Richard G. Keene scite author profile

A strong transcriptional pause delays human RNA polymerase II three nt after the last potentially paired base in HIV-1 TAR, the RNA structure that binds the transactivator protein Tat. We report here that the HIV-1 pause depends in part on an alternative RNA structure (the HIV-1 pause hairpin) that competes with formation of TAR. By probing the nascent RNA structure in halted transcription complexes, we found that the transcript folds as the pause hairpin before and at the pause, and rearranges to TAR concurrent with or just after escape from the pause. The pause signal triggers a 2 nt reverse translocation by RNA polymerase that may block the active site and be counteracted by formation of TAR. Thus, the HIV-1 pause site modulates nascent RNA rearrangement from a structure that favors pausing to one that both recruits Tat and promotes escape from the pause.

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Transcriptional pause, arrest and termination sites for RNA polymerase II in mammalian N- and c-mycgenes

Keene

Mueller

Landick

et al. 1999

Nucleic Acids Research

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Using either highly purified RNA polymerase II (pol II) elongation complexes assembled on oligo(dC)-tailed templates or promoter-initiated (extract-generated) pol II elongation complexes, the precise 3" ends of transcripts produced during transcription in vitro at several human c- and N- myc pause, arrest and termination sites were determined. Despite a low overall similarity between the entire c- and N- myc first exon sequences, many positions of pol II pausing, arrest or termination occurred within short regions of related sequence shared between the c- and N- myc templates. The c- and N- myc genes showed three general classes of sequence conservation near intrinsic pause, arrest or termination sites: (i) sites where arrest or termination occurred after the synthesis of runs of uridines (Us) preceding the transcript 3" end, (ii) sites downstream of potential RNA hairpins and (iii) sites after nucleotide addition following either a U or a C or following a combination of several pyrimidines near the transcript 3" end. The finding that regions of similarity occur near the sites of pol II pausing, arrest or termination suggests that the mechanism of c- and N- myc regulation at the level of transcript elongation may be similar and not divergent as previously proposed.

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Physical and Pharmacologic Restraints in Long-Term Care Facilities

Middleton¹,

Keene²,

Johnson³

et al. 1999

J Gerontol Nurs

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This study examined the effects of education on the attitudes and practices of long-term care staff toward use of restraints. The intervention, a 1-day educational seminar, used a collaborative team of speakers from the Utah Survey Agency and medical professions. Seminar goals were threefold: first, to provide information about best practices for managing behaviors of individuals with dementia in long-term care settings; second, to provide an explanation of the Omnibus Budget Reconciliation Act regulations pertaining to restraint use; and third, to present alternative strategies to link best practice guidelines to the provision of care. Results showed significant changes in participants' attitudes toward use of restraints. Participants reported replicating the seminar for nursing home staff, revisiting facility policies on restraints, and modifying resident care plans.

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Analysis of premature termination in c-myc during transcription by RNA polymerase II in a HeLa nuclear extract.

London¹,

Keene²,

Landick³

1991

Mol. Cell. Biol.

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Transcriptional regulation of the human c-myc gene, an important aspect of cellular differentiation, occurs in part at the level of transcript elongation. In vivo, transcriptional arrest, due to either pausing or termination, occurs near the junction between the first exon and first intron and varies with the growth state of the cell. We have tested the transcription of c-myc templates in HeLa nuclear extracts. We did not observe significant arrest under standard conditions, but we found that a considerable fraction of transcription complexes stopped at the c-myc TII site (just past the first exon-intron junction) when the KCI concentration was raised to 400 mM during elongation. Transcriptional arrest at TII also was observed at KCI concentrations as low as 130 mM and when potassium acetate or potassium glutamate was substituted for KCI. Under these conditions, arrest occurred at the T1I site when transcription was initiated at either the c-myc P2 promoter or the adenovirus 2 major late promoter. Further, the TII sequence itself, in forward but not reverse orientation, was sufficient to stop transcription in a HeLa nuclear extract. By separating the TII RNA from active transcription complexes by using gel filtration, we found that arrest at TII at 400 mM KCI resulted in transcript release and thus true transcriptional termination. The efficiency of termination at TII depended on the growth state of the celHs from which the extracts were made, suggesting that some factor or factors control premature termination in c-myc.

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Richard G. Keene

Adult Adolescent Parenting Inventory—Version 2

Transcriptional Pausing at +62 of the HIV-1 Nascent RNA Modulates Formation of the TAR RNA Structure

Transcriptional pause, arrest and termination sites for RNA polymerase II in mammalian N- and c-mycgenes

Physical and Pharmacologic Restraints in Long-Term Care Facilities

Analysis of premature termination in c-myc during transcription by RNA polymerase II in a HeLa nuclear extract.

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