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X, Long Michael Stone
Telomeres are specialized chromatin structures found at the end of chromosomes and are crucial to the maintenance of eukaryotic genome stability. Human telomere DNA is comprised of the repeating sequence (T2AG3)n, which is predominantly double-stranded but terminates with a 3 single-stranded tail. The guanine-rich tail can fold into secondary stru...
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Bm, Akiyama Michael Stone
Published in
Nature
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Cd, Hardy Nj, Crisona Michael Stone Nr, Cozzarelli
Published in
Philosophical Transactions of The Royal Society B Biological Sciences
The seminal papers by Watson and Crick in 1953 on the structure and function of DNA clearly enunciated the challenge their model presented of how the intertwined strands of DNA are unwound and separated for replication to occur. We first give a historical overview of the major discoveries in the past 50 years that address this challenge. We then de...
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M, Nöllmann Michael Stone Z, Bryant J, Gore Nj, Crisona Sc, Hong S, Mitelheiser A, Maxwell C, Bustamante Nr, Cozzarelli
...
Published in
Nature Structural & Molecular Biology
E. coli DNA gyrase uses the energy of ATP hydrolysis to introduce essential negative supercoils into the genome, thereby working against the mechanical stresses that accumulate in supercoiled DNA. Using a magnetic-tweezers assay, we demonstrate that small changes in force and torque can switch gyrase among three distinct modes of activity. Under lo...
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X, Long Jw, Parks Cr, Bagshaw Michael Stone
Published in
Nucleic Acids Research
Single-molecule techniques facilitate analysis of mechanical transitions within nucleic acids and proteins. Here, we describe an integrated fluorescence and magnetic tweezers instrument that permits detection of nanometer-scale DNA structural rearrangements together with the application of a wide range of stretching forces to individual DNA molecul...
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Michael Stone
Published in
Journal of Molecular Biology
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M, Hengesbach Nk, Kim J, Feigon Michael Stone
Published in
Angewandte Chemie International Edition in English
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A, Daroszewska Lj, Hocking Fe, Mcguigan B, Langdahl Michael Stone T, Cundy Gc, Nicholson Wd, Fraser Sh, Ralston
Published in
Journal of Bone and Mineral Research
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Bm, Akiyama Michael Stone
Published in
Nature
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Michael Stone M, Mihalusova Cm, O Connor R, Prathapam K, Collins X, Zhuang
Published in
Nature
Telomerase is an essential cellular ribonucleoprotein (RNP) that solves the end replication problem and maintains chromosome stability by adding telomeric DNA to the termini of linear chromosomes. Genetic mutations that abrogate the normal assembly of telomerase RNP cause human disease. It is therefore of fundamental and medical importance to decip...
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Z, Bryant Michael Stone J, Gore Sb, Smith Nr, Cozzarelli C, Bustamante
Published in
Nature
Knowledge of the elastic properties of DNA is required to understand the structural dynamics of cellular processes such as replication and transcription. Measurements of force and extension on single molecules of DNA have allowed direct determination of the molecule s mechanical properties, provided rigorous tests of theories of polymer elasticity,...
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La, Emery A, Tripathi C, King M, Kavanah J, Mendez Michael Stone A, De Las Morenas P, Sebastiani Cl, Rosenberg
Published in
American Journal Of Pathology
Proliferative breast lesions, such as simple ductal hyperplasia (SH) and atypical ductal hyperplasia (ADH), are candidate precursors to ductal carcinoma in situ (DCIS) and invasive cancer. To better understand the relationship of breast lesions to more advanced disease, we used microdissection and DNA microarrays to profile the gene expression of p...
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J, Gore Z, Bryant Michael Stone M, Nöllmann Nr, Cozzarelli C, Bustamante
Published in
Nature
DNA gyrase is a molecular machine that uses the energy of ATP hydrolysis to introduce essential negative supercoils into DNA. The directionality of supercoiling is ensured by chiral wrapping of the DNA around a specialized domain of the enzyme before strand passage. Here we observe the activity of gyrase in real time by tracking the rotation of a s...
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Tr, Blosser Jg, Yang Michael Stone Gj, Narlikar X, Zhuang
Published in
Nature
The ATP-dependent chromatin assembly and remodelling factor (ACF) functions to generate regularly spaced nucleosomes, which are required for heritable gene silencing. The mechanism by which ACF mobilizes nucleosomes remains poorly understood. Here we report a single-molecule FRET study that monitors the remodelling of individual nucleosomes by ACF ...
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M, Nöllmann Michael Stone Z, Bryant J, Gore Nj, Crisona Sc, Hong S, Mitelheiser A, Maxwell C, Bustamante Nr, Cozzarelli
...
Published in
Nature Structural & Molecular Biology
E. coli DNA gyrase uses the energy of ATP hydrolysis to introduce essential negative supercoils into the genome, thereby working against the mechanical stresses that accumulate in supercoiled DNA. Using a magnetic-tweezers assay, we demonstrate that small changes in force and torque can switch gyrase among three distinct modes of activity. Under lo...
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M, Hengesbach Bm, Akiyama Michael Stone
Published in
Current Opinion in Chemical Biology
The telomerase ribonucleoprotein is a specialized reverse transcriptase required to maintain protective chromosome end-capping structures called telomeres. In most cells, telomerase is not active and the natural shortening of telomeres with each round of DNA replication ultimately triggers cell growth arrest. In contrast, the presence of telomerase...
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Li, Jansson Bm, Akiyama A, Ooms C, Lu Sm, Rubin Michael Stone
Published in
Nature Structural & Molecular Biology
Telomerase is required to maintain repetitive G-rich telomeric DNA sequences at chromosome ends. To do so, the telomerase reverse transcriptase (TERT) subunit reiteratively uses a small region of the integral telomerase RNA (TER) as a template. An essential feature of telomerase catalysis is the strict definition of the template boundary to determi...
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Bm, Akiyama J, Loper K, Najarro Michael Stone
Published in
RNA
The unique cellular activity of the telomerase reverse transcriptase ribonucleoprotein (RNP) requires proper assembly of protein and RNA components into a functional complex. In the ciliate model organism Tetrahymena thermophila, the La-domain protein p65 is required for in vivo assembly of telomerase. Single-molecule and biochemical studies have s...
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Cd, Hardy Nj, Crisona Michael Stone Nr, Cozzarelli
Published in
Philosophical Transactions of The Royal Society B Biological Sciences
The seminal papers by Watson and Crick in 1953 on the structure and function of DNA clearly enunciated the challenge their model presented of how the intertwined strands of DNA are unwound and separated for replication to occur. We first give a historical overview of the major discoveries in the past 50 years that address this challenge. We then de...
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Jw, Parks Michael Stone
Published in
Nature Communications
The human telomerase reverse transcriptase (hTERT) utilizes a template within the integral RNA subunit (hTR) to direct extension of telomeres. Telomerase exhibits repeat addition processivity (RAP) and must therefore translocate the nascent DNA product into a new RNA:DNA hybrid register to prime each round of telomere repeat synthesis. Here, we use...