Sequence and diversity of rat T-cell receptor α-chain-encoding genes

The nucleotide sequence data reported in this paper have been submitted to the GenBank nucleotide sequence database and have been assigned the accession numbers L20983-L21005.     

The context of T-cell receptor gamma chain genes among wild mouse species

We have examined the context of mouse T-cell receptor gamma (Tcr ) chain variable (V ) and constant (C) genes among a panel of geographically isolated species of mice. Our Southern hybridization survey with C reveals that essentially three C genes are found among mouse species extending phylogenetically from inbred mice through the feral species Mus pahari. However, a V DNA probe detects three to nine V restriction fragment bands among the same group of mice. These results suggest that certain feral mice such as M. pahari, M. platythrix, and M. shortridgei have amplified numbers of V genes. Studies of individual mice from these particular species indicate the highly amplified V content is not the result of a catastrophic gene duplication or deletion event. We conclude that certain species of mice maintain increased content of V presumably for increased diversity in a Tcell response.     

Sequence and diversity of variable gene segments coding for rabbit T-cell receptor beta chains

The nucleotide sequences of 11 variable gene segments coding for rabbit T-cell receptor beta (Tcrb-V) chains were determined by directly sequencing fragments amplified by the cassette-ligation mediated polymerase chain reaction (CLM-PCR) and by modified anchor PCR without the cloning procedure. The nucleotide sequences in two of these 11 rabbit Tcrb-V gene segments coincided with those in two of the four rabbit Tcrb-V gene segments previously reported; the others have not been described. The percentage similarity of each nucleotide sequence of the 11 rabbit Tcrb-V gene segments was analyzed and the segments were divided into nine families, which were homologous to nine human families (Vb 2, 3, 4, 5, 7, 8, 10, 18, and 22), respectively.The nucleotide sequence data reported in this paper have been submitted to the DDBJ, EMBL, and GenBank nucleotide sequence databases and have been assigned the accession numbers D17416-D17426.     

The human T-cell rearranging gamma (TRG) genes and the gamma T-cell receptor

The human T-cell Rearranging Gamma genes or T-cell Receptor Gamma (TRG) chain genes, like those encoding the T-cell Receptor (TcR) alpha and beta polypeptides, undergo rearrangements specifically in T-cells. The human TRG locus which has been mapped to chromosome 7 (7p15) is composed of 2 constant region genes (TRGC), 5 joining segments (TRGJ) and at least 14 variable gamma genes (TRGV). 8 variable genes are functional and belong to 4 different subgroups. Based on restriction fragments, the TRG rearrangements can be assigned to given V and J segments, in normal T-cells, T leukemias and lymphomas. The product of the rearranged TRG gene is the gamma chain which is expressed at the surface of a subset of CD3+4-8- T lymphocytes lacking the conventional receptor alpha beta. Structural differences exist between the different 'gamma T-cell receptors', the gamma and delta polypeptides being disulfide or non-disulfide linked. Although the TRG+ cells display a cytolytic activity, their precise function remains to be elucidated.     

Sequence and diversity of the rat delta T-cell receptor

The cDNA sequence of the delta T-cell receptor (TCRD) in the adult Lewis rat thymus was determined using the technique of rapid amplification of cDNA ends. Sixteen variable region genes (TCRDV), two diversity regions (TCRDD), two joining regions (TCRDJ), and a single constant region gene (TCRDC) were identified. The sixteen unique TCRDV genes identified represented eight different subfamilies in the rat and were highly conserved (>80% nucleotide identity) to corresponding mouse sequences. Extensive junctional diversity was observed in the rat, with both TCRDD regions (TCRDD1 and TCRDD2) utilized in the majority of cDNA clones identified. The two TCRDJ genes were highly conserved and corresponded to TCRDJ1 and TCRDJ2 in the mouse; the majority of clones utilized TCRDJ1. The TCRDC region in the rat was 91.1% identical to the mouse TCRDC gene and was highly conserved to other species. Although extensive sequence information about mouse gamma-delta T-cell receptor genes is available, current knowledge of rat gamma-delta T-cells is limited. The sequence analysis presented in this study adds to our understanding of gamma-delta T-cells in general, and it may be utilized to study the role of gamma-delta T-cells in immune-mediated disease and transplantation models previously established in the rat.     

The human T-cell receptor gamma (TRG) genes

The human T-cell receptor gamma (TRG) chain genes, like those encoding the T-cell receptor alpha- and beta-polypeptides, undergo rearrangements specifically in T cells. The human TRG locus, which has been completely mapped, is composed of two constant region genes (TRGC), five joining segments (TRGJ) and at least 14 variable gamma-genes (TRGV). Eight variable genes are functional and belong to four different subgroups. The product of the rearranged TRG gene is the gamma-chain which is expressed, along with the delta-chain, at the surface of a subset of T lymphocytes. Although some gamma delta + cells display a cytolytic activity, their precise function remains to be elucidated.     

Sequence and diversity of rat T-cell receptor Tcra V8 gene segments

The nucleotide sequence data reported in this paper have been submitted to the EMBL nucleotide sequence database and have been assigned the accession numbers X80509 (8.2) - X80514 (8.7)     

Relationship of the genes for Chediak-Higashi syndrome (beige) and the T-cell receptor gamma chain in mouse and man

The genetic linkage of Chediak-Higashi syndrome and its murine analog, beige (bg), to the T-cell receptor (TCR-gamma) gamma chain gene is further defined. Previous studies using recombinant inbred strains of mice demonstrated that the murine bg gene is genetically linked to a murine TCR-gamma gene. We report that in the mouse the frequency of recombination between these two markers is 0.025. Further, we tested the hypothesis that these two genes are linked in the human genome by analyzing restriction fragment length polymorphisms (RFLPs) in five families with children afflicted with Chediak-Higashi syndrome. In three families, RFLPs in TCR-gamma genes were inherited discordantly from Chediak-Higashi syndrome, demonstrating nonlinkage. We postulate that there is an evolutionary chromosomal breakpoint between the bg gene and the TCR-gamma gene.     

Sequence and diversity of T-cell receptor alpha V, J, and C genes of the owl monkey Aotus nancymaae

 We cloned and sequenced TcR alpha chain cDNA of three healthy Aotus nancymaae monkeys. Fifteen different TRAJ segments and 9 different TRAV genes were identified in the 29 rearrangements analyzed. As expected from the greater phylogenetic distance, A. nancymaae TRA gene sequences diverged more from the human sequences than those of the chimpanzee or the rhesus macaque. However, no Aotus TRAJ segment or TRAV gene was found which lacked a human counterpart. These counterparts were AJ02, AJ05, AJ09, AJ15, AJ22, AJ23, AJ28, AJ30, AJ32, AJ34, AJ37, AJ40, AJ42, AJ45, AJ52 and AV2S1, AV2S3, AV3S1, AV8S1, AV12S1, AV15S1, ADV21S1/DV5, AV22S1S and AV23S1, respectively. In most cases the identity of amino acid sequences between corresponding Aotus and human genes was greater than 80%. This marked conservation of TRA gene sequences indicates a close structural relationship of Aotus and human TcR and demonstrates that the TcR repertoire in primates is remarkably stable. The results support the concept of using Aotus monkeys, which are susceptible to infection with the human malaria parasite Plasmodium falciparum, as an animal model for the evaluation of molecularly defined malaria vaccine candidates. Received: 15 January 1998 / Revised: 23 March 1998     

Characterization of horse (Equus caballus) T-cell receptor beta chain genes

Genes encoding the horse (Equus caballus) T-cell receptor beta chain (TCRB) were cloned and characterized. Of 33 cDNA clones isolated from the mesenteric lymph node, 30 had functionally rearranged gene segments, and three contained germline sequences. Sixteen unique variable segments (TCRBV), 14 joining genes (TCRBJ), and two constant region genes (TCRBC) were identified. Horse TCRBV were grouped into nine families based on similarity to human sequences. TCRBV2 and TCRBV12 were the most commonly represented horse families. Analysis of predicted protein structure revealed the presence of conserved regions similar to those seen in TCRB of other species. A decanucleotide promoter sequence homologous to those found in humans and mice was located in the 5 untranslated region of one horse gene. Germline sequences included the 5 region of the TCRBD2 gene with flanking heptamer/nonamer recombination signals and portions of the TCRBJ-C2 intron. Southern blot hybridizations demonstrated restriction fragment length polymorphisms at the TCRBC locus among different horse breeds.     

Polymorphism of the T-cell receptor gamma variable and constant region genes in a Chinese population

Summary The human T-cell receptor gamma gene region spans 160 kb genomic DNA. Restriction fragment length polymorphisms (RFLPs) have been previously documented for the constant region (TRGC) genes, the joining (TRGJ) segments and the variable (TRGV) genes. We have recently defined the alleles of the T-cell receptor gamma V, J and C genes and we have described seven haplotypes of the V gamma subgroup I genes characterized either by RFLPs or by deletion or insertion of V gamma genes. The number of VI genes may vary from 7 to 10 per haploid genome, the 9-gene haplotype being the most frequent. Allelic fragments can unambiguously characterize the TRGC2 gene with duplication or triplication of the exon 2. These alleles and haplotypes have been analyzed in four different populations (French, Lebanese, Tunisian and Black African). In this paper, we compare these allele and haplotype frequencies with those found in a Chinese population and we describe new TRGV allelic restriction fragments found only in the Chinese samples. These results and the previous data demonstrate the flexibility of the human T cell receptor gamma locus and the importance of unequal crossing-overs in the evolution of that locus. Moreover, they underline the importance of studying these polymorphisms in population genetics.     

Characterization of the T-cell receptor gamma locus and analysis of the variable gene segment expression in rabbit

The genomic organization and expression of genes of the T-cell receptor gamma (TRG) locus are described for mice and humans, but not for species such as rabbits (Oryctolagus cuniculus), in which T cells compose a sizeable proportion of T cells in the periphery. We cloned 200 kb of the rabbit TRG locus and determined the TRGV gene usage in adult and newborn rabbits by RT-PCR. We identified two TRGJ genes, one TRGC gene, and 22 TRGV genes, all of which encoded functional variable regions. One TRGV gene is the unique member of the TRGV2 subgroup, whereas the other genes belong to the TRGV1 subgroup. Evolutionary analyses of TRGV1 genes identified three distinct groups that can be explained by separate duplication events in the rabbit genome. Evidence of gene conversion between TRGV1.1 and TRGV1.6 was observed. Both TRGV1 and TRGV2 subgroup genes were expressed in the spleen, intestine, and appendix of adult rabbits, and the repertoire of TRGV genes expressed in these tissues was similar. In these tissues from newborns, and in skin from adults, only the genes from the TRGV1 subgroup were expressed. Greater TRGV-J junctional diversity was found in tissues from adult compared to newborn rabbits. Our analyses indicate rabbits have a larger germ line encoded TRG repertoire compared with that of mice and humans. In addition, we found TRGV gene usage is alike in most tissues of rabbits similar to that found in humans but in contrast to that found in mice.Electronic SupplementaryMaterial Supplementary material is available for this article at The nucleotide sequence data reported in this article have been submitted to GenBank and are assigned the accession numbers AY748325–AY748348     

合作小型猪T细胞受体α链的基因结构及其多样性

目的探讨猪TCR基因分子结构的复杂性及其与人类的相似性。方法以公开的猪TCRα链基因为参考序列设计两对特异性引物,用RT-PCR法从合作小型猪外周血、淋巴结和脾脏的淋巴细胞中克隆了93个猪TCRα基因(简称STA)。结果测序分析表明,克隆的猪TCRα链的基因均含有可变的信号肽区和V区、高变的J区和恒定的C区的基因片段,但基因间的核苷酸序列组成都不完全相同,且具有十分复杂的多态性和多样性,基因间的同源性在68.4%~98.7%,这与TCRα链的基本基因结构特征相一致。依据TCRα基因的同源性对其分子结构、遗传演化关系和归类分析发现,在其信号肽区、FR1区和CDR1区、FR2区和CDR2区以及FR3区和CDR3区都存在一些变异集中点和变异热点区。用IMGT/V-QUEST分析方法可将合作小型猪TCRαV区(STAV)、J区(STAJ)基因片段与人类的进行比较分析,发现合作小型猪TCRα与人类的遗传演化关系较近,每个序列都能找到与人类对应的TRAV、TRAJ基因片段,甚至V区的相似性可达92%以上。结论近交培育的合作小型猪在正常状态具有应对外界复杂微生物等环境的TCR遗传多样性分子基础,且适合作为人类免疫学及疾病研究的动物模型。