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Biochemiczna rewolucja, czyli rzecz o Leonie Marchlewskim i Marcelim Nenckim

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EN
Biochemical revolution – some remarks about Leon Marchlewski’s and Marceli Nencki’s achievements
Języki publikacji
PL
Abstrakty
EN
Understanding of the fundamental law and mechanisms governing the phenomenon of life is an inherent feature of human civilization. With the birth of philosophy comes first speculation about the physical conditions of life processes, which consequently will lead to the formation of the first scientific theories. Among them an important role plays the Hippocratic humoral theory. This scientific rout will be taken by the next generations of researchers seeking for the most appropriate methods and precise language of science. A significant breakthrough came in the 16th century, when Paracelsus coined his philosophical and alchemical doctrine which gives such attention to perpetual changes in living organisms, then described on the basis of transmutation. Nearly three centuries later, in the early nineteenth century the polish physician and chemist Jędrzej Śniadecki introduced the concept of metabolism, based on the principles that are present in compounds and chemical reactions. Just a dozen years later, in 1828, Wöhler`s synthesis of urea gives birth to organic chemistry. Language of chemistry has become a tool for the description of biological phenomena, slowly building up physiological chemistry which shortly was turned to biochemistry. For a young science one of the first challenges was the level of the rudimental for the living organisms dyes, which rightly appeared as essential for the understanding of the chemical nature of the phenomena of life. From that point the studies on chlorophyll (Pelletier, Caventou, Shunck, Hoppe- -Seyler) and hemoglobin (Hünefeld, Funke, Hoppe-Seyler) become crucial topic. In this pioneering studies significant, and sometimes decisive role was to be played by Polish scientists (Teichmann, Marchlewski, Nencki, Zaleski). Especially a few years’ time and very intense cooperation of Leon Marchlewski and Marcel Nencki would bring momentous decision. Marchlewski’s bold hypothesis about the chemical unity on the level of the basic dyes in plant and animal worlds was fully confirmed in the experimental procedure and the results achieved by Nencki brought the solution to the problem of the chemical structure of hemin. Joint research of Polish scientists became the foundation of modern biochemistry and had changed the biological and medical sciences so deeply, that we can talk about “biochemical revolution”. The following paper is an evaluation of the speech held by me during X National Organic Chemistry Symposium – OSCO X, Lodz, April 16–18, 2015.
Rocznik
Strony
465--477
Opis fizyczny
Bibliogr. 40 poz.,
Twórcy
  • Katedra Historii Medycyny, Uniwersytet Jagielloński Collegium Medicum ul. Kopernika 7, 31-034 Kraków
Bibliografia
  • [1] F. Hartmann, The life of Philippus Theophrastus Bombast of Hohenheim: known by the name of Paracelsus: and the substance of his teachings concerning cosmology, anthropology, pneumatology, ..., London 1896.
  • [2] W. Pagel, Paracelsus: An Introduction to Philosophical Medicine in the Era of the Renaissance, Karger Medical and Scientific Publishers, Basel 1982.
  • [3] H. Tajadod, Basic Sci. Med., 2014, 3 (3), 60. DOI: 10.5923/j.medicine.20140303.03
  • [4] E. Ostachowski, Arch. Hist. Filo. Med., 1929, 9 (2), 157.
  • [5] U. Wiesing, Med. Health Care Philos., 2008, 11, 221.
  • [6] A. Wrzosek, Jędrzeja Śniadeckiego Teorya jestestw organicznych, Nakładem „Nowin Lekarskich”, Poznań 1905.
  • [7] A. Wrzosek, Jędrzej Śniadecki. Życiorys i rozbiór pism, Akademia Umiejętności, Kraków 1910 (tom I-II).
  • [8] M. Ellen Bowden, A. Beth Crow, T. Sullivan, Chemical Heritage Foundation, 2005, 3-5.
  • [9] R. Keen, The Life and Work of Friedrich Wohler (1800–1882), Verlag Traugott Bautz GmbH, Nordhausen 2005.
  • [10] F.L. Hünefeld, Die Chemismus in der thierischen Organisation, Leipzig 1840.
  • [11] R. Walther: BioSpectrum, 2015, 21, 114. http://www.biospektrum.de
  • [12] O. Funke, Über das Milzvenenblut, Z. Rat. Med., 1851, 1, 172-218.
  • [13] L.K. Teichmann, Zeitsch f rationalle Med. (neue Folge), 1853, 3, 573.
  • [14] S. Kohmann, Ludwik Teichmann (1823–1895) [w:] Sześćsetlecie medycyny krakowskiej, Kraków 1963, t. 1, 139-156.
  • [15] A.P. Mathews, Pop. Scien. Mon., 1898, 53, 542. http://en.wikisource.org
  • [16] A. Szwajcerowa, Marceli Nencki, Wydawnictwo Interpress, Warszawa 1977.
  • [17] K. Sarnecki, PSB, 1977, 22, 671.
  • [18] M.H. Bickel, Marceli Nencki (1847–1901), Bern-Stuttgart-Wien 1972.
  • [19] A. Szwajcerowa, Arch Hist. Filo. Med., 1975, 28 (2), 206.
  • [20] M. Mastyńska, Arch. Hist. Filo. Med., 1948, 19, 152.
  • [21] W. Leppert, Chem. Pol., 1901, 1 (31), 730.
  • [22] M. Nencki, Gaz Lek., 1884, 19 (35-37), 655, 675, 697.
  • [23] M. Nencki, N. Sieber, Berich. Dtsch. Chem. Ges., 1886, 19, 128.
  • [24] M. Nencki, N. Sieber, Arch. f. exp. Path. Pharm., 1885, 20 (5-6), 325.
  • [25] M. Nencki, N. Sieber, Arch. f exp. Path. Pharm., 1887, 24 (6), 430.
  • [26] M. Nencki, Gaz. Lek., 1888, 23 (16-17), 319, 344.
  • [27] M. Nencki, N. Sieber, Ber. Deuts. Chem. Gesellschaft, 1886, 19, 410.
  • [28] M. Nencki, Wszechświat, 1888, 7 (15), 225.
  • [29] W. Trzciński, Gaz. Lek., 1897, 32 (8-9 i 11-13), 199, 235, 295, 326, 351.
  • [30] A.P. Thodes, Pavlov’s Physiology Factory: Experiment, Interpretation, Laboratory Enterprise, The Johns Hopkins University Press 2002, 306.
  • [31] B. Skarżyński, Życie Nauki, 1951, 6 (3), 252.
  • [32] B. Skarżyński, Leon Marchlewski (1869–1946) [w:] Sześćsetlecie medycyny krakowskiej, Kraków 1963, t. 1, 313.
  • [33] M. Sarnecka-Keller, J. Hulewicz, PSB 1974, 19, 542.
  • [34] E. Schunck, L. Marchlewski, Contributions to the chemistry of chlorophyll. No. VII. Phylloporphyrin and hamatoporphyrin: a comparison, London 1896.
  • [35] M. Nencki, Gaz. Lek., 1897, 32 (23), 608.
  • [36] M. Nencki, J. Zaleski, Zeitsch. f physiol. Chem., 1900, 30 (3-5), 384.
  • [37] M. Nencki, J. Zaleski, O produktach odtlenienia heminy za pomocą jodowodoru i jodku fosforu oraz o budowie heminy i jej pochodnych, Rozp. Wydz. Matem-Przyrod. AU, 1901, 1 A, Seria III, 317.
  • [38] L. Marchlewski, M. Nencki, Przemiana filocyaniny w hemopyrrol i urolobinę. Rozp. Wydz. Matem--Przyrod. AU, 1901, 1 A, Seria III, 333.
  • [39] M. Nencki, L. Marchlewski, Ber. Dtsch. Chem Ges., 1901, 34 (2), 1687.
  • [40] M. Nencki, Przeg. Lek., 1900, 39 (31), 465.
Uwagi
Poniższy artykuł jest rozwinięciem treści i tez zawartych w wystąpieniu referatowym o tym samym tytule podczas X Ogólnopolskiego Sympozjum Chemii Organicznej – OSCO X. Łódź, 16–18 kwietnia 2015 r.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-5a20a1ae-38a0-4774-b3f4-285644e9697d
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