Otto Kandler

Otto Kandler 23 October 1920 in Deggendorf 29 August 2017 in Munich Bavaria was a German botanist and microbiologist Until his retirement in 1986 he was professor of botany at the Ludwig Maximilian University of Munich Otto Kandler in 1983 with a molecular model of pseudomurein pseudopeptidoglycan His most important research topics were photosynthesis plant carbohydrate metabolism analysis of the structure of bacterial cell walls murein peptidoglycan the systematics of Lactobacillus and the chemotaxonomy of plants and microorganisms He presented the first experimental evidence for the existence of photophosphorylation in vivo His discovery of the basic differences between the cell walls of bacteria and archaea up to 1990 called archaebacteria convinced him that archaea represent an autonomous group of organisms distinct from bacteria This was the basis for his cooperation with Carl Woese and made him the founder of research on the Archaea in Germany In 1990 together with Woese he proposed the three domains of life Bacteria Archaea Eucarya Finally on the basis of his lifelong interest in the early evolution and diversification of life on this planet Kandler presented his pre cell theory suggesting that the three domains of life did not emerge from an ancestral cell e g the last universal common ancestor LUCA but from a population of pre cells Life and educationOtto Kandler was born on 23 October 1920 in Deggendorf Bavaria as the 6th child of the family of a market gardener Growing up and helping in his father s garden early on he became interested in plant life and nature in general He attended school for 8 years When he was about twelve years old he had read about Charles Darwin and mentioned it to a Catholic priest The priest punished him with two strikes on his hands with a rod However he remained interested in the origin and evolution of organisms for the rest of his life His parents could not afford to pay the fees for the gymnasium and he was supposed to become a gardener or learn another trade However his teachers convinced his parents that their talented son should continue school So he attended the Deutsche Aufbauschule in Straubing Bavaria a school for the education of future teachers His studies were however interrupted by the Second World War In 1939 he and his fellow students had to join the Reichsarbeitsdienst later he had to serve in the German army as a radio reporter in Russia At the end of the war his group was transferred to Austria He escaped by bicycle to the Western Front to avoid capture by the Russians After spending a few months in an American prison camp he was allowed to return home Between 1945 and 1946 he reconstructed his father s market garden and earned some money by growing and selling vegetable especially cabbage and flowers to finance his life and his future studies Wall mosaic in the great entrance hall of the historical building of the Botanical Institute Ludwig Maximilian University of Munich Kandler was very interested in science but only in 1946 was he able to enrol at Ludwig Maximilian University of Munich in botany zoology geology chemistry and physics He also attended philosophy lectures Since much of the university of Munich had been bombed the institute buildings were badly damaged and still in ruins To be admitted he and all the other students had to remove rubble and help reconstruct buildings After three terms he found a research subject for his dissertation in botany As the first in Germany he started to cultivate isolated plant tissues in vitro He used these tissue cultures to study for instance metabolism and the influence of auxins under defined in vitro conditions received his doctor s degree with honors in 1949 and became assistant professor of botany at the University of Munich After his habilitation in 1953 he remained at the university until 1957 In 1953 he married Gertraud Schafer a graduate student of microbiology They have three daughters and four grandchildren For his early publications on photophosphorylation he received a generous research fellowship from the Rockefeller Foundation and in 1956 1957 he was able to work on basic questions of photosynthesis for one year in the USA After his return Kandler was dissatisfied with the poor laboratory conditions at the university at home so he was glad to find a position as director of the Bacteriological Institute of the South German Dairy Research Center in Freising Weihenstephan in 1957 where conditions were much better In 1960 he was appointed full professor of Applied Botany of the Technical University Munich where research conditions still at that time were bad So he kept his position in Weihenstephan in parallel until 1965 In 1968 he was appointed full professor and Head of the Department of Botany at the Ludwig Maximilian University of Munich taught and conducted research until his retirement in 1986 His broad scientific interests are indicated by the titles of his more than 400 publications Kandler would have celebrated his 100th birthday on 23 October 2020 For this centenary Kandler s family gave his chronological collection of historical botany books among them herbals of the 16th and 17th centuries as a present to the library of the Regensburgische Botanische Gesellschaft founded by David Heinrich Hoppe in 1790 which has been included in the library of the University of Regensburg Through digitization these historical sources soon will be generally accessible Plant physiologyOtto Kandler was very interested in plant growth processes photosynthesis metabolism especially of carbohydrates As the first in Germany he started to grow isolated plant tissue cultures e g of stems roots sprouts embryos callus growths in vitro to study metabolism and the effect of auxins under defined in vitro conditions As mentioned above this formed the subject of his dissertation summa cum laude in 1949 In his contribution Historical perspectives on queries concerning photophosphorylation Kandler describes the beginnings of photophosphorylation research and how he became interested In 1948 he was inspired by a lecture on the phosphate metabolism of yeast by Feodor Lynen 1964 Nobel Prize in Physiology or Medicine In these years in the aftermath of World War II the original Chemical Institute of the Ludwig Maximilian University of Munich was still in ruins and Feodor Lynen and his assistant Helmut Holzer were working temporarily as guests in the Botanical Institute just next door to the laboratory where Kandler was engaged in his thesis in botany Kandler was impressed by the experimental methods in Lynen s laboratory and got acquainted with them Holzer and Kandler became close friends At that time Holzer was able to present the first evidence for ATP formation in yeast oxidizing butanol to butyric acid Kandler then decided to transfer their techniques for measuring phosphorylation rates in vivo to photosynthesis studies in Chlorella So in 1950 he was the first to present experimental evidence for the light dependent formation of ATP photophosphorylation in vivo in intact Chlorella cells In 1954 Daniel I Arnon discovered photophosphorylation in vitro using isolated chloroplasts and mentioned Kandler s pioneering work Kandler s early publications on light dependent formation of ATP led the Rockefeller Foundation to offer him a one year research fellowship in the USA So in 1956 1957 he worked for 6 months with Martin Gibbs at the Brookhaven National Laboratory and then for another 6 months with Melvin Calvin 1961 Nobel Prize in Chemistry at the University of California Berkeley on central questions of photosynthesis e g the path of carbon in photosynthesis today called the Calvin Benson Bassham Cycle The method of radioactive labelling i e the use of radioactive isotopes for tracing the path of e g carbon in photosynthesis was brought to Germany by Kandler Together with his coworkers Kandler demonstrated the occurrence of ADP glucose the glucose donor of starch biosynthesis for the first time in plants He made an essential contribution to clarify the complicated biosynthesis of branched chain monosaccharides hamamelose apiose Finally he elucidated the biosynthesis of the sugars of the raffinose family the most frequent oligosaccharides in plants As a result of these findings the function of galactinol a galactoside of inositol as a galactosyl donor was elucidated and hence the role of inositol as a co factor of sugar transfer reactions in plants MicrobiologyIn addition to his interest in plant physiology and biochemistry Otto Kandler early on focused on bacteria above all on the presence or absence of their cell walls since in the early 1950s such wall less microorganisms were often regarded as representatives of urbacteria Together with his wife he investigated the so called PPLOs now mycoplasms wall less penicillin resistant bacteria and L form bacteria bacteria that lost their cell walls They found that these organisms do not proliferate by binary fission but by a budding process These publications are still cited at present During his time as director of the Bacteriological Institute of the South German Dairy Research Center in Freising Weihenstephan Kandler concentrated on dairy microbiology and investigated the physiology biochemistry and systematics of lactobacilli on which he wrote a chapter in Bergey s Manual the bible of microbiologists In addition he published numerous papers on the isolation description and taxonomy of other bacteria Kandler was one of the first scientists who together with his group studied the chemistry and structure of the cell walls of bacteria The primary structure of peptidoglycan murein the unique cell wall component of bacteria was investigated Kandler recognized that the amino acid sequence of peptidoglycan is a valuable chemotaxonomic marker The different peptidoglycan types and their taxonomic implications were described in detail by Schleifer and Kandler As a result they suggested comparative cell wall chemistry as a marker for the deep branches in the phylogenetic tree of bacteria Kandler s cell wall studies also included methanogenic bacteria methanogens and halophilic bacteria halophiles In October 1976 Kandler discovered that two strains of the methanogen Methanosarcina barkeri did not contain peptidoglycan Consequently he came to the conclusion that methanogens are basically different from bacteria In his group also halobacteria were found to lack peptidoglycan confirming the idea that also these organisms are not bacteria and belong to a group of organisms soon called archaebacteria in 1990 classified as archaea In some archaebacteria Kandler and Konig identified pseudomurein now also called pseudopeptidoglycan a novel cell wall component and elucidated its structure and biosynthesis The methanogen Methanopyrus kandleri was named in honor of Kandler by Karl O Stetter as a present for Kandler s 70th birthday Together with Hans Gunter Schlegel Kandler was substantially involved in the foundation of the German collection of microorganisms and cell cultures DSMZ in Braunschweig Kandler was the founder and editor of Systematic and Applied Microbiology co editor of the Archives of Microbiology and of Zeitschrift fur Pflanzenphysiologie Archaea and the three domains of lifeOtto Kandler s main subject in microbiology was his research on archaea before 1990 called archaebacteria His discovery October 1976 that peptidoglycan murein a typical cell wall component of bacteria is missing in two strains of methanogenic bacteria methanogens became one of the first three pieces of evidence that methanogens belong to a group of organisms distinct from bacteria Therefore Kandler was delighted when he learned from a letter by Ralph F Wolfe expert on methanogens on 11 November 1976 that Wolfe s colleague Carl Woese University of Illinois Urbana USA had just discovered basic differences between methanogens and bacteria with his novel 16S ribosomal RNA gene sequencing method When Kandler received this letter based on his new findings he had already planned to investigate the cell walls of other methanogens together with Marvin P Bryant also an expert on methanogens from the University of Illinois Coincidentally Bryant was just sitting in Kandler s office when Wolfe s letter arrived In his letter Wolfe also offered to send cultures for cell wall studies since he knew Kandler was a cell wall expert Kandler wrote back immediately how impressed he was with Woese s findings and ideas and that he looked forward to investigate Wolfe s methanogens In his reply Kandler also mentioned that methanogens and halophiles may be ancient relics that have branched off from the bulk of the prokaryotes before peptidoglycan had been invented He asked Wolfe to send him lyophilized cells of methanogens to analyse their cell walls Carl Woese left Otto Kandler and Ralph Wolfe on their way to Mt Hochiss in 1981 photo by Gertraud Kandler In January 1977 Kandler visited Woese for the first time He was immediately convinced of Woese s new concept for his cell wall analyses matched perfectly with Woese s 16S rRNA sequencing results This was the beginning of a close and productive transatlantic complementary relationship and cooperation by the exchange of cultures results and ideas Kandler s group studied the cell wall composition and Woese s group the 16S rRNA gene sequences In their fundamental frequently cited publication Woese and Fox November 1977 introduced the term archaebacteria at that time comprising only methanogens They cited Kandler and named the very first three pieces of evidence for the concept of the archaebacteria lack of peptidoglycan in methanogens Kandler two unusual coenzymes in methanogens Wolfe unique rRNA sequences in methanogens Woese In this article Woese and Fox also still used a preliminary terminology domains for the two groups prokaryotes and eukaryotes primary kingdoms or urkingdoms for the three groupings eubacteria archaebacteria and urkaryotes Only in 1990 in their publication on the phylogenetic tree of life Woese and Kandler proposed the term domain for the three groups Bacteria Archaea Eucarya see below While Woese s proposal to subdivide organisms into three lines of descent at that time received little support and even harsh criticism in the US Kandler called Woese the Darwin of the 20th century and was convinced that research on archaebacteria had a great future With great enthusiasm Kandler founded research on archaebacteria in Germany and organised funding for this novel field In the spring of 1978 in Munich Kandler organised the very first meeting on archaebacteria Carl Woese was invited but was not able to participate Carl Woese left Ralph Wolfe and Otto Kandler right celebrating the archaebacteria now archaea on top of Mt Hochiss in 1981 photo by Gertraud Kandler In the summer of 1979 Kandler invited Woese again to give a lecture at a meeting of the Deutsche Gesellschaft fur Mikrobiologie und Hygiene in Munich This time Woese participated He came to Munich for the first time and was welcomed with fanfare a brass band concert and a dinner party in the great entrance hall of the Botanical Institute of the Ludwig Maximilian University of Munich photo see Life and education The first international conference ever on archaebacteria was also organised by Kandler again in Munich in 1981 Both Carl Woese and Ralph Wolfe took part The resulting conference volume was the very first book on archaebacteria At this conference convincing evidence for essential structural biochemical and molecular differences between bacteria and archaebacteria was presented leading to the gradual acceptance of the concept of the archaebacteria as an autonomous group of organisms After the conference the archaebacteria were celebrated by Woese Wolfe and Kandler on an excursion to the close Alps climbing the top of Hochiss 2299 m in the Rofan mountains see Photos Universal phylogenetic tree in rooted form showing the three domains Woese Kandler Wheelis 1990 p 4578 In 1985 Kandler and Zillig organised a second international conference on archaebacteria again in Munich Meanwhile the support for the archaebacteria concept and also for the idea of a phylogenetic division into three groups on the basis of 16S rRNA sequencing and additional characteristics had grown but had still not yet been generally accepted by the scientific community Also an intensive controversial discussion about the level of classification and terminology was taking place e g terms like urkingdom primary kingdom empire etc were considered This discussion is documented in detail in Sapp 2009 especially chapters 19 20 Finally after about 13 years of cooperation in their publication of 1990 Woese Kandler Wheelis Woese and Kandler proposed a tree of life consisting of three lines of descent see adjacent Phylogenetic Tree of Life for which they introduced the term domain as the highest rank of classification above the kingdom level They also suggested the terms Archaea Bacteria and Eucarya later corrected to Eukarya for the three domains and presented the formal description of the taxon Archaea Up to date this publication is one of the most frequently cited papers in the Proceedings of the National Academy of Sciences of the United States of America The role of the third author is described by Sapp pp 261f and 386 and Quammen pp 210f In a second publication they contrasted their natural system of global classification a phylogenetic division on the basis of 16S rRNA sequencing with the conventional division of organisms into two procaryotes eucaryotes system or into five 5 kingdom system groupings Today the division of the tree of life into three domains levels above kingdoms is textbook knowledge Early evolution and diversification of life pre cell theory Kandler has always been interested in the early evolution and diversification of life and finally presented his pre cell theory Early diversification of life with Kandler s pre cell theory Kandler 1998 p 22 He assumed that the early evolution of organisms did not start from a common first ancestral cell but that each domain evolved by multiple cellularization of a multiphenotypical population of pre cells where the invention of cell envelopes played an important role A scheme of the pre cell scenario is presented in the adjacent figure where essential evolutionary improvements are indicated by numbers 1 Reductive formation of organic compounds from CO or CO2 by Me sulfur coordinative chemistry 2 tapping of various redox energy sources and formation of primitive enzymes and templates 3 elements of a transcription and translation apparatus and loose associations 4 formation of pre cells 5 stabilised circular or linear genomes 6 cytoplasmic membranes 7 rigid murein cell walls 8 various non murein rigid cell walls 9 glycoproteinaceous cell envelope or glycokalyx 10 cytoskeleton 11 complex chromosomes and nuclear membrane 12 cell organelles via endosymbiosis 22 Kandler s contribution to our understanding of the early evolution of life was valued several times e g Muller 1998 Wiegel 1998 Wachtershauser 2003 and 2006 Schleifer 2011 Applied MicrobiologyLouis Pasteur was one of Kandler s scientific heroes Kandler liked to cite Pasteur s opinion that there is no applied science but that there are rather applications of science When he was director of the Bacteriological Institute of the South German Dairy Research Center in Freising Weihenstephan he concentrated on the microbiology of milk and dairy products e g developed methods to prolong the shelf life of milk and tested the utilisation of Lactobacillus acidophilus in starter cultures for yoghurt He also tested several procedures for the fermentation of milk and vegetable products or proposed methods for successfully combating micro organisms in cooling water systems more examples see Schleifer 2011 Later he conducted research on thermophilic methanogens and their ability to produce biogas from sewage or other waste EcologyKandler s role as an early representative of scientific ecology is less known He was a cofounder of the commission for ecology at the Bavarian Academy of Sciences now Forum fur Okologie panel for ecology of which he was a member until 2006 His interest in ecology was broad for instance he dealt with bacterial interactions forest conditions and the return of lichens into the city of Munich Since the early 1980s research on the so called Waldsterben forest death in Germany was substantially sponsored by the German Ministry of Science and Technology On the basis of his own investigations Kandler became a decided critic Awards and memberships1971 German National Academy of Sciences Leopoldina 1981 Dr h c Ghent University 1982 Regensburger Botanische Gesellschaft 1982 Bergey Award 1983 Bavarian Academy of Sciences and Humanities 1983 Mycological Society of India 1984 Hermann Weigmann Medaille 1985 Dr h c Technical University of Munich 1989 Ferdinand Cohn Medaille 1991 Honorary member of Deutsche Botanische Gesellschaft 1992 Order of Merit of the Federal Republic of Germany 1994 Honorary member of Gesellschaft fur Allgemeine und Angewandte Mikrobiologie 2005 Bavarian Order of MeritSelected publicationsKandler Otto 1950 Uber die Beziehungen zwischen Phosphathaushalt und Photosynthese I Phosphatspiegelschwankungen bei Chlorella pyrenoidosa als Folge des Licht Dunkel Wechsels On the relationship between the phosphate metabolism and photosynthesis I Variations in phosphate levels in Chlorella pyrenoidosa as a consequence of light dark changes Zeitschrift fur Naturforschung 5b 423 437 pdf Kandler O 1960 Energy transfer through phosphorylation mechanisms in Photosynthesis Annual Review of Plant Physiology 11 37 54 doi 10 1146 annurev pp 11 060160 000345 Schleifer K H Kandler O 1972 Peptidoglycan types of bacterial cell Walls and their taxonomic implications Bacteriological Reviews 36 4 407 477 doi 10 1128 MMBR 36 4 407 477 1972 PMC 408328 PMID 4568761 Kandler O Hippe H 1977 Lack of peptidoglycan in the cell walls of Methano sarcina barkeri PDF Archives of Microbiology 113 1 2 57 60 Bibcode 1977ArMic 113 57K doi 10 1007 bf00428580 PMID 889387 S2CID 19145374 Konig H Kandler O 1979 N Acetyltalosaminuronic acid a constituent of the pseudomurein of the genus Methanobacterium Archives of Microbiology 123 3 295 299 Bibcode 1979ArMic 123 295K doi 10 1007 BF00406664 S2CID 42830749 Kandler Otto 1982 Cell Wall Structures and their Phylogenetic Implications Zentralblatt fur Bakteriologie Mikrobiologie und Hygiene I Abt Originale C Allgemeine Angewandte und Okologische Mikrobiologie 3 149 160 doi 10 1016 S0721 9571 82 80063 X Woese Carl R Kandler O Wheelis M L 1990 Towards a natural system of organisms proposal for the domains Archaea Bacteria and Eucarya Proceedings of the National Academy of Sciences of the United States of America 87 12 4576 4579 Bibcode 1990PNAS 87 4576W doi 10 1073 pnas 87 12 4576 ISSN 0027 8424 PMC 54159 PMID 2112744 Kandler Otto 1993 Cell Wall Biochemistry and Three Domain Concept of Life Systematic and Applied Microbiology 16 4 501 509 Bibcode 1993SyApM 16 501K doi 10 1016 S0723 2020 11 80319 X Kandler O 1994 Vierzehn Jahre Waldschadensdiskussion Szenarien und Fakten PDF Naturwissenschaftliche Rundschau 47 419 430 Kandler O 1995 Cell Wall Biochemistry in Archaea and its Phylogenetic Implications Journal of Biological Physics 20 1 4 165 169 doi 10 1007 BF00700433 S2CID 83906865 Kandler O 1998 The early diversification of life and the origin of the three domains A proposal pp 19 31 In Thermophiles The keys to molecular evolution and the origin of life J Wiegel amp M W Adams eds Taylor and Francis Ltd London UK googlebooks Kandler O Konig H 1998 Cell wall polymers in Archaea Archaebacteria Cellular and Molecular Life Sciences 54 4 305 308 doi 10 1007 s000180050156 PMC 11147200 PMID 9614965 S2CID 13527169 all publications BAdWBiographies and obituariesMuller H E 1998 Portrait Otto Kandler und die moderne Mikrobiologie Der Mikrobiologe Mitteilungen des Berufsverbands der Arzte fur Mikrobiologie Virologie und Infektionsepidemiologie 8 3 38 43 BAdW Sapp J 2009 The New Foundations of Evolution On the Tree of Life Oxford New York Oxford University Press ISBN 978 0 19 973438 2 googlebooks Schleifer K H 2011 Prof Dr Dr h c mult Otto Kandler distinguished botanist and microbiologist The Bulletin of BISMiS 2 2 141 148 Bergey s International Society for Microbial Systematics BAdW Tanner W 23 November 2017 Obituary Professor Dr Otto Kandler 1920 2017 Deutsche Botanische Gesellschaft Govindjee Tanner W 2018 Remembering Otto Kandler 1920 2017 and his contributions Photosynthesis Research 137 3 337 340 Bibcode 2018PhoRe 137 337G doi 10 1007 s11120 018 0530 z PMID 29948750 S2CID 49426075 typo in abstract the three forms of life are Bacteria Archaea Eukarya Tanner W Renner S September 2018 Obituary Prof Dr Dr h c mult OTTO KANDLER BAdW for further reading BAdW ReferencesTanner Widmar 23 November 2017 Obituary Professor Dr Otto Kandler 1920 2017 Deutsche Botanische Gesellschaft Archived from the original on 25 December 2022 Retrieved 25 December 2022 Schleifer Karl Heinz December 2017 Obituary In Memoriam Prof Dr Dr h c mult Otto Kandler Systematic and Applied Microbiology 40 8 469 doi 10 1016 j syapm 2017 11 001 Scheifer Karl Heinz December 2011 Otto Kandler distinguished Botanist and Microbiologist PDF The Bulletin of BISMiS Bergey s International Society for Microbial Systematics Retrieved 26 January 2018 Govindjee Tanner Widmar June 2018 Remembering Otto Kandler 1920 2017 and his contributions Photosynthesis Research Typo in Abstract three forms of life Bacteria Archaea Eukarya 137 3 337 340 Bibcode 2018PhoRe 137 337G doi 10 1007 s11120 018 0530 z PMID 29948750 S2CID 49426075 Retrieved 3 October 2022 Kandler Otto Hippe Hans January 1977 Lack of peptidoglycan in the cell walls of Methanosarcina barkeri Archives of Microbiology 113 1 2 57 60 Bibcode 1977ArMic 113 57K doi 10 1007 BF00428580 PMID 889387 S2CID 19145374 Kandler Otto 1995 Cell Wall Biochemistry in Archaea and its Phylogenetic Implications Journal of Biological Physics 20 1 4 165 169 doi 10 1007 BF00700433 S2CID 83906865 Woese Carl R Kandler O Wheelis M 1990 Towards a natural system of organisms proposal for the domains Archaea Bacteria and Eucarya Proc Natl Acad Sci USA 87 12 4576 9 Bibcode 1990PNAS 87 4576W doi 10 1073 pnas 87 12 4576 PMC 54159 PMID 2112744 Kandler Otto 1994 The early diversification of life In Stefan Bengtson ed Early Life on Earth Nobel Symposium 84 New York Columbia U P pp 152 160 Kandler Otto 1998 The early diversification of life and the origin of the three domains A proposal In Jurgen Wiegel Michael W W Adams eds Thermophiles The keys to molecular evolution and the origin of life London Taylor and Francis Ltd pp 19 31 ISBN 978 0 203 48420 3 Sapp Jan A 2009 The new foundations of evolution on the tree of life New York Oxford University Press ISBN 978 0 199 73438 2 Kandler Otto 1950 Uber die Beziehungen zwischen Phosphathaushalt und Photosynthese I Phosphatspiegelschwankungen bei Chlorella pyrenoidosa als Folge des Licht Dunkel Wechsels On the relationship between phosphate metabolism and photosynthesis I Variations in phosphate levels in Chlorella pyrenoidosa as a consequence of light dark changes PDF Zeitschrift fur Naturforschung 5b 8 423 437 doi 10 1515 znb 1950 0806 S2CID 97588826 Kandler Otto 1954 Uber die Beziehungen zwischen Phosphathaushalt und Photosynthese II Gesteigerter Glucoseeinbau im Licht als Indikator einer lichtabhangigen Phosphorylierung On the relationship between phosphate metabolism and photosynthesis II Increases in glucoseuptake content in light as an indicator of a light dependent phosphorylation PDF Zeitschrift fur Naturforschung 9b 10 625 644 doi 10 1515 znb 1954 1001 S2CID 201841742 Kandler Otto 1955 Uber die Beziehungen zwischen Phosphathaushalt und Photosynthese III Hemmungsanalyse der lichtabhangigen Phosphorylierung On the relationship between phosphate metabolism and photosynthesis III Inhibition analysis of light dependent phosphorylation PDF Zeitschrift fur Naturforschung 10b 38 46 doi 10 1515 znb 1955 0109 S2CID 201841669 Bayerischer Verdienstorden fur drei LMU Professoren Informationsdienst Wissenschaft 14 July 2005 Retrieved 23 November 2017 List of all publications Prof Dr Otto Kandler Chronologisches Schriftenverzeichnis PDF Bavarian Academy of Sciences and Humanities Retrieved 18 January 2018 Bucherschatze aus funf Jahrhunderten Prof Dr Otto Kandlers Sammlung historischer Botanik Werke Universitat Regensburg 23 October 2020 Retrieved 12 December 2023 Kandler Otto 1950 Versuche zur Kultur isolierten Pflanzengewebes in vitro Planta 38 5 564 585 Bibcode 1950Plant 38 564K doi 10 1007 BF01939622 S2CID 24198583 Kandler Otto 1981 Historical perspectives on queries concerning photo phosphorylation In George Akoyunoglou ed Photosynthesis Proceedings of the Fifth International Congress on Photosynthesis September 7 13 1980 Halkidiki Greece Vol 1 Photophysical Processes Membrane Energization Philadelphia PA Balaban Intern Science Services pp 3 14 ISBN 978 0 86689 006 9 Muller Hans E 1998 Portrait Otto Kandler und die moderne Mikrobiologie PDF Der Mikrobiologe Mitteilungen des Berufsverbands der Arzte fur Mikrobiologie Virologie und Infektionsepidemiologie 8 3 38 43 ISSN 0943 674X Lynen Feodor Holzer Helmut 1949 Uber den aeroben Phosphatbedarf der Hefe II Die Umsetzung von Butylalkohol und Butyraldehyd Liebigs Annalen der Chemie 563 2 213 239 doi 10 1002 jlac 19495630206 Arnon Daniel I Whatley F R Allen M B 1954 Photosynthesis by isolated chloroplasts II Photophosphorylation the conversion of light into phosphate bond energy J Am Chem Soc 76 24 6324 6329 doi 10 1021 ja01653a025 Arnon Daniel I 1956 Phosphorus metabolism and photosynthesis Annual Review of Plant Physiology 7 325 354 doi 10 1146 annurev pp 07 060156 001545 Kandler Otto Gibbs Martin 1956 Asymmetric distribution of C14 in the glucose phosphates formed during photosynthesis PDF Plant Physiology 31 5 411 412 doi 10 1104 pp 31 5 411 PMC 540816 PMID 16654912 Kandler Otto Hopf Herbert 1980 Occurrence metabolism and function of oligosaccharides In Jack Preiss ed The Biochemistry of Plants Carbohydrates Structure and Function New York Academic Press Inc pp 221 270 doi 10 1016 B978 0 12 675403 2 50013 2 ISBN 978 0 12 675403 2 Tanner Widmar Renner Susanne 2018 Prof Dr Dr h c mult OTTO KANDLER 1920 2017 PDF Retrieved 17 December 2018 Kandler Gertraud Kandler Otto 1954 Untersuchungen uber die Morphologie und die Vermehrung der pleuropneumonie ahnlichen Organismen und der L Phase der Bakterien I Lichtmikroskopische Untersuchungen Studies on morphology and multiplication of pleuropneumonia like organisms and on bacterial L phase I Light microscopy now mycoplasmas and L form bacteria PDF Archiv fur Mikrobiologie 21 2 Article in English available 178 201 doi 10 1007 BF01816378 PMID 14350641 S2CID 21257985 Kandler Gertraud Kandler Otto Huber Oskar 1954 Untersuchungen uber die Morphologie und die Vermehrung der pleuropneumonie ahnlichen Organismen und der L Phase der Bakterien II Elektronenmikroskopische Untersuchungen Studies on morphology and multiplication of pleuropneumonia like organisms and on bacterial L phase II Electron microscopy now mycoplasmas and L form bacteria PDF Archiv fur Mikrobiologie 21 2 Article in English available 202 216 doi 10 1007 BF01816379 PMID 14350642 S2CID 45546531 Leaver M Dominguez Cuevas P Coxhead J M Daniel R A Errington Jeff 2009 Life without a wall or division machine in Bacillus subtilis Nature vol 460 no 7254 p 538 Bibcode 2009Natur 460 538L doi 10 1038 nature08232 Romain Mercier Yoshikazu Kawai Jeff Errington 2014 General principles for the formation and proliferation of a wall free L form state in bacteria eLife vol 3 doi 10 7554 elife 04629 PMC 4244569 PMID 25358088 Jeff Errington Katarzyna Mickiewicz Yoshikazu Kawai Ling Juan Wu 2016 L form bacteria chronic diseases and the origins of life Philosophical Transactions of the Royal Society B Biological Sciences vol 371 no 1707 doi 10 1098 rstb 2015 0494 PMC 5052740 PMID 27672147 Schleifer Karl Heinz Kandler Otto 1972 Peptidoglycan types of bacterial cell Walls and their taxonomic implications Bacteriological Reviews 36 4 407 775 doi 10 1128 MMBR 36 4 407 477 1972 PMC 408328 PMID 4568761 Konig Helmut Kandler Otto 1979 The amino acid sequence of the peptide moiety of the pseudomurein from Methanobacterium thermoautotrophicum Archives of Microbiology 121 3 271 275 Bibcode 1979ArMic 121 271K doi 10 1007 BF00425067 PMID 518234 S2CID 27025651 Kurr M Huber R Konig H Jannasch HW Fricke H Trincone A Kristjansson JK Stetter KO 1991 Methanopyrus kandleri gen and sp nov represents a novel group of hyperthermophilic methanogens growing at 110 C Arch Microbiol 156 4 239 247 Bibcode 1991ArMic 156 239K doi 10 1007 BF00262992 S2CID 20254769 Stetter Karl O 2011 Part 4 Extremophiles Thermophiles In Koki Horikoshi Garabed Antranikian Alan T Bull Frank T Robb Karl O Stetter eds History of Discovery of Hyperthermophiles Vol 1 Tokyo Springer Science Business Media pp 404 425 ISBN 9784431538974 a href wiki Template Cite book title Template Cite book cite book a work ignored help Woese C Fox G 1977 Phylogenetic structure of the prokaryotic domain the primary kingdoms Proc Natl Acad Sci USA 74 11 5088 90 Bibcode 1977PNAS 74 5088W doi 10 1073 pnas 74 11 5088 PMC 432104 PMID 270744 Morell Virginia 1997 Microbiology s scarred revolutionary Science New Series 276 5313 699 701 doi 10 1126 science 276 5313 699 PMID 9157549 S2CID 84866217 Retrieved 25 December 2022 Carl R Woese Guestbook Dear friend and Archaekaiser Carl R Woese Institute for Genomic Biology Retrieved 24 January 2018 Otto Kandler ed 1982 Archaebacteria Proceedings of the 1st International Workshop on Archaebacteria June 27th July 1st 1981 Stuttgart Gustav Fischer Verlag ISBN 978 3 437 10797 9 Otto Kandler Wolfram Zillig eds 1986 Archaebacteria 85 Proceedings of the EMBO Workshop on Molecular Genetics of Archaebacteria International Workshop on Biology and Biochemistry of Archaebacteria June 23 26 1985 Stuttgart Gustav Fischer Verlag ISBN 978 3 437 11057 3 Renner Susanne S 2017 Prof Dr Dr h c mult Otto Kandler 1920 2017 Beschreiber der Dritten Domaine des Lebens und Vorreiter der Okologie in Bayern PDF Berichte der Bayerischen Botanischen Gesellschaft 87 231 246 Quammen David 2018 The Tangled Tree A Radical New History of Life New York Simon amp Schuster pp 210f ISBN 978 1 4767 7662 0 Wheelis Mark L Kandler O Woese Carl R 1992 On the nature of global classification Proc Natl Acad Sci USA 89 7 2930 2934 Bibcode 1992PNAS 89 2930W doi 10 1073 pnas 89 7 2930 PMC 48777 PMID 11537862 Madigan Michael T Aiyer Jennifer Buckley Daniel H Sattley Matthew Stahl David A 2022 Brock Biology of Microorganisms 16 ed Harlow Pearson Education pp Unit 3 chapter 13 435 tree of life ISBN 978 1 292 40479 0 Wiegel Jurgen 1998 Lateral Gene Exchange an Evolutionary Mechanism for Extending the Upper or Lower Temperature Limits for Growth of Microorganisms A Hypothesis In Jurgen Wiegel Michael W W Adams eds Thermophiles The keys to molecular evolution and the origin of life London Taylor and Francis Ltd pp 177 185 ISBN 978 0 203 48420 3 Wachtershauser Gunter 2003 From pre cells to Eukarya a tale of two lipids Molecular Microbiology 47 1 13 22 doi 10 1046 j 1365 2958 2003 03267 x PMID 12492850 S2CID 37944519 Wachtershauser Gunter October 2006 From volcanic origins of chemoautotrophic life to Bacteria Archaea and Eukarya Philosophical Transactions of the Royal Society of London Series B Biological Sciences 361 1474 1787 1808 doi 10 1098 rstb 2006 1904 PMC 1664677 PMID 17008219 Zur Geschichte des Forums Okologie Retrieved 25 January 2018 Kandler Otto Poelt Josef 1984 Wiederbesiedlung der Innenstadt von Munchen durch Flechten Naturwissenschaftliche Rundschau 37 90 95 Kandler Otto 1994 Vierzehn Jahre Waldschadensdiskussion Szenarien und Fakten PDF Naturwissenschaftliche Rundschau 47 11 419 430 Horeis Heinz November 2005 Begrabt das Waldsterben Novo Magazin 79 Leopoldina Nationale Akademie der Wissenschaften Mitglieder Academy of Sciences Leopoldina Retrieved 3 October 2022 The Bergey Award Awardees Bergey s Manual Trust Retrieved 3 October 2022 Bayerische Akademie der Wissenschaften Verstorbene Mitglieder Bavarian Academy of Sciences and Humanities Retrieved 3 October 2022 Ehrung anlasslich der Verleihung der Professor Hermann Weigmann Medaille fur Professor Dr Dr h c Otto Kandler Munchen Forum Mikrobiologie 7 4 214 1984 Ferdinand Cohn Medaille Deutsche Gesellschaft fur Hygiene und Mikrobiologie DGHM in German Retrieved 16 December 2018 Former Honorary Members of the DBG Deutsche Botanische Gesellschaft www deutsche botanische gesellschaft de Retrieved 16 December 2018 Honorary members Vereinigung fur Allgemeine und Angewandte Mikrobiologie VAAM vaam de Retrieved 3 October 2022