We have shown that worms that possess mutations in two electron transport chain subunits live longer due to mtROS signalling. Wild type worms can also live longer by treatment with the pro-oxidant paraquat. Paraquat treatment is not additive to the mutations in the ETC subunits. We aimed to determine the underlying changes in gene expression that were common to both paraquat treatment and the two mutations. We also have shown genetically that the mtROS signal that leads to extended lifespan is dependent on CED-4. We generated double mutants that lack functional CED-4 with the two mutations in the ETC subunits. We have found that a large number of gene expression changes by mtROS signalling are reverted by loss of CED-4.
Illumina HiSeq 2000 paired end sequencing; Illumina sequencing of C. elegans dauer exit daf-2(el370) sample 3-1 DauerExitDAF2-3-1 polyA+ 101bp PE RNAseq random fragment library RW0001
Illumina HiSeq 2000 paired end sequencing; Illumina sequencing of C. elegans dauer exit daf-2(el370) sample 3-1 DauerExitDAF2-3-1 polyA+ 100bp PE RNAseq random fragment library RW0001
Illumina HiSeq 2000 paired end sequencing; Illumina sequencing of C. elegans dauer exit daf-2(el370) sample 3-1 DauerExitDAF2-3-1 polyA+ 101bp SE RNAseq random fragment library RW0001
Illumina HiSeq 2000 paired end sequencing; Illumina sequencing of C. elegans dauer exit daf-2(el370) sample 3-1 DauerExitDAF2-3-1 polyA+ 100bp SE RNAseq random fragment library RW0001
FOG-1/CPEB and FOG-3/Tob are the terminal regulators of the sex determination in C. elegans germ cells. CPEB and Tob proteins are both translational regulators. To investigate how FOG-1 and FOG-3 regulate germ cell sex determination we sought to identify the target mRNAs. We used transgenic epitope tagged animals (3xMyc::FOG-1 and FOG-3::3xFLAG). To identify the mRNA targets of FOG-1/CPEB and FOG-3/Tob on a genome wide scale we used RNA immunoprecipitation followed by microarray analysis. We found 81 putative mRNA targets of FOG-1 and 722 putative targets of FOG-3. 76 target mRNAs were common to both FOG-1 and FOG-3.