Yin Chen
Publications
PMID: 21075863;PMCID: PMC3175562;Abstract:
The most recently discovered gel-forming mucin, MUC19, is expressed in both salivary glands and tracheal submucosal glands. We previously cloned the 3′-end partial sequence (AY236870), and here report the complete sequencing of the entire MUC19 cDNA. One highly variable region (HVR) was discovered in the 5′ end of MUC19. A total of 20 different splicing variants were detected in HVR, and 18 variants are able to translate into proteins along with the rest of the MUC19 sequence. The longest variant of MUC19 consists of 182 exons, with a transcript of approximately 25 kb. A central exon of approximately 12 kb contains highly repetitive sequences and has no intron interruption. The deduced MUC19 protein has the bona fide gel-forming mucin structure, VWD-VWD-VWD-"threonine/serine-rich repeats"-VWC-CT. An unusual structural feature of MUC19, which is lacking in other gel-forming mucins, is its long amino terminus upstream of the first VWD domain. The long amino terminus is mostly translated from the sequences in HVR, and contains serine-rich repetitive sequences. To validate the integrity of the MUC19 sequence, primers from both the 3′ and 5′ end were used to demonstrate a similar tissue expression pattern of MUC19 in trachea and salivary glands. In addition, antibodies were developed against either the amino (N) or carboxy (C) terminus of MUC19, and similar antibody staining patterns were observed in both salivary and tracheal submucosal glands. In conclusion, we have cloned and elucidated the entire MUC19 gene, which will facilitate understanding of the function and regulation of this important, yet understudied, mucin gene in airway diseases.
PMID: 15465002;Abstract:
Using cDNA microarray analysis, we identified a cDNA clone, DD74, from primary human bronchial epithelial cells, which exhibits increased expression in vitro after treatment with all-trans retinoic acid. This clone corresponded to MAGE D2 mRNA, a gene previously identified to be upregulated in several cancer tissues. Surprisingly, in situ hybridization of lung tissue demonstrated positive hybridization signals with sense, but not antisense, MAGE D2-specific cRNA probes. Examination of several cell lines by Northern blot hybridization confirmed significant expression of two RNA bands. With strand-specific riboprobes, we identified a 2.0 kb RNA transcript with the antisense probe as expected and identified a 4.1 kb transcript by the sense probe. Further sequence analysis of the 4.1 kb transcript revealed at least a 509 nucleotide sequence exactly complementary to the 2.0 kb MAGE D2 mRNA sequence. This MAGE D2i sequence contains unique structural features not shared with those of previously described antisense transcripts. Identification of this transcript potentially has important implications for future studies examining MAGE D2 expression patterns in cancer and normal tissues. © 2004 Elsevier Inc. All rights reserved.
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