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Reinhart Heinrich

January 01, 1970

Reinhart Heinrich (24 April 1946 – 23 October 2006) was a German biophysicist.[1]

Reinhart Heinrich
Born(1946-04-24)24 April 1946
Dresden, Germany
Died23 October 2006(2006-10-23) (aged 60)
Berlin, Germany
Alma materDresden University of Technology
Known forMetabolism, signal transduction, The Regulation of Cellular Systems
AwardsHumboldt Prize, Brigitte Reimann Prize, Honorary doctorate from the University of Bordeaux
Scientific career
FieldsSystems biology, biophysics
InstitutionsCharité, Berlin; Humboldt University of Berlin
Charité

He was professor at the Humboldt University of Berlin, and best known as one of the founders, with Tom Rapoport, of metabolic control theory[2] in parallel with similar ideas developed at about the same time by Henrik Kacser and Jim Burns.[3] His far-reaching theoretical work on metabolism, signal transduction, and other cellular processes has made him one of the most influential forerunners of present-day systems biology. Reinhart's many talents made him appear as a modern Renaissance man. He played the violin, and published an autobiographic novel (Jenseits von Babel [4]) and several works of lyric poetry for which he received the Brigitte Reimann Prize. Among his services to the scientific community, Reinhart was associate editor of PLoS Computational Biology.

Reinhart Heinrich was born in Dresden and lived at first in the Soviet Union, growing up in Kuybyshev/Куйбышев (called Samara since 1991) where his father Helmut Heinrich — a German mathematician turned aircraft constructor — had been taken after the Second World War to work.[1] Having been educated as a theoretical physicist at Dresden University of Technology in East Germany, Reinhart conducted his postdoctoral research in the early 1970s at the Charité's Institute of Biochemistry in East Berlin. He could not fail to notice the absence of mathematical theory from cell biology as compared with other natural sciences. Enzyme kinetics was a notable exception. However, how enzymes affect the flux through a metabolic pathway was still discussed using the rather vague term rate-limiting step. Working with Tom Rapoport on mathematical models of glycolysis in red blood cells, Reinhart discovered a precise and general definition of rate limitation in metabolic pathways, for which he received in 1974 the Humboldt Prize.[1] He extended his knowledge in this area, working over one year in Pushchino with Evgeni Selkov,[1] who also worked on mathematical modelling of metabolic processes.

The parallel development of metabolic control theory by Henrik Kacser and Jim Burns[3] in Edinburgh shows that the time was ripe for a quantitative understanding of metabolic regulation. Instead of postulating a single rate-limiting step, these theories evaluated the degree of flux control exerted by an individual enzyme in a linear pathway or in a more complex network. The corresponding measure, now called the flux control coefficient by general agreement,[5] turned out to be a truly systemic quantity, depending not only on the kinetic parameters of the enzyme itself but also on those of other enzymes, as well as on the position of the reaction in the network. After a slow start metabolic control theory has become more widely known by biochemists. Control coefficients have been measured for many pathways, confirming the theoretical prediction that flux control is frequently shared by several reactions. This finding has become of practical importance for the genetic engineering of large metabolic networks in biotechnology.

The dual approach — modelling concrete cellular processes and, at the same time, searching for general laws — has been a characteristic of Reinhart's work. The areas he worked in were amazingly diverse, including metabolic control, osmoregulation, cell shapes, signal transduction, vesicular transport, protein translation and transport, as well as the population dynamics of malaria parasites.

Perhaps the questions that interested him the most were those of evolution.[6] To understand the kinetic design of enzymes and enzymatic reaction networks, Reinhart strove to rationalize, in mathematical terms, the selective pressures and physico–chemical constraints that these systems were subjected to. Reinhart's work on this topic is full of original insight and makes specific predictions, some of which have begun to be tested successfully in recent years.

Reinhart was author of more than 160 research articles and, together with Stefan Schuster, the book The Regulation of Cellular Systems,[7] which has become a classic of cell systems biology. In addition to this large body of original work, he was a gifted mentor of young scientists and for more than ten years ran the highly successful interdisciplinary graduate program Dynamics and Evolution of Cellular Processes at Humboldt University, Berlin. In 1996 he received an Honorary degree from the University of Bordeaux.

References edit

  • Höfer T (2007) In Remembrance: Reinhart Heinrich 1946–2006. PLoS Comput Biol 3(1): e18. doi:10.1371/journal.pcbi.0030018
  • Jacobasch, Gisela (2007) Nachruf. Prof Dr. Dr. h.c. Reinhart Heinrich. geb. 24.04.1946, gest. 23.10.2006. Sitzungsberichte der Leibniz-Sozietät 88, pp. 183–184
  • Kirschner, Marc W. (2006) Obituary: Reinhart Heinrich (1946–2006), Nature 444, 700 (7 December 2006) | doi:10.1038/444700a
  1. ^ a b c d Dieter Hoffmann. "Heinrich, Reinhart * 24.4.1946, † 23.10.2006 Biophysiker" (in German). Bundesstiftung zur Aufarbeitung der SED-Diktatur: Biographische Datenbanken. Retrieved 13 May 2015.
  2. ^ Heinrich, R; Rapoport, TA (1974). "A linear steady-state theory of enzymatic chains: general properties, control and effector strength". European Journal of Biochemistry. 42 (1): 89–95. doi:10.1111/j.1432-1033.1974.tb03318.x. PMID 4830198.
  3. ^ a b Kacser, H; Burns, JA (1973). "The control of flux". Symposia of the Society for Experimental Biology. 27: 341–366. PMID 4148886.
  4. ^ Heinrich, Reinhart (1987). Jenseits von Babel (Beyond Babel) (in German). Berlin: New life publishing house.
  5. ^ Burns, JA; Cornish-Bowden, A; Groen, AK; Heinrich, R; Kacser, H; Porteous, JW; Rapoport, SM; Rapoport, TA; Stucki, JW; Tager, JM; Wanders, RJA; Westerhoff, HV (1985). "Control analysis of metabolic systems". Trends in Biochemical Sciences. 10: 16. doi:10.1016/0968-0004(85)90008-8.
  6. ^ Handorf, T; Ebenhoh, O; Heinrich, R (2005). "Expanding metabolic networks: Scopes of compounds, robustness, and evolution". Journal of Molecular Evolution. 61 (4): 498–512. Bibcode:2005JMolE..61..498H. doi:10.1007/s00239-005-0027-1. PMID 16155745. S2CID 25665430.
  7. ^ Heinrich, Reinhart; Schuster, S (1996). The Regulation of Cellular Systems. New York: Chapman and Hall.

January 01, 1970
reinhart, heinrich, april, 1946, october, 2006, german, biophysicist, born, 1946, april, 1946dresden, germanydied23, october, 2006, 2006, aged, berlin, germanyalma, materdresden, university, technologyknown, formetabolism, signal, transduction, regulation, cel. Reinhart Heinrich 24 April 1946 23 October 2006 was a German biophysicist 1 Reinhart HeinrichBorn 1946 04 24 24 April 1946Dresden GermanyDied23 October 2006 2006 10 23 aged 60 Berlin GermanyAlma materDresden University of TechnologyKnown forMetabolism signal transduction The Regulation of Cellular SystemsAwardsHumboldt Prize Brigitte Reimann Prize Honorary doctorate from the University of BordeauxScientific careerFieldsSystems biology biophysicsInstitutionsCharite Berlin Humboldt University of BerlinCharite He was professor at the Humboldt University of Berlin and best known as one of the founders with Tom Rapoport of metabolic control theory 2 in parallel with similar ideas developed at about the same time by Henrik Kacser and Jim Burns 3 His far reaching theoretical work on metabolism signal transduction and other cellular processes has made him one of the most influential forerunners of present day systems biology Reinhart s many talents made him appear as a modern Renaissance man He played the violin and published an autobiographic novel Jenseits von Babel 4 and several works of lyric poetry for which he received the Brigitte Reimann Prize Among his services to the scientific community Reinhart was associate editor of PLoS Computational Biology Reinhart Heinrich was born in Dresden and lived at first in the Soviet Union growing up in Kuybyshev Kujbyshev called Samara since 1991 where his father Helmut Heinrich a German mathematician turned aircraft constructor had been taken after the Second World War to work 1 Having been educated as a theoretical physicist at Dresden University of Technology in East Germany Reinhart conducted his postdoctoral research in the early 1970s at the Charite s Institute of Biochemistry in East Berlin He could not fail to notice the absence of mathematical theory from cell biology as compared with other natural sciences Enzyme kinetics was a notable exception However how enzymes affect the flux through a metabolic pathway was still discussed using the rather vague term rate limiting step Working with Tom Rapoport on mathematical models of glycolysis in red blood cells Reinhart discovered a precise and general definition of rate limitation in metabolic pathways for which he received in 1974 the Humboldt Prize 1 He extended his knowledge in this area working over one year in Pushchino with Evgeni Selkov 1 who also worked on mathematical modelling of metabolic processes The parallel development of metabolic control theory by Henrik Kacser and Jim Burns 3 in Edinburgh shows that the time was ripe for a quantitative understanding of metabolic regulation Instead of postulating a single rate limiting step these theories evaluated the degree of flux control exerted by an individual enzyme in a linear pathway or in a more complex network The corresponding measure now called the flux control coefficient by general agreement 5 turned out to be a truly systemic quantity depending not only on the kinetic parameters of the enzyme itself but also on those of other enzymes as well as on the position of the reaction in the network After a slow start metabolic control theory has become more widely known by biochemists Control coefficients have been measured for many pathways confirming the theoretical prediction that flux control is frequently shared by several reactions This finding has become of practical importance for the genetic engineering of large metabolic networks in biotechnology The dual approach modelling concrete cellular processes and at the same time searching for general laws has been a characteristic of Reinhart s work The areas he worked in were amazingly diverse including metabolic control osmoregulation cell shapes signal transduction vesicular transport protein translation and transport as well as the population dynamics of malaria parasites Perhaps the questions that interested him the most were those of evolution 6 To understand the kinetic design of enzymes and enzymatic reaction networks Reinhart strove to rationalize in mathematical terms the selective pressures and physico chemical constraints that these systems were subjected to Reinhart s work on this topic is full of original insight and makes specific predictions some of which have begun to be tested successfully in recent years Reinhart was author of more than 160 research articles and together with Stefan Schuster the book The Regulation of Cellular Systems 7 which has become a classic of cell systems biology In addition to this large body of original work he was a gifted mentor of young scientists and for more than ten years ran the highly successful interdisciplinary graduate program Dynamics and Evolution of Cellular Processes at Humboldt University Berlin In 1996 he received an Honorary degree from the University of Bordeaux References editHofer T 2007 In Remembrance Reinhart Heinrich 1946 2006 PLoS Comput Biol 3 1 e18 doi 10 1371 journal pcbi 0030018 Jacobasch Gisela 2007 Nachruf Prof Dr Dr h c Reinhart Heinrich geb 24 04 1946 gest 23 10 2006 Sitzungsberichte der Leibniz Sozietat 88 pp 183 184 Kirschner Marc W 2006 Obituary Reinhart Heinrich 1946 2006 Nature 444 700 7 December 2006 doi 10 1038 444700a His homepage at Humboldt University Berlin a b c d Dieter Hoffmann Heinrich Reinhart 24 4 1946 23 10 2006 Biophysiker in German Bundesstiftung zur Aufarbeitung der SED Diktatur Biographische Datenbanken Retrieved 13 May 2015 Heinrich R Rapoport TA 1974 A linear steady state theory of enzymatic chains general properties control and effector strength European Journal of Biochemistry 42 1 89 95 doi 10 1111 j 1432 1033 1974 tb03318 x PMID 4830198 a b Kacser H Burns JA 1973 The control of flux Symposia of the Society for Experimental Biology 27 341 366 PMID 4148886 Heinrich Reinhart 1987 Jenseits von Babel Beyond Babel in German Berlin New life publishing house Burns JA Cornish Bowden A Groen AK Heinrich R Kacser H Porteous JW Rapoport SM Rapoport TA Stucki JW Tager JM Wanders RJA Westerhoff HV 1985 Control analysis of metabolic systems Trends in Biochemical Sciences 10 16 doi 10 1016 0968 0004 85 90008 8 Handorf T Ebenhoh O Heinrich R 2005 Expanding metabolic networks Scopes of compounds robustness and evolution Journal of Molecular Evolution 61 4 498 512 Bibcode 2005JMolE 61 498H doi 10 1007 s00239 005 0027 1 PMID 16155745 S2CID 25665430 Heinrich Reinhart Schuster S 1996 The Regulation of Cellular Systems New York Chapman and Hall Retrieved from https en wikipedia org w index php title Reinhart Heinrich amp oldid 1170067195, wikipedia, wiki, book, books, library,

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