Kristi L. Jones scite author profile

SummaryThe sequences encoding the QUAD1 RNAs were initially identified as four repeats in Escherichia coli. These repeats, herein renamed SIB, are conserved in closely related bacteria, although the number of repeats varies. All five Sib RNAs in E. coli MG1655 are expressed, and no phenotype was observed for a five-sib deletion strain. However, a phenotype reminiscent of plasmid addiction was observed for overexpression of the Sib RNAs, and further examination of the SIB repeat sequences revealed conserved open reading frames encoding highly hydrophobic 18-to 19-amino-acid proteins (Ibs) opposite each sib gene. The Ibs proteins were found to be toxic when overexpressed and this toxicity could be prevented by coexpression of the corresponding Sib RNA. Two other RNAs encoded divergently in the yfhL-acpS intergenic region were similarly found to encode a small hydrophobic protein (ShoB) and an antisense RNA regulator (OhsC). Overexpression of both IbsC and ShoB led to immediate changes in membrane potential suggesting both proteins affect the cell envelope. Whole genome expression analysis showed that overexpression of IbsC and ShoB, as well as the small hydrophobic LdrD and TisB proteins, has both overlapping and unique consequences for the cell.

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The chromatin remodeling factor BRG1 stimulates nucleotide excision repair by facilitating recruitment of XPC to sites of DNA damage

Zhang

Jones

et al. 2009

Cell Cycle

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The molecular basis of chromatin dynamics during nucleotide excision repairThis paper is one of a selection of papers published in this Special Issue, entitled 29th Annual International Asilomar Chromatin and Chromosomes Conference, and has undergone the Journal’s usual peer review process.

Zhang

Jones

Gong

2009

Biochem. Cell Biol.

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The assembly of DNA into chromatin in eukaryotic cells affects all DNA-related cellular activities, such as replication, transcription, recombination, and repair. Rearrangement of chromatin structure during nucleotide excision repair (NER) was discovered more than 2 decades ago. However, the molecular basis of chromatin dynamics during NER remains undefined. Pioneering studies in the field of gene transcription have shown that ATP-dependent chromatin-remodeling complexes and histone-modifying enzymes play a critical role in chromatin dynamics during transcription. Similarly, recent studies have demonstrated that the SWI/SNF chromatin-remodeling complex facilitates NER both in vitro and in vivo. Additionally, histone acetylation has also been linked to the NER of ultraviolet light damage. In this article, we will discuss the role of these identified chromatin-modifying activities in NER.

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Detection of bulky DNA lesions: DDB2 at the interface of chromatin and DNA repair in eukaryotes

et al. 2010

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SummaryBulky DNA damage is corrected by the nucleotide excision repair (NER) pathway. Although the core biochemical mechanism of NER is understood, details including lesion recognition and repair in the context of chromatin remain to be elucidated. As more data become available, the complexity of lesion recognition in chromatin is becoming clear. This review will discuss current knowledge of DNA damage recognition in the context of chromatin, with a focus on the roles of chromatin remodeling and the specific lesion recognition protein DDB2 (DNA damagebinding protein 2) in chromatin repair. Additionally, we propose a model that ubiquitination-mediated DDB2 dissociation from chromatin, not its degradation, is important for GG-NER progression.2010 IUBMB IUBMB Life, 62(11): 803-811, 2010

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Repression of small toxic protein synthesis by the Sib and OhsC small RNAs

Fozo

Kawano

Fontaine

et al. 2008

Molecular Microbiology

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Kristi L. Jones

Repression of small toxic protein synthesis by the Sib and OhsC small RNAs

The chromatin remodeling factor BRG1 stimulates nucleotide excision repair by facilitating recruitment of XPC to sites of DNA damage

The molecular basis of chromatin dynamics during nucleotide excision repairThis paper is one of a selection of papers published in this Special Issue, entitled 29th Annual International Asilomar Chromatin and Chromosomes Conference, and has undergone the Journal’s usual peer review process.

Detection of bulky DNA lesions: DDB2 at the interface of chromatin and DNA repair in eukaryotes

Repression of small toxic protein synthesis by the Sib and OhsC small RNAs

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