TY - JOUR
T1 - Antisense expression increases gene expression variability and locus interdependency
AU - Xu, Zhenyu
AU - Wei, Wu
AU - Gagneur, Julien
AU - Clauder-Münster, Sandra
AU - Smolik, Miłosz
AU - Huber, Wolfgang
AU - Steinmetz, Lars M.
PY - 2011
Y1 - 2011
N2 - Genome-wide transcription profiling has revealed extensive expression of non-coding RNAs antisense to genes, yet their functions, if any, remain to be understood. In this study, we perform a systematic analysis of sense-antisense expression in response to genetic and environmental changes in yeast. We find that antisense expression is associated with genes of larger expression variability. This is characterized by more "switching off" at low levels of expression for genes with antisense compared to genes without, yet similar expression at maximal induction. By disrupting antisense transcription, we demonstrate that antisense expression confers an on-off switch on gene regulation for the SUR7 gene. Consistent with this, genes that must respond in a switch-like manner, such as stress-response and environment-specific genes, are enriched for antisense expression. In addition, our data provide evidence that antisense expression initiated from bidirectional promoters enables the spreading of regulatory signals from one locus to neighbouring genes. These results indicate a general regulatory effect of antisense expression on sense genes and emphasize the importance of antisense-initiating regions downstream of genes in models of gene regulation.
AB - Genome-wide transcription profiling has revealed extensive expression of non-coding RNAs antisense to genes, yet their functions, if any, remain to be understood. In this study, we perform a systematic analysis of sense-antisense expression in response to genetic and environmental changes in yeast. We find that antisense expression is associated with genes of larger expression variability. This is characterized by more "switching off" at low levels of expression for genes with antisense compared to genes without, yet similar expression at maximal induction. By disrupting antisense transcription, we demonstrate that antisense expression confers an on-off switch on gene regulation for the SUR7 gene. Consistent with this, genes that must respond in a switch-like manner, such as stress-response and environment-specific genes, are enriched for antisense expression. In addition, our data provide evidence that antisense expression initiated from bidirectional promoters enables the spreading of regulatory signals from one locus to neighbouring genes. These results indicate a general regulatory effect of antisense expression on sense genes and emphasize the importance of antisense-initiating regions downstream of genes in models of gene regulation.
KW - antisense regulation
KW - gene expression
KW - non-coding RNA
KW - transcriptome
UR - http://www.scopus.com/inward/record.url?scp=79951801979&partnerID=8YFLogxK
U2 - 10.1038/msb.2011.1
DO - 10.1038/msb.2011.1
M3 - Article
C2 - 21326235
AN - SCOPUS:79951801979
SN - 1744-4292
VL - 7
JO - Molecular Systems Biology
JF - Molecular Systems Biology
M1 - 468
ER -