240,724 research outputs found

    R. Austin Freeman

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    Doctor and pioneering crime writer R. Austin Freeman is widely credited with the invention of the ‘inverted’ crime story (later popularised by tv detective Lieutenant Columbo). Born in London, he lived at a series of Kent addresses with his wife Annie and their two children after being invalided out of the Colonial Service in 1891. His first Kent address was in St Peter’s, just outside Broadstairs, from 1896. Around 1900 the family moved to 9 Vale Square, Ramsgate. Biographical essay for Kent Maps Online

    Genealogy of Elijah Norman Freeman

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    Autobiography of Elijah Norman Freeman, which he dictated to his wife, Mary Ellen Freeman in 1931. He was born in Illinois in 1845, and his family came to Utah in 1847, settling in Ogden. He held many church positions there, went on a mission to Europe, and later settled in Saint Johns, Arizona, and blackfoot, Idaho. Copied by Louise R. Mathewas for the Utah Works Progress Administration\u27s Historical Records Surve

    Oral History Interview with Frederick R. Freeman, March 31, 2000

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    Interview with accountant and Army veteran Frederick R. Freeman. The interview includes Freeman's personal experiences about the European Theater during the World War II, basic training, advanced infantry training, initial combat on the front lines in France, survival techniques under combat conditions, the Ardennes Offensive, and the Battle of the Bulge. Freeman also talks about the effects of combat losses and acclimation of individual replacements, his bout with combat exhaustion and reassignment to a replacement depot as a clerk, his participation in the Army of Occupation, and postwar adjustments to civilian life

    Rex Freeman

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    "Rex Freeman Hon. Sec. No 2 Sqdn. Assoc. Vic. Pilgrimage/Tour 3.6.92 to 12.6.92 (Hughes Field 1944/5)".Rex Freeman, Honorary Secretary Number 2 Squadron Association Victoria. Pilgrimage/Tour 3.6.92 to 12.6.92 (Hughes Field 1944/5)

    Conformational rearrangements enable iterative backbone -methylation in RiPP biosynthesis

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    R Code: Supplementary Data 1. Code for running kinetics simulations File name: Supplementary Data 1.R Mass Spectrometry .raw files: Supplementary Figure 4a-c. Mass spectrometric analysis of split borosin coexpressions. File name: 20200110_FSM1167_SonA+SonM_24.5min.raw Supplementary Figure 4d-j. Mass spectrometric analysis of split borosin coexpressions. File name: 20200909_KC1063_StrA+StrM_15min_redalk_18pm4.raw Supplementary Figure 16. SonM in vitro reactions analyzed by LC-MS/MS and compared to kinetic model simulations. File names: 20200220_FSM1178_kineticmodeling_t=2.raw 20200220_FSM1179_kineticmodeling_t=2.raw 20200220_FSM1180_kineticmodeling_t=8.raw 20200220_FSM1181_kineticmodeling_t=8.raw 20200220_FSM1182_kineticmodeling_t=20.raw 20200220_FSM1183_kineticmodeling_t=20.raw 20200220_FSM1184_kineticmodeling_t=40.raw 20200220_FSM1185_kineticmodeling_t=40.raw 20200220_FSM1186_kineticmodeling_t=60.raw 20200220_FSM1187_kineticmodeling_t=60.raw Supplementary Figure 25a. Mass spectrometric analysis of SonM mutant in vitro reactions. File name: 20190701_kc1007_His-SonA_Y93F.raw Supplementary Figure 25b. Mass spectrometric analysis of SonM mutant in vitro reactions. File name: 20190515_fsm1155_his-SonA-sonMT-R67K.raw Supplementary Figure 25c. Mass spectrometric analysis of SonM mutant in vitro reactions. File name: 20190515_fsm1154_his-sonA_sonMTR67A.raw Supplementary Figure 25d. Mass spectrometric analysis of SonM mutant in vitro reactions. File name: 20190701_kc1008_His-SonA_Y58F.raw Supplementary Figure 25e. Mass spectrometric analysis of SonM mutant in vitro reactions. File name: 20190515_fsm1156_his-sonA-SonMT-Y71F.raw Supplementary Figure 25f. Mass spectrometric analysis of SonM mutant in vitro reactions. File name: 20190701_kc1009_His-SonA_DBLMUT.rawThe data deposited here are raw files, R code and mass spec, associated with the results presented in the paper, "Conformational rearrangements enable iterative backbone N-methylation in RiPP biosynthesis." These data have been made publicly available in keeping with the journal's data availability policy.National Institutes of Health (R35 GM133475 to M.F.F.) and the University of Minnesota along with the BioTechnology Institute (M.F.F., M.H.E., W.A.H.)Miller, Fredarla S.; Crone, Kathryn K.; Jensen, Matthew R.; Shaw, Sudipta; Harcombe, William R.; Elias, Mikael H.; Freeman, Michael F.. (2021). Conformational rearrangements enable iterative backbone -methylation in RiPP biosynthesis. Retrieved from the University Digital Conservancy, https://doi.org/10.13020/y8ry-gm18

    R code associated with Evaluating goodness-of-fit of animal movement models using lineups

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    See readme file associated with the repository.This repository contains data and R code (along with associated output from running the code) presented in: Fieberg, J., Freeman, S. and J. Signer. Evaluating goodness-of-fit of animal movement models using lineups.National Aeronautics and Space Administration Award 80NSSC21K1182Fieberg, John; Freeman, Smith; Signer, Johannes. (2023). R code associated with Evaluating goodness-of-fit of animal movement models using lineups. Retrieved from the Data Repository for the University of Minnesota (DRUM), https://doi.org/10.13020/3m0d-mp29

    Freeman R. Conoway

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    An obituary for editor Freeman R. Conoway

    Freeman R. Conoway

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    An obituary for editor Freeman R. Conoway

    Freeman R. Conoway

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    An obituary for editor Freeman R. Conoway
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