Current Challenges in Plant Eco-Metabolomics

Peters K, Worrich A, Weinhold A, Alka O, Balcke G, Birkemeyer C, Bruelheide H, Calf O, Dietz S, Dührkop K, Gaquerel E, et al. (2018)
International Journal of Molecular Sciences 19(5): 1385.

Zeitschriftenaufsatz | Veröffentlicht | Englisch
 
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URN
urn:nbn:de:0070-pub-29196713
Autor*in
Peters, Kristian; Worrich, Anja; Weinhold, Alexander; Alka, Oliver; Balcke, Gerd; Birkemeyer, Claudia; Bruelheide, Helge; Calf, Onno; Dietz, Sophie; Dührkop, Kai; Gaquerel, Emmanuel; Heinig, Uwe
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Einrichtung
Fakultät für Biologie > Chemische Ökologie
Abstract / Bemerkung
The relatively new research discipline of Eco-Metabolomics is the application of metabolomics techniques to ecology with the aim to characterise biochemical interactions of organisms across different spatial and temporal scales. Metabolomics is an untargeted biochemical approach to measure many thousands of metabolites in different species, including plants and animals. Changes in metabolite concentrations can provide mechanistic evidence for biochemical processes that are relevant at ecological scales. These include physiological, phenotypic and morphological responses of plants and communities to environmental changes and also interactions with other organisms. Traditionally, research in biochemistry and ecology comes from two different directions and is performed at distinct spatiotemporal scales. Biochemical studies most often focus on intrinsic processes in individuals at physiological and cellular scales. Generally, they take a bottom-up approach scaling up cellular processes from spatiotemporally fine to coarser scales. Ecological studies usually focus on extrinsic processes acting upon organisms at population and community scales and typically study top-down and bottom-up processes in combination. Eco-Metabolomics is a transdisciplinary research discipline that links biochemistry and ecology and connects the distinct spatiotemporal scales. In this review, we focus on approaches to study chemical and biochemical interactions of plants at various ecological levels, mainly plant–organismal interactions, and discuss related examples from other domains. We present recent developments and highlight advancements in Eco-Metabolomics over the last decade from various angles. We further address the five key challenges: (1) complex experimental designs and large variation of metabolite profiles; (2) feature extraction; (3) metabolite identification; (4) statistical analyses; and (5) bioinformatics software tools and workflows. The presented solutions to these challenges will advance connecting the distinct spatiotemporal scales and bridging biochemistry and ecology.
Erscheinungsjahr
2018
Zeitschriftentitel
International Journal of Molecular Sciences
Band
19
Ausgabe
5
Art.-Nr.
1385
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Creative Commons Namensnennung 4.0 International Public License (CC-BY 4.0)
ISSN
1422-0067
eISSN
1422-0067
Page URI
https://pub.uni-bielefeld.de/record/2919671

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Peters K, Worrich A, Weinhold A, et al. Current Challenges in Plant Eco-Metabolomics. International Journal of Molecular Sciences. 2018;19(5): 1385.
Peters, K., Worrich, A., Weinhold, A., Alka, O., Balcke, G., Birkemeyer, C., Bruelheide, H., et al. (2018). Current Challenges in Plant Eco-Metabolomics. International Journal of Molecular Sciences, 19(5), 1385. https://doi.org/10.3390/ijms19051385
Peters, Kristian, Worrich, Anja, Weinhold, Alexander, Alka, Oliver, Balcke, Gerd, Birkemeyer, Claudia, Bruelheide, Helge, et al. 2018. “Current Challenges in Plant Eco-Metabolomics”. International Journal of Molecular Sciences 19 (5): 1385.
Peters, K., Worrich, A., Weinhold, A., Alka, O., Balcke, G., Birkemeyer, C., Bruelheide, H., Calf, O., Dietz, S., Dührkop, K., et al. (2018). Current Challenges in Plant Eco-Metabolomics. International Journal of Molecular Sciences 19:1385.
Peters, K., et al., 2018. Current Challenges in Plant Eco-Metabolomics. International Journal of Molecular Sciences, 19(5): 1385.
K. Peters, et al., “Current Challenges in Plant Eco-Metabolomics”, International Journal of Molecular Sciences, vol. 19, 2018, : 1385.
Peters, K., Worrich, A., Weinhold, A., Alka, O., Balcke, G., Birkemeyer, C., Bruelheide, H., Calf, O., Dietz, S., Dührkop, K., Gaquerel, E., Heinig, U., Kücklich, M., Macel, M., Müller, C., Poeschl, Y., Pohnert, G., Ristok, C., Rodríguez, V., Ruttkies, C., Schuman, M., Schweiger, R., Shahaf, N., Steinbeck, C., Tortosa, M., Treutler, H., Ueberschaar, N., Velasco, P., Weiß, B., Widdig, A., Neumann, S., Dam, N.: Current Challenges in Plant Eco-Metabolomics. International Journal of Molecular Sciences. 19, : 1385 (2018).
Peters, Kristian, Worrich, Anja, Weinhold, Alexander, Alka, Oliver, Balcke, Gerd, Birkemeyer, Claudia, Bruelheide, Helge, Calf, Onno, Dietz, Sophie, Dührkop, Kai, Gaquerel, Emmanuel, Heinig, Uwe, Kücklich, Marlen, Macel, Mirka, Müller, Caroline, Poeschl, Yvonne, Pohnert, Georg, Ristok, Christian, Rodríguez, Victor, Ruttkies, Christoph, Schuman, Meredith, Schweiger, Rabea, Shahaf, Nir, Steinbeck, Christoph, Tortosa, Maria, Treutler, Hendrik, Ueberschaar, Nico, Velasco, Pablo, Weiß, Brigitte, Widdig, Anja, Neumann, Steffen, and Dam, Nicole. “Current Challenges in Plant Eco-Metabolomics”. International Journal of Molecular Sciences 19.5 (2018): 1385.
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3 Zitationen in Europe PMC

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Metabolomics of Thrips Resistance in Pepper (Capsicum spp.) Reveals Monomer and Dimer Acyclic Diterpene Glycosides as Potential Chemical Defenses.
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Metabolite Analysis and Metabolomics in the Study of Biotrophic Interactions between Plants and Microbes
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Abiotic Stress and Metabolomics
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Metabolomics: the chemistry between ecology and genetics.
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Hopkins RJ, van Dam NM, van Loon JJ., Annu. Rev. Entomol. 54(), 2009
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Functional classifications and their application in phytoplankton ecology
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Chemical ecology of fruit bat foraging behavior in relation to the fruit odors of two species of paleotropical bat-dispersed figs (Ficus hispida and Ficus scortechinii).
Hodgkison R, Ayasse M, Kalko EK, Haberlein C, Schulz S, Mustapha WA, Zubaid A, Kunz TH., J. Chem. Ecol. 33(11), 2007
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Mithofer A, Boland W., Annu Rev Plant Biol 63(), 2012
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Comparison of the Chemical Compositions of the Cuticle and Dufour's Gland of Two Solitary Bee Species from Laboratory and Field Conditions.
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Ecometabolomics: Optimized NMR-based method
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Rocca-Serra P, Salek RM, Arita M, Correa E, Dayalan S, Gonzalez-Beltran A, Ebbels T, Goodacre R, Hastings J, Haug K, Koulman A, Nikolski M, Oresic M, Sansone SA, Schober D, Smith J, Steinbeck C, Viant MR, Neumann S., Metabolomics 12(), 2015
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Navigating freely-available software tools for metabolomics analysis.
Spicer R, Salek RM, Moreno P, Canueto D, Steinbeck C., Metabolomics 13(9), 2017
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Metabolomic analysis of the interaction between plants and herbivores
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Metabolomics—The link between genotypes and phenotypes
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Metabolomics: Current analytical platforms and methodologies
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An exometabolomics approach to monitoring microbial contamination in microalgal fermentation processes by using metabolic footprint analysis.
Sue T, Obolonkin V, Griffiths H, Villas-Boas SG., Appl. Environ. Microbiol. 77(21), 2011
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Gao P, Xu G., Anal Bioanal Chem 407(3), 2014
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Toward a methodical framework for comprehensively assessing forest multifunctionality.
Trogisch S, Schuldt A, Bauhus J, Blum JA, Both S, Buscot F, Castro-Izaguirre N, Chesters D, Durka W, Eichenberg D, Erfmeier A, Fischer M, Geißler C, Germany MS, Goebes P, Gutknecht J, Hahn CZ, Haider S, Hardtle W, He JS, Hector A, Honig L, Huang Y, Klein AM, Kuhn P, Kunz M, Leppert KN, Li Y, Liu X, Niklaus PA, Pei Z, Pietsch KA, Prinz R, Proß T, Scherer-Lorenzen M, Schmidt K, Scholten T, Seitz S, Song Z, Staab M, von Oheimb G, Weißbecker C, Welk E, Wirth C, Wubet T, Yang B, Yang X, Zhu CD, Schmid B, Ma K, Bruelheide H., Ecol Evol 7(24), 2017
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Comparative cryptogam ecology: a review of bryophyte and lichen traits that drive biogeochemistry.
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Stitt M, Gibon Y, Lunn JE, Piques M., Functional plant biology : FPB. 34(6), 2007
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Transcript, protein and metabolite temporal dynamics in the CAM plant Agave.
Abraham PE, Yin H, Borland AM, Weighill D, Lim SD, De Paoli HC, Engle N, Jones PC, Agh R, Weston DJ, Wullschleger SD, Tschaplinski T, Jacobson D, Cushman JC, Hettich RL, Tuskan GA, Yang X., Nat Plants 2(), 2016
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Proposal for field sampling of plants and processing in the lab for environmental metabolic fingerprinting.
Maier TS, Kuhn J, Muller C., Plant Methods 6(), 2010
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The importance of experimental design and QC samples in large-scale and MS-driven untargeted metabolomic studies of humans.
Dunn WB, Wilson ID, Nicholls AW, Broadhurst D., Bioanalysis 4(18), 2012
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Kucharikova A, Kusari S, Sezgin S, Spiteller M, Cellarova E., Front Plant Sci 7(), 2016
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Matrix-Assisted Laser Desorption/Ionization Time-of-Flight Mass-Spectrometry (MALDI-TOF MS) Based Microbial Identifications: Challenges and Scopes for Microbial Ecologists.
Rahi P, Prakash O, Shouche YS., Front Microbiol 7(), 2016
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Bouhifd M, Beger R, Flynn T, Guo L, Harris G, Hogberg H, Kaddurah-Daouk R, Kamp H, Kleensang A, Maertens A, Odwin-DaCosta S, Pamies D, Robertson D, Smirnova L, Sun J, Zhao L, Hartung T., ALTEX 32(4), 2015
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The reproducibility of liquid chromatography separation technology and its potential impact on large scale plant metabolomics experiments.
Arens N, Doll S, Mock HP., J. Chromatogr. B Analyt. Technol. Biomed. Life Sci. 991(), 2015
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Kiontke A, Oliveira-Birkmeier A, Opitz A, Birkemeyer C., PLoS ONE 11(12), 2016
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Birkemeyer C., Kopka J.., 2007
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Hutschenreuther A., Birkemeyer C., Grötzinger K., Straubinger R.K., Rauwald H.W.., 2010
XCMS: processing mass spectrometry data for metabolite profiling using nonlinear peak alignment, matching, and identification.
Smith CA, Want EJ, O'Maille G, Abagyan R, Siuzdak G., Anal. Chem. 78(3), 2006
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Rost HL, Sachsenberg T, Aiche S, Bielow C, Weisser H, Aicheler F, Andreotti S, Ehrlich HC, Gutenbrunner P, Kenar E, Liang X, Nahnsen S, Nilse L, Pfeuffer J, Rosenberger G, Rurik M, Schmitt U, Veit J, Walzer M, Wojnar D, Wolski WE, Schilling O, Choudhary JS, Malmstrom L, Aebersold R, Reinert K, Kohlbacher O., Nat. Methods 13(9), 2016
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Metabolomics: An emerging frontier of systems biology in marine macrophytes
Kumar M., Kuzhiumparambil U., Pernice M., Jiang Z., Ralph P.J.., 2016
Centering, scaling, and transformations: improving the biological information content of metabolomics data.
van den Berg RA, Hoefsloot HC, Westerhuis JA, Smilde AK, van der Werf MJ., BMC Genomics 7(), 2006
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Sturm M, Kohlbacher O., J. Proteome Res. 8(7), 2009
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Kuhl C, Tautenhahn R, Bottcher C, Larson TR, Neumann S., Anal. Chem. 84(1), 2011
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Wishart DS., Bioanalysis 1(9), 2009
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Xiao JF, Zhou B, Ressom HW., Trends Analyt Chem 32(), 2012
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Kopka J, Schauer N, Krueger S, Birkemeyer C, Usadel B, Bergmuller E, Dormann P, Weckwerth W, Gibon Y, Stitt M, Willmitzer L, Fernie AR, Steinhauser D., Bioinformatics 21(8), 2004
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Domingo-Almenara X, Perera A, Ramirez N, Canellas N, Correig X, Brezmes J., J Chromatogr A 1409(), 2015
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Xia J, Psychogios N, Young N, Wishart DS., Nucleic Acids Res. 37(Web Server issue), 2009
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Vinaixa M, Samino S, Saez I, Duran J, Guinovart JJ, Yanes O., Metabolites 2(4), 2012
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Newson R., Team A.S.., 2003
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Guo W, Romano J., Stat Appl Genet Mol Biol 6(), 2007
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Jamil T, Ozinga WA, Kleyer M, ter Braak CJF, Bello F., J. Veg. Sci. 24(6), 2013
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Smith R, Ventura D, Prince JT., Brief. Bioinformatics 16(1), 2013
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