Molecular cloning and characterization of the Fugu rubripes MEST/COPG2 imprinting cluster and chromosomal localization in Fugu and Tetraodon nigroviridis

Citation
B. Brunner et al., Molecular cloning and characterization of the Fugu rubripes MEST/COPG2 imprinting cluster and chromosomal localization in Fugu and Tetraodon nigroviridis, CHROMOS RES, 8(6), 2000, pp. 465-476
Citations number
27
Categorie Soggetti
Molecular Biology & Genetics
Journal title
CHROMOSOME RESEARCH
ISSN journal
09673849 → ACNP
Volume
8
Issue
6
Year of publication
2000
Pages
465 - 476
Database
ISI
SICI code
0967-3849(2000)8:6<465:MCACOT>2.0.ZU;2-9
Abstract
We isolated Fugu genomic clones using the human MEST (<(Me)under bar>soderm -(S) under bar pecific (T) under bar ranscript) cDNA as probe. Sequence ana lysis revealed the presence of MEST and three additional genes which show h omology to plant DNBP (<(DN)under bar>A-(B) under bar inding (P) under bar rotein), vertebrate COPG2 (<(Co)under bar>at (P) under bar rotein (G) under bar amma (2) under bar), as well as to human and mouse UCN ((U) under bar ro (c) under bar orti (n) under bar). Structures of Fugu and human MEST, CO PG2 and UCN genes are very similar. Since MEST and COPG2 are neighboring ge nes on human chromosome 7q32, we can conclude that we identified their orth ologs and that linkage of these genes is evolutionarily conserved in verteb rates. Unlike human MEST which underlies isoform-specific imprinting and is methylated in a parent-of-origin-specific fashion, the CpG island of the F ugu ortholog is completely methylated. The translation start of Fugu MEST i s identical to the non-imprinted human isoform which is in good agreement w ith the assumption that genomic imprinting is restricted to mammals. Compar ative mapping of these genes by fluorescence in-situ hybridization to metap hase chromosomes of Fugu rubripes and Tetraodon nigroviridis showed clear s ignals on one of the smallest acrocentric chromosomal pairs, which in Fugu, can be easily classified by its unique triangular shape.