Carnivorom

    2015 - 2016

    Alcaraz LD, Martinez-Sanchez S, Torres I, Ibarra-Laclette E, Herrera-Estrella L (2016) The Metagenome of Utricularia gibba's Traps: Into the Microbial Input to a Carnivorous Plant. PLoS One 11: e0148979

    Arai N, Nishimura E, Kikuchi Y, Ohyama T (2015) Functional analyses of carnivorous plant-specific amino acid residues in S-like ribonucleases. Biochem Biophys Res Commun 465: 108-12

    Augustynowicz J, Lukowicz K, Tokarz K, Plachno BJ (2015) Potential for chromium (VI) bioremediation by the aquatic carnivorous plant Utricularia gibba L. (Lentibulariaceae). Environ Sci Pollut Res Int 22: 9742-8

    Bauer U, Federle W, Seidel H, Grafe TU, Ioannou CC (2015) How to catch more prey with less effective traps: explaining the evolution of temporarily inactive traps in carnivorous pitcher plants. Proc Biol Sci 282: 20142675

    Bertol N, Paniw M, Ojeda F (2015) Effective prey attraction in the rare Drosophyllum lusitanicum, a flypaper-trap carnivorous plant. Am J Bot 102: 689-94

    Bohm J, Scherzer S, Krol E, Kreuzer I, von Meyer K, Lorey C, Mueller TD, Shabala L, Monte I, Solano R, Al-Rasheid KA, Rennenberg H, Shabala S, Neher E, Hedrich R (2016a) The Venus Flytrap Dionaea muscipula Counts Prey-Induced Action Potentials to Induce Sodium Uptake. Curr Biol 26: 286-95

    Bohm J, Scherzer S, Shabala S, Krol E, Neher E, Mueller TD, Hedrich R (2016b) Venus Flytrap HKT1-Type Channel Provides for Prey Sodium Uptake into Carnivorous Plant Without Conflicting with Electrical Excitability. Mol Plant 9: 428-36

    Buch F, Kaman WE, Bikker FJ, Yilamujiang A, Mithofer A (2015) Nepenthesin protease activity indicates digestive fluid dynamics in carnivorous nepenthes plants. PLoS One 10: e0118853

    Cao HX, Schmutzer T, Scholz U, Pecinka A, Schubert I, Vu GT (2015) Metatranscriptome analysis reveals host-microbiome interactions in traps of carnivorous Genlisea species. Front Microbiol 6: 526

    Carretero-Paulet L, Chang TH, Librado P, Ibarra-Laclette E, Herrera-Estrella L, Rozas J, Albert VA (2015) Genome-wide analysis of adaptive molecular evolution in the carnivorous plant Utricularia gibba. Genome Biol Evol 7: 444-56

    Carretero-Paulet L, Librado P, Chang TH, Ibarra-Laclette E, Herrera-Estrella L, Rozas J, Albert VA (2015) High Gene Family Turnover Rates and Gene Space Adaptation in the Compact Genome of the Carnivorous Plant Utricularia gibba. Mol Biol Evol 32: 1284-95

    El-Sayed AM, Byers JA, Suckling DM (2016) Pollinator-prey conflicts in carnivorous plants: When flower and trap properties mean life or death. Scientific reports 6: 21065

    Fukushima K, Fujita H, Yamaguchi T, Kawaguchi M, Tsukaya H, Hasebe M (2015) Oriented cell division shapes carnivorous pitcher leaves of Sarracenia purpurea. Nat Commun 6: 6450

    Gao P, Loeffler TS, Honsel A, Kruse J, Krol E, Scherzer S, Kreuzer I, Bemm F, Buegger F, Burzlaff T, Hedrich R, Rennenberg H (2015) Integration of trap- and root-derived nitrogen nutrition of carnivorous Dionaea muscipula. New Phytol 205: 1320-9

    Givnish TJ (2015) New evidence on the origin of carnivorous plants. Proc Natl Acad Sci U S A 112: 10-1
    Hedrich R (2015) Carnivorous plants. Curr Biol 25: R99-100

    Millett J, Foot GW, Svensson BM (2015) Nitrogen deposition and prey nitrogen uptake control the nutrition of the carnivorous plant Drosera rotundifolia. Sci Total Environ 512-513: 631-6

    Pavlovic A, Krausko M, Adamec L (2016) A carnivorous sundew plant prefers protein over chitin as a source of nitrogen from its traps. Plant Physiol Biochem 104: 11-16

    Plachno BJ, Stpiczynska M, Swiatek P, Davies KL (2015) Floral micromorphology of the Australian carnivorous bladderwort Utricularia dunlopii, a putative pseudocopulatory species. Protoplasma

    Poppinga S, Weisskopf C, Westermeier AS, Masselter T, Speck T (2015) Fastest predators in the plant kingdom: functional morphology and biomechanics of suction traps found in the largest genus of carnivorous plants. AoB Plants 8

    Sadowski EM, Seyfullah LJ, Sadowski F, Fleischmann A, Behling H, Schmidt AR (2015) Carnivorous leaves from Baltic amber. Proc Natl Acad Sci U S A 112: 190-5

    Salces-Castellano A, Paniw M, Casimiro-Soriguer R, Ojeda F (2016) Attract them anyway - Benefits of large, showy flowers in a highly autogamous, carnivorous plant species. AoB Plants

    Scatigna AV, Oliveira FA, Mantello CC, Francisco PM, Souza AP, Simoes AO (2015) Microsatellite markers for studies with the carnivorous plant Philcoxia minensis (Plantaginaceae). Appl Plant Sci 3

    Schoner MG, Schoner CR, Simon R, Grafe TU, Puechmaille SJ, Ji LL, Kerth G (2015) Bats Are Acoustically Attracted to Mutualistic Carnivorous Plants. Curr Biol 25: 1911-6

    Stephens JD, Rogers WL, Heyduk K, Cruse-Sanders JM, Determann RO, Glenn TC, Malmberg RL (2015) Resolving phylogenetic relationships of the recently radiated carnivorous plant genus Sarracenia using target enrichment. Mol Phylogenet Evol 85: 76-87

    Thanh NV, Thao NP, Dat le D, Huong PT, Lee SH, Jang HD, Cuong NX, Nam NH, Kiem PV, Minh CV, Kim YH (2015) Two new naphthalene glucosides and other bioactive compounds from the carnivorous plant Nepenthes mirabilis. Arch Pharm Res 38: 1774-82

    Thao NP, Luyen BT, Koo JE, Kim S, Koh YS, Thanh NV, Cuong NX, Kiem PV, Minh CV, Kim YH (2016) In vitro anti-inflammatory components isolated from the carnivorous plant Nepenthes mirabilis (Lour.) Rafarin. Pharm Biol 54: 588-94

    Tran TD, Cao HX, Jovtchev G, Neumann P, Novak P, Fojtova M, Vu GT, Macas J, Fajkus J, Schubert I, Fuchs J (2015a) Centromere and telomere sequence alterations reflect the rapid genome evolution within the carnivorous plant genus Genlisea. Plant J 84: 1087-99

    Tran TD, Cao HX, Jovtchev G, Novak P, Vu GT, Macas J, Schubert I, Fuchs J (2015b) Chromatin organization and cytological features of carnivorous Genlisea species with large genome size differences. Front Plant Sci 6: 613

    Voigt D, Konrad W, Gorb S (2015) A universal glue: underwater adhesion of the secretion of the carnivorous flypaper plant Roridula gorgonias. Interface Focus 5: 20140053

    Wan Zakaria WN, Loke KK, Goh HH, Mohd Noor N (2016) RNA-seq analysis for plant carnivory gene discovery in Nepenthes x ventrata. Genom Data 7: 18-9

    Wong WO, Dilcher DL, Labandeira CC, Sun G, Fleischmann A (2015) Early Cretaceous Archaeamphora is not a carnivorous angiosperm. Front Plant Sci 6: 326

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    Universität Würzburg
    Sanderring 2
    97070 Würzburg

    Tel.: +49 931 31-0
    Fax: +49 931 31-82600

    Suche Ansprechpartner

    Sanderring Röntgenring Hubland Nord Hubland Süd Campus Medizin