Peter Fitzgerald scite author profile

The organization of eukaryotic genomes into distinct structural and functional domains is important for the regulation and transduction of genetic information. Here, we investigated heterochromatin and euchromatin profiles of the entire fission yeast genome and explored the role of RNA interference (RNAi) in genome organization. Histone H3 methylated at Lys4, which defines euchromatin, was not only distributed across most of the chromosomal landscape but was also present at the centromere core, the site of kinetochore assembly. In contrast, histone H3 methylated at Lys9 and its interacting protein Swi6/HP1, which define heterochromatin, coated extended domains associated with a variety of repeat elements and small islands corresponding to meiotic genes. Notably, RNAi components were distributed throughout all these heterochromatin domains, and their localization depended on Clr4/Suv39h histone methyltransferase. Sequencing of small interfering RNAs (siRNAs) associated with the RITS RNAi effector complex identified hot spots of siRNAs, which mapped to a diverse array of elements in these RNAi-heterochromatin domains. We found that Clr4/Suv39h predominantly silenced repeat elements whose derived transcripts, transcribed mainly by RNA polymerase II, serve as a source for siRNAs. Our analyses also uncover an important role for the RNAi machinery in maintaining genomic integrity.

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Identification of tandem duplicate regulatory small RNAs in Pseudomonas aeruginosa involved in iron homeostasis

Wilderman

Sowa

FitzGerald

et al. 2004

Proc. Natl. Acad. Sci. U.S.A.

407

458

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In many bacteria, iron homeostasis is controlled primarily by the ferric uptake regulator (Fur), a transcriptional repressor. However, some genes, including those involved in iron storage, are positively regulated by Fur. A Fur-repressed regulatory small RNA (sRNA), RyhB, has been identified in Escherichia coli, and it has been demonstrated that negative regulation of genes by this sRNA is responsible for the positive regulation of some genes by Fur. No RyhB sequence homologs were found in Pseudomonas aeruginosa, despite the identification of genes positively regulated by its Fur homolog. A bioinformatics approach identified two tandem sRNAs in P. aeruginosa that were candidates for functional homologs of RyhB. These sRNAs (PrrF1 and PrrF2) are >95% identical to each other, and a functional Fur box precedes each. Their expression is induced under iron limitation. Deletion of both sRNAs is required to affect the iron-dependent regulation of an array of genes, including those involved in resistance to oxidative stress, iron storage, and intermediary metabolism. As in E. coli, induction of the PrrF sRNAs leads to the rapid loss of mRNAs for sodB (superoxide dismutase), sdh (succinate dehydrogenase), and a gene encoding a bacterioferritin. Thus, the PrrF sRNAs are the functional homologs of RyhB sRNA. At least one gene, bfrB, is positively regulated by Fur and Fe 2؉ , even in the absence of the PrrF sRNAs. This work suggests that the role of sRNAs in bacterial iron homeostasis may be broad, and approaches similar to those described here may identify these sRNAs in other organisms.

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Peter Fitzgerald

Comprehensive analysis of heterochromatin- and RNAi-mediated epigenetic control of the fission yeast genome

Identification of tandem duplicate regulatory small RNAs in Pseudomonas aeruginosa involved in iron homeostasis

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