A clone of a DNA fragment of approximately 10 kb that included a c-type lysozyme gene of Japanese flounder (Paralichthys olivaceus) was isolated from a Japanese flounder genomic DNA library. This clone was subcloned, and the nucleotide sequence of the c-type lysozyme gene was determined. The flounder c-type lysozyme gene, which consisted of 3,617 bp, was found to be composed of four exons and three introns. The transcription start site was determined to be 44 bp upstream of the ATG codon by primer extension analysis. The number of exons and introns and the positions of the catalytic residues of the flounder gene were the same as those of the human and chicken c-type lysozyme genes. However, introns 1 and 3 of the flounder gene were shorter, and intron 2 was longer, than those in the other reported vertebrates genes. There were no Alu repeated sequences in the flounder lysozyme gene, as determined for the human lysozyme gene, but 45 repeated sequences were found in the second intron of the flounder lysozyme gene. We suggest that the length of intron 2 in the Japanese flounder c-type lysozyme gene depends on the presence of this repeated sequence. Furthermore, Southern blot analysis revealed that the c-type lysozyme gene was probably a single copy in the genomic DNA of homo-cloned Japanese flounder.
The catfish IGH locus is large ( approximately 1 Mb) and complex, having undergone multiple internal duplications and transpositions. To define the structure of the locus that contains the single expressed IGHM gene, two overlapping bacterial-artificial-chromosome (BAC) clones spanning the most 3' end of the channel catfish immunoglobulin heavy (IGH) chain locus have been completely sequenced. The analyses created a contig of 257,153 bp containing 55 VH, 6 D, 12 JH genes and the IGH constant region genes encoding the functional secreted and membrane forms of IgM and the membrane form of IgD. This analysis revealed three major features. First, no C-region genes were found aside from the previously described IGHM1 and IGHD1, with the latter gene being the most 3' C-region gene of the catfish IGH locus. There was no evidence in the region sequenced for genes that could encode an Ig class similar to the IgZ/IgT described in zebrafish, trout and pufferfish. Second, there are a high number of VH pseudogenes, 28 out of 55 (51%). In contrast, the entire zebrafish IGH locus has 40 functional VH genes and eight pseudogenes (17%). Third, an internal duplication of a 52.4-kb block of VH genes has occurred. These observations suggest that the IGH locus of teleost fish varies significantly from species to species in the diversity of C-region genes as well as the numbers of genes encoding V regions.
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