R. J. Richards scite author profile

Tetrahymena telomerase RNA (TER) contains several regions in addition to the template that are important for function. Central among these is the stem-loop IV domain, which is involved in both catalysis and RNP assembly, and includes binding sites for both the holoenzyme assembly protein p65 and telomerase reverse transcriptase (TERT). Stem-loop IV contains two regions with high evolutionary sequence conservation: a central GA bulge between helices, and a terminal loop. We solved the solution structure of loop IV and modeled the structure of the helical region containing the GA bulge, using NMR and residual dipolar couplings. The central GA bulge with flanking C-G base pairs induces a ;50°semi-rigid bend in the helix. Loop IV is highly structured, and contains a conserved C-U base pair at the top of the helical stem. Analysis of new and previous biochemical data in light of the structure provides a rationale for some of the sequence conservation in this region of TER. The results suggest that during holoenzyme assembly the protein p65 recognizes a bend in stem IV, and this binding to central stem IV helps to position the structured loop IV for interaction with TERT and other region(s) of TER.

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Structure of the Tetrahymena thermophila telomerase RNA helix II template boundary element

Richards

Theimer²,

Finger³

et al. 2006

Nucleic Acids Research

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Telomere addition by telomerase requires an internal templating sequence located in the RNA subunit of telomerase. The correct boundary definition of this template sequence is essential for the proper addition of the nucleotide repeats. Incorporation of incorrect telomeric repeats onto the ends of chromosomes has been shown to induce chromosomal instability in ciliate, yeast and human cells. A 5′ template boundary defining element (TBE) has been identified in human, yeast and ciliate telomerase RNAs. Here, we report the solution structure of the TBE element (helix II) from Tetrahymena thermophila telomerase RNA. Our results indicate that helix II and its capping pentaloop form a well-defined structure including unpaired, stacked adenine nucleotides in the stem and an unusual syn adenine nucleotide in the loop. A comparison of the T.thermophila helix II pentaloop with a pentaloop of the same sequence found in the 23S rRNA of the Haloarcula marismortui ribosome suggests possible RNA and/or protein interactions for the helix II loop within the Tetrahymena telomerase holoenzyme.

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Measurement of the Flow of Liquefied Gases with Sharp-Edged Orifices

Richards

Jacobs

Pestalozzi

1960

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Model of dislocation sweep-in of hydrogen during fatigue crack growth

Tien

Richards

Buck

et al. 1975

Scripta Metallurgica

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Analysis of the Frost Phenomena on a Cryo-Surface

Smith

Edmonds

Brentari

et al. 1964

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Heat Transfer to Boiling Liquid Nitrogen and Hydrogen Flowing Axially Through Narrow Annular Passages

Richards

Robbins

Jacobs

et al. 1960

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Instrumentation for Storage and Transfer of Hydrogen Slush

Weitzel¹,

Cruz²,

Lowe³

et al. 1971

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R. J. Richards

Hydrogen transport by dislocations

Structural study of elements of Tetrahymena telomerase RNA stem–loop IV domain important for function

Structure of the Tetrahymena thermophila telomerase RNA helix II template boundary element

Measurement of the Flow of Liquefied Gases with Sharp-Edged Orifices

Model of dislocation sweep-in of hydrogen during fatigue crack growth

Analysis of the Frost Phenomena on a Cryo-Surface

Heat Transfer to Boiling Liquid Nitrogen and Hydrogen Flowing Axially Through Narrow Annular Passages

Instrumentation for Storage and Transfer of Hydrogen Slush

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