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The putatively functional Mkrn1-p1 pseudogene is neither expressed nor imprinted, nor does it regulate its source gene in trans

Authors :
Robert D. Nicholls
Alison Wilson
Patrick J. Fortin
Todd A. Gray
Source :
Proceedings of the National Academy of Sciences of the United States of America. 103(32)
Publication Year :
2006

Abstract

A recently promoted genome evolution model posits that mammalian pseudogenes can regulate their founding source genes, and it thereby ascribes an important function to “junk DNA.” This model arose from analysis of a serendipitous mouse mutant in which a transgene insertion/deletion caused severe polycystic kidney disease and osteogenesis imperfecta with ≈80% perinatal lethality, when inherited paternally [Hirotsune, S., et al . (2003) Nature 423, 91–96]. The authors concluded that the transgene reduced the expression of a nearby transcribed and imprinted pseudogene, Mkrn1-p1 . This reduction in chromosome 5-imprinted Mkrn1-p1 transcripts was proposed to destabilize the cognate chromosome 6 Mkrn1 source gene mRNA, with a partial reduction in one Mkrn1 isoform leading to the imprinted phenotype. Here, we show that 5’ Mkrn1-p1 is fully methylated on both alleles, a pattern indicative of silenced chromatin, and that Mkrn1-p1 is not transcribed and therefore cannot stabilize Mkrn1 transcripts in trans. A small, truncated, rodent-specific Mkrn1 transcript explains the product erroneously attributed to Mkrn1-p1 . Additionally, Mkrn1 expression is not imprinted, and 5’ Mkrn1 is fully unmethylated. Finally, mice in which Mkrn1 has been directly disrupted show none of the phenotypes attributed to a partial reduction of Mkrn1 . These data contradict the previous suggestions that Mkrn1-p1 is imprinted, and that either it or its source Mkrn1 gene relates to the original imprinted transgene phenotype. This study invalidates the data upon which the pseudogene trans-regulation model is based and therefore strongly supports the view that mammalian pseudogenes are evolutionary relics.

Details

ISSN :
00278424
Volume :
103
Issue :
32
Database :
OpenAIRE
Journal :
Proceedings of the National Academy of Sciences of the United States of America
Accession number :
edsair.doi.dedup.....5fe1092d1810284f53b1b395f8d35e43