Transcriptional silencing of a tRNA1Gly copy from within a multigene family is modulated by distal cis elements

Sharma, Sujata ; Gopinathan, Karumathil P. (1996) Transcriptional silencing of a tRNA1Gly copy from within a multigene family is modulated by distal cis elements Journal of Biological Chemistry, 271 . pp. 28146-28153. ISSN 0021-9258

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Official URL: http://www.jbc.org/content/271/45/28146.full

Related URL: http://dx.doi.org/10.1074/jbc.271.45.28146

Abstract

Individual copies of tRNA1Gly from within the multigene family in Bombyx mori could be classified based on in vitro transcription in homologous nuclear extracts into three categories of highly, moderately, or weakly transcribed genes. Segregation of the poorly transcribed gene copies 6 and 7, which are clustered in tandem within 425 base pairs, resulted in enhancement of their individual transcription levels, but the linkage itself had little influence on the transcriptional status. For these gene copies, when fused together generating a single coding region, transcription was barely detectable, which suggested the presence of negatively regulating elements located in the far flanking sequences. They exerted the silencing effect on transcription overriding the activity of positive regulatory elements. Systematic analysis of deletion, chimeric, and mutant constructs revealed the presence of a sequence element TATATAA located beyond 800 nucleotides upstream to the coding region acting as negative modulator, which when mutated resulted in high level transcription. Conversely, a TATATAA motif reintroduced at either far upstream or far downstream flanking regions exerted a negative effect on transcription. The location of cis-regulatory sequences at such farther distances from the coding region and the behavior of TATATAA element as negative regulator reported here are novel. These element(s) could play significant roles in activation or silencing of genes from within a multigene family, by recruitment or sequestration of transcription factors.

Item Type:Article
Source:Copyright of this article belongs to The American Society for Biochemistry and Molecular Biology.
ID Code:23638
Deposited On:26 Nov 2010 08:45
Last Modified:17 May 2016 07:25

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