Thomas Hartmann (biologist)

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Hans Hartmann and his wife Liselotte (née Kolbe); he had two sisters, Sabine and Karoline. When his mother died in 1943, Hartmann and his sisters lived temporarily in the family of his uncle in Berlin. In 1951, Hans Hartmann married artist and teacher Tyra Hamann in

189:. There he headed the Institute of Pharmaceutical Biology for 28 years - from 1977 until his retirement in 2005. During this time, he initially worked on quinolizidine and, from 1982, pyrrolizidine alkaloids. Hartmann and co-workers elucidated the 177:

In 1973, he moved to the Botanical Institute of the University of Bonn as a scientific advisor and professor, heading the Department of Biochemistry of Plants. There, Hartmann conducted research on ammonia metabolism and

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Starting in June 1984, he was Vice President of the Technical University of Braunschweig, in addition Dean of the Departments of Chemistry, Pharmacy and Biosciences, and Chairman of the Faculty of Natural Sciences.

972: 1252: 445:) is 0.02% in alkaloids. Knowledge of alkaloid biosynthesis and the development of knowledge regarding genome and transcription for lupins are creating opportunities for the production of improved lupin plants. 617:

were analyzed by GC-MS and previously unknown compounds were identified. With one exception (senecivernine), all 26 alkaloids identified can be considered derivatives of senecionine with conversion of the

545:) selectively produces lolines (mainly N-formyl-loline, then also N-acetyl-loline, N-acetyl-norloline, and traces of loline and N-methyl-loline) as a specific response to infection with the 153:

as a postdoctoral fellow for one year (1964/1965) and returned to the Pharmacognostic Institute in Bonn in 1965 as a research assistant. There he worked on amine formation in

588:(9-(2-hydroxy-3-methylbutanoyl)-retronecine), as well as other derivatives of these esters. In males, the creatonotines are direct precursors of the male mating pheromone 1176:: "Am 22. Juni 1984 wählte das Konzil der Technischen Universität Braunschweig den Leiter des Institutes für Pharmazeutische Biologie zum Vizepräsidenten." 592:. Hartmann et al. discuss the results in terms of pheromone formation and the defensive role of pyrrolizidine alkaloids against predators and parasites. 683: 103: 818:

The paper chromatographic quantitative determination of water vapor volatile biogenic amines, and studies on their biogenesis in Claviceps purpurea

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defend themselves against predators by ingesting tertiary lycopsamine-type pyrrolizidine alkaloids (already in the larvae) of their host plant

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On August 28, 2003, he was co-founder of the Förderkreis des Arzneipflanzengartens e.V. in Braunschweig and was elected as its first chairman.

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cannot be explained by the gain and loss of alkaloid-specific genes, but rather by switching gene expression of specific enzymes off and on.

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Tissue distribution, core biosynthesis and diversification of pyrrolizidine alkaloids of the lycopsamine type in three Boraginaceae species

708: 186: 142: 67: 694: 568:, it has been outlined that larvae prefer food with an artificial enrichment of pyrrolizidine alkaloids, which they modify by specific 1247: 1104:

Sequestration, metabolism and partial synthesis of tertiary pyrrolizidine alkaloids by the neotropical leaf-beetle Platyphora boucardi

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Homospermidine synthase, the first pathway-specific enzyme of pyrrolizidine alkaloid biosynthesis, evolved from deoxyhypusine synthase

847:Über das zeitliche Auftreten flüchtiger Amine und freier Aminosäuren in wachsenden, saprophytischen Kulturen von Claviceps Purpurea 1173: 482:

Biosynthesis, diversification and tissue distribution of lycopsamine alkaloids in three species of broadleaf plants (Boraginaceae)

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Biosynthesis of pyrrolizidine alkaloids: Putrescine and spermidine are essential substrates of enzymatic homospermidine formation

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Biochemical and biogenetic aspects of the biosynthesis of quinolizidine alkaloids in photomixotrophic cell suspension cultures

711:. In addition, he was a full member of the Braunschweig Scientific Society and, since 1999, a corresponding member of the 913:

Production of Quinolizidine Alkaloids by Photomixotrophic Cell Suspension Cultures: Biochemical and Biogenetic Aspects 1

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Tissue distribution and biosynthesis of 1,2-saturated pyrrolizidine alkaloids in Phalaenopsis hybrids (Orchidaceae)

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Biosynthesis and tissue distribution of 1,2-saturated pyrrolizidine alkaloids in Phalaenopsis hybrids (Orchidaceae)

430:, suggesting that in lupin leaves, lysine decarboxylase is an integral component of alkaloid-specific biosynthesis. 361: 765: 674:

He was involved in several scientific committees and societies, including the Scientific Advisory Board of the

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Hartmann also served on the supervisory board of the Gesellschaft für Biotechnologische Forschung (GBF; now

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Frequent gain and loss of pyrrolizidine alkaloids in the evolution of Senecio section Jacobaea (Asteraceae)

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Phenological fate of plant-acquired pyrrolizidine alkaloidsin the polyphagous arctiid Estigmene acrea

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In Memoriam – Constant Collin Delwiche, Professor of Soil Biogeochemistry, Emeritus Davis, 1917–2001

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Thomas Hartmann and Erika Orth married in 1964. They had three children and eight grandchildren.

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Senecionine alkaloids are found as secondary metabolites in most species of the genus Greisweed (

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Volume 45(2), February 2019 of the Journal of Chemical Ecology was dedicated to Thomas Hartmann

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Biosynthetic incorporation of the aminobutyl group of spermidine into pyrrolizidine alkaloids.

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Biosynthetic incorporation of the aminobutyl group of spermidine into pyrrolizidine alkaloids

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Leucin-Carboxylyase aus marinen rhodophyceae: Vorkommen, Verbreitung und einige Eigenschaften

99:(Herchen), where he graduated from Bodelschwingh Gymnasium boarding school in February 1957. 1085:

Distribution, biosynthesis and turnover of pyrrolizidine alkaloids in Cynoglossum officinale

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Levels and tissue distribution of loline alkaloids in endophyte-infected Festuca pratensis

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in Jena, the advisory board of the Swiss National Centre of Competence in Research at the

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Lysine decarboxylase in plants and its integration in quinolizidine alkaloid biosynthesis

690:, and the Commission of the Science Council for the Reform of State Examination Courses. 386: 91:, who had two adult daughters. Hartmann attended elementary and high schools in Berlin, 761:

From waste products to ecochemicals: Fifty years research of plant secondary metabolism

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Personal Memories of Professor Thomas Hartmann, Chemical Ecologist in Heart and Soul

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Pyrrolizidine alkaloids of the lycopsamine type: biosynthesis of trachelanthic acid

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and higher plants and on the occurrence and function of a L-leucine carboxylase in

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Silver Medal Award of the International Society of Chemical Ecology (ISCE) in 1998

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Methode zur Quantitativen Trennung und Bestimmung flüchtiger Pflanzlicher Amine

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P. B. Pelser, H.e de Vos, C. Theuring, T. Beuerle, K. Vrieling, T. Hartmann:

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and function of pyrrolizidine alkaloids in plants and their use in insects.

715:, as well as President of the International Society of Chemical Ecology. 102:

Starting in 1957, Hartmann studied chemistry, biology and sports at the

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Biosynthesis, distribution and turnover of pyrrolizidine alkaloids in

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Review article: Toxic quinolizidine metabolites present in the genus

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who was professor in the Department of Pharmaceutical Biology at the

441:) but not in seeds; the limit for commercial use as feed and food ( 951:

T. Hatzold, I. Elmadfa, R. Gross, M. Wink, T. Hartmann, L. Witte:

693: 619: 385: 374: 360: 349: 154: 59: 18: 107: 654:. The results suggest that differences in alkaloid profiles in 630:

within the necin acid moiety. Other reactions include specific

477:(EC 2.5.1.46, spermidine:eIF5A-lysine 4-aminobutyltransferase). 1186:

Förderkreis des Arzneipflanzengartens e.V. der TU Braunschweig

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Hartmann published over 200 research articles (161 listed in

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Bielefelder Stadtarchiv (Westfalen-Blatt, 15 February 2005)

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Academic staff of the Technical University of Braunschweig

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at the Pharmacognostic Institute in Bonn (dissertation:

110:. He graduated in 1962 and subsequently completed his 1139:

T. Hartmann, C. Theuring, T. Beuerle, E. A. Bernays:

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Quinolizidine alkaloids in seeds of Lupinus mutabilis

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as substrates of enzymatic homospermidine formation.

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T. Hartmann, C. Theuring, L. Witte, J. M. Pasteels:

1082:N. M. van Dam, L. Witte, C. Theuring, T. Hartmann: 30:, (February 2, 1937 – May 27, 2017), was a German 1145:, in Chemoecology (2004), vol. 14(3), p. 207-216. 1044:S. Weber, W. Eisenreich, A. Bacher, T.Hartmann: 932:G. Schoofs, S. Teichmann, T. Hartmann, M. Wink: 580:(9-(2-hydroxy-3-methylbutanoyl)-supinidine) and 524:and storing them selectively in defense glands. 128:, sowie Untersuchungen zu ihrer Biogenese bei 124:quantitative Bestimmung wasserdampfflüchtiger 808:, Jubiläums-Festschrift, Herchen 1976, S. 172 82:Thomas Hartmann was born in Berlin as son of 8: 895:Prof Dr. Thomas Hartmann zum 60. Geburtstag 185:In 1976, Hartmann accepted a call from the 16:German pharmaceutical biologist (1937–2017) 698:Thomas Hartmann bei einer Exkursion (2013) 607:) and serve as a chemical defense against 418:content and alkaloid content of leaves in 806:Bodelschwingh-Gymnasium Herchen 1951–1976 707:- HZI) and was a trusted lecturer of the 684:Max Planck Institute for Chemical Ecology 410:activity in leaves of alkaloid-producing 473:(EC 2.5.1.44) evolved from the gene for 145:, Hartmann joined the research group of 104:Rheinische Friedrich-Wilhelms University 786: 705:Helmholtz Centre for Infection Research 676:Leibniz Institute of Plant Biochemistry 535:(GC-MS), it has been demonstrated that 489:(2,3-dihydroxy-2-isopropylbutyric acid) 247: 204: 70:of these secondary natural products by 1197:Jacques Pasteels und Nelida E. Gomez: 7: 1018:(1999), vol. 96(26), p. 14777-14782. 709:Studienstiftung des Deutschen Volkes 187:Technical University of Braunschweig 970:F. Böttcher, D. Ober, T. Hartmann: 769:, vol. 68 (2007), p. 2831–2846 611:. Twenty-four of the 26 species of 143:German National Academic Foundation 40:Technische Universität Braunschweig 1164:(2005), vol. 66(11), p. 1285-1295. 1120:M. Justus, L. Witte, T. Hartmann: 1111:(2001), vol. 31(11), p. 1041-1056. 1073:(2006), vol. 67(14), p. 1493-1502. 1063:C. Frölich, T. Hartmann, D. Ober: 1027:C. Frölich, D. Ober, T. Hartmann: 884:(1972), Band 11 (4), S. 1327-1336. 173:Reaktion der Glutamatdehydrogenase 14: 1054:(1999), vol. 50(6), p. 1005-1014. 1035:(2007), vol. 68(7), p. 1026-1037. 999:(1997), vol. 45(8), p. 1591-1595. 748:T. Hartmann und Walter Eschrich: 317: 305: 290: 278: 264: 250: 233: 221: 207: 114:in 1964 in the lab of biologist 1207:(2019), vol. 45(2), p. 107-108. 1174:Stadtchronik Braunschweig, 1984 1092:(1995), vol. 39(2), p. 287-292. 961:(1983), vol. 31(5), p. 934–938. 836:(1965), vol. 65(4), p. 315-333. 151:University of California, Davis 141:As a scholarship holder of the 1223:20th-century German biologists 756:, vol. 85(4), p. 303-312 622:base moiety retronecin to the 437:are desirable in plant parts ( 42:. His research focused on the 1: 1130:(1997), vol. 44(1), p. 51-57. 980:(2011), vol. 72(1), p. 80-85. 978:Canadian Journal of Chemistry 942:(1983), vol. 22(1), p. 65-69. 853:(1965), vol. 66(1), p. 27-43. 1233:Scientists from Braunschweig 1188:; retrieved 19 January 2020. 732:In Memory of Thomas Hartmann 713:Bavarian Academy of Sciences 682:, the advisory board of the 529:capillary gas chromatography 455:Biosynthesis: importance of 1205:Journal of Chemical Ecology 414:correlates positively with 1269: 1016:Proc. Natl. Acad. Sci. USA 863:University of California: 750:Stofftransport in Rotalgen 634:, sometimes followed by O- 558:For the life cycle of the 1248:University of Bonn alumni 1109:Insect Biochem. Mol Biol. 368:mit deutlich erkennbarer 989:G. Graser, T. Hartmann: 804:Bernhard Harms (Hrsg.): 469:Evolution: the gene for 147:Constant Collin Delwiche 122:papierchromatographische 78:Early life and education 32:pharmaceutical biologist 688:University of Neuchâtel 471:homospermidine synthase 451:Pyrrolizidine alkaloids 400:Quinolizidine alkaloids 199:intracellular transport 180:glutamate dehydrogenase 48:intracellular transport 1008:D. Ober, T. Hartmann: 920:(1980), 40(10):149-155 910:M. Wink, T. Hartmann: 901:, vol. 44 (5), p. 767. 699: 555:up to seed maturation. 498:Cynoglossum officinale 475:deoxyhypusine synthase 395: 383: 372: 358: 357:(Vielblättrige Lupine) 174: 24: 23:Thomas Hartmann (2015) 743:Selected publications 697: 389: 378: 364: 353: 172: 22: 959:J. Agric. Food Chem. 626:moiety and specific 408:Lysine decarboxylase 195:compartmentalization 412:Lupinus polyphyllus 390:Jakobs-Greiskraut ( 366:Platyphora boucardi 355:Lupinus polyphyllus 182:(GDH, EC 1.4.1.2). 165:in botany in 1969). 700: 487:trachelanthic acid 396: 384: 373: 359: 175: 130:Claviceps purpurea 116:Maximilian Steiner 25: 1228:German ecologists 542:Festuca pratensis 533:mass spectrometry 439:insect resistance 1260: 1208: 1195: 1189: 1183: 1177: 1171: 1165: 1152: 1146: 1137: 1131: 1118: 1112: 1099: 1093: 1080: 1074: 1061: 1055: 1042: 1036: 1025: 1019: 1006: 1000: 987: 981: 968: 962: 949: 943: 930: 924: 908: 902: 891: 885: 874: 868: 860: 854: 843: 837: 826: 820: 815: 809: 802: 796: 791: 723:Award and honors 665:Other activities 640:dehydrogenations 614:Senecio jacobaea 562:salt marsh moth 485:Biosynthesis of 392:Senecio jacobaea 321: 309: 294: 282: 268: 254: 237: 225: 211: 50:, and action of 1268: 1267: 1263: 1262: 1261: 1259: 1258: 1257: 1213: 1212: 1211: 1196: 1192: 1184: 1180: 1172: 1168: 1153: 1149: 1138: 1134: 1119: 1115: 1100: 1096: 1081: 1077: 1062: 1058: 1043: 1039: 1026: 1022: 1007: 1003: 988: 984: 969: 965: 950: 946: 931: 927: 909: 905: 892: 888: 875: 871: 861: 857: 844: 840: 827: 823: 816: 812: 803: 799: 792: 788: 784: 776: 745: 725: 667: 650:hydrolysis and 590:hydroxydanaidal 565:Estigmene acrea 510:of the species 380:Estigmene acrea 334: 327: 325:Hydroxydanaidal 322: 313: 310: 301: 295: 286: 283: 274: 269: 260: 255: 244: 238: 229: 226: 217: 212: 202: 166: 139: 80: 28:Thomas Hartmann 17: 12: 11: 5: 1266: 1264: 1256: 1255: 1250: 1245: 1240: 1235: 1230: 1225: 1215: 1214: 1210: 1209: 1190: 1178: 1166: 1162:Phytochemistry 1147: 1132: 1128:Phytochemistry 1113: 1094: 1090:Phytochemistry 1075: 1071:Phytochemistry 1056: 1052:Phytochemistry 1037: 1033:Phytochemistry 1020: 1001: 997:Phytochemistry 982: 963: 944: 940:Phytochemistry 925: 903: 899:Phytochemistry 886: 882:Phytochemistry 869: 855: 838: 821: 810: 797: 785: 783: 780: 775: 772: 771: 770: 766:Phytochemistry 757: 744: 741: 740: 739: 729: 724: 721: 720: 719: 716: 692: 691: 666: 663: 662: 661: 660: 659: 644:isomerizations 632:hydroxylations 593: 576:(methanol) to 570:esterification 556: 525: 522:portobellensis 501: 493: 490: 483: 480: 479: 478: 467: 448: 447: 446: 431: 427:Lupinus luteus 405: 333: 330: 329: 328: 323: 316: 314: 311: 304: 302: 300:-Formyl-Loline 296: 289: 287: 284: 277: 275: 270: 263: 261: 256: 249: 246: 245: 239: 232: 230: 227: 220: 218: 213: 206: 138: 135: 126:biogener Amine 95:(Bethel), and 79: 76: 15: 13: 10: 9: 6: 4: 3: 2: 1265: 1254: 1251: 1249: 1246: 1244: 1241: 1239: 1236: 1234: 1231: 1229: 1226: 1224: 1221: 1220: 1218: 1206: 1202: 1201: 1194: 1191: 1187: 1182: 1179: 1175: 1170: 1167: 1163: 1159: 1158: 1151: 1148: 1144: 1143: 1136: 1133: 1129: 1125: 1124: 1117: 1114: 1110: 1106: 1105: 1098: 1095: 1091: 1087: 1086: 1079: 1076: 1072: 1068: 1067: 1060: 1057: 1053: 1049: 1048: 1041: 1038: 1034: 1030: 1024: 1021: 1017: 1013: 1012: 1005: 1002: 998: 994: 993: 986: 983: 979: 975: 974: 967: 964: 960: 956: 955: 948: 945: 941: 937: 936: 929: 926: 923: 919: 918:Planta Medica 915: 914: 907: 904: 900: 896: 890: 887: 883: 879: 876:T. Hartmann: 873: 870: 867: 866: 859: 856: 852: 848: 845:T. Hartmann: 842: 839: 835: 831: 828:T. Hartmann: 825: 822: 819: 814: 811: 807: 801: 798: 795: 790: 787: 781: 779: 774:Personal life 773: 768: 767: 762: 759:T. Hartmann: 758: 755: 751: 747: 746: 742: 737: 733: 730: 727: 726: 722: 717: 714: 710: 706: 702: 701: 696: 689: 685: 681: 680:Halle (Saale) 677: 673: 672: 671: 664: 657: 653: 649: 645: 641: 637: 633: 629: 625: 621: 616: 615: 610: 606: 605: 600: 599: 594: 591: 587: 583: 579: 575: 571: 567: 566: 561: 557: 554: 552: 548: 544: 543: 538: 537:meadow fescue 534: 530: 526: 523: 521: 516: 514: 509: 506: 502: 500: 499: 494: 491: 488: 484: 481: 476: 472: 468: 465: 464: 462: 458: 454: 453: 452: 449: 444: 440: 436: 432: 429: 428: 423: 422: 421:Lupinus albus 417: 413: 409: 406: 403: 402: 401: 398: 397: 393: 388: 381: 377: 371: 367: 363: 356: 352: 348: 346: 344: 339: 331: 326: 320: 315: 308: 303: 299: 293: 288: 281: 276: 273: 267: 262: 259: 258:Pyrrolizidine 253: 248: 243: 236: 231: 224: 219: 216: 215:Quinolizidine 210: 205: 203: 200: 196: 192: 188: 183: 181: 171: 167: 164: 160: 156: 152: 148: 144: 136: 134: 132: 131: 127: 123: 117: 113: 109: 105: 100: 98: 94: 90: 85: 77: 75: 73: 69: 68:sequestration 65: 61: 58:alkaloids in 57: 56:pyrrolizidine 53: 52:quinolizidine 49: 45: 41: 37: 33: 29: 21: 1204: 1199: 1193: 1181: 1169: 1161: 1155: 1150: 1140: 1135: 1127: 1121: 1116: 1108: 1102: 1097: 1089: 1083: 1078: 1070: 1064: 1059: 1051: 1045: 1040: 1032: 1028: 1023: 1015: 1009: 1004: 996: 990: 985: 977: 971: 966: 958: 952: 947: 939: 933: 928: 921: 917: 911: 906: 898: 894: 889: 881: 877: 872: 864: 858: 850: 846: 841: 833: 829: 824: 817: 813: 805: 800: 789: 777: 764: 760: 753: 749: 731: 668: 655: 636:acetylations 628:epoxidations 612: 602: 596: 586:creatonotine 563: 549: 540: 518: 511: 508:leaf beetles 505:phytophagous 496: 450: 434: 425: 419: 411: 399: 391: 379: 365: 354: 342: 335: 297: 228:(+)-Lupanine 184: 176: 163:habilitation 140: 119: 101: 81: 44:biosynthesis 27: 26: 1243:2017 deaths 1238:1937 births 652:chlorolysis 638:, specific 582:retronecine 560:polyphagous 443:sweet lupin 416:chlorophyll 370:Warnfärbung 312:Senecionine 285:Lycopsamine 272:Retronecine 1217:Categories 782:References 609:herbivores 604:Asteraceae 574:supinidine 551:Acremonium 513:Platyphora 461:spermidine 457:putrescine 382:; Männchen 191:enzymology 893:M. Wink: 578:estigmine 553:uncinatum 547:endophyte 520:Prestonia 242:Sparteine 159:red algae 112:doctorate 93:Bielefeld 89:Bielefeld 84:architect 36:ecologist 624:otonecin 515:boucardi 347:= 42). 332:Research 66:and the 656:Senecio 648:epoxide 642:, E-/Z- 598:Senecio 435:Lupinus 97:Windeck 72:insects 851:Planta 834:Planta 754:Planta 646:, and 527:Using 345:-index 338:Scopus 137:Career 64:plants 1160:, in 1126:, in 1088:, in 1069:, in 1050:, in 1031:, in 1014:, in 995:, in 976:, in 957:, in 938:, in 916:, in 880:, in 620:necin 155:algae 60:fungi 503:The 459:and 424:and 240:(-)- 120:Die 108:Bonn 62:and 54:and 34:and 1203:in 1107:in 897:in 849:in 832:in 763:in 752:in 678:in 584:to 133:). 106:in 1219:: 734:: 601:; 572:- 340:, 197:, 193:, 149:, 74:. 46:, 922:. 738:. 539:( 531:/ 394:) 343:h 298:N 161:(

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Knowledge (XXG)

Thomas Hartmann (biologist)

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