Paucity and preferential suppression of transgenes in late replication domains of the D. melanogaster genome

Autor: Maroy Peter, Belyakin Stepan N, Maksimov Daniil A, Belyaeva Elena S, Brusentsova Irina V, Makunin Igor V, Babenko Vladimir N, Vasil'eva Lyubov A, Zhimulev Igor F
Jazyk: angličtina
Rok vydání: 2010
Předmět:
Zdroj: BMC Genomics, Vol 11, Iss 1, p 318 (2010)
Druh dokumentu: article
ISSN: 1471-2164
DOI: 10.1186/1471-2164-11-318
Popis: Abstract Background Eukaryotic genomes are organized in extended domains with distinct features intimately linking genome structure, replication pattern and chromatin state. Recently we identified a set of long late replicating euchromatic regions that are underreplicated in salivary gland polytene chromosomes of D. melanogaster. Results Here we demonstrate that these underreplicated regions (URs) have a low density of P-element and piggyBac insertions compared to the genome average or neighboring regions. In contrast, Minos-based transposons show no paucity in URs but have a strong bias to testis-specific genes. We estimated the suppression level in 2,852 stocks carrying a single P-element by analysis of eye color determined by the mini-white marker gene and demonstrate that the proportion of suppressed transgenes in URs is more than three times higher than in the flanking regions or the genomic average. The suppressed transgenes reside in intergenic, genic or promoter regions of the annotated genes. We speculate that the low insertion frequency of P-elements and piggyBacs in URs partially results from suppression of transgenes that potentially could prevent identification of transgenes due to complete suppression of the marker gene. In a similar manner, the proportion of suppressed transgenes is higher in loci replicating late or very late in Kc cells and these loci have a lower density of P-elements and piggyBac insertions. In transgenes with two marker genes suppression of mini-white gene in eye coincides with suppression of yellow gene in bristles. Conclusions Our results suggest that the late replication domains have a high inactivation potential apparently linked to the silenced or closed chromatin state in these regions, and that such inactivation potential is largely maintained in different tissues.
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