DOCSLIB.ORG

Open Main Menu Wikipedia Search Charles Scott Sherrington

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
Open Main Menu Wikipedia Search Charles Scott Sherrington Open main menu Wikipedia Search Charles Scott Sherrington Language Download PDF Watch Edit Sir Charles Scott Sherrington OM PRS FRCP FRCS[1][10] (27 November 1857 – 4 March 1952) was an English neurophysiologist, histologist, bacteriologist, and a pathologist, Nobel laureate and president of the Royal Society in the early 1920s. He received the Nobel Prize in Physiology or Medicine with Edgar Adrian, 1st Baron Adrian, in 1932 for their work on the functions of neurons.[11][12] Prior to the work of Sherrington and Adrian, it was widely accepted that reflexes occurred as isolated activity within a reflex arc. Sherrington received the prize for showing that reflexes require integrated activation and demonstrated reciprocal innervation of muscles (Sherrington's law).[13][14] Through his seminal 1906 publication, The Integrative Action of the Nervous System,[15] he had effectively laid to rest the theory that the nervous system, including the brain, can be understood as a single interlinking network. His alternative explanation of synaptic communication between neurons helped shape our understanding of the central nervous system. Sir Charles Scott Sherrington OM GBE PRS FRCP FRCS Charles Scott Sherrington2.jpg Born 27 November 1857 Islington, Middlesex, England, United Kingdom Died 4 March 1952 (aged 94) Eastbourne, Sussex, England, United Kingdom Citizenship British Alma mater Ipswich School Royal College of Surgeons of England University of Cambridge Awards FRS (1893)[1] Royal Medal (1905) Copley Medal (1927) Nobel Prize in Physiology or Medicine (1932) Scientific career Fields Physiology Pathology Histology Neurology Bacteriology Academic advisors Michael Foster John Newport Langley Doctoral students John Farquhar Fulton John Carew Eccles Alfred Fröhlich[2] Influences Johannes Müller Thomas Ashe Jean Fernel Thomas Browne[3] Rudolf Virchow Influenced Sir John Eccles[4][5] Ragnar Granit Howard Florey[6] E.M. Tansey[7] Archibald Hill[8] Wilder Penfield[9] Biography Edit Early years and education Edit Official biographies claim Charles Scott Sherrington was born in Islington, London, England, on 27 November 1857 and that he was the son of James Norton Sherrington, a country doctor, and his wife Anne Thurtell.[16] However James Norton Sherrington was an ironmonger and artist's colourman in Great Yarmouth, not a doctor, and died in Yarmouth in 1848, nearly 9 years before Charles was born.[17][18] In the 1861 census, Charles is recorded as Charles Scott (boarder, 4, born India) with Anne Sherrington (widow) as the head and Caleb Rose (visitor, married, surgeon).[19] He was brought up in this household with Caleb recorded as head in 1871,[20] although Ann and Caleb did not marry until after the death of his wife in 1880.[21] The relationship between Charles and his childhood family is unknown. During the 1860s the whole family moved to Anglesea Road, Ipswich, reputedly because London exacerbated Caleb Rose's tendency to asthma.[22] Sherrington's origins have been discussed in several published sources: Chris Moss and Susan Hunter, in the Journal of Medical Biography of January 2018, presented an article discussing the potential origins of Charles Sherrington, i.e. whether he was born in India of unknown parents, or was the illegitimate child of Caleb Rose and Anne Sherrington.[23][24] Erling Norrby, Ph.D, in Nobel Prizes and Notable Discoveries (2016) observed: "His family origin apparently is not properly given in his official biography. Considering that motherhood is a matter of fact and fatherhood a matter of opinion, it can be noted that his father was not James Norton Sherrington, from whom his family name was derived. Charles was born 9 years after the death of his presumed father. Instead Charles and his two brothers were the illegitimate sons of Caleb Rose, a highly regarded Ipswich surgeon."[25] In Ipswich Town: A History, lakhasly.com © ﺗﻢ ﺗﻠﺨﻴﺺ اﻟﻨﺺ ﺑﻮاﺳﻄﺔ ﻣﻮﻗﻊ ﻟﺨﺼﻠ Susan Gardiner writes: "George and William Sherrington, along with their older brother, Charles, were almost certainly the illegitimate sons of Anne Brookes, née Thurtell and Caleb Rose, a leading surgeon from Ipswich, with whom she was living in College Road, Islington at the time that all three boys were born. No father was named in the baptism register of St James' Church, Clerkenwell, and there is no official record of the registration of any of their births. It was claimed they were the sons of a country doctor, James Norton Sherrington. However, it was with Caleb Rose that Anne and the three Sherrington boys moved to Anglesea Road, Ipswich in 1860 and the couple were married in 1880 after Caleb's first wife had died."[26] Of James Norton Sherrington, Judith Swazey, in Reflexes and Motor Integration: Sherrington's Concept of Integrative Action (1969), quotes Charles Scott Sherrington's son, Carr Sherrington: "James N. Sherrington was always called Mr. and I have no knowledge that he was a Dr. either in law or in medicine... [He] was mainly interested in art and was a personal friend of J. B. Crone and other painters."[27] Caleb Rose was noteworthy as both a classical scholar and an archaeologist. At the family's Edgehill House in Ipswich one could find a fine selection of paintings, books, and geological specimens.[1][28] Through Rose's interest in the Norwich School of Painters, Sherrington gained a love of art.[29] Intellectuals frequented the house regularly. It was this environment that fostered Sherrington's academic sense of wonder. Even before matriculation, the young Sherrington had read Johannes Müller's Elements of Physiology. The book was given to him by Caleb Rose. Sherrington entered Ipswich School in 1871.[1] Thomas Ashe, a famous English poet, worked at the school. Ashe served as an inspiration to Sherrington, the former instilling a love of classics and a desire to travel in the latter. Rose had pushed Sherrington towards medicine. Sherrington first began to study with the Royal College of Surgeons of England. He also sought to study at Cambridge, but a bank failure had devastated the family's finances. Sherrington elected to enroll at St Thomas' Hospital in September 1876 as a "perpetual pupil".[1] He did so in order to allow his two younger brothers to do so ahead of him. The two studied law there. Medical studies at St. Thomas's Hospital were intertwined with studies at Gonville and Caius College, Cambridge.[28] Physiology was Sherrington's chosen major at Cambridge. There, he studied under the "father of British physiology," Sir Michael Foster.[30] Sherrington played football for his grammar school, and for Ipswich Town Football Club; he played rugby for St. Thomas's, was on the rowing team at Oxford.[28][31] During June 1875, Sherrington passed his preliminary examination in general education at the Royal College of Surgeons of England (RCS). This preliminary exam was required for Fellowship, and also exempted him from a similar exam for the Membership. In April 1878, he passed his Primary Examination for the Membership of the RCS, and twelve months later the Primary for Fellowship. In October 1879, Sherrington entered Cambridge as a non-collegiate student.[32] The following year he entered Gonville and Caius College. Sherrington was a first-rate student. In June 1881, he took Part I in the Natural Sciences Tripos (NST) and was awarded a Starred first in physiology; there were nine candidates in all (eight men, one woman), of whom five gained First- class honours (Firsts); in June 1883, in Part II of the NST, he also gained a First, alongside William Bateson.[33] Walter Holbrook Gaskell, one of Sherrington's tutors, informed him in November 1881 that he had earned the highest marks for his year in botany, human anatomy, and physiology; second in zoology; and highest overall.[28] John Newport Langley was Sherrington's other tutor. The two were lakhasly.com © ﺗﻢ ﺗﻠﺨﻴﺺ اﻟﻨﺺ ﺑﻮاﺳﻄﺔ ﻣﻮﻗﻊ ﻟﺨﺼﻠ interested in how anatomical structure is expressed in physiological function.[30] Sherrington earned his Membership of the Royal College of Surgeons on 4 August 1884. In 1885, he obtained a First Class in the Natural Science Tripos with the mark of distinction. In the same year, Sherrington earned the degree of M.B., Bachelor of Medicine and Surgery from Cambridge. In 1886, Sherrington added the title of L.R.C.P., Licentiate of the Royal College of Physicians.[1] Seventh International Medical Congress Edit Charles Scott Sherrington The conference was held in London in 1881. It was at this conference that Sherrington began his work in neurological research. At the conference controversy broke out. Friedrich Goltz of Strasbourg argued that localized function in the cortex did not exist. Goltz came to this conclusion after observing dogs who had parts of their brains removed. David Ferrier, who became a hero of Sherrington's, disagreed. Ferrier maintained that there was localization of function in the brain. Ferrier's strongest evidence was a monkey who suffered from hemiplegia, paralysis affecting one side of the body only, after a cerebral lesion. A committee, including Langley, was made up to investigate. Both the dog and the monkey were chloroformed. The right hemisphere of the dog was delivered to Cambridge for examination. Sherrington performed a histological examination of the hemisphere, acting as a junior colleague to Langley. In 1884, Langley and Sherrington reported on their findings in a paper. The paper was the first for Sherrington.[1] Travel Edit In the winter of 1884–1885, Sherrington left England for Strasbourg. There, he worked with Goltz. Goltz, like many others, positively influenced Sherrington. Sherrington later said of Goltz that: "[h]e taught one that in all things only the best is good enough."[1] A case of asiatic cholera had broken out in Spain in 1885. A Spanish doctor claimed to have produced a vaccine to fight the outbreak.
Load more

Recommended publications
  • Intimations Surnames
    Intimations Extracted from the Watt Library index of family history notices as published in Inverclyde newspapers between 1800 and 1918. Surnames H-K This index is provided to researchers as a reference resource to aid the searching of these historic publications which can be consulted on microfiche, preferably by prior appointment, at the Watt Library, 9 Union Street, Greenock. Records are indexed by type: birth, death and marriage, then by surname, year in chronological order. Marriage records are listed by the surnames (in alphabetical order), of the spouses and the year. The copyright in this index is owned by Inverclyde Libraries, Museums and Archives to whom application should be made if you wish to use the index for any commercial purpose. It is made available for non- commercial use under the Creative Commons Attribution-Noncommercial-ShareAlike International License (CC BY-NC-SA 4.0 License). This document is also available in Open Document Format. Surnames H-K Record Surname When First Name Entry Type Marriage HAASE / LEGRING 1858 Frederick Auguste Haase, chief steward SS Bremen, to Ottile Wilhelmina Louise Amelia Legring, daughter of Reverend Charles Legring, Bremen, at Greenock on 24th May 1858 by Reverend J. Nelson. (Greenock Advertiser 25.5.1858) Marriage HAASE / OHLMS 1894 William Ohlms, hairdresser, 7 West Blackhall Street, to Emma, 4th daughter of August Haase, Herrnhut, Saxony, at Glengarden, Greenock on 6th June 1894 .(Greenock Telegraph 7.6.1894) Death HACKETT 1904 Arthur Arthur Hackett, shipyard worker, husband of Mary Jane, died at Greenock Infirmary in June 1904. (Greenock Telegraph 13.6.1904) Death HACKING 1878 Samuel Samuel Craig, son of John Hacking, died at 9 Mill Street, Greenock on 9th January 1878.
    [Show full text]
  • JM Coetzee and Mathematics Peter Johnston
    1 'Presences of the Infinite': J. M. Coetzee and Mathematics Peter Johnston PhD Royal Holloway University of London 2 Declaration of Authorship I, Peter Johnston, hereby declare that this thesis and the work presented in it is entirely my own. Where I have consulted the work of others, this is always clearly stated. Signed: Dated: 3 Abstract This thesis articulates the resonances between J. M. Coetzee's lifelong engagement with mathematics and his practice as a novelist, critic, and poet. Though the critical discourse surrounding Coetzee's literary work continues to flourish, and though the basic details of his background in mathematics are now widely acknowledged, his inheritance from that background has not yet been the subject of a comprehensive and mathematically- literate account. In providing such an account, I propose that these two strands of his intellectual trajectory not only developed in parallel, but together engendered several of the characteristic qualities of his finest work. The structure of the thesis is essentially thematic, but is also broadly chronological. Chapter 1 focuses on Coetzee's poetry, charting the increasing involvement of mathematical concepts and methods in his practice and poetics between 1958 and 1979. Chapter 2 situates his master's thesis alongside archival materials from the early stages of his academic career, and thus traces the development of his philosophical interest in the migration of quantificatory metaphors into other conceptual domains. Concentrating on his doctoral thesis and a series of contemporaneous reviews, essays, and lecture notes, Chapter 3 details the calculated ambivalence with which he therein articulates, adopts, and challenges various statistical methods designed to disclose objective truth.
    [Show full text]
  • 書 名 等 発行年 出版社 受賞年 備考 N1 Ueber Das Zustandekommen Der
    書 名 等 発行年 出版社 受賞年 備考 Ueber das Zustandekommen der Diphtherie-immunitat und der Tetanus-Immunitat bei thieren / Emil Adolf N1 1890 Georg thieme 1901 von Behring N2 Diphtherie und tetanus immunitaet / Emil Adolf von Behring und Kitasato 19-- [Akitomo Matsuki] 1901 Malarial fever its cause, prevention and treatment containing full details for the use of travellers, University press of N3 1902 1902 sportsmen, soldiers, and residents in malarious places / by Ronald Ross liverpool Ueber die Anwendung von concentrirten chemischen Lichtstrahlen in der Medicin / von Prof. Dr. Niels N4 1899 F.C.W.Vogel 1903 Ryberg Finsen Mit 4 Abbildungen und 2 Tafeln Twenty-five years of objective study of the higher nervous activity (behaviour) of animals / Ivan N5 Petrovitch Pavlov ; translated and edited by W. Horsley Gantt ; with the collaboration of G. Volborth ; and c1928 International Publishing 1904 an introduction by Walter B. Cannon Conditioned reflexes : an investigation of the physiological activity of the cerebral cortex / by Ivan Oxford University N6 1927 1904 Petrovitch Pavlov ; translated and edited by G.V. Anrep Press N7 Die Ätiologie und die Bekämpfung der Tuberkulose / Robert Koch ; eingeleitet von M. Kirchner 1912 J.A.Barth 1905 N8 Neue Darstellung vom histologischen Bau des Centralnervensystems / von Santiago Ramón y Cajal 1893 Veit 1906 Traité des fiévres palustres : avec la description des microbes du paludisme / par Charles Louis Alphonse N9 1884 Octave Doin 1907 Laveran N10 Embryologie des Scorpions / von Ilya Ilyich Mechnikov 1870 Wilhelm Engelmann 1908 Immunität bei Infektionskrankheiten / Ilya Ilyich Mechnikov ; einzig autorisierte übersetzung von Julius N11 1902 Gustav Fischer 1908 Meyer Die experimentelle Chemotherapie der Spirillosen : Syphilis, Rückfallfieber, Hühnerspirillose, Frambösie / N12 1910 J.Springer 1908 von Paul Ehrlich und S.
    [Show full text]
  • Fleming Vs. Florey: It All Comes Down to the Mold Kristin Hess La Salle University
    The Histories Volume 2 | Issue 1 Article 3 Fleming vs. Florey: It All Comes Down to the Mold Kristin Hess La Salle University Follow this and additional works at: https://digitalcommons.lasalle.edu/the_histories Part of the History Commons Recommended Citation Hess, Kristin () "Fleming vs. Florey: It All Comes Down to the Mold," The Histories: Vol. 2 : Iss. 1 , Article 3. Available at: https://digitalcommons.lasalle.edu/the_histories/vol2/iss1/3 This Paper is brought to you for free and open access by the Scholarship at La Salle University Digital Commons. It has been accepted for inclusion in The iH stories by an authorized editor of La Salle University Digital Commons. For more information, please contact [email protected]. The Histories, Vol 2, No. 1 Page 3 Fleming vs. Florey: It All Comes Down to the Mold Kristen Hess Without penicillin, the world as it is known today would not exist. Simple infections, earaches, menial operations, and diseases, like syphilis and pneumonia, would possibly all end fatally, shortening the life expectancy of the population, affecting everything from family-size and marriage to retirement plans and insurance policies. So how did this “wonder drug” come into existence and who is behind the development of penicillin? The majority of the population has heard the “Eureka!” story of Alexander Fleming and his famous petri dish with the unusual mold growth, Penicillium notatum. Very few realize that there are not only different variations of the Fleming discovery but that there are also other people who were vitally important to the development of penicillin as an effective drug.
    [Show full text]
  • Doctorat Honoris Causa
    DOCTORAT HONORIS CAUSA Acord núm. 204/2007 del Consell de Govern, pel qual s’aprova la concessió del doctorat Honoris Causa al Professor Sir Michael Atiyah. Document aprovat per la Comissió Permanent del dia 3/12/2007. Document aprovat pel Consell de Govern del dia 17/12/2007. DOCUMENT CG 14/12 2007 Secretaria General Desembre de 2007 PROPOSTA D’ACORD DEL CONSELL DE GOVERN PER A CONCEDIR EL DOCTORAT HONORIS CAUSA PER LA UNIVERSITAT POLITÈCNICA DE CATALUNYA, AL PROFESSOR SIR MICHAEL ATIYAH ANTECEDENTS: 1. El professor Sir Michael Atiyah ha estat guardonat, entre d’altres distincions, amb la Medalla Fields (1966), atorgada per la Unió Matemàtica Internacional, i el Premi Abel (2004), atorgat per l’Acadèmia de Ciències de Noruega, ambdues reconegudes com un Premi Nobel de les Matemàtiques. També ha estat un dels impulsors més decisius de la Societat Matemàtica Europea. 2. En relació amb Catalunya i Barcelona, i més concretament, amb la UPC, el professor Sir Michael Atiyah ha estat president del Comitè Científic del 3r Congrés Europeu de Matemàtiques celebrat a Barcelona l’any 2000. 3. El prestigi internacional del professor Sir Michael Atiyah el fa un candidat idoni com a primer doctor honoris causa per la UPC en un àrea en la qual la nostra Universitat compta amb una comunitat nombrosa i amb un gran prestigi i reconeixement internacionals. 4. El rector ha rebut una proposta formal per a investir el professor Sir Michael Atiyah com a doctor honoris causa per la Universitat Politècnica de Catalunya, signada pel degà de la Facultat de Matemàtiques i Estadística, el director del departament de Matemàtica Aplicada I, el director del departament de Matemàtica Aplicada II, el director del departament de Matemàtica Aplicada III, el director del departament de Matemàtica Aplicada IV, i el director del departament d’Estadística i Investigació Operativa.
    [Show full text]
  • Howard-Florey-Maker
    _ ....II""lle,st'Ol)' of "Ie lin ~t tlt:Mc 'c y~ successfullY to rmat. pea WIth ~ IJ&. iBfoctiOus'diseases - begins-with &bit Qf IuC AI~ PI tIlil1g, a .S 9itisb ~lientlst.notlcEid In t$!B ftJal mould.,ad l:!"eveAted growth of ~ qerms {bacterial 1., lils ~ the ~In plot 0 me story 1'I0J0IYl1l$ Sr ~pvay Qf penidll 10 ~ years la1er by arl·Aus\ 1;1 Sdetl bam t'!undred s R Y~'89D this year, H'owar~ I: fIotey and h d ~ team's ~ systttma!JQ, detalla wotk "'~ Jl 11_ fJTIed petlicilin from an 53 i[l~1Jlg o~ , nto-a life saver. ' Emma ,au fY 50 IJSOO to tm e teliladll', at t'l'wiMlstral r:Ja • U verslty's JOOf\ CtJrti[l Scbool of Moolaal Rasecll'eh (HQw FJor~ ptayed 8 c roI'a II'l the-est)bllshmflnt at itI& School god ~!lr'S1ty t In h 11M), TIll> !/O"'"_....... ot l!1te.dJ1l1II d1Haie'&."4ICh .. po.~a~1I ~ Erl'1lil"1a's.lile w~!i8Vedby penicillin irllll IIlIaod .. 1111 IIihi' 1111\1:_ tva ~ntil>iol~; 8uI1hft;e phDl Cl(a pauilftl n Get'rJ1art refiJg g mp. tt WQf1d War II. ,1<42 -"ow ho"; b.d thlnP COIH~. Pft_ 1 lind Imagine hO\ she fett any years later. 2 ~ '1M .III~ !It II YOUl1'llll1J1 willi _I J."..,tllltw...... OlIl1dltlicln ,..,_by the tt.iituI t cooid~ blITlping iHlo mtJY wh fa lIay ..fI...boiIJg IIlven penldll" {JItIiJID 3" _ hIld ~ woriled- the man who made tile shown .~"in.IH",p"'-.ntIIIf tbll JIIII!Ilt dllly g~pIy mpooicillin ~bte.
    [Show full text]
  • Sir Howard Florey - Biography
    Sir Howard Florey - Biography Sir Howard Florey – Biography The Nobel Prize in Physiology or Medicine Sir Howard Walter Florey was 1945 born on September 24, 1898, at Presentation Speech Adelaide, South Australia, the son Educational of Joseph and Bertha Mary Florey. His early education was at St. Sir Alexander Fleming Peter's Collegiate School, Adelaide, Biography Nobel Lecture following which he went on to Banquet Speech Adelaide University where he Documentary graduated M.B., B.S. in 1921. He Other Resources was awarded a Rhodes Scholarship to Magdalen College, Oxford, Ernst B. Chain leading to the degrees of B.Sc. and Biography M.A. (1924). He then went to Nobel Lecture Cambridge as a John Lucas Walker Banquet Speech Student. In 1925 he visited the United States on a Rockefeller Other Resources Travelling Fellowship for a year, returning in 1926 to a Fellowship at Gonville and Caius College, Cambridge, receiving Sir Howard Florey here his Ph.D. in 1927. He also held at this time the Freedom Biography Research Fellowship at the London Hospital. In 1927 he was Nobel Lecture appointed Huddersfield Lecturer in Special Pathology at Banquet Speech Cambridge. In 1931 he succeeded to the Joseph Hunter Chair of Pathology at the University of Sheffield. 1944 1946 Leaving Sheffield in 1935 he became Professor of Pathology and a Fellow of Lincoln College, Oxford. He was made an The 1945 Prize in: Physics Honorary Fellow of Gonville and Caius College, Cambridge in Chemistry 1946 and an Honorary Fellow of Magdalen College, Oxford in Physiology or Medicine 1952. In 1962 he was made Provost of The Queen's College, Literature Oxford.
    [Show full text]
  • Penicillin: World War II Infections and Howard Florey
    In Focus Penicillin: World War II infections and Howard Florey The results were dramatic – the control mice rapidly succumbed, while all of the treated mice survived. These results attracted great interest from the scientific and military communities because, if Ian Gust replicated in humans, the drug had the potential to influence the Department of Microbiology and outcome of WWII. Immunology University of Melbourne It took Florey and 16 colleagues several months to produce suffi- Parkville, Vic. 3010, Australia Tel: +61 3 8344 3963 cient material to treat a handful of patients. The team worked under Fax: +61 3 8344 6552 fi fi Email: [email protected] dif cult circumstances with a lack of funding and equipment; at rst penicillin was made using old dairy equipment. Hospital bedpans were later used to grow the mould and the liquid containing fi Howard Florey is celebrated for his major contributions to penicillin drained from beneath the growing mould and ltered the large-scale production of the fungal product, penicillin, through parachute silk. during World War II (WWII), leading to life-saving outcomes The first patient they treated was a policeman, in whom an infected for many more than those with war wounds. scratch had developed into a life threatening infection. He was given Howard Florey was born in South Australia in 1898. After studying penicillin, and within a day began to recover. Unfortunately Florey’s medicine at the University of Adelaide he was awarded a Rhodes team only had sufficient drug for 5 days of treatment and when Scholarship to work in Oxford under Sir Charles Sherrington.
    [Show full text]
  • The Fessard's School of Neurophysiology After
    The fessard’s School of neurophysiology after the Second World War in france: globalisation and diversity in neurophysiological research (1938-1955) Jean-Gaël Barbara To cite this version: Jean-Gaël Barbara. The fessard’s School of neurophysiology after the Second World War in france: globalisation and diversity in neurophysiological research (1938-1955). Archives Italiennes de Biologie, Universita degli Studi di Pisa, 2011. halshs-03090650 HAL Id: halshs-03090650 https://halshs.archives-ouvertes.fr/halshs-03090650 Submitted on 11 Jan 2021 HAL is a multi-disciplinary open access L’archive ouverte pluridisciplinaire HAL, est archive for the deposit and dissemination of sci- destinée au dépôt et à la diffusion de documents entific research documents, whether they are pub- scientifiques de niveau recherche, publiés ou non, lished or not. The documents may come from émanant des établissements d’enseignement et de teaching and research institutions in France or recherche français ou étrangers, des laboratoires abroad, or from public or private research centers. publics ou privés. The Fessard’s School of neurophysiology after the Second World War in France: globalization and diversity in neurophysiological research (1938-1955) Jean- Gaël Barbara Université Pierre et Marie Curie, Paris, Centre National de la Recherche Scientifique, CNRS UMR 7102 Université Denis Diderot, Paris, Centre National de la Recherche Scientifique, CNRS UMR 7219 [email protected] Postal Address : JG Barbara, UPMC, case 14, 7 quai Saint Bernard, 75005,
    [Show full text]
  • Missouri State Archives Finding Aid 5.20
    Missouri State Archives Finding Aid 5.20 OFFICE OF SECRETARY OF STATE COMMISSIONS PARDONS, 1836- Abstract: Pardons (1836-2018), restorations of citizenship, and commutations for Missouri convicts. Extent: 66 cubic ft. (165 legal-size Hollinger boxes) Physical Description: Paper Location: MSA Stacks ADMINISTRATIVE INFORMATION Alternative Formats: Microfilm (S95-S123) of the Pardon Papers, 1837-1909, was made before additions, interfiles, and merging of the series. Most of the unmicrofilmed material will be found from 1854-1876 (pardon certificates and presidential pardons from an unprocessed box) and 1892-1909 (formerly restorations of citizenship). Also, stray records found in the Senior Reference Archivist’s office from 1836-1920 in Box 164 and interfiles (bulk 1860) from 2 Hollinger boxes found in the stacks, a portion of which are in Box 164. Access Restrictions: Applications or petitions listing the social security numbers of living people are confidential and must be provided to patrons in an alternative format. At the discretion of the Senior Reference Archivist, some records from the Board of Probation and Parole may be restricted per RSMo 549.500. Publication Restrictions: Copyright is in the public domain. Preferred Citation: [Name], [Date]; Pardons, 1836- ; Commissions; Office of Secretary of State, Record Group 5; Missouri State Archives, Jefferson City. Acquisition Information: Agency transfer. PARDONS Processing Information: Processing done by various staff members and completed by Mary Kay Coker on October 30, 2007. Combined the series Pardon Papers and Restorations of Citizenship because the latter, especially in later years, contained a large proportion of pardons. The two series were split at 1910 but a later addition overlapped from 1892 to 1909 and these records were left in their respective boxes but listed chronologically in the finding aid.
    [Show full text]
  • Illustrations from the Wellcome Institute Library the Chain Papers*
    Medical History, 1983, 27:434-435 ILLUSTRATIONS FROM THE WELLCOME INSTITUTE LIBRARY THE CHAIN PAPERS* THE three men who shared the Nobel Prize in October 1945 for their work on penicillin could scarcely have differed more in their backgrounds and characters. Fleming was sixty-four years old by then; the son of a Scottish farmer, he was a retiring man, not given to conversation. By contrast, Florey, then aged forty-seven, was the son of a wealthy Australian boot and shoe manufacturer; aggressively ambitious, his achievements and intellect were later to secure him the Presidency of the Royal Society. Then there was Chain - a mere thirty-nine years old - a Jewish refugee of Russian origin, who still had major work on penicillin ahead of him; his ambition was mixed with an independence and volubility that was to lead him into conflict with the scientific/medical establishment. Fleming has been the subject of many biographies, mostly hagiographical. Florey's role in the penicillin story was recently reassessed in Gwyn Macfarlane's excellent Howard Florey. The making ofa great scientist (Oxford University Press, 1979). Sir Ernst Boris Chain died in 1979, and his biography is being written by Ronald W. Clark. This, together with future research on Chain's papers, will enable a fuller assessment to be made of the role and character of the youngest of the three scientists. The Chain papers, recently given by Lady Chain to the Contemporary Medical Archives Centre, form an extensive collection of some sixty-nine boxes, comprising material from Chain's personal and professional life.
    [Show full text]
  • Sir Frederick Gowland Hopkins O.M., M.A., M.B., D.Sc., Hon. Sc.D., Hon. LL.D., Hon. D.Sc., F.R.C.P., F.R.S
    Downloaded from https://doi.org/10.1079/BJN19470004 VOl. I Obituary 3 Barcroft‘s interest in the science of nutrition arose not only from the catholicity of his physiological outlook, but also more directly from the fact that since 1937 he had https://www.cambridge.org/core been Chairman of the Food Investigation Board, and hence intimately concerned in their activities relating to such matters as the processing of food and the conservation of its nutritive value. Barcroft married, in 1903, Mary A. Ball, daughter of the late Sir Robert Ball, the celebrated astronomer. One of their sons is Henry Barcroft, Professor of Physiology at Queen’s University, Belfast. LESLIE J. HARRIS . IP address: SIR FREDERICK GOWLAND HOPKINS, O.M., M.A., M.B., D.Sc., 170.106.202.58 Hon. Sc.D., Hon. LL.D., Hon. D.Sc., F.R.C.P., F.R.S. Ry the death of Sir Frederick Hopkins, which occurred in Cambridge on 16 May in his 86th year, Nutritional Science lost one of its great pioneers, and its doyen. He had , on long been recognized as the leading biochemist of his time; he was also greatly beloved 29 Sep 2021 at 04:37:19 as a man. In discussing his life’s work in another place,* I wrote that Hopkins’s scientific renown was based on his explorations into at least four or five different avenues of biochemistry: lactic acid in muscle activity; the discovery of the amino-acid tryptophan, and the demonstration of its ‘specific biological value’; his classical experiments on , subject to the Cambridge Core terms of use, available at the need for accessory factors in normal diets (by which he is best known to the man in the street); and his isolation of the cell-catalyst, glutathione (which will perhaps prove scientifically the most significant of all his contributions).
    [Show full text]