Allelic repertoire of the humanMHC class IMICA gene

 The hallmark of the classical major histocompatibility complex (MHC) class I molecules is their astonishing level of polymorphism, a characteristic not shared by the nonclassical MHC class I genes. A distinct family of MHC class I genes has been recently identified within the human MHC class I region. The MICA (MHC class I chain-related A) gene in this family is a highly divergent member of the MHC class I family and has a unique pattern of tissue expression. We have sequenced exons encoding the extracellular α1, α2, and α3 domains of the MICA gene from twenty HLA homozygous typing cell lines and four unrelated individuals. We report the identification of eleven new alleles defined by a total of twenty-two amino acid substitutions. Thus, the total number of MICA alleles is sixteen. Interestingly, a tentative superimposition of MICA variable residues on the HLA-A2 structure reveals a unique pattern of distribution, concentrated primarily on the outer edge of the MICA putative antigen binding cleft, apparently bordering an invariant ligand binding site. Received: 13 May 1996 / Revised: 29 May 1996     

Genotyping and segregation analyses indicate the presence of only two functional MIC genes in rhesus macaques

MIC molecules are stress-inducible ligands of the activating receptor NKG2D, which is expressed on natural killer cells and subsets of T lymphocytes. In rhesus macaques (Macaca mulatta), three different MIC sequences (MIC1, MIC2, MIC3) have been described that are closely related to but, according to phylogenetic analysis, do not represent orthologues of the human MICA and MICB genes. Although a single haplotype of the rhesus macaque Mhc (Mamu) has been completely sequenced, it remained unknown so far whether these three sequences are derived from two or three Mamu-MIC genes. We genotyped a cohort of 115 rhesus macaque individuals for the presence of MIC1, MIC2, and MIC3 sequences and analysed the segregation in families. All individuals were positive for MIC2, whereas only 66.1 and 80.9 % were positive for MIC1 and MIC3, respectively. MIC1 and MIC3 sequences segregated in offspring, indicating that they behave as alleles. Thus, we conclude that two MIC genes are present in the rhesus macaque Mhc, which we propose to designate as Mamu-MICA (MIC1 and MIC3) and Mamu-MICB (MIC2). “MIC1” and “MIC3” are regarded as divergent allelic lineages of the Mamu-MICA gene. Mamu-MIC genotyping of DNA of a cohort of 68 experimentally simian immunodeficiency virus (SIV)-infected rhesus macaques revealed no significant association of either of the two Mamu-MICA allelic lineages with differences in progression to AIDS-like symptoms. Electronic supplementary material Supplementary material is available in the online version of this article at and is accessible for authorize users. Anne Averdam and Sandra Seelke contributed equally.     

High diversity of MIC genes in non-human primates

The human MHC class I (MHC-I) chain-related genes A and B (MICA and MICB) encode stress-induced glycoproteins, ligands for the activating receptor NKG2D. They display an unusually high degree of polymorphism, next only to that of classical MHC-I. The functional relevance and selective pressure behind this peculiar polymorphism, which is quite distinct from that of classical MHC-I, remain largely unknown. This study increases the repertoire of allelic sequences determined for the MIC genes of non-human primates. Sequencing (mainly exons 2, 3, 4, 5) MIC genes of 72 Macaca fascicularis (Mafa), 63 Pan troglodytes (Patr), and 18 Gorilla gorilla (Gogo) individuals led to the identification of 35, 14, and 3 new alleles, respectively. Additionally, we confirm the existence of three independent MIC genes in M. fascicularis, i.e., Mafa-MICA, Mafa-MICB, and Mafa-MICB/A, the latter being a hybrid of Mafa-MICB and Mafa-MICA. By multiple sequence alignment and phylogenetic analysis, we further demonstrate that the present day MIC genes most likely derive from a single human MICB-like ancestral gene.     

A phylogenetic analysis of cattle DRB3 alleles with a deletion of codon 65

 One of the most common cattle major histocompatibility complex DRB3 alleles, ^* 0201, includes a deletion of codon 65 encoding one residue in the α-helical chain. The mutation is functionally interesting and is likely to influence peptide binding. Exon 2 of two additional del65 alleles, ^* 3301 and ^* 4101, have now been sequenced with the aim to investigate the evolutionary relationship of this allelic group. Despite a fairly large genetic distance between the three alleles (11–17 nucleotide substitutions causing 8–11 amino acid substitutions) we found clear indications of a common ancestry. The α-helical region was very similar or identical among the alleles whereas the β-strand region was quite divergent. The results indicated that interallelic recombination has contributed to the diversification of the del65 group. Deletion of codon 65 has also been found in a roe deer DRB1 allele and a cattle DQB3 allele. Sequence comparisons of the cattle and roe deer DRB del65 alleles refuted the possibility of a trans-species persistence of a del65 allelic lineage but the two species may share a short ancestral sequence motif including del65. In addition to del65, the cattle DQB3 allele did not show any striking sequence similarities to the DRB alleles. Received: 20 March 1997 / Revised: 17 June 1997     

H2-M polymorphism in mice susceptible to collagen-induced arthritis involves the peptide binding groove

 The ability to develop type II collagen (CII)-induced arthritis (CIA) in mice is associated with the major histocompatibility I-A gene and with as yet poorly defined regulatory molecules of the major histocompatibility complex (MHC) class II antigen processing and presentation pathway. H2-M molecules are thought to be involved in the loading of antigenic peptides into the MHC class II binding cleft. We sequenced H2-Ma, H2-Mb1, and H2-Mb2 genes from CIA-susceptible and -resistant mouse strains and identified four different Ma and Mb2 alleles and three different Mb1 alleles defined by polymorphic residues within the predicted peptide binding groove. Most CIA-resistant mouse strains share common Ma, Mb1, and Mb2 alleles. In contrast, H2-M alleles designated Ma-III, Ma-IV, Mb1-III, and Mb2-IV could be exclusively identified in the CIA-susceptible H2 ^r and H2 ^q haplotypes, suggesting that allelic H2-M molecules may modulate the composition of different CII peptides loaded onto MHC class II molecules, presumably presenting “arthritogenic” epitopes to T lymphocytes. Received: 8 December 1995 / Revised: 16 January 1996     

Characterization of the MICA polymorphism by sequence-specific oligonucleotide probing

 A large number of diseases occur in association with specific HLA-B or –C alleles. Recently a new gene, termed major histocompatibility complex class I chain-related gene A (MICA), has been identified in close proximity to HLA-B. The function of this gene is still unknown, but, it is structurally related to HLA class I genes, is polymorphic, and is potentially associated with several diseases. Some DNA-based techniques have previously been described to type for MICA including sequencing and single-strand conformational polymorphism. In this paper we describe the application of sequence-specific oligonucleotide probe based typing for the analysis of the MICA gene. We used a set of 30 oligonucleotide probes to screen for the polymorphisms in exons 2, 3, and 4, which account for the 16 known alleles. We report here the typing results of MICA for 103 B-cell lines that have been well characterized for HLA and describe the linkage disequilibrium between MICA and HLA-B. Unequivocal MICA typing was achieved for 85 of the 103 cells tested, 6 cells gave ambiguous MICA types, and a further 12 cells showed patterns consistent with them expressing at least one new MICA allele. Received: 16 September 1998 / Revised: 15 December 1998     

Nucleotide Sequencing Analysis of the 146-Kilobase Segment around theIkBLandMICAGenes at the Centromeric End of the HLA Class I Region

To elucidate the complete gene structure and to identify new genes involved in the development ofHLAclass I antigen-associated diseases in the class I region of the human major histocompatibility complex on chromosome 6, a YAC clone (745D12) covering the 146-kb segment around theIkBLandMICAloci was isolated from a YAC library constructed from the B-cell line, BOLETH. A physical map of this region was constructed by isolation of overlapping cosmid clones derived from 745D12. Of these, five contiguous cosmids were chosen for DNA sequencing by the shotgun strategy to give a single contig of 146,601 bp from 2.8 kb telomeric of theIkBLgene to exon 6 ofMICA.This region was confirmed to contain five known genes,IkBL, BAT1, MICB, P5-1,andHLA-X(class I fragment), from centromere to telomere, and their exon–intron organizations were determined. The3.8-1homologue gene (3.8-1-hom) showing 99.7% identity with the3.8-1cDNA clone, which was originally isolated using the 3.8-kbEcoRI fragment between theHLA-54/Hand theHLA-Ggenes, was detected betweenMICAandMICBand was suggested to represent the cognate3.8-1genomic sequence from which the cDNA clone was derived. No evidence for the presence of expressed new genes could be obtained in this region by homology and EST searches or coding and exon prediction analyses. One TA microsatellite repeat spanning 2545 bases with as many as 913 repetitions was found on the centromeric side of theMICAgene and was indicated to be a potential hot spot for genetic recombination. The two segments of approximately 35 kb upstream of theMICAandMICBgenes showed high sequence homology (about 85%) to each other, suggesting that segmental genome duplication including theMICAandMICBgenes must have occurred during the evolution of the humanMHC.     

TNFB polymorphisms characterize three lineages of TNF region microsatellite haplotypes

 The human major histocompatibility complex (MHC) contains a variety of genes, many of which are highly polymorphic and of immunological importance. A database of MHC extended haplotypes was used to integrate experimental, cell line, and population data. Three alleles of the human TNF-beta (lymphotoxin-alpha) gene were identified, named TNFB ^*1SL, TNFB ^*2LL, and TNFB ^*1LS, each representing a different lineage in the evolution of TNF region haplotypes. Lower variability in the length of the associated microsatellite alleles indicates that ^*1SL characterizes the youngest of the three haplotype lineages. Microsatellite haplotypes in the two older lineages show evidence for a coevolution of alleles through concerted expansions. Genetic predispositions to high and low TNF-alpha (cachectin) responses seem to have evolved independently in more than one lineage. The literature data suggest different, or even opposite, associations concerning the regulation of TNF-alpha in macrophages and lymphoid cells. Microsatellite ud may be the most informative marker for studies of the associations of individual TNF region markers with secretion levels, immunity, and disease. Received: 10 December 1996 / Revised: 21 May 1997     

Genetic analysis of the dwarfing gene Rht8 in wheat. Part II. The distribution and adaptive significance of allelic variants at the Rht8 locus of wheat as revealed by microsatellite screening

 Wheat microsatellite WMS 261 whose 192-bp allele has been shown to be diagnostic for the commercially important dwarfing gene Rht8 was used to screen over 100 wheat varieties to determine the worldwide spread of Rht8. The results showed Rht8 to be widespread in southern European wheats and to be present in many central European wheats including the Russian varieties ‘Avrora’, ‘Bezostaya’ and ‘Kavkaz’. Rht8 appears to be of importance to South European wheats as alternative giberellic acid (GA)-insensitive dwarfing genes do not appear to be adapted to this environment. The very successful semi-dwarf varieties bred by CIMMYT, Mexico, for distribution worldwide have been thought to carry Rht8 combined with GA-insensitive dwarfing genes. Additional height reduction would have been obtained from pleiotropic effects of the photoperiod-response gene Ppd1 that is essential to the adaptability of varieties bred for growing under short-winter days in tropical and sub-tropical areas. The microsatellite analysis showed that CIMMYT wheats lack Rht8 and carry a WMS 261 allelic variant of 165 bp that has been associated with promoting height. This presumably has adaptive significance in partly counteracting the effects of other dwarfing genes and preventing the plants being too short. Most UK, German and French wheats carry an allelic variant at the WMS 261 locus with 174 bp. This could be selected because of linkage with the recessive photoperiod-sensitive ppd1 allele that is thought to offer adaptive significance northern European wheats. Received: 17 October 1997 / Accepted: 12 November 1997     

Genetic analysis of the dwarfing gene (Rht8) in wheat. Part I. Molecular mapping of Rht8 on the short arm of chromosome 2D of bread wheat (Triticum aestivum L.)

 Two sets of single chromosome recombinant lines comparing 2D chromosomes from the wheat varieties ‘Ciano 67’ and ‘Mara’ with the common 2D chromosome of ‘Cappelle-Desprez’ in a ‘Cappelle-Desprez’ background were used to detect a diagnostic wheat microsatellite marker for the dwarfing gene Rht8. The genetic linkage maps place the wheat microsatellite marker WMS 261 0.6 cM distal to Rht8 on the short arm of chromosome 2D. By PCR analysis the WMS 261 alleles of ‘Mara’, ‘Cappelle-Desprez’ and ‘Ciano 67’ could be distinguished by different fragment sizes of 192 bp, 174 bp and 165 bp, respectively. A screen of over 100 international varieties of wheat showed that the three allelic variants were all widespread. It also demonstrated that a limited number of varieties carried novel WMS 261 variants of over 200 bp. Following classification of the individual recombinant lines for allelic variants at the WMS 261 locus it was possible to attribute a 7- to 8-cm reduction in plant height with the WMS 261-192-bp allele compared to the WMS 261-174-bp allele in the set of recombinant lines comparing 2D chromosomes of ‘Mara’ and ‘Cappelle-Desprez’. A height reduction of around 3 cm was detected between the WMS 261-174-bp allele and the WMS 261-165-bp allele in the recombinant lines comparing 2D chromosomes of ‘Cappelle-Desprez’ and ‘Ciano 67’. Received: 17 October 1997 / Accepted: 12 November 1997     

Identifying DNA polymorphisms in human TCRA/D variable genes by direct sequencing of PCR products

 The T-cell receptor (TCR) is a highly variable molecule composed of two polypeptide chains that recognize antigenic peptides in the context of major histocompatibility complex (MHC) molecules. In this study, we describe a sequence-based search for germline polymorphisms in the variable (V) gene segments of the human TCRA/D locus. Thirty different V gene segments were amplified from six to eight unrelated individuals and sequenced from low melting point agarose. Twenty-seven polymorphisms were identified in 15 V gene segments. These polymorphisms are mainly single nucleotide substitutions, but an insertion/deletion polymorphism and a single dinucleotide repeat with variable length were also seen. Of the 15 sequence variations found in the coding regions, six are silent and nine encode amino acid changes. All of the amino acid changes are found at non-conserved residues, frequently in the hypervariable regions, where they may influence MHC and/or peptide recognition. Therefore, it is possible that germline variations in TCR genes could influence an individual’s immune response, and may also contribute to susceptibility to diseases such as autoimmunity. Received: 9 January 1996 / Revised: 22 February 1996     

Fine mapping of the human pentraxin gene region on chromosome 1q23

 The 1q21 to 25 region of human chromosome 1 contains genes which encode proteins with immune- and inflammation-associated functions. These include the pentraxin genes, for C-reactive protein (CRP), serum amyloid P (SAP) protein (APCS), and a CRP pseudogene (CRPP1). The region of chromosome 1 containing this cluster is syntenic with distal mouse chromosome 1. We constructed an approximately 1.4 megabase yeast artificial chromosome (YAC) contig with the pentraxin genes at its core. This four-YAC contig includes other genes with immune functions including the FCER1A gene, which encodes the α-subunit of the IgE high-affinity Fc receptor and the IFI-16 gene, an interferon-γ-induced gene. In addition, it contains the histone H3F2 and H4F2 genes and the gene for erythroid α-spectrin (SPTA1). The gene order is cen.-SPTA1-H4F2-H3F2-IFI-16-CRP-CRPP1-APCS-FCER1A- tel. The contig thus consists of a cluster of genes whose products either have immunological importance, bind DNA, or both. Received: 13 December 1995 / 6 February 1996     

Evolution of the proteasome components

 A phylogenetic analysis of proteasome subunits revealed two major families (α and β) which originated by an ancient gene duplication prior to the divergence of archaebacteria and eukaryotes. Numerous gene duplications have subsequently occurred in eukaryotes; at least nine of these duplications were shown to have occurred prior to the divergence of animals and fungi. In mammals, two genes encoding proteasome subunits (LMP2 and LMP7) are located in the major histocompatibility complex (MHC) region and play a specific role in generation of peptides for presentation by class I MHC molecules. Phylogenetic analysis of LMP7 and related sequences from mammals and lower vertebrates indicated that this locus arose by gene duplication prior to the divergence of jawed and jawless vertebrates; the time of this duplication was estimated to have been about 600 million years ago. The evolutionary history of the proteasome subunits provides support for a model of the evolution of new gene function postulating that, after gene duplication, the proteins encoded by daughter loci can adapt to specialized functions previously performed by the product of a single generalized ancestral locus. Received: 19 August 1996 / Revised: 24 December 1996     

Distribution of MICB diversity in the Zhejiang Han population: PCR sequence-based typing for exons 2–6 and identification of five novel MICB alleles

The polymorphism of major histocompatibility complex class I chain-related gene B (MICB) and variations in MICB alleles in a variety of populations have been characterized using several genotyping approaches. In the present study, a novel polymerase chain reaction sequence-based typing (PCR-SBT) method was established for the genotyping of MICB exons 2–6, and the allelic frequency of MICB in the Zhejiang Han population was investigated. Among 400 unrelated healthy Han individuals from Zhejiang Province, China, a total of 20 MICB alleles were identified, of which MICB*005:02:01, MICB*002:01:01, and MICB*004:01:01 were the most predominant alleles, with frequencies of 0.57375, 0.1225, and 0.08375, respectively. Nine MICB alleles were detected on only one occasion, giving a frequency of 0.00125. Of the 118 distinct MICB?～?HLA-B haplotypes identified, 42 showed significant linkage disequilibrium (P?<?0.05). Haplotypes MICB*005:02:01?～?B*46:01, MICB*005:02:01?～?B*40:01, and MICB*008?～?B*58:01 were the most common haplotypes, with frequencies of 0.0978, 0.0761, and 0.0616, respectively. Five novel alleles, MICB*005:07, MICB*005:08, MICB*027, MICB*028, and MICB*029 were identified. Compared with the MICB*005:02:01 sequence, a G > A substitution was observed at nucleotide position 210 in MICB*005:07, and a 1,134 T > C substitution in MICB*005:08 and an 862 G > A substitution in MICB*027 were detected. In addition, it appears that MICB*028 probably arose from MICB*004:01:01 with an A to G substitution at position 1,147 in exon 6. MICB*029 had a G > T transversion at nucleotide position 730 in exon 4, compared with that of MICB*002:01:01. On the basis of the new PCR-SBT assay, these observed results demonstrated MICB allelic variations in the Zhejiang Han population.     

Mapping of Mhc class I and class II regions to different linkage groups in the zebrafish, Danio rerio

 The mammalian major histocompatibility complex (Mhc) consists of three closely linked regions, I, II, and III, occupying a single chromosomal segment. The class I loci in region I and the class II loci in region II are related in their structure, function, and evolution. Region III, which is intercalated between regions I and II, contains loci unrelated to the class I and II loci, and to one another. There are indications that a similar Mhc organization exists in birds and amphibians. Here, we demonstrate that in the zebrafish (Danio rerio), a representative of the teleost fishes, the class II loci are divided between two linkage groups which are distinct from the linkage group containing the class I loci. The β₂-microglobulin-encoding gene is loosely linked to one of the class II loci. The gene coding for complement factor B, which is one of the region III genes in mammals, is linked neither to the class I nor to the class II loci in the zebrafish. These results, combined with preliminary data suggesting that the class I and class II regions in another order of teleost fish are also in different linkage groups, indicate that close linkage of the two regions is not necessary either for regulation of expression or for co-evolution of the class I and class II loci. They also raise the question of whether linkage of the class I and class II loci in tetrapods is a primitive or derived character. Received: 16 December 1996 / Revised: 6 February 1997     

Unique peptide binding characteristics of the disease-associated DQ(α1*0501, β1*0201) vs the non-disease-associated DQ(α1*0201, β1*0202) molecule

 To understand the dominant association of celiac disease (CD) with the presence of HLA-DQ(α1^*0501, β1^*0201), the peptide binding characteristics of this molecule were compared with that of the structurally similar, but non-CD-associated DQ(α1^*0201, β1^*0202) molecule. First, naturally processed peptides were acid-extracted from immuno-affinity-purified DQ molecules of both types. Both molecules contained the Ii-derived CLIP sequence and a particular fragment of the major histocompatibility complex (MHC) class I α chain. Use of truncated analogues of these two peptides in cell-free peptide binding assays indicated that identical peptide frames are used for binding to the two DQ2 molecules. Detailed substitution analysis of the MHC class I peptide revealed identical side chain requirements for the anchor residues at p6 and p7. At p1, p4, and p9, however, polar substitutions (such as N, Q, G, S, and T) were less well tolerated in the case of the DQ(α1^*0201, β1^*0202) molecule. The most striking difference between the two DQ molecules is the presence of an additional anchor residue at p3 for the DQ(α1^*0201, β1^*0202) molecule, whereas this residue was found not to be specifically involved in binding of peptides to DQ(α1^*0501, β1^*0201). Similar results were obtained applying substitution analysis of the CLIP sequence. Molecular modelling of the DQ2 proteins complexed with the MHC class I and CLIP peptide corresponds well with the binding data. The results suggest that both CLIP and the MHC class I peptide bind DQ(α1^*0501, β1^*0201) and DQ(α1^*0201, β1^*0202) in a DR-like fashion, following highly similar binding criteria. This detailed characterization of unique peptide binding properties of the CD-associated DQ(α1^*0501, β1^*0201) molecule should be helpful in the identification of CD-inducing epitopes. Received: 21 March 1997 / Revised: 28 May 1997     

Genomic organization, chromosomal mapping, and analysis of the 5’ promoter region of the human MAdCAM-1 gene

 MAdCAM-1, the endothelial addressin cell adhesion molecule-1, interacts preferentially with the leukocyte β7 integrin LPAM-1 (α4β7), but also with L-selectin, and with VLA-4 (α4β1) on myeloid cells, and serves to direct leukocytes into mucosal and inflamed tissues. Overlapping cosmid and phage λ genomic clones were isolated, revealing that the human MAdCAM-1 gene contains five exons where the signal peptide, two Ig domains, and mucin domain are each encoded by separate exons. The transmembrane domain, cytoplasmic domain, and 3′ untranslated region are encoded together on exon 5. The mucin domain contains eight repeats in total that are subject to alternative splicing. Despite the absence of a human counterpart of the third IgA-homologous domain and lack of sequence conservation of the mucin domain, the genomic organizations of the human and mouse MAdCAM-1 genes are similar. An alternatively spliced MAdCAM-1 variant was identified that lacks exon 4 encoding the mucin domain, and may mediate leukocyte adhesion to LPAM-1 without adhesion to the alternate receptor, L-selectin. The MAdCAM-1 gene was located at p13.3 on chromosome 19, in close proximity to the ICAM-1 and ICAM-3 genes (p13.2-p13.3). PMA-inducible promotor activity was contained in a 700 base pair 5’ flanking fragment conserved with the mouse MAdCAM-1 gene including tandem NF-kB sites, and an Sp1 site; and in addition multiple potential AP2, Adh1 (ETF), PEA3, and Sp1 sites. In summary, the data establish that the previously reported human MAdCAM-1 cDNA does indeed encode the human homologue of mouse MAdCAM-1, despite gross dissimilarities in the MAdCAM-1 C-terminal structures. Received: 5 December 1996 / Revised: 2 January 1997     

Germline TCR-A restriction of immunoglobulin E responses to allergen

 Immunoglobulin E responses to known environmental antigens (allergens) may serve as a general model to investigate germline genetic restriction of the immune response. We have previously shown genetic linkage between IgE responses to major allergens and the T-cell receptor (TCR) A/D locus, but not to TCR-B, implying that elements in TCR A/D restrict the ability to react to specific antigens. We now show, in two sets of subjects from the same population, a strong allelic association between a VA8.1 polymorphism (VA8.1 ^* 2) and reactivity to Der p II, a major antigenic component of the house dust mite Dermatophagoides pteronyssinus. Association was also seen between Der p II IgE titres and HLA-DRB1 ^* 1501 alleles. Reactivity to Der p II was confined to subjects who were positive for VA8.1 ^* 2 and HLA-DRB1 ^* 1501, demonstrating germline HLA-DR and TCR-A interaction in restricting the response to exogenous antigen. Received: 28 January 1997 / Revised: 28 February 1997     

Population study of allelic diversity in the human MHC class I-related MIC-A gene

 The polymorphism of major histocompatibility complex (MHC) class I HLA-A, -B, and -C molecules may have evolved through pathogen-driven selection of alleles with diverse peptide-binding specificities. Two MHC-encoded molecules that are distantly related to class I, MIC-A and MIC-B, do not function in the presentation of pathogen-derived peptides to T cells with αβ T-cell receptors (TCRs), but are broadly recognized by intraepithelial T cells with γδ TCRs. However, both MIC-A and MIC-B are polymorphic, displaying an unusual distribution of a number of variant amino acids in their extracellular α1, α2, and α3 domains. In order to further define the polymorphism of MIC-A, we examined its alleles among 275 individuals with common and rare HLA genotypes. Of 16 previously defined alleles, 12 were confirmed and 5 new alleles were identified. A two-by-two analysis of MIC-A and HLA-B alleles uncovered a number of statistically significant associations. These results confirm and extend previous knowledge on the polymorphism of MIC-A. The strong positive linkage of certain MIC-A and HLA-B alleles may have implications for studies related to MHC-associated diseases and transplantation. Received: 5 August 1998 / Revised: 26 October 1998     

Identification of quantitative trait loci contributing to Fusarium wilt resistance on an AFLP linkage map of flax (Linum usitatissimum)

 An AFLP genetic linkage map of flax (Linum usitatissimum) was used to identify two quantitative trait loci (QTLs) on independent linkage groups with a major effect on resistance to Fusarium wilt, a serious disease caused by the soil pathogen Fusarium oxysporum (lini). The linkage map was constructed using a mapping population from doubled-haploid (DH) lines. The DH lines were derived from the haploid component of F₂ haploid-diploid twin seed originating from a cross between a polyembryonic, low-linolenic-acid genotype (CRZY8/RA91) and the Australian cultivar ‘Glenelg’. The AFLP technique was employed to generate 213 marker loci covering approximately 1400 cM of the flax genome (n=15) with an average spacing of 10 cM and comprising 18 linkage groups. Sixty AFLP markers (28%) deviated significantly (P<0.05) from the expected segregation ratio. The map incorporated RFLP markers tightly linked to flax rust (Melamspora lini) resistance genes and markers detected by disease resistance gene-like sequences. The study illustrates the potential of the AFLP technique as a robust and rapid method to generate moderately saturated linkage maps, thereby allowing the molecular analysis of traits, such as resistance to Fusarium wilt, that show oligogenic patterns of inheritance. Received: 8 December 1997 / Accepted: 7 April 1998