T
Thomas C. Chiles
Researcher at Boston College
Publications - 63
Citations - 6035
Thomas C. Chiles is an academic researcher from Boston College. The author has contributed to research in topics: Cyclin A & B cell. The author has an hindex of 26, co-authored 62 publications receiving 4595 citations. Previous affiliations of Thomas C. Chiles include Brandeis University.
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The Lancet Commission on pollution and health
Philip J. Landrigan,Richard Fuller,Nereus J R Acosta,Olusoji Adeyi,Robert G. Arnold,Niladri Basu,Abdoulaye Bibi Baldé,Roberto Bertollini,Stephan Bose-O'Reilly,Stephan Bose-O'Reilly,Jo Ivey Boufford,Patrick N. Breysse,Thomas C. Chiles,Chulabhorn Mahidol,Awa M Coll-Seck,Maureen L. Cropper,Julius N. Fobil,Valentin Fuster,Valentin Fuster,Michael Greenstone,Andy Haines,David Hanrahan,David J. Hunter,Mukesh Khare,Alan Krupnick,Bruce P. Lanphear,Bindu Lohani,Keith Martin,Karen V Mathiasen,Maureen A. McTeer,Christopher J L Murray,Johanita D Ndahimananjara,Frederica P. Perera,Janez Potočnik,Alexander S Preker,Alexander S Preker,Jairam Ramesh,Johan Rockström,Carlos Salinas,Leona D. Samson,Karti Sandilya,Peter D. Sly,Kirk R. Smith,Achim Steiner,Richard B. Stewart,William A. Suk,Onno C. P. van Schayck,Gautam N. Yadama,Kandeh K. Yumkella,Ma Zhong +49 more
TL;DR: This book is dedicated to the memory of those who have served in the armed forces and their families during the conflicts of the twentieth century.
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Highly efficient molecular delivery into mammalian cells using carbon nanotube spearing
Dong Cai,Jennifer Marie Mataraza,Zheng-Hong Qin,Zheng-Hong Qin,Zhongping Huang,Jian Yu Huang,Thomas C. Chiles,David Carnahan,Kris Kempa,Zhifeng Ren +9 more
TL;DR: A highly efficient molecular delivery technique, named nanotube spearing, based on the penetration of nickel-embedded nanotubes into cell membranes by magnetic field driving is reported, achieving an unprecedented high transduction efficiency in Bal17 B-lymphoma, ex vivo B cells and primary neurons with high viability after transduction.
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A molecular-imprint nanosensor for ultrasensitive detection of proteins
Dong Cai,Lu Ren,Lu Ren,Huaizhou Zhao,Chenjia Xu,Lu Zhang,Ying Yu,Ying Yu,Hengzhi Wang,Yucheng Lan,Mary F. Roberts,Jeffrey H. Chuang,Michael J. Naughton,Zhifeng Ren,Thomas C. Chiles +14 more
TL;DR: Arrays of carbon-nanotube tips with an imprinted non-conducting polymer coating can recognize proteins with subpicogram per litre sensitivity using electrochemical impedance spectroscopy and this ultrasensitive, label-free electrochemical detection of proteins offers an alternative to biosensors based on biomolecule recognition.
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Antigen receptor-mediated changes in glucose metabolism in B lymphocytes: role of phosphatidylinositol 3-kinase signaling in the glycolytic control of growth.
Cheryl Doughty,Blair F. Bleiman,Dean J. Wagner,Fay J. Dufort,Jennifer Marie Mataraza,Mary F. Roberts,Thomas C. Chiles +6 more
TL;DR: Findings demonstrate that both growth-promoting BCR signaling and growth-inhibitory FcgammaRIIB signaling modulate glucose energy metabolism, which may prove to be useful in the treatment of lymphoproliferative disorders, wherein clonal expansion of B lymphocytes plays a role.
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Itaconic Acid Is a Mammalian Metabolite Induced During Macrophage Activation
Cheryl L. Strelko,Wenyun Lu,Fay J. Dufort,Thomas N. Seyfried,Thomas C. Chiles,Joshua D. Rabinowitz,Mary F. Roberts +6 more
TL;DR: The detection of ITA in both macrophage-like VM-M3 and RAW 264.7 tumor cell lines as well as stimulated and unstimulated primary murine macrophages highlights a previously unidentified biosynthetic pathway related to TCA cycle metabolism in mammalian cells and a novel metabolite that likely plays a role in macrophice-based immune response.