Another family of repetitive sequences, designated the EcoRI family, was found in the DNA of the chicken W chromosome by hybridization with the W chromosome-specific XhoI family probe under conditions of low stringency. A 1.2 kb EcoRI fragment, the major repeating unit of the family, was cloned and sequenced. The 1.2 kb unit showed an overall sequence similarity of about 68% to the 0.7 kb XhoI family repeating unit and it consisted of tandem repeats of average length 21 bp, most of which contained (A)3-5 and (T)3-4 clusters separated by 6-8 G + C-rich sequences. These features and its behavior as a strongly bent molecule in solution were very similar to those found for other W chromosome-specific repetitive sequences in the order Galliformes: XhoI family of chicken, PstI family of turkey and TaqI family of pheasant. The cloned 1.2 kb unit contained 78 CpG dinucleotide sequences and those that were in HapII, HhaI and BstUI sites were shown to be extensively methylated in the genomic DNA. Repetition frequencies of the 1.2 kb unit among the female population of chicken fell into high- and low-level classes, which accounted for about 30% and 10%, respectively, of the DNA in the W chromosome. Thus, 70% to 90% of the DNA in the chicken W chromosome was shown to be occupied by bent-repetitive sequences. The EcoRI and XhoI family sequences were not intermingled over the short range but each family formed a unique domain ranging from one to several million base pairs.
Fluorescence in situ hybridization using as probes three biotinylated or digoxigenin-labeled chicken W chromosome-specific repeating DNA units (0.7 and 1.1 kb XhoI family and 1.2 kb EcoRI family units) suggested that a large fraction of one arm of the W chromosome was occupied by the EcoRI family sequences and that pericentromeric regions were widely occupied by the XhoI family sequences. A minor fraction of the EcoRI family was also present in a narrow region in the proximal half of the other arm. There was a region in the distal half of the latter arm where sequences from neither family hybridized. Evolutionary aspects of the presence of different domains occupied by different repetitive families and the significance of the unhybridized distal region are discussed.
Sjögren's syndrome (SS) is an autoimmune disease characterized by lymphocytic infiltration into lacrimal and salivary glands leading to symptomatic dry eyes and mouth. Immunohistological studies have clarified that the majority of infiltrating lymphocytes around the lacrimal glands and labial salivary glands are CD4 positive ␣ T cells. To analyze the pathogenesis of T cells infiltrating into lacrimal and labial salivary glands, we examined T cell clonotype of these cells in both glands from four SS patients using PCR-single-strand conformation polymorphism (SSCP) and a sequencing method. SSCP analysis showed that some infiltrating T cells in both glands expand clonally, suggesting that the cells proliferate by antigen-driven stimulation. Intriguingly, six to sixteen identical T cell receptor (TCR) V  genes were commonly found in lacrimal glands and labial salivary glands from individual patients. This indicates that some T cells infiltrating into both glands recognize the shared epitopes on autoantigens. Moreover, highly conserved amino acid sequence motifs were found in the TCR CDR3 region bearing the same TCR V  family gene from four SS patients, supporting the notion that the shared epitopes on antigens are limited. In conclusion, these findings suggest that some autoreactive T cells infiltrating into the lips and eyes recognize restricted epitopes of a common autoantigen in patients with SS. ( J. Clin. Invest. 1996Invest. . 97: 1969Invest. -1977
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