21 results on '"Antonio Arnaiz-Villena"'
Search Results
2. A novel HLA-A*6816 allele possibly generated by a point mutation in a Chilean from Punta Arenas (Magellan Strait)
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A. Garcia-Gomez, J. Longas, M. Gonzalez-Hevilla, Eduardo Gomez-Casado, Isabel Rubio, C. Silvera-Redondo, Jorge Martinez-Laso, Antonio Arnaiz-Villena, and S. Ferre
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Models, Molecular ,Genetics ,HLA-A Antigens ,Indians, South American ,Point mutation ,Molecular Sequence Data ,Immunology ,Biology ,Human genetics ,HLA-A ,Europe ,Asian People ,Mutation (genetic algorithm) ,Humans ,Point Mutation ,Gene conversion ,Chile ,Allele ,Alleles - Published
- 2000
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3. Complete cDNA sequences of the DRB6 gene from humans and chimpanzees: a possible model of a stop codon readingthrough mechanism in primates
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V Fernández-Soria, Antonio Arnaiz-Villena, Manuel Cobo del Rosal, Pablo Morales, S. Ferre-Lopez, Pilar Varela, M A Moreno-Pelayo, and Estela Paz-Artal
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Models, Molecular ,Primates ,DNA, Complementary ,Pan troglodytes ,HLA-DR beta-Chains ,Molecular Sequence Data ,Immunology ,Reading frame ,Biology ,Exon shuffling ,Cell Line ,Exon ,Species Specificity ,Sequence Homology, Nucleic Acid ,Genetics ,Animals ,Humans ,Computer Simulation ,Amino Acid Sequence ,3' Untranslated Regions ,Gene ,Alleles ,DNA Primers ,Base Sequence ,Models, Genetic ,Sequence Homology, Amino Acid ,Three prime untranslated region ,Intron ,HLA-DR Antigens ,Molecular biology ,Stop codon ,Codon, Terminator ,Nucleic Acid Conformation ,Selenocysteine incorporation - Abstract
The defective major histocompatibility complex (MHC) DRB6 gene is transcribed into mRNA in human [peripheral blood lymphocytes, transfected and Epstein-Barr virus (EBV)] and chimpanzee EBV cell lines. MHC-DRB6 presents several anomalies, which include stop codons in exon 2, lack of the usual polyadenilation signal of other MHC-DRB genes, and a promoter region and exon 1 taken from a locally inserted retrovirus. The complete cDNA sequences from human DRB6*0201 and three common chimpanzee alleles (Patr-DRB6*0108, Patr-DRB6*0109, Patr-DRB6*0111) have been obtained; two exon 1-exon 2 cDNA sequences from bonobos (Papa-DRB6*0101 and Papa-DRB6*0102) are also shown. In contrast to chimpanzee DRB6 transcripts, the human ones: (1) present an exon 1-exon 2 splicing site that includes the transcription of the first 141 nucleotides of intron 1, rendering a longer exon 1, and (2) show a duplication of exon 6, which would render a longer cytoplasmic tail in a putative DRB6 protein. These two characteristics are found in all the human sequences obtained, regardless of the cellular type tested, and they are not present in any of the chimpanzee alleles reported; consequently, they are human-specific. All the alleles reported here bear stop codons in the three possible reading frames; however, a certain level of expression of DRB6 has been observed by cytofluorometry. This could be due to the presence of a selenocysteine insertion sequence (SECIS) stem-loop structure located at the 3 untranslated region of the DRB6 mRNA, which directs selenocysteine incorporation at UGA codons. DRB6 transcription and translation would be the first gene model of a readingthrough stop codon mechanism in primate MHC. It is also feasible that the DRB6 gene might generate a population of short polypeptides, bound to plasmatic membranes, having non-antigen-presenting functions or which are presented by other MHC molecules as HLA-E presents HLA-G and -B leader sequence-derived peptides.
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- 1999
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4. A new HLA-B15 allele ( B*1541 ) found in a Mexican of Nahua (Aztec) descent
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Jorge Martinez-Laso, Antonio Arnaiz-Villena, Angélica Olivo-Díaz, Eduardo Gomez-Casado, J. Longas, M. Gonzalez-Hevilla, Clara Gorodezky, and Miguel Alvarez
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Models, Molecular ,Genetics ,Base Sequence ,Models, Genetic ,Sequence Homology, Amino Acid ,Molecular Sequence Data ,Immunology ,Human leukocyte antigen ,HLA-B15 Antigen ,Biology ,Indians, Central American ,Human genetics ,HLA-B Antigens ,Sequence Homology, Nucleic Acid ,Humans ,Amino Acid Sequence ,Allele ,Mexico ,Alleles ,Descent (mathematics) - Published
- 1998
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5. Transcription and weak expression of HLA-DRB6 : a gene with anomalies in exon 1 and other regions
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Estela Paz-Artal, V Fernández-Soria, Maria J. Recio, Miguel A. Moreno, Belen Suarez, María Jesús Pena Castro, Antonio Arnaiz-Villena, and Pablo Morales
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DNA, Complementary ,Transcription, Genetic ,Polyadenylation ,HLA-DR beta-Chains ,Molecular Sequence Data ,Immunology ,Gene Expression ,Human leukocyte antigen ,Biology ,Transfection ,Major histocompatibility complex ,Mice ,Exon ,L Cells ,Genetics ,Animals ,Humans ,Amino Acid Sequence ,RNA, Messenger ,RNA Processing, Post-Transcriptional ,Gene ,Base Sequence ,Promoter ,Exons ,HLA-DR Antigens ,Stop codon ,RNA splicing ,biology.protein - Abstract
HLA-DRB6 is one of the human major histocompatibility complex (MHC) genes present in DR1, DR2, and DR10 haplotypes (approximately 26% of individuals). It shows several anomalies in human and non-human primates, including exon 2 stop codons (non-randomly grouped between codons 74 and 94) and a promoter region, and an exon 1 coming from an inserted retrovirus. It has been shown that not only chimpanzee but also human Mhc-DRB6 lack the usual 3' untranslated (UT) polyadenylation signal, and in the present work it was found that the human DRB6 gene coming from an HLA-DR2 haplotype is effectively transcribed after transfection in mouse L cells, and that HLA-DRB6 molecules may be expressed on the cell surface. DRB6 transcription level is remarkably lower in human than in chimpanzee. Moreover, their exons 1 (both taken from the 3'LTR region of a mammary tumor retrovirus) are also different; this shows that these viral insertions may be an important mechanism for different evolutionary changes in orthologous genes of different species. The pathways by which DRB6 molecules may be expressed on the membrane are unclear but other examples of truncated protein expression have also been described, even within the human major histocompatibility complex (i. e., in HLA-G). Finally, the presence of mature HLA-DRB6 mRNA molecules supports the notion that splicing may take place even in the absence of a canonical 3'UT polyadenylation signal.
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- 1998
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6. Differences in intron 2 sequences between B * 39061 and B * 39062 in Amerindians: comparison with those of B * 3901, B * 5101, and B * 52012 alleles
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Antonio Arnaiz-Villena, Julio Granados, Roberto Alegre, E. Gomez-Casado, Zulay Layrisse, J. Martinez-Laso, and Gilberto Vargas-Alarcón
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Genetics ,Base Sequence ,Indians, South American ,Molecular Sequence Data ,Immunology ,Intron ,Sequence Analysis, DNA ,Biology ,Introns ,Human genetics ,HLA-B Antigens ,Humans ,Allele ,Sequence Alignment - Published
- 1997
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7. Allelic diversity at the primateMhc-G locus: Exon 3 bears stop codons in allCercophitecinae sequences
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M. José Recio, M. José Castro, Antonio Arnaiz-Villena, V Fernández-Soria, Miguel Alvarez, Pablo Morales, Manuel Martin-Villa, and Belen Suarez
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Pan troglodytes ,Molecular Sequence Data ,Immunology ,Locus (genetics) ,Biology ,Exon shuffling ,Major Histocompatibility Complex ,Exon ,Exon trapping ,Cercopithecinae ,HLA Antigens ,Sequence Homology, Nucleic Acid ,Genetics ,Animals ,Humans ,Gene ,Alleles ,Phylogeny ,HLA-G Antigens ,Polymorphism, Genetic ,Base Sequence ,Histocompatibility Antigens Class I ,Intron ,Exons ,Biological Evolution ,Introns ,Stop codon ,RNA splicing ,Macaca ,Sequence Alignment - Abstract
Twenty-seven major histocompatibility complex (Mhc)-G exon 2, exon 3, and exon 2 and 3 allelic sequences were obtained together with 12 different intron 2 sequences. Homo sapiens, Pan troglodytes, Pan paniscus, Gorilla gorilla, Pongo pygmaeus, Macaca fascicularis, Macaca mulatta, and Cercopithecus aethiops individuals were studied. Polymorphism does not follow the classical pattern of three hypervariable regions per domain and is found in all species studied; exon 3 (equivalent to the alpha 2 protein domain) shows stop codons in the Cercopithecinae group but not in the Pongidae and human groups. Dendrograms show that cotton top tamarin (Saguinus oedipus) Mhc-G sequences are closer to Homo sapiens and Pongidae than to Cercopithecinae, probably due to the stop codons existing at exon 3 of the latter. There is a clear trans-species evolution of allelism in Cercopithecinae and also in exon 2 of all the other apes studied, but a generation of allelism within each species may be present on exon 3 sequences. This discrepancy may be due to the preferential use of exon 2 over exon 3 at the mRNA splicing level within each species in order to obtain the appropriate functional G product. Mhc-G intron 2 shows conserved motifs in all species studied, particularly a 23 base pair deletion between positions 161 and 183 which is locus specific, and some of the invariant residues, important for peptide presentation, conserved in classical class I molecules from fish and reptiles to humans were not found in Mhc-G alleles; the intron 2 dendrogram also shows a particular pattern of allelism within each species. In summary, Mhc-G has substantial differences from other classical class I genes: polymorphism patterns, tissue distribution, gene structure, splicing variability, and probably an allelism variability within each species at exon 3. The G proteins may also be different. This indicates that the Mhc-G function may not be peptide presentation to the clonotypic T-cell receptor.
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- 1996
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8. Different evolutionary pathway of B*570101 and B*5801 (B17 group) alleles based in intron sequences
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Juan Moscoso, Antonio Arnaiz-Villena, J. Zamora, Juan Ignacio Serrano-Vela, Ernesto Lowy, Eduardo Gomez-Casado, Manuel Martin-Villa, Gilberto Vargas-Alarcón, and Jorge Martinez-Laso
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DNA, Complementary ,Immunology ,Molecular Sequence Data ,Gene Conversion ,Biology ,Major histocompatibility complex ,Evolution, Molecular ,Sequence Homology, Nucleic Acid ,Genetic variation ,Genetics ,HLA-B Antigens ,Humans ,Gene conversion ,Allele ,Alleles ,Base Sequence ,Point mutation ,Intron ,Genetic Variation ,Introns ,Mutation (genetic algorithm) ,Mutation ,biology.protein ,Signal Transduction - Abstract
Two theories about MHC allele generation have been put forward: (1) point mutation diversification and/or (2) gene conversion events. A model supporting the existence of both of these mechanisms is shown in this paper; the possible evolution of the HLA-B*570101 and HLA-B*5801 alleles (which belong to the HLA-B17 serology group) is studied. The hypothesis favoured is that gene conversion events have originated these alleles, because intron sequences are also analysed. Evolution by point mutation should only be accepted if flanking introns have also been sequenced.
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- 2003
9. Generation of the HLA-B35, -B5, -B16, and B15 groups of alleles studied by intron 1 and 2 sequence analysis
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Mercedes Pérez-Blas, Gilberto Vargas-Alarcón, Antonio Arnaiz-Villena, Zulay Layrisse, Julio Granados, Fabiola Montoya, Jorge Martinez-Laso, Pilar Varela, and Eduardo Gomez-Casado
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Genetics ,Base Sequence ,Sequence analysis ,Immunology ,Molecular Sequence Data ,Intron ,Locus (genetics) ,Peptide binding ,Human leukocyte antigen ,DNA ,Biology ,Introns ,Exon ,HLA-B Antigens ,Sequence Homology, Nucleic Acid ,Humans ,Allele ,Alleles - Abstract
HLA-B is the most polymorphic of the major histocompatibility complex classical class I loci. This polymorphism is mainly in exons 2 and 3, which code for the molecule’s α1 and α2 domains and include the antigenic peptide binding site. Recent studies have indicated that not only exons but also the intron 2 region may be involved in the generation of certain HLA-B alleles such as B * 3906 and B * 1522. To study the degree of intron 2 participation and the mechanisms that generate polymorphism at the HLA-B locus, intron 1 and 2 sequences from the HLA-B35, -B5, -B16 and -B15 groups of alleles were obtained. A group-specific intronic polymorphism was found: namely, B * 5301 shows intron 1 and 2 sequences identical to those found in all B35 alleles studied. On the other hand, B * 5101 and B * 52012 show the same intron 1 and 2 sequences and their intron 1 is the same as that found in the B35 group. This suggests that B5 and B35 groups of alleles may have arisen from a common ancestor. All known B16 alleles show the same introns 1 and 2, with the exception of B * 39061 and B * 39062, and all B15 alleles also bear the same introns 1 and 2, with the exception of B * 1522. Variability at intron 1 is more restricted than at intron 2, and the use of intron 1 for HLA-B allele phylogenetic analysis is better for grouping alleles of a postulated common origin. In conclusion, there is a remarkable conservation of intronic sequences within related HLA-B alleles, which probably reflects a common origin and perhaps a selective force avoiding DNA changes. Intronic sequences are also potentially useful to design DNA typing strategies.
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- 1997
10. Primate Mhc-E and -G alleles
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Gilberto Vargas-Alarcón, Eduardo Gomez-Casado, Belen Suarez, María Jesús Pena Castro, Maria J. Recio, Pablo Morales, Antonio Arnaiz-Villena, Miguel Alvarez, Jorge Martinez-Laso, and Pilar Varela
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Genetics ,Models, Molecular ,Primates ,biology ,Base Sequence ,Immunology ,Molecular Sequence Data ,Chromosome Mapping ,Major histocompatibility complex ,Human genetics ,Introns ,Major Histocompatibility Complex ,biology.animal ,Histocompatibility Antigens ,Consensus Sequence ,biology.protein ,Animals ,Primate ,Allele ,Alleles - Published
- 1997
11. Description of a new HLA-B40 allele (B*4011) found in a Mexican individual of Nahua (Aztec) descent
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Gilberto Vargas-Alarcón, Jorge Alcocer-Varela, C. G. De La Torre, Jorge Martinez-Laso, Eduardo Gomez-Casado, Antonio Arnaiz-Villena, Julio Granados, and Roberto Alegre
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Genetics ,Adult ,Male ,Models, Molecular ,Base Sequence ,HLA-B40 Antigen ,Histocompatibility Testing ,Immunology ,Molecular Sequence Data ,Human leukocyte antigen ,Biology ,Indians, Central American ,Human genetics ,HLA-B Antigens ,Humans ,Amino Acid Sequence ,Allele ,Mexico ,Alleles ,Descent (mathematics) - Published
- 1997
12. Relatedness among Basques, Portuguese, Spaniards, and Algerians studied by HLA allelic frequencies and haplotypes
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Eduardo Gomez-Casado, Jorge Martinez-Laso, Nieves Diaz-Campos, Henriqueta Breda-Coimbra, Antonio Martinho, Paulo Santos, and Antonio Arnaiz-Villena
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Portugal ,Mesopotamia ,Linguistic evidence ,Immunology ,Haplotype ,Biology ,Emigration and Immigration ,language.human_language ,Linkage Disequilibrium ,Gene Frequency ,Haplotypes ,HLA Antigens ,Spain ,Algeria ,Genetics ,language ,Ethnicity ,Ethnology ,Humans ,Allele ,Portuguese ,Mediterranean Islands ,Alleles ,Founder effect ,Lower degree - Abstract
HLA-A, -B, -DRB1, -DQA1, and DQB1 alleles were studied in Iberian and Algerian populations by serology and DNA sequence methodologies. The genetic and cultural relatedness among Basques, Spaniards, and paleo-North Africans (Berbers or Tamazights) was established. Portuguese people have also maintained a certain degree of cultural and ethnic-specific characteristics since ancient times. The results of the present HLA study in Portuguese populations show that they have features in common with Basques and Spaniards from Madrid: a high frequency of the HLA-haplotypes A29-B44-DR7 (ancient western Europeans), A2-B7-DR15 (ancient Europeans and paleo-North Africans), and A1-B8-DR3 (Europeans) are found as common characteristics. Portuguese and Basques do not show the Mediterranean A33-B14-DR1 haplotype, suggesting a lower admixture with Mediterraneans; Spaniards and Algerians do have this haplotype in a relatively high frequency, indicating a more extensive Mediterranean genetic influence. The paleo-North African haplotype A30-B18-DR3 present in Basques, Algerians, and Spaniards is not found in Portuguese either. The Portuguese have a characteristic unique among world populations: a high frequency of HLA-A25-B18-DR15 and A26-B38-DR13, which may reflect a still detectable founder effect coming from ancient Portuguese, i.e., oestrimnios and conios; Basques and Algerians also show specific haplotypes, A11-B27-DR1 and A2-B35-DR11, respectively, probably showing a relatively lower degree of admixture. A neighbor-joining dendrogram place Basques, Portuguese, Spaniards, and Algerians closer to each other and more separated from other populations. Genetic, cultural, geological, and linguistic evidence also supports the hypothesis that people coming from a fertile Saharan area emigrated towards the north (southern Europe, Mesopotamia, the Mediterranean Islands, and the North African coast) when the climate changed drastically to hotter and drier ca 10 000 years B.C.
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- 1997
13. A new HLA-G allele (HLA-G*0105N) and its distribution in the Spanish population
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Pilar Varela, Miguel Alvarez, Martínez Suárez, Jorge Martinez-Laso, Víctor M. Fernández, P. Morales, M. José Castro, and Antonio Arnaiz-Villena
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Genetics ,HLA-G Antigens ,Base Sequence ,business.industry ,Immunology ,Histocompatibility Antigens Class I ,Molecular Sequence Data ,Distribution (economics) ,Biology ,Human genetics ,Spanish population ,HLA Antigens ,Spain ,HLA-G ,Humans ,Allele ,business ,Alleles - Published
- 1997
14. A new sequence (Mhc-BJ ) showing similarity both to Mhc-B alleles and to the HLA-J pseudogene in Macaca mulatta
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Jorge Martinez-Laso, Eduardo Gomez-Gasado, Antonio Arnaiz-Villena, Nieves Diaz-Campos, Maria J. Recio, Gilberto Vargas-Alarcón, Pilar Varela, Carlos Garcia de la Torre, and Miguel Alvarez
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Genetics ,Pseudogene ,Immunology ,Histocompatibility Antigens Class I ,Molecular Sequence Data ,Nucleic acid sequence ,Human leukocyte antigen ,Exons ,Biology ,Major histocompatibility complex ,Macaca mulatta ,Cell Line ,Major Histocompatibility Complex ,Exon ,GenBank ,Histocompatibility Antigens ,MHC class I ,biology.protein ,Animals ,Gene ,Pseudogenes - Abstract
Class I major histocompatibility complex (Mhc) genes in humans have been divided into two groups: 1) classical (HLA-A, -B, and -C) that encode polymorphic membrane glycoproteins implicated in the presentation of intracellular derived peptides to the cytotoxic T cells, and 2) nonclassical that include a group of genes (HLA-E, -F, and -G) which code for molecules whose functions have not yet been defined (and certainly are not antigen presenting molecules in the case of -G and Macaca mulatta family; Castro et al. 1996) and also a set of several pseudogenes [(HLA-H, -J, -K, -L) (Bodmer et al. 1995)]. The mechanisms implicated in generating antigen site diversity of the presenting Mhc molecules remain unclear. It has been suggested that this diversity is generated by point mutation, segmental exchange, and recombination events, and then selection maintains or deletes the new products generated in a population (Klein et al. 1990). An Mhc class I sequencing study in M. mulatta (rhesus monkeys) was carried out to define possible new alleles or genes and investigate the mechanisms responsible for the generation of diversity of the Mhc alleles in apes. A new Mhc class I sequence was found, characterized by a 75 nucleotide deletion at the beginning of exon 3, which resembled Mhc-B alleles and possibly HLA-J sequences. Whole RNA was extracted from kidney cell lines (107 cells per line) for two M. mulatta individuals (rhesus monkeys, Rh-8, Rh-14) using NP-40 standard protocol. cDNA synthesis was performed using a reverse transcription system (Promega, Madison, WI) according to the manufacturer’s protocols. Partial exon 1, exon 2, exon 3 and partial exon 4 from this new Mamu-Mhc nucleotide sequence gene was obtained by polymerase chain reaction (PCR) using 5E1m (59-CGCTCCTCCTGCTGCTCTCGGC) and 3E4m (59-AGATGGGGTGGTGGGTCACG) primers. Random sequencing of the amplified products was carried out and PCR products were also purified and inserted into the pGEM-T vector (Promega). Doublestranded DNA stretches were automatically sequenced in an Applied Biosystems (Foster City, CA) machine as previously described (Castro et al. 1996). Exonic phylogenetic trees were made using the neighbor-joining method (Saitou and Nei) and the computer program NJDRAW, designed by J. W. H. Ferguson. A DNA phylogenetic tree was based on the number of nucleotide substitutions per site, and was corrected for multiple hits by the Jukes and Cantor (1969) method using the computer program NAG (version 2.0), designed by T. Ota and M. Nei. Five clones cDNA sequences obtained from two different M. mulatta (Rh-8 and Rh-14) were identical and corresponded to this new sequence, previously not found in M. mulatta (Boyson et al. 1995; Castro et al. 1996; Fig. 1). A comparison of its exons with those of classical and non-classical class I alleles showed that exon 2 is more similar to HLA-J and HLA-G*0101 and Mamu-Mhc-G*I and exon 3 is closer to Mamu-Mhc-B*07. These data suggested that this new sequence could be generated by a recombination event between a Mamu-Mhc-B gene and an analogue of HLA-J (see below) postulating a segmental exchange between neighboring genes. It has been tentatively named Mamu-Mhc-BJ and is not a PCR artefact, since it comes from two different individuals, five clones, and different PCR reactions; it has a 75 nucleotide deletion at the begining of exon 3, which would not change the reading frame. A possible protein resulting from a hypothetical transcription and translation would not bear residues Tyr 96 and Tyr 101, which are necessary for the inderdomain dysulphide bond and also lack residues between positions 91– 116 that are implicated on the overall interdomain contacts between α2 and α1 domain and β2-microglobulin (Bjorkman et al. 1987). Thus, a putative MamuMhc-BJ protein, if translated, would not be an antigen The nucleotide sequence data reported in this paper have been submitted to the GenBank nucleotide sequence database and have been assigned the accesion number L41828 (Mamu-Mhc-BJ)
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- 1996
15. A new HLA-B15 allele (B * 1522) found in Bari-Motilones Amerindians in Venezuela: comparison of its intron 2 sequence with those of B * 1501 and B * 3504
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Antonio Arnaiz-Villena, Euridice Dominguez, Fabiola Montoya, Jorge Martinez-Laso, Y. Guedez, Zulay Layrisse, Eduardo Gomez-Casado, and Pilar Varela
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Genetics ,Base Sequence ,biology ,Indians, South American ,Molecular Sequence Data ,Immunology ,Intron ,Genes, MHC Class I ,Human leukocyte antigen ,HLA-B15 Antigen ,Venezuela ,Major histocompatibility complex ,Introns ,Antigen ,HLA-B Antigens ,Sequence Homology, Nucleic Acid ,biology.protein ,Humans ,Allele ,Sequence Alignment ,Gene ,Peptide sequence ,Alleles ,Sequence (medicine) - Abstract
The HLA-B15 group of alleles is one of the most numerous within HLA class I antigens; twenty different subtypes (B*1501-1520) have so far been defined. Their distribution varies among populations and B*1504, 1505, 1507, 1508, and 1515 have been described in American Indians. 11 refs., 1 fig.
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- 1995
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16. C4 gene polymorphism in primates: evolution, generation, and Chido and Rodgers antigenicity
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Estela Paz-Artal, Augustín Madroño, Alfredo Corell, Miguel Alvarez, Manuel Cobo del Rosal, Antonio Arnaiz-Villena, Pilar Varela, and Luis M. Allende
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Primates ,Immunology ,Molecular Sequence Data ,Cell Line ,Exon ,Epitopes ,Species Specificity ,Polymorphism (computer science) ,biology.animal ,Genetics ,Animals ,Primate ,Histidine ,Amino Acid Sequence ,Allele ,Gene ,Aspartic Acid ,Polymorphism, Genetic ,biology ,Base Sequence ,Intron ,Complement C4 ,DNA ,biology.organism_classification ,Saguinus oedipus ,Biological Evolution ,Pan paniscus - Abstract
Eleven new C4d genomic primate sequences of the fourth complement factor (C4) have been obtained. Seven of them belong to five species not yet explored for this gene: Pan paniscus (pygmy chimpanzee), Cercopithecus aethiops (green monkey), Macaca mulatta (rhesus monkey), Macaca fascicularis (cynomolgus), and Saguinus oedipus (cotton top tamarin). The New World monkeys (tamarins, four individuals) sequenced for C4 have a single C4d sequence only, which shows a B isotypic specificity and a Rodgers 3 (Rg3), Chido 1 (Ch1) antigenicity. Rg3 and Ch1 could thus be the oldest Rg/Ch specificity (at least 50 million years old) and Rg1, Rg2, Ch3, and Ch6 could be more recent human-specific antigens. Mechanisms of C4d polymorphism generation were analyzed by compiling all the presently available sequences. Examples of both point mutations and crossing-over events among C4d primate sequences could be detected. The problem of a possible trans-species inheritance of C4d polymorphism was addressed and two apparently contradicting dendrograms were obtained. One of them, constructed by using both exon and intron sequences, does not support trans-species evolution, but supports the proposed theory of extensive homogenization of the C4 genes occurring within each species, because alleles from each primate species cluster together. Another completely different dendrogram, obtained by using exon sequences only, suggests the existence of trans-species evolution for C4d polymorphism, because alleles belonging to different species cluster together in a way similar to that found for HLA class I or II alleles. However, orangutan sequences group together in both kinds of C4d sequence dendrograms and seem to have arisen from an ancestor different from that of chimpanzee, gorilla and man C4d sequences. Finally, further data have been obtained that support trans-species conservation of A-ness and B-ness and the existence of trans-specifically conserved allelic motifs, both in intronic and exonic sequences.
- Published
- 1994
17. A study of DR2-LUM haplotype generation and the DRB6*0202 linkage to DRB1*1601
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Pillar Varela, Estela Pas-Artal, J. Manuel Martin-Villa, Jorgr Martínez-Laso, Alfredo Corell, Antonio Arnaiz-Villena, Pablo Morales, and Ernette du Toit
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Genetic Linkage ,HLA-DR beta ,Immunology ,HLA-DR beta-Chains ,Molecular Sequence Data ,Biology ,Polymerase Chain Reaction ,Cell Line ,Modal haplotype ,Genetic linkage ,Hla dr2 antigen ,Genetics ,Leukocytes ,Humans ,HLA-DR2 Antigen ,Cloning, Molecular ,Linkage (software) ,Recombination, Genetic ,Haplotype ,Histocompatibility Antigens Class II ,Exons ,HLA-DR Antigens ,Sequence Analysis, DNA ,Tag SNP ,Cell Transformation, Viral ,HLA-DR locus ,Haplotypes ,HLA-DRB1 Chains - Published
- 1993
18. Allelic diversity at the primate major histocompatibility complex DRB6 locus
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Antonio Arnaiz-Villena, José Manuel Martín-Villa, Estela Paz-Artal, P. Morales, Jorge Martinez-Laso, Alfredo Corell, and Pilar Varela
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Primates ,Genes, MHC Class II ,HLA-DR beta-Chains ,Molecular Sequence Data ,Immunology ,Gorilla ,Locus (genetics) ,Major histocompatibility complex ,Major Histocompatibility Complex ,Molecular evolution ,biology.animal ,Genetics ,Animals ,Humans ,Primate ,Allele ,Gene ,Alleles ,Polymorphism, Genetic ,Base Sequence ,biology ,Haplotype ,HLA-DR Antigens ,Biological Evolution ,biology.protein - Abstract
The HLA-DRB6 gene (also called DRB sigma/V1) has been found only in about 26% of human HLA haplotypes, i.e.; DR1, DRw10, and DR2-bearing ones (Corell et al. 1991). In contrast, exon-2 DRB6 sequences have been obtained from all tested primates: nine chimpanzees (Pan troglodytes), three gorillas (Gorilla gorilla) and three orangutans (Pongo pygmaeus); other apes which had already been sequenced (one gorilla and one chimpanzee) also had the DRB6 gene. Thus, all apes tested from three different species, some of them evolutionary separated by at least 14-16 million years, bear the DRB6 gene. In addition, more than one gene copy per haplotype has been found in one chimpanzee; this, together with the apparent loss of this gene in some of the human DR haplotypes, may indicate that the DR genome has undergone evolutionary changes more recently and more actively than class I or III genes. In addition, ten different and presumably allelic DRB6 exon-2 sequences have been obtained, and some of them coming from different species are more similar to each other than the one from the same species; this finding goes in favor of the trans-species theory of major histocompatibility complex polymorphism generation. Also, data are presented supporting that DRB6 may be one of the eldest genes of the DRB family, thus one of the first to diverge from the ancestral DRB gene.
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- 1992
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19. Genetic structure of the novel low-frequency haplotype HLA-B49, SC01, DR4 and its contribution to insulin-dependent diabetes susceptibility
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Jorge Martinez-Laso, Oscar G. Segurado, Pablo Morales, Antonio Arnaiz-Villena, Paz Iglesias-Casarrubios, R. Duncan Campbell, and Jukka Partanen
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Genetics ,Autoimmune disease ,Male ,Immunology ,Haplotype ,Human leukocyte antigen ,DNA ,Biology ,medicine.disease ,Human genetics ,Pedigree ,Blotting, Southern ,Diabetes Mellitus, Type 1 ,Haplotypes ,HLA-B Antigens ,Insulin dependent diabetes ,Genetic structure ,medicine ,Humans ,Female ,Genetic Predisposition to Disease - Published
- 1992
20. Description of HLA - A * 6803 and A * 68N in Mazatecan Indians from Mexico
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Antonio Arnaiz-Villena, Julio Granados, Eduardo Gomez-Casado, Jorge Martinez-Laso, Roberto Alegre, Mercedes Pérez-Blas, Joaquín Zúñiga, Gilberto Vargas-Alarcón, and Miguel Alvarez
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Genetics ,Base Sequence ,HLA-A Antigens ,Molecular Sequence Data ,Immunology ,Biology ,Human genetics ,HLA-A ,Asian People ,Sequence Homology, Nucleic Acid ,HLA-A2 Antigen ,Indians, North American ,Humans ,Mexico - Published
- 1997
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21. A new HLA-B35 (B * 3516) allele found in a Mexican of Nahua (Aztec) descent
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Eduardo Gomez-Casado, Gilberto Vargas-Alarcón, Antonio Arnaiz-Villena, Julio Granados, Nieves Diaz-Campos, Miguel Alvarez, Jorge Alcocer-Varela, and Jorge Martinez-Laso
- Subjects
Genetics ,Adult ,Male ,Models, Molecular ,Base Sequence ,Molecular Sequence Data ,Immunology ,Exons ,Biology ,Sequence homology ,Sequence Homology, Nucleic Acid ,Indians, North American ,Humans ,Base sequence ,Allele ,HLA-B35 Antigen ,Mexico ,Alleles - Published
- 1996
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