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! style="width: 5%;"| Období objevu !! style="width: 25%;"| Osobnost(i) !! style="width: 70%;"| Objev
! style="width: 5%;"| Období objevu !! style="width: 25%;"| Osobnost(i) !! style="width: 70%;"| Objev
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| style="width: 5%; text-align: center;"| 1865 || style="width: 25%;"| Johan Gregor Mendel  || style="width: 70%;"| Zákonitosti dědičnosti ([[Mendelovy pokusy]], [[Mendelovy zákony dědičnosti]])
| style="width: 5%; text-align: center;"| 1865 || style="width: 25%;"| Johan Gregor Mendel  || style="width: 70%;"| Laws of inheritance ([[Mendel's laws of inheritance]])
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| style="width: 5%; text-align: center;"| 1869 || style="width: 25%;"| Paul Langerhans  || style="width: 70%;"| Objevil a popsal Langerhansovy ostrůvky ve slinivce ([[Diabetes mellitus|Diabetes mellitus typ I a II]])       
| style="width: 5%; text-align: center;"| 1869 || style="width: 25%;"| Paul Langerhans  || style="width: 70%;"| He discovered and described the islets of Langerhans in the pancreas ([[Diabetes mellitus|Diabetes mellitus type I a II]])       
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| style="width: 5%; text-align: center;"| 1869 || style="width: 25%;"| Friedrich Miescher|| style="width: 70%;"| Poprvé izoloval [[DNA (nukleová kyselina)|DNA]]; izoloval ji v malém množství z bílých krvinek; nebyla dále analyzována ([[DNA (nukleová kyselina)|DNA]])     
| style="width: 5%; text-align: center;"| 1869 || style="width: 25%;"| Friedrich Miescher|| style="width: 70%;"| He isolated DNA for the first time; isolated it in small quantities from white blood cells; was not analyzed further
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| style="width: 5%; text-align: center;"| 1879|| style="width: 25%;"| Walther Flemming  || style="width: 70%;"| Chromosomy v mitóze ([[Chromosom]], [[Mitóza]])
| style="width: 5%; text-align: center;"| 1879|| style="width: 25%;"| Walther Flemming  || style="width: 70%;"| Chromosomes in mitosis ([[Chromosome]], [[Mitosis]])
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| style="width: 5%; text-align: center;"| 1892|| style="width: 25%;"| Dmitri Ivanowski  (Дми́трий Ивано́вский) || style="width: 70%;"| Termín virus ([[Viry]])
| style="width: 5%; text-align: center;"| 1892|| style="width: 25%;"| Dmitri Ivanowski  (Дми́трий Ивано́вский) || style="width: 70%;"| The term virus ([[Virus]])
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| style="width: 5%; text-align: center;"| 1908|| style="width: 25%;"| Godfrey Harold Hardy a Wilhelm Weinberg || style="width: 70%;"| Základní zákon populační genetiky ([[Hardy-Weinbergova rovnováha]])
| style="width: 5%; text-align: center;"| 1908|| style="width: 25%;"| Godfrey Harold Hardy a Wilhelm Weinberg || style="width: 70%;"| Basic law of population genetics ([[Hardy-Weinberg equilibrium]])
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| style="width: 5% text-align: center;; text-align: center;"| 1909|| style="width: 25%;"| Karl Landsteiner|| style="width: 70%;"| Krevně skupinový systém AB0 – klasifikace lidí do krevních skupin A, B, AB, 0; '''1930 Nobelova cena''' ([[Dědičnost krevně skupinových systémů]])
| style="width: 5% text-align: center;; text-align: center;"| 1909|| style="width: 25%;"| Karl Landsteiner|| style="width: 70%;"| Blood group system AB0 – classification of people into blood groups A, B, AB, 0; '''1930 Nobel Prize'''
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| style="width: 5% text-align: center;; text-align: center;"| 1909|| style="width: 25%;"| Thomas Hunt Morgan|| style="width: 70%;"| Lineární uspořádání genů na chromosomech, vazba genů, fáze coupling a repulsion; '''1933 Nobelova cena''' ([[Genová vazba]])
| style="width: 5% text-align: center;; text-align: center;"| 1909|| style="width: 25%;"| Thomas Hunt Morgan|| style="width: 70%;"| Linear arrangement of genes on chromosomes, linkage of genes, phase coupling and repulsion; '''1933 Nobel Prize''' ([[Gene linkage]])
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| style="width: 5%; text-align: center;"| 1910|| style="width: 25%;"| Albert Kossel|| style="width: 70%;"| Cytologie – výzkum proteinů a nukleových kyselin; '''1910 Nobelova cena''' ([[Nukleové kyseliny]], [[Proteiny]])
| style="width: 5%; text-align: center;"| 1910|| style="width: 25%;"| Albert Kossel|| style="width: 70%;"| Cytology - research on proteins and nucleic acids; '''1910 Nobel Prize'''
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| style="width: 5%; text-align: center;"| 1911|| style="width: 25%;"| Peyton Rous  || style="width: 70%;"| Objev viru s onkogenním potenciálem – sarkomy domácích kuřat; '''1966 Nobelova cena''' ([[Viry]], [[Virová karcinogeneze|Onkoviry]])
| style="width: 5%; text-align: center;"| 1911|| style="width: 25%;"| Peyton Rous  || style="width: 70%;"| Discovery of a virus with oncogenic potential - domestic chicken sarcomas; '''1966 Nobel Prize'''
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| style="width: 5% text-align: center;; text-align: center;"| 1920|| style="width: 25%;"| Frederick Banting a John J. R. Macleod  || style="width: 70%;"| Isolace účinné látky z pankreatu pro léčbu diabetu; '''1923 Nobelova cena''' ([[Multifaktoriální dědičnost]], [[Autoimunitní onemocnění]], [[Genové manipulace a genové inženýrství|Genové inženýrství]])
| style="width: 5% text-align: center;; text-align: center;"| 1920|| style="width: 25%;"| Frederick Banting a John J. R. Macleod  || style="width: 70%;"| Isolation of an active substance from the pancreas for the treatment of diabetes; '''1923 Nobel Prize''' ([[Multifactorial inheritance]], [[Autoimmune disease]])
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| style="width: 5% text-align: center;; text-align: center;"| od 1930|| style="width: 25%;"| George D. Snell || style="width: 70%;"| Objev genetických faktorů, které určují možnost transplantace tkání, histokompatibilní komplex (H-2) myši; '''1980 Nobelova cena''' ([[Hlavní histokompatibilitní komplex|Hlavní histokompatibilitní komplex člověka]], [[Transplantační zákony]])
| style="width: 5% text-align: center;; text-align: center;"| od 1930|| style="width: 25%;"| George D. Snell || style="width: 70%;"| Discovery of genetic factors that determine the possibility of tissue transplantation, the histocompatibility complex (H-2) of the mouse; '''1980 Nobel Prize''' ([[Major histocompatibility complex]], [[Transplant laws]])
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| style="width: 5% text-align: center;; text-align: center;"| od 1931|| style="width: 25%;"| William Bateson, Reginald Crundall Punnett|| style="width: 70%;"|Vazba genů, crossing-over, rekombinace; ([[Genová vazba]])
| style="width: 5% text-align: center;; text-align: center;"| od 1931|| style="width: 25%;"| William Bateson, Reginald Crundall Punnett|| style="width: 70%;"| Linkage of genes, crossing-over, recombination; ([[Gene linkage]])
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| style="width: 5% text-align: center;; text-align: center;"| 1937-45|| style="width: 25%;"| George Wells Beadle, Edward Lawrie Tatum  || style="width: 70%;"| Biochemické a genetické studie na mikroorganismu ''Neurospora'' – stanovení schopnosti genů regulovat určité chemické reakce; '''1958 Nobelova cena''' ([[Buněčná signalizace]])
| style="width: 5% text-align: center;; text-align: center;"| 1937-45|| style="width: 25%;"| George Wells Beadle, Edward Lawrie Tatum  || style="width: 70%;"| Biochemical and genetic studies on the microorganism ''Neurospora'' - determining the ability of genes to regulate certain chemical reactions; '''1958 Nobel Prize'''' ([[Cell Signaling]])
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| style="width: 5%; text-align: center;"| 1944|| style="width: 25%;"| Oswald Avery, Colin MacLeod, Maclyn McCarty || style="width: 70%;"| Základní genetická informace je uložena v [[DNA (nukleová kyselina)|DNA]] ([[Prokaryota]], transformace)
| style="width: 5%; text-align: center;"| 1944|| style="width: 25%;"| Oswald Avery, Colin MacLeod, Maclyn McCarty || style="width: 70%;"| Basic genetic information is stored in DNA  
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| style="width: 5%; text-align: center;"| 1940-50|| style="width: 25%;"| Barbara McClintock || style="width: 70%;"| Genetická mapa kukuřice, úloha centromer a telomer a následný objev genetické transposice – mobilní sekvence [[DNA (nukleová kyselina)|DNA]] (transposomy),; '''1983 Nobelova cena''' ([[Transposomy]], [[Centromera]], [[Telomery]])
| style="width: 5%; text-align: center;"| 1940-50|| style="width: 25%;"| Barbara McClintock || style="width: 70%;"| The genetic map of maize, the role of centromeres and telomeres and the subsequent discovery of genetic transposition - mobile [[DNA]] sequences (transpososomes); '''1983 Nobel Prize''' ([[Transposomes]], [[Centromere]], [[Telomeres]])
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| style="width: 5%; text-align: center;"| 1940-60|| style="width: 25%;"| Peter Brian Medawar, Frank (Macfarlane) Burnet  || style="width: 70%;"| Transplantace objev získané imunologické tolerance; '''1960 Nobelova cena''' ([[Transplantační zákony]], [[Imunologická tolerance a možnosti jejího navození|Imunologická tolerance]])
| style="width: 5%; text-align: center;"| 1940-60|| style="width: 25%;"| Peter Brian Medawar, Frank (Macfarlane) Burnet  || style="width: 70%;"| Transplantation discovery of acquired immunological tolerance; '''1960 Nobel Prize''' ([[Transplant laws]], [[Immunological tolerance]])
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| style="width: 5%; text-align: center;" |1950 a 1970-80|| style="width: 25%;"| Edward B. Lewis; Christiane Nusslein-Volhard a Eric F. Wieschaus|| style="width: 70%;"| Vývojová genetika; nejprve ''Drosophila melanogaster'' – objev principu ko-linearity (lokalizace sad genů na chromosomech souvisí s uspořádáním tělních segmentů). Dále tento princip potvrzen pro všechny mnohobuněčné živočichy; '''1995 Nobelova cena''' ([[Embryonální vývoj]], ''[[Drosophila melanogaster]]'')
| style="width: 5%; text-align: center;" |1950 a 1970-80|| style="width: 25%;"| Edward B. Lewis; Christiane Nusslein-Volhard a Eric F. Wieschaus|| style="width: 70%;"| Developmental genetics; first ''Drosophila melanogaster'' - discovery of the principle of co-linearity (localization of sets of genes on chromosomes is related to the arrangement of body segments). Furthermore, this principle is confirmed for all multicellular animals; '''1995 Nobel Prize'''' ([[Embryonic Development]], ''[[Drosophila melanogaster]]'')
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| style="width: 5%; text-align: center;"| 1950-61|| style="width: 25%;"| Francois Jacob, André Lwoff, Jacques Monod || style="width: 70%;"| Kontrola a regulace exprese enzymů metabolických drah zpětnou vazbou se sekvencí [[DNA (nukleová kyselina)|DNA]] (např. ''E. coli''/laktóza); '''1965 Nobelova cena''' ([[Jednobuněčné modely]], [[Prokaryota]])
| style="width: 5%; text-align: center;"| 1950-61|| style="width: 25%;"| Francois Jacob, André Lwoff, Jacques Monod || style="width: 70%;"| Control and regulation of metabolic pathway enzyme expression by feedback with the [[DNA (nucleic acid)|DNA]] sequence (for example, ``E. coli''/lactose); '''1965 Nobel Prize'''' ([[Single-cell models]], [[Prokaryotes]])
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| style="width: 5%; text-align: center;"| 1950-59||  style="width: 25%;"| Stanley Cohen, Rita Levi-Montalcini || style="width: 70%;"| Isolace nervového růstového faktoru (NGF), která vedla k objevu epidermálního růstového faktoru; '''1986 Nobelova cena''' ([[Buněčná signalizace]], [[(Proto)onkogeny]])
| style="width: 5%; text-align: center;"| 1950-59||  style="width: 25%;"| Stanley Cohen, Rita Levi-Montalcini || style="width: 70%;"| Isolation of nerve growth factor (NGF), which led to the discovery of epidermal growth factor; '''1986 Nobel Prize'''' ([[Cell Signaling]], [[(Proto)oncogenes]])
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| style="width: 5%; text-align: center;"| 1953|| style="width: 25%;"| James D. Watson, Francis H. C. Crick, Maurice H. Frederics  || style="width: 70%;"| Stanovení struktury [[DNA (nukleová kyselina)|DNA]]; '''1962 Nobelova cena''' ([[DNA (nukleová kyselina)|DNA]])
| style="width: 5%; text-align: center;"| 1953|| style="width: 25%;"| James D. Watson, Francis H. C. Crick, Maurice H. Frederics  || style="width: 70%;"| Determining the structure of [[DNA]]; '''1962 Nobel Prize'''
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| style="width: 5%; text-align: center;"| 1956|| style="width: 25%;"| Joe Hin Tjio a Albert Levan || style="width: 70%;"| Stanovení přesného počtu chromosomů v somatických buňkách člověka ([[Lidský karyotyp]])
| style="width: 5%; text-align: center;"| 1956|| style="width: 25%;"| Joe Hin Tjio a Albert Levan || style="width: 70%;"| Determining the exact number of chromosomes in human somatic cells ([[Human karyotype]])
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| style="width: 5%; text-align: center;"| 1956|| style="width: 25%;"| Robert W. Holley, Har. G. Khorana, Marshall W. Nirenberg || style="width: 70%;"| Úloha RNA při syntéze proteinů, genetický kód a jeho role při biosyntéze bílkovin; '''1968 Nobelova cena''' ([[mRNA]], [[Translace]])
| style="width: 5%; text-align: center;"| 1956|| style="width: 25%;"| Robert W. Holley, Har. G. Khorana, Marshall W. Nirenberg || style="width: 70%;"| Role of RNA in protein synthesis, genetic code and its role in protein biosynthesis; '''1968 Nobel Prize'''' ([[mRNA]], [[Translation]])
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| style="width: 5%; text-align: center;"| 1957|| style="width: 25%;"| Arthur Kornberg|| style="width: 70%;"| Při studiu bakterie ''Escherichia coli'' objevil DNA-polymerasu ([[DNA (nukleová kyselina)|DNA]]); Severo Ochoa a Arthur Kornberg za objev mechanismu biosyntézy RNA a DNA ''' 1959 Nobelova cena'''
| style="width: 5%; text-align: center;"| 1957|| style="width: 25%;"| Arthur Kornberg|| style="width: 70%;"| While studying the bacterium Escherichia coli, he discovered DNA polymerase; Severo Ochoa and Arthur Kornberg for the discovery of the mechanism of RNA and DNA biosynthesis ''' 1959 Nobel Prize''
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| style="width: 5%; text-align: center;"| 1958|| style="width: 25%;"| Tuneko Okazaki, Reiji Okazaki|| style="width: 70%;"| Semikonzervativní proces replikace, Okazakiho fragmenty ([[DNA (nukleová kyselina)|DNA]]) 
| style="width: 5%; text-align: center;"| 1958|| style="width: 25%;"| Tuneko Okazaki, Reiji Okazaki|| style="width: 70%;"| Semiconservative replication process, Okazaki fragments 
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| style="width: 5%; text-align: center;"| 1958-69|| style="width: 25%;"| Earl W. Sutherland, Jr. || style="width: 70%;"| Isolace do té doby neznámého cyklického adenosinmonofosfátu (cAMP), objasnění jeho úlohy při metabolismu některých hormonů; '''1971 Nobelova cena''' ([[Buněčná signalizace]])
| style="width: 5%; text-align: center;"| 1958-69|| style="width: 25%;"| Earl W. Sutherland, Jr. || style="width: 70%;"| Isolation of the hitherto unknown cyclic adenosine monophosphate (cAMP), clarification of its role in the metabolism of some hormones; '''1971 Nobel Prize'''' ([[Cell Signaling]])
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| style="width: 5%; text-align: center;"| 1959|| style="width: 25%;"| Jérôme JL Marie Lejeune || style="width: 70%;"| Chromosomální podstata Downova syndromu – trisomie chromosomu 21 ([[Downův syndrom]])
| style="width: 5%; text-align: center;"| 1959|| style="width: 25%;"| Jérôme JL Marie Lejeune || style="width: 70%;"| Chromosomal basis of Down syndrome - trisomy of chromosome 21 ([[Down syndrome]])
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| style="width: 5% text-align: center;; text-align: center;"| 1960-65|| style="width: 25%;"| Baruj Benacerraf, Jean Dausset || style="width: 70%;"| Objev HLA komplexu a charakteristika genů hlavního histokompatibilitního komplexu (HHK) člověka a následně dalších obratlovců; '''1980 Nobelova cena''' ([[Hlavní histokompatibilitní komplex|Hlavní histokompatibilitní komplex člověka]], [[Hlavní histokompatibilitní komplex|HLA]])
| style="width: 5% text-align: center;; text-align: center;"| 1960-65|| style="width: 25%;"| Baruj Benacerraf, Jean Dausset || style="width: 70%;"| Discovery of MHC and characterization of the genes of the major histocompatibility complex (MHC) of humans and subsequently other vertebrates; '''1980 Nobel Prize'''' ([[Major histocompatibility complex|HLA]])
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| style="width: 5%; text-align: center;"| od 1960|| style="width: 25%;"| Alfred Goodman Gilman, Martin Rodbell || style="width: 70%;"| Objev G-proteinů a objasnění jejich úlohy v buněčné signalizaci; '''1994 Nobelova cena''' ([[Buněčná signalizace]])
| style="width: 5%; text-align: center;"| od 1960|| style="width: 25%;"| Alfred Goodman Gilman, Martin Rodbell || style="width: 70%;"| Discovery of G-proteins and elucidation of their role in cell signaling; '''1994 Nobel Prize'''' ([[Cell Signaling]])
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| style="width: 5%; text-align: center;"| od 1961|| style="width: 25%;"| Leonard Hayflick a P. Moorhead|| style="width: 70%;"| Popsali u ''in vitro'' kultivovaných fibroblastů omezení počtu buněčných cyklů – tzv. replikativní stárnutí (senescence) ([[Replikativní stárnutí]])
| style="width: 5%; text-align: center;"| od 1961|| style="width: 25%;"| Leonard Hayflick a P. Moorhead|| style="width: 70%;"| They described a limitation in the number of cell cycles in ``in vitro'' cultured fibroblasts - the so-called replicative aging (senescence) ([[Replicative senescence]])
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| style="width: 5%; text-align: center;"| 1962|| style="width: 25%;"| Werner Aber, Daniel Nathans, Hamilton O. Smith || style="width: 70%;"| Objev restrikčních endonukleáz; '''1978 Nobelova cena''' ([[Polymorfismus délky restrikčních fragmentů]])
| style="width: 5%; text-align: center;"| 1962|| style="width: 25%;"| Werner Aber, Daniel Nathans, Hamilton O. Smith || style="width: 70%;"| Discovery of restriction endonucleases; '''1978 Nobel Prize'''' ([[Restriction fragment length polymorphism]])
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| style="width: 5%; text-align: center;"| 1970|| style="width: 25%;"| David Baltimore, Renato Dulbecco, Howard M. Temin || style="width: 70%;"| Onkovirologie interakce  retrovirů s genetickým materiálem buňky, reverzní transkripce; '''1975 Nobelova cena''' ([[Virová karcinogeneze|Onkogenní viry]], [[Virová karcinogeneze]])  
| style="width: 5%; text-align: center;"| 1970|| style="width: 25%;"| David Baltimore, Renato Dulbecco, Howard M. Temin || style="width: 70%;"| Oncovirology interaction of retroviruses with the genetic material of the cell, reverse transcription; '''1975 Nobel Prize'''' ([[Viral carcinogenesis]])  
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| style="width: 5%; text-align: center;"| 1970-71|| style="width: 25%;"| Leland Harrison Hartwell, Richard Timothy Hunt, Paul Maxime Nurse|| style="width: 70%;"| Při studiu buněčného cyklu kvasinek (''Saccharomyces cerevisiae'') objeveny geny regulující buněčný cyklus; objev homologních genů u člověka (cykliny a na cyklinech závislé proteinkinasy) ([[Buněčný cyklus|Buněčný cyklus, jeho regulace a poruchy]], [[(Proto)onkogeny]])
| style="width: 5%; text-align: center;"| 1970-71|| style="width: 25%;"| Leland Harrison Hartwell, Richard Timothy Hunt, Paul Maxime Nurse|| style="width: 70%;"| During the study of the cell cycle of yeast (''Saccharomyces cerevisiae''), genes regulating the cell cycle were discovered; discovery of homologous genes in humans (cyclins and cyclin-dependent protein kinases) ([[Cell cycle]], [[(Proto)oncogenes]])
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| style="width: 5%; text-align: center;"| 1970-80|| style="width: 25%;"| Susumu Tonegawa || style="width: 70%;"| Analýza [[DNA (nukleová kyselina)|DNA]] B buněk (pokusy na myších), objev genetického principu diversity protilátek; '''1987 Nobelova cena''' ([[Genová kontrola tvorby protilátek]])  
| style="width: 5%; text-align: center;"| 1970-80|| style="width: 25%;"| Susumu Tonegawa || style="width: 70%;"| Analysis of [[DNA]] of the B cells (experiments on mice), discovery of the genetic principle of antibody diversity; '''1987 Nobel Prize'''' ([[Gene Control of Antibody Formation]])  
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| style="width: 5%; text-align: center;"| 1970-80|| style="width: 25%;"| John M. Bishop, Harold E. Varmus || style="width: 70%;"| Studium vztahu retrovirů ke vzniku maligních nádorů, objev prvního lidského onkogenu ''c-src''; '''1989 Nobelova cena''' ([[Virová karcinogeneze|Onkoviry]], [[(Proto)onkogeny]])  
| style="width: 5%; text-align: center;"| 1970-80|| style="width: 25%;"| John M. Bishop, Harold E. Varmus || style="width: 70%;"| Study of the relationship of retroviruses to the development of malignant tumors, discovery of the first human oncogene "c-src"; '''1989 Nobel Prize'''' ([[Oncoviruses]], [[(Proto)oncogenes]])  
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| style="width: 5%; text-align: center;"| 1975|| style="width: 25%;"| Edwin Mellor Southern|| style="width: 70%;"| Vyvinul hybridizační metodu [[DNA (nukleová kyselina)|DNA]] v gelové elektoforéze pro identifikaci specifické sekvence DNA ([[Denaturace nukleových kyselin, molekulární hybridizace|DNA hybridizace]], [[Southernův blotting|Southern blot]])
| style="width: 5%; text-align: center;"| 1975|| style="width: 25%;"| Edwin Mellor Southern|| style="width: 70%;"| Developed the [[DNA]] hybridization method in gel electrophoresis to identify a specific DNA sequence ([[DNA hybridization]], [[Southern blot]])
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| style="width: 5%; text-align: center;"| 1975|| style="width: 25%;"|John Foxton Ross Kerr|| style="width: 70%;"| Poprvé popsal apoptózu geneticky programovanou smrt buněk; '''Nobelova cena 2002''' Sydney Brenner, H. Robert Horvitz, John E. Sulston- byla udělena za objevy genetické regulace vývoje orgánů a apoptózy ([[Embryonální vývoj]], [[Stárnutí organismu]])
| style="width: 5%; text-align: center;"| 1975|| style="width: 25%;"|John Foxton Ross Kerr|| style="width: 70%;"| He first described apoptosis the genetically programmed death of cells; '''Nobel Prize 2002''' - Sydney Brenner, H. Robert Horvitz, John E. Sulston - was awarded for the discoveries of genetic regulation of organ development and apoptosis ([[Embryonic development]], [[Aging of the organism]])
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| style="width: 5%; text-align: center;"| 1975-77|| style="width: 25%;"| Frederick Sanger, Walter Gilbert, Paul Berg|| style="width: 70%;"| Vyvinuli techniky sekvenování DNA; '''1980 Nobelova cena''' ([[DNA (nukleová kyselina)|DNA]]; [[Sekvenování]]); Frederick Sanger získal '''již jednu Nobelovu cenu v roce 1958''' za stanovení polypeptidového řetězce inzulinu ([[Genetika "civilizačních" onemocnění]])  
| style="width: 5%; text-align: center;"| 1975-77|| style="width: 25%;"| Frederick Sanger, Walter Gilbert, Paul Berg|| style="width: 70%;"| They developed DNA sequencing techniques; '''1980 Nobel Prize''' ([[DNA]]; [[Sequencing]]); Frederick Sanger won '''already one Nobel Prize in 1958'''' for determining the polypeptide chain of insulin ([[Genetics of "Civilization" Diseases]])  
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| style="width: 5%; text-align: center;"| 1976|| style="width: 25%;"|Harald zur Hausen|| style="width: 70%;"| Objev papiloma viru, který je příčinou vzniku karcinomu děložního čípku; '''Nobelova cena 2008''' ([[Virová karcinogeneze]])
| style="width: 5%; text-align: center;"| 1976|| style="width: 25%;"|Harald zur Hausen|| style="width: 70%;"| Discovery of the papillomavirus, which is the cause of cervical cancer; '''Nobel Prize 2008'''' ([[Viral Carcinogenesis]])
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| style="width: 5%; text-align: center;"| 1977|| style="width: 25%;"| Richard John Roberts, Phillip Allen Sharp|| style="width: 70%;"| Nezávisle objevili členění genů eukaryotních buněk na úseky (introny a exony) a vystřižení intronů z mRNA (gene-splicing); '''1993 Nobelova cena''' ([[Struktura genu]], [[Posttranskripční úpravy]])
| style="width: 5%; text-align: center;"| 1977|| style="width: 25%;"| Richard John Roberts, Phillip Allen Sharp|| style="width: 70%;"| They independently discovered the division of genes of eukaryotic cells into sections (introns and exons) and the cutting of introns from mRNA (gene-splicing); '''1993 Nobel Prize'''' ([[Gene Structure]], [[Post-Transcriptional Modifications]])
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| style="width: 5%; text-align: center;"| 1982|| style="width: 25%;"| Stanley B. Prusiner|| style="width: 70%;"| Formuloval teorii o novém původci infekčních onemocnění nervového systému; objev prionů; '''1997 Nobelova cena''' ([[Priony]])
| style="width: 5%; text-align: center;"| 1982|| style="width: 25%;"| Stanley B. Prusiner|| style="width: 70%;"| He formulated a theory about a new causative agent of infectious diseases of the nervous system; discovery of prions; '''1997 Nobel Prize'''' ([[Prions]])
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| style="width: 5%; text-align: center;"| 1983|| style="width: 25%;"|Francoise Barréová-Sinoussiová, Luc Montagnier|| style="width: 70%;"| Objev viru HIV (Human Immunodeficiency Virus); '''Nobelova cena 2008''' – ([[Imunodeficience]], [[AIDS]])
| style="width: 5%; text-align: center;"| 1983|| style="width: 25%;"|Francoise Barréová-Sinoussiová, Luc Montagnier|| style="width: 70%;"| Discovery of HIV (Human Immunodeficiency Virus); '''Nobel Prize 2008'''' – ([[Immunodeficiency]], [[AIDS]])
|-
|-
| style="width: 5%; text-align: center;"| 1984|| style="width: 25%;"|Elizabeth Blackburnová, Carol Whidney Greiderová, Jack William Szostak|| style="width: 70%;"| Objev telomer (ochrany konců lineárních chromosomů) a enzymu telomerázy; '''Nobelova cena 2009''' ([[Telomery a telomerasa]])
| style="width: 5%; text-align: center;"| 1984|| style="width: 25%;"|Elizabeth Blackburnová, Carol Whidney Greiderová, Jack William Szostak|| style="width: 70%;"| Discovery of telomeres (protection of the ends of linear chromosomes) and the enzyme telomerase; '''Nobel Prize 2009'''' - ([[Telomeres and telomerase]])
|-
|-
| style="width: 5%; text-align: center;"| 1985|| style="width: 25%;"| Kary Banks Mullis s kolegy|| style="width: 70%;"| Vyvinul metodu PCR (Polymerase Chain Reaction) umožňující namnožit i z jediné molekuly DNA vybraný úsek dědičné informace; '''Nobelova cena 1993''' –  ([[DNA (nukleová kyselina)|DNA]], [[Polymerasová řetězová reakce]])
| style="width: 5%; text-align: center;"| 1985|| style="width: 25%;"| Kary Banks Mullis s kolegy|| style="width: 70%;"| He developed the PCR (Polymerase Chain Reaction) method, which makes it possible to multiply a selected section of hereditary information even from a single DNA molecule; '''Nobel Prize 1993''' - ([[DNA]], [[Polymerase Chain Reaction]])
|-
|-
| style="width: 5%; text-align: center;"| 1988-2001|| style="width: 25%;"| Projekt HUGO|| style="width: 70%;"| Sekvenování lidského genomu; Mezinárodní konsorcium Human Genome Project a americká soukromá společnost Celera Genomics "hrubé" přečtení genomu ([[DNA (nukleová kyselina)|DNA]], [[Mapování genomu]])
| style="width: 5%; text-align: center;"| 1988-2001|| style="width: 25%;"| Projekt HUGO|| style="width: 70%;"| Human Genome Sequencing; The International Human Genome Project Consortium and the American private company Celera Genomics - "rough" reading of the genome ([[DNA]], [[Genome Mapping]])
|-
|-
| style="width: 5%; text-align: center;"| 1989|| style="width: 25%;"|Mario Renato Capecchi, Martin Evans, Oliver Smithies|| style="width: 70%;"| Studium embryonálního vývoje myší embryonální kmenové buňky, knockout myši; '''Nobelova cena 2007''' ([[Kmenové buňky]], [[Knockout myš]], [[Mus musculus]])
| style="width: 5%; text-align: center;"| 1989|| style="width: 25%;"|Mario Renato Capecchi, Martin Evans, Oliver Smithies|| style="width: 70%;"| Study of embryonic development mouse embryonic stem cells, knockout mice; '''Nobel Prize 2007''' - ([[Stem cells]], [[Knockout mouse]], [[Mus musculus]])
|-
|-
| style="width: 5%; text-align: center;"| 1990|| style="width: 25%;"| Stephen F. Altshul, Gish W., David J. Lipmann, Miller W., Eugene Wilson Meyers|| style="width: 70%;"| Vytvořili algoritmus BLAST (Basic Local Alignment Search Tool) pro vypočítání podobnosti sekvencí a následné dohledávání genů a proteinů na základě vzájemné homologie ([[in silico – počítačové modely]])
| style="width: 5%; text-align: center;"| 1990|| style="width: 25%;"| Stephen F. Altshul, Gish W., David J. Lipmann, Miller W., Eugene Wilson Meyers|| style="width: 70%;"| They created the BLAST (Basic Local Alignment Search Tool) algorithm for calculating sequence similarity and then searching for genes and proteins based on mutual homology ([[in silico – computer models]])
|-
|-
| style="width: 5%; text-align: center;"| 1990|| style="width: 25%;"| William French Anderson|| style="width: 70%;"| První provedl genovou terapii u 4letého dítěte trpícího imunodeficiencií ([[Těžká kombinovaná imunodeficience|SCID]] – Severe Combined Immunodeficiency); výsledek léčby byl částečný. 2001 Alan Fisher genovou terapií SCID vyléčil ([[Imunodeficience]])
| style="width: 5%; text-align: center;"| 1990|| style="width: 25%;"| William French Anderson|| style="width: 70%;"| The first performed gene therapy on a 4-year-old child suffering from immunodeficiency ([[SCID]] – Severe Combined Immunodeficiency); the treatment result was partial. 2001 Alan Fisher cured SCID ([[Immunodeficiency]]) with gene therapy
|-
|-
| style="width: 5%; text-align: center;"| 1996|| style="width: 25%;"| ovce Dolly|| style="width: 70%;"| První naklonování savce z jediné tělní buňky ([[Kmenové buňky]])
| style="width: 5%; text-align: center;"| 1996|| style="width: 25%;"| ovce Dolly|| style="width: 70%;"| First cloning of a mammal from a single body cell ([[Stem cells]])
|-
|-
| style="width: 5%; text-align: center;"| 1998|| style="width: 25%;"| Andrew Z. Fire, Craig C. Mello|| style="width: 70%;"| Objev RNA interference – systému kontroly aktivity některých (specifických) genů; '''Nobelova cena 2006''' ([[Transkripce]], [[RNA interference]])
| style="width: 5%; text-align: center;"| 1998|| style="width: 25%;"| Andrew Z. Fire, Craig C. Mello|| style="width: 70%;"| Discovery of RNA interference – a system of controlling the activity of some (specific) genes; '''Nobel Prize 2006''' ([[Transcription]], [[RNA interference]])
|-
|-
| style="width: 5%; text-align: center;"| 2012|| style="width: 25%;"| Jennifer A. Doudna, E. Charpentier|| style="width: 70%;"| Cílená editace genomu pomocí CRISPR/Cas9; '''Nobelova cena 2020'''  
| style="width: 5%; text-align: center;"| 2012|| style="width: 25%;"| Jennifer A. Doudna, E. Charpentier|| style="width: 70%;"| Targeted genome editing using CRISPR/Cas9; '''Nobel Prize 2020'''  
|}
|}
== Galerie osobností ==
== Gallery of personalities ==
<gallery caption="Významné osobnosti historie genetiky" heights="150">
<gallery caption="Významné osobnosti historie genetiky" heights="150">
Soubor:Gregor Mendel.png|Johann Gregor Mendel (1822–1884)
Image:Gregor Mendel.png|Johann Gregor Mendel (1822–1884)
Soubor:Walther flemming.gif|Walther Flemming (1843–1905)
Image:Walther flemming.gif|Walther Flemming (1843–1905)
Soubor:LandsteinerWS.jpg|Karl Landsteiner (1868–1943)
Image:LandsteinerWS.jpg|Karl Landsteiner (1868–1943)
Soubor:Thomas Hunt Morgan.jpg|Thomas Hunt Morgan (1866–1945)
Image:Thomas Hunt Morgan.jpg|Thomas Hunt Morgan (1866–1945)
Soubor:Oswald T. Avery portrait 1937.jpg|Oswald Theodore Avery (1877–1955)
Image:Oswald T. Avery portrait 1937.jpg|Oswald Theodore Avery (1877–1955)
Soubor:Barbara McClintock (1902-1992).jpg|Barbara McClintock (1902–1992)
Image:Barbara McClintock (1902-1992).jpg|Barbara McClintock (1902–1992)
Soubor:Francis Crick.png|Francis Harry Compton Crick (1916–2004)
Image:Francis Crick.png|Francis Harry Compton Crick (1916–2004)
Soubor:James Watson.jpg|James Dewey Watson (1928)
Image:James Watson.jpg|James Dewey Watson (1928)
</gallery>
</gallery>
<noinclude>
<noinclude>


== Odkazy ==
== Links ==
=== Související články ===
=== Related articles ===
* [[Mendelovy pokusy]]
* [[Mendel's experiments]]
* [[Mendelovy zákony dědičnosti|Mendelovy zákony]]
* [[Mendel's laws of inheritance]]
* [[Hardy-Weinbergova rovnováha]]
* [[Hardy-Weinberg equilibrium]]


=== Externí odkazy ===
=== External links ===
* [http://www.esp.org/books/sturt/history/readbook.html History of genetics]
* [http://www.esp.org/books/sturt/history/readbook.html History of genetics]
* [http://www.vedakolemnas.cz/sys/galerie-download/VKN-119.pdfl Dvanáct milníků genetiky (Academia)]
* [http://www.vedakolemnas.cz/sys/galerie-download/VKN-119.pdfl Dvanáct milníků genetiky (Academia)]
</noinclude>
</noinclude>


[[Kategorie:Biologie]]
[[Category:Biology]]
[[Kategorie:Genetika]]
[[Category:Genetics]]
[[Kategorie:Dějiny lékařství]]
[[Category:History of medicine]]

Latest revision as of 16:08, 4 February 2023

Období objevu Osobnost(i) Objev
1865 Johan Gregor Mendel Laws of inheritance (Mendel's laws of inheritance)
1869 Paul Langerhans He discovered and described the islets of Langerhans in the pancreas (Diabetes mellitus type I a II)
1869 Friedrich Miescher He isolated DNA for the first time; isolated it in small quantities from white blood cells; was not analyzed further
1879 Walther Flemming Chromosomes in mitosis (Chromosome, Mitosis)
1892 Dmitri Ivanowski (Дми́трий Ивано́вский) The term virus (Virus)
1908 Godfrey Harold Hardy a Wilhelm Weinberg Basic law of population genetics (Hardy-Weinberg equilibrium)
1909 Karl Landsteiner Blood group system AB0 – classification of people into blood groups A, B, AB, 0; 1930 Nobel Prize
1909 Thomas Hunt Morgan Linear arrangement of genes on chromosomes, linkage of genes, phase coupling and repulsion; 1933 Nobel Prize (Gene linkage)
1910 Albert Kossel Cytology - research on proteins and nucleic acids; 1910 Nobel Prize
1911 Peyton Rous Discovery of a virus with oncogenic potential - domestic chicken sarcomas; 1966 Nobel Prize
1920 Frederick Banting a John J. R. Macleod Isolation of an active substance from the pancreas for the treatment of diabetes; 1923 Nobel Prize (Multifactorial inheritance, Autoimmune disease)
od 1930 George D. Snell Discovery of genetic factors that determine the possibility of tissue transplantation, the histocompatibility complex (H-2) of the mouse; 1980 Nobel Prize (Major histocompatibility complex, Transplant laws)
od 1931 William Bateson, Reginald Crundall Punnett Linkage of genes, crossing-over, recombination; (Gene linkage)
1937-45 George Wells Beadle, Edward Lawrie Tatum Biochemical and genetic studies on the microorganism Neurospora - determining the ability of genes to regulate certain chemical reactions; 1958 Nobel Prize' (Cell Signaling)
1944 Oswald Avery, Colin MacLeod, Maclyn McCarty Basic genetic information is stored in DNA
1940-50 Barbara McClintock The genetic map of maize, the role of centromeres and telomeres and the subsequent discovery of genetic transposition - mobile DNA sequences (transpososomes); 1983 Nobel Prize (Transposomes, Centromere, Telomeres)
1940-60 Peter Brian Medawar, Frank (Macfarlane) Burnet Transplantation – discovery of acquired immunological tolerance; 1960 Nobel Prize (Transplant laws, Immunological tolerance)
1950 a 1970-80 Edward B. Lewis; Christiane Nusslein-Volhard a Eric F. Wieschaus Developmental genetics; first Drosophila melanogaster - discovery of the principle of co-linearity (localization of sets of genes on chromosomes is related to the arrangement of body segments). Furthermore, this principle is confirmed for all multicellular animals; 1995 Nobel Prize' (Embryonic Development, Drosophila melanogaster)
1950-61 Francois Jacob, André Lwoff, Jacques Monod Control and regulation of metabolic pathway enzyme expression by feedback with the DNA sequence (for example, ``E. coli/lactose); 1965 Nobel Prize' (Single-cell models, Prokaryotes)
1950-59 Stanley Cohen, Rita Levi-Montalcini Isolation of nerve growth factor (NGF), which led to the discovery of epidermal growth factor; 1986 Nobel Prize' (Cell Signaling, (Proto)oncogenes)
1953 James D. Watson, Francis H. C. Crick, Maurice H. Frederics Determining the structure of DNA; 1962 Nobel Prize
1956 Joe Hin Tjio a Albert Levan Determining the exact number of chromosomes in human somatic cells (Human karyotype)
1956 Robert W. Holley, Har. G. Khorana, Marshall W. Nirenberg Role of RNA in protein synthesis, genetic code and its role in protein biosynthesis; 1968 Nobel Prize' (mRNA, Translation)
1957 Arthur Kornberg While studying the bacterium Escherichia coli, he discovered DNA polymerase; Severo Ochoa and Arthur Kornberg for the discovery of the mechanism of RNA and DNA biosynthesis ' 1959 Nobel Prize
1958 Tuneko Okazaki, Reiji Okazaki Semiconservative replication process, Okazaki fragments
1958-69 Earl W. Sutherland, Jr. Isolation of the hitherto unknown cyclic adenosine monophosphate (cAMP), clarification of its role in the metabolism of some hormones; 1971 Nobel Prize' (Cell Signaling)
1959 Jérôme JL Marie Lejeune Chromosomal basis of Down syndrome - trisomy of chromosome 21 (Down syndrome)
1960-65 Baruj Benacerraf, Jean Dausset Discovery of MHC and characterization of the genes of the major histocompatibility complex (MHC) of humans and subsequently other vertebrates; 1980 Nobel Prize' (HLA)
od 1960 Alfred Goodman Gilman, Martin Rodbell Discovery of G-proteins and elucidation of their role in cell signaling; 1994 Nobel Prize' (Cell Signaling)
od 1961 Leonard Hayflick a P. Moorhead They described a limitation in the number of cell cycles in ``in vitro cultured fibroblasts - the so-called replicative aging (senescence) (Replicative senescence)
1962 Werner Aber, Daniel Nathans, Hamilton O. Smith Discovery of restriction endonucleases; 1978 Nobel Prize' (Restriction fragment length polymorphism)
1970 David Baltimore, Renato Dulbecco, Howard M. Temin Oncovirology – interaction of retroviruses with the genetic material of the cell, reverse transcription; 1975 Nobel Prize' (Viral carcinogenesis)
1970-71 Leland Harrison Hartwell, Richard Timothy Hunt, Paul Maxime Nurse During the study of the cell cycle of yeast (Saccharomyces cerevisiae), genes regulating the cell cycle were discovered; discovery of homologous genes in humans (cyclins and cyclin-dependent protein kinases) (Cell cycle, (Proto)oncogenes)
1970-80 Susumu Tonegawa Analysis of DNA of the B cells (experiments on mice), discovery of the genetic principle of antibody diversity; 1987 Nobel Prize' (Gene Control of Antibody Formation)
1970-80 John M. Bishop, Harold E. Varmus Study of the relationship of retroviruses to the development of malignant tumors, discovery of the first human oncogene "c-src"; 1989 Nobel Prize' (Oncoviruses, (Proto)oncogenes)
1975 Edwin Mellor Southern Developed the DNA hybridization method in gel electrophoresis to identify a specific DNA sequence (DNA hybridization, Southern blot)
1975 John Foxton Ross Kerr He first described apoptosis – the genetically programmed death of cells; Nobel Prize 2002 - Sydney Brenner, H. Robert Horvitz, John E. Sulston - was awarded for the discoveries of genetic regulation of organ development and apoptosis (Embryonic development, Aging of the organism)
1975-77 Frederick Sanger, Walter Gilbert, Paul Berg They developed DNA sequencing techniques; 1980 Nobel Prize (DNA; Sequencing); Frederick Sanger won already one Nobel Prize in 1958' for determining the polypeptide chain of insulin (Genetics of "Civilization" Diseases)
1976 Harald zur Hausen Discovery of the papillomavirus, which is the cause of cervical cancer; Nobel Prize 2008' (Viral Carcinogenesis)
1977 Richard John Roberts, Phillip Allen Sharp They independently discovered the division of genes of eukaryotic cells into sections (introns and exons) and the cutting of introns from mRNA (gene-splicing); 1993 Nobel Prize' (Gene Structure, Post-Transcriptional Modifications)
1982 Stanley B. Prusiner He formulated a theory about a new causative agent of infectious diseases of the nervous system; discovery of prions; 1997 Nobel Prize' (Prions)
1983 Francoise Barréová-Sinoussiová, Luc Montagnier Discovery of HIV (Human Immunodeficiency Virus); Nobel Prize 2008' – (Immunodeficiency, AIDS)
1984 Elizabeth Blackburnová, Carol Whidney Greiderová, Jack William Szostak Discovery of telomeres (protection of the ends of linear chromosomes) and the enzyme telomerase; Nobel Prize 2009' - (Telomeres and telomerase)
1985 Kary Banks Mullis s kolegy He developed the PCR (Polymerase Chain Reaction) method, which makes it possible to multiply a selected section of hereditary information even from a single DNA molecule; Nobel Prize 1993 - (DNA, Polymerase Chain Reaction)
1988-2001 Projekt HUGO Human Genome Sequencing; The International Human Genome Project Consortium and the American private company Celera Genomics - "rough" reading of the genome (DNA, Genome Mapping)
1989 Mario Renato Capecchi, Martin Evans, Oliver Smithies Study of embryonic development – mouse embryonic stem cells, knockout mice; Nobel Prize 2007 - (Stem cells, Knockout mouse, Mus musculus)
1990 Stephen F. Altshul, Gish W., David J. Lipmann, Miller W., Eugene Wilson Meyers They created the BLAST (Basic Local Alignment Search Tool) algorithm for calculating sequence similarity and then searching for genes and proteins based on mutual homology (in silico – computer models)
1990 William French Anderson The first performed gene therapy on a 4-year-old child suffering from immunodeficiency (SCID – Severe Combined Immunodeficiency); the treatment result was partial. 2001 Alan Fisher cured SCID (Immunodeficiency) with gene therapy
1996 ovce Dolly First cloning of a mammal from a single body cell (Stem cells)
1998 Andrew Z. Fire, Craig C. Mello Discovery of RNA interference – a system of controlling the activity of some (specific) genes; Nobel Prize 2006 (Transcription, RNA interference)
2012 Jennifer A. Doudna, E. Charpentier Targeted genome editing using CRISPR/Cas9; Nobel Prize 2020

Gallery of personalities[edit | edit source]

  • Významné osobnosti historie genetiky
  • Johann Gregor Mendel (1822–1884)

    Johann Gregor Mendel (1822–1884)

  • Walther Flemming (1843–1905)

    Walther Flemming (1843–1905)

  • Karl Landsteiner (1868–1943)

    Karl Landsteiner (1868–1943)

  • Thomas Hunt Morgan (1866–1945)

    Thomas Hunt Morgan (1866–1945)

  • Oswald Theodore Avery (1877–1955)

    Oswald Theodore Avery (1877–1955)

  • Barbara McClintock (1902–1992)

    Barbara McClintock (1902–1992)

  • Francis Harry Compton Crick (1916–2004)

    Francis Harry Compton Crick (1916–2004)

  • James Dewey Watson (1928)

    James Dewey Watson (1928)


Links[edit | edit source]

Related articles[edit | edit source]

External links[edit | edit source]

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