subgroups of two specificities (w8 and w10) were demonstrated. Five new BoLA-A locus alleles were detected by means of antisera raised against alloantigens of African cattle. Two of these occurred at an extremely high frequency in the African populations; one being unique to these cattle. Monoclonal antibodies proved to be useful typing reagents, particularly in the elucidation of subgroups.     

SIM1基因第8外显子的SNP对猪背膘厚的影响

采用PCR-SSCP方法检测了约克夏、杜洛克、皮特兰、长白猪、嘉兴黑猪和金华猪6个品种共169头猪的SIM1基因外显子8的SNP及其基因型频率。结果共发现CC、CT、TT 3种基因型, 其基因型频率在国内外猪品种之间具有较大差异。其中, 国内猪种嘉兴黑猪和金华猪只存在TT基因型, 而国外猪种约克夏、杜洛克、皮特兰、长白猪则都存在3种基因型。用最小二乘法分析SNP对长白猪、约克夏猪和杜洛克猪的背膘厚的效应的结果表明, 纯合基因型个体的背膘厚大于杂合基因型个体。SIM1基因型对国外猪种背膘厚有显著效应(P< 0.05), 并且不同部位效应不同。     

Effect of swine lymphocyte antigen haplotypes on birth and weaning weights in pigs

Birth weights of 708 live piglets and weaning weights of 566 piglets were used to investigate the effect of the swine lymphocyte antigen (SLA) complex on these traits in Large White pigs. Piglets were from litters of a long-term selection experiment to measure response for selection to increase litter size. SLA haplotypes were determined using conventional class I antisera. A total of 14 haplotypes were detected. The effect of SLA haplotype on birth and weaning weights was investigated using a statistical model that included the effects of experimental group, sire, dam, sex and SLA haplotype. Results indicated that SLA class I haplotype 13.1.3 increased birth weights (P less than 0.10) and significantly increased weaning weights (P less than 0.01). This effect of haplotype 13.1.3 on weaning weight was 605 +/- 215 g (0.3 standard deviations). SLA class I homozygosity did not appear to affect birth and weaning weights. These results suggest that the SLA complex plays an important role in early growth in the pig and that further study of SLA effects on growth and reproduction are warranted.     

Characterization of swine leukocyte antigen alleles and haplotypes on a novel miniature pig line,Microminipig

Microminipigs are extremely small‐sized, novel miniature pigs that were recently developed for medical research. The inbred Microminipigs with defined swine leukocyte antigen (SLA) haplotypes are expected to be useful for allo‐ and xenotransplantation studies and also for association analyses between SLA haplotypes and immunological traits. To establish SLA‐defined Microminipig lines, we characterized the polymorphic SLA alleles for three class I (SLA‐1, SLA‐2 and SLA‐3) and two class II (SLA‐DRB1 and SLA‐DQB1) genes of 14 parental Microminipigs using a high‐resolution nucleotide sequence‐based typing method. Eleven class I and II haplotypes, including three recombinant haplotypes, were found in the offspring of the parental Microminipigs. Two class I and class II haplotypes, Hp‐31.0 (SLA‐1*1502–SLA‐3*070102–SLA‐2*1601) and Hp‐0.37 (SLA‐DRB1*0701–SLA‐DQB1*0502), are novel and have not so far been reported in other pig breeds. Crossover regions were defined by the analysis of 22 microsatellite markers within the SLA class III region of three recombinant haplotypes. The SLA allele and haplotype information of Microminipigs in this study will be useful to establish SLA homozygous lines including three recombinants for transplantation and immunological studies.     

The footprint of recent and strong demographic decline in the genomes of Mangalitza pigs

The Mangalitza pig breed has suffered strong population reductions due to competition with more productive cosmopolitan breeds. In the current work, we aimed to investigate the effects of this sustained demographic recession on the genomic diversity of Mangalitza pigs. By using the Porcine Single Nucleotid Polymorphism BeadChip, we have characterized the genome-wide diversity of 350 individuals including 45 Red Mangalitza (number of samples; n=20 from Hungary and n=25 from Romania), 37 Blond Mangalitza, 26 Swallow-belly Mangalitza, 48 Blond Mangalitza × Duroc crossbreds, 5 Bazna swine, 143 pigs from the Hampshire, Duroc, Landrace, Large White and Pietrain breeds and 46 wild boars from Romania (n=18) and Hungary (n=28). Performance of a multidimensional scaling plot showed that Landrace, Large White and Pietrain pigs clustered independently from Mangalitza pigs and Romanian and Hungarian wild boars. The number and total length of ROH (runs of homozygosity), as well as F_ROH coefficients (proportion of the autosomal genome covered ROH) did not show major differences between Mangalitza pigs and other wild and domestic pig populations. However, Romanian and Hungarian Red Mangalitza pigs displayed an increased frequency of very long ROH (>30 Mb) when compared with other porcine breeds. These results indicate that Red Mangalitza pigs underwent recent and strong inbreeding probably as a consequence of severe reductions in census size.     

Plasma alpha-protease inhibitors in Norwegian Landrace and Czech Landrace pigs

The studies on alpha-protease inhibitors systems, controlled by four tightly linked loci, were performed within 159 families of Norwegian Landrace (NL) and 40 families of Czech Landrace (CL) pigs. Significant differences in allele and haplotype frequencies between the two breeds were shown. The SE-F and SSsS haplotypes (Pi1, Po1A, Po1B, Pi2 loci) appeared to be the most frequent haplotypes in NL and CL breeds respectively. This system of blood plasma proteins can be very useful for studying the relationship between breeds.     

Plasma α-protease inhibitors in Norwegian Landrace and Czech Landrace pigs

Summary. The studies on α-protease inhibitors systems, controlled by four tightly linked loci, were performed within 159 families of Norwegian Landrace (NL) and 40 families of Czech Landrace (CL) pigs. Significant differences in allele and haplotype frequencies between the two breeds were shown. The SE-F and SSsS haplotypes ( Pil, PolA, PolB, Pi2 loci) appeared to be the most frequent haplotypes in NL and CL breeds respectively. This system of blood plasma proteins can be very useful for studying the relationship between breeds.     

Rapid assignment of swine leukocyte antigen haplotypes in pedigreed herds using a polymerase chain reaction-based assay

We present a simple assay to determine the swine leukocyte antigen (SLA) haplotypes of animals within two experimental populations of MHC defined miniature pigs. The Yucatan miniature pigs have four founder haplotypes ( w, x, y, z) and one recombinant haplotype ( q). The NIH miniature pigs have three founder haplotypes ( a, c, d) and two recombinant haplotypes ( f, g). Because most crossovers occur between the class I and class II regions, haplotypes can be assigned by typing one class I locus and one class II locus for practical purposes. We have previously characterized these seven founder haplotypes by sequencing the cDNA of three SLA class I loci, designated as SLA-1, SLA-3 and SLA-2 and four SLA class II loci, SLA-DQA1, SLA-DQB1, SLA-DRA1 and SLA-DRB1. These sequences were used to design allele-specific primers to amplify one MHC class I and one MHC class II gene for each haplotype. Primers were tested for specificity in homozygous and heterozygous animals. Positive control primers were also designed to amplify a portion of the E-selectin or alpha-actin gene and multiplexed with the allele-specific primers to check for false negatives. This combination of allele-specific and positive control primers produced specific and robust PCR-site-specific primer assays for assigning SLA haplotypes in the two populations.