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Author

Doherty Michael

Bio: Doherty Michael is an academic researcher from University of Nottingham. The author has an hindex of 1, co-authored 1 publications receiving 729 citations.

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01 Apr 2011-BMJ

729 citations


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TL;DR: DINESH KHanNA, JOHN D. FITZGERALD, PUJA P. KHANNA, SANGMEE BAE, MANJIT K. SINGH, TUHINA NEOGI, MICHAEL H. PILLINGER, JOAN MERILL, SUSAN LEE, SHRADDHA PRAKASH, MARIAN KALDAS, MANEESH GOGIA, FERNANDO PEREZ-RUI
Abstract: DINESH KHANNA, JOHN D. FITZGERALD, PUJA P. KHANNA, SANGMEE BAE, MANJIT K. SINGH, TUHINA NEOGI, MICHAEL H. PILLINGER, JOAN MERILL, SUSAN LEE, SHRADDHA PRAKASH, MARIAN KALDAS, MANEESH GOGIA, FERNANDO PEREZ-RUIZ, WILL TAYLOR, FREDERIC LIOTE, HYON CHOI, JASVINDER A. SINGH, NICOLA DALBETH, SANFORD KAPLAN, VANDANA NIYYAR, DANIELLE JONES, STEVEN A. YAROWS, BLAKE ROESSLER, GAIL KERR, CHARLES KING, GERALD LEVY, DANIEL E. FURST, N. LAWRENCE EDWARDS, BRIAN MANDELL, H. RALPH SCHUMACHER, MARK ROBBINS, NEIL WENGER, AND ROBERT TERKELTAUB

1,335 citations

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TL;DR: It is thought that SSBs contribute to weight gain in part by incomplete compensation for energy at subsequent meals following intake of liquid calories, and should be replaced by healthy alternatives such as water, to reduce risk of obesity and chronic diseases.

764 citations

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TL;DR: The biology of urate metabolism and its role in disease is discussed and recent studies identifying SLC2A9, which encodes the glucose transporter family isoform Glut9, as a major determinant of plasma uric acid levels and of gout development are identified.
Abstract: Uric acid is the metabolic end product of purine metabolism in humans. It has antioxidant properties that may be protective but can also be pro-oxidant, depending on its chemical microenvironment. Hyperuricemia predisposes to disease through the formation of urate crystals that cause gout, but hyperuricemia, independent of crystal formation, has also been linked with hypertension, atherosclerosis, insulin resistance, and diabetes. We discuss here the biology of urate metabolism and its role in disease. We also cover the genetics of urate transport, including URAT1, and recent studies identifying SLC2A9, which encodes the glucose transporter family isoform Glut9, as a major determinant of plasma uric acid levels and of gout development.

615 citations

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TL;DR: In this review, an approach has been made to highlight the importance of different enzymes with special emphasis on amylase and lipase in the different industrial and medical fields.
Abstract: Enzymes are the large biomolecules that are required for the numerous chemical interconversions that sustain life. They accelerate all the metabolic processes in the body and carry out a specific task. Enzymes are highly efficient, which can increase reaction rates by 100 million to 10 billion times faster than any normal chemical reaction. Due to development in recombinant technology and protein engineering, enzymes have evolved as an important molecule that has been widely used in different industrial and therapeutical purposes. Microbial enzymes are currently acquiring much attention with rapid development of enzyme technology. Microbial enzymes are preferred due to their economic feasibility, high yields, consistency, ease of product modification and optimization, regular supply due to absence of seasonal fluctuations, rapid growth of microbes on inexpensive media, stability, and greater catalytic activity. Microbial enzymes play a major role in the diagnosis, treatment, biochemical investigation, and monitoring of various dreaded diseases. Amylase and lipase are two very important enzymes that have been vastly studied and have great importance in different industries and therapeutic industry. In this review, an approach has been made to highlight the importance of different enzymes with special emphasis on amylase and lipase in the different industrial and medical fields.

491 citations

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TL;DR: The finding that mTORC1 is localized to the lysosome has significantly enhanced the understanding of m TORC1 regulation and may be a general principle used by TOR to enact precise spatial and temporal control of cell growth.
Abstract: Target of rapamycin (TOR) forms two conserved, structurally distinct kinase complexes termed TOR complex 1 (TORC1) and TORC2. Each complex phosphorylates a different set of substrates to regulate cell growth. In mammals, mTOR is stimulated by nutrients and growth factors and inhibited by stress to ensure that cells grow only during favorable conditions. Studies in different organisms have reported localization of TOR to several distinct subcellular compartments. Notably, the finding that mTORC1 is localized to the lysosome has significantly enhanced our understanding of mTORC1 regulation. Subcellular localization may be a general principle used by TOR to enact precise spatial and temporal control of cell growth.

454 citations