Organization of a human UDP-GalNAc:polypeptide, N-acetylgalactosaminyltransferase gene and a related processed pseudogene

Abstract

We have previously characterized a cDNA that encodes a full length human UDP-GalNAc:polypeptide, N-acetylgalactosaminyltransferase (GalNAc-transferase) (J.A. Meurer et al., J. Biochem., 118, 568-574, 1995). The present report describes the characterization of the corresponding human GalNAc-transferase gene and a related pseudogene. Two human genomic libraries, lambda and P1, were screened with probes derived from the human GalNAc-transferase nucleotide sequence, resulting in the isolation of four genomic clones. Southern blotting, PCR analysis, and sequencing revealed that three clones, lambda.HG-5, P1.GALN-A, and P1.GALN-B, contained overlapping genomic sequences that encompass over 55 kilobase pairs (kb) of genomic DNA and comprise a portion of the human GalNAc-transferase 5'-and 3'-untranslated regions and the entire coding region. The human GalNAc-transferase gene structure consists of at least 11 exons ranging in size from 99 to > 620 nucleotides which are separated by 10 introns ranging in size from 0.7 to approximately 12.5 kb. The fourth genomic clone, P1-GALN-psi, contained a approximately 2.4 kb sequence region which shares an overall 78.6% nucleotide identity with coding region exons 1 and 3 through 11 of the human GalNAc-transferase gene. However, a lack of intron sequences, as well as the presence of multiple nucleotide mutations, insertions, and deletions that disrupt the potential GalNAc-transferase reading frame, suggest that P1.GALN-psi contains a processed pseudogene. Screening of a human/rodent somatic cell hybrid panel with a P1.GALN-psi probe localized the GalNAc-transferase pseudogene to chromosome 3. Hence, the human genome contains at least two related GalNAc-transferase genes that are located on separate chromosomes.