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Published August 31, 2020 | Version v1
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Assessment of metabolic variability and diversity present in leaf, peel and pulp tissue of diploid and triploid Musa spp.

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  • 1. ∗ & School of Biological Sciences, Royal Holloway, University of London, Egham Hill, Egham, Surrey, TW20 0EX, UK

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Drapal, Margit, Amah, Delphine, Schöny, Harald, Brown, Allan, Swennen, Rony, Fraser, Paul D. (2020): Assessment of metabolic variability and diversity present in leaf, peel and pulp tissue of diploid and triploid Musa spp. Phytochemistry (112388) 176: 1-9, DOI: 10.1016/j.phytochem.2020.112388, URL: http://dx.doi.org/10.1016/j.phytochem.2020.112388

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urn:lsid:plazi.org:pub:FFC7FFEA2B03FFB2FFAFC95BC124FB7A

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Figure: 10.5281/zenodo.8295703 (DOI)
Figure: 10.5281/zenodo.8295705 (DOI)
Figure: 10.5281/zenodo.8295708 (DOI)
Figure: 10.5281/zenodo.8295710 (DOI)
Figure: 10.5281/zenodo.8295712 (DOI)

References

  • Amah, D., Alamu, E., Adesokan, M., van Biljon, A., Maziya-dixon, B., Swennen, R., Labuschagne, M., 2019. Variability of carotenoids in a Musa germplasm collection and implications for provitamin A biofortification. Food Chem. X 2, 100024.
  • Amah, D., van Biljon, A., Brown, A., Perkins-Veazie, P., Swennen, R., Labuschagne, M., 2018. Recent advances in banana (Musa spp.) biofortification to alleviate vitamin A deficiency. Crit. Rev. Food Sci. Nutr. 1-13.
  • Bar, M., Ori, N., 2014. Leaf development and morphogenesis. Development 141, 4219.
  • Bonnet, C.B., Hubert, O., Mbeguie-A-Mbeguie, D., Pallet, D., Hiol, A., Reynes, M., Poucheret, P., 2013. Effect of physiological harvest stages on the composition of bioactive compounds in Cavendish bananas. J. Zhejiang Univ. - Sci. B 14, 270-278.
  • Borges, C.V., Amorim, E.P., Leonel, M., Gomez, H.A.G., dos Santos, T.P.R., Ledo, C.A.d.S., Belin, M.A.F., de Almeida, S.L., Minatel, I.O., Lima, G.P.P., 2019. Post-harvest physicochemical profile and bioactive compounds of 19 bananas and plantains genotypes. Bragantia 78, 284-296.
  • Campos, N.A., Swennen, R., Carpentier, S.C., 2018. The plantain proteome, a focus on allele specific proteins obtained from plantain fruits. Proteomics 18, 1700227.
  • Carreel, F., Gonzalez de Leon, D., Lagoda, P., Lanaud, C., Jenny, C., P Horry, J., Tezenas du Montcel, H., 2002. Ascertaining maternal and paternal lineage within Musa by chloroplast and mitochondrial DNA RFLP analyses. Genome 45, 679-692.
  • Cenci, A., Hueber, Y., Zorrilla-Fontanesi, Y., van Wesemael, J., Kissel, E., Gislard, M., Sardos, J., Swennen, R., Roux, N., Carpentier, S.C., Rouard, M., 2019. Effect of paleopolyploidy and allopolyploidy on gene expression in banana. BMC Genom. 20, 244.
  • Chan, E.K.F., Rowe, H.C., Hansen, B.G., Kliebenstein, D.J., 2010. The complex genetic architecture of the metabolome. PLoS Genet. 6 e1001198-e1001198.
  • Christelova, P., De Langhe, E., Hribova, E., Cizkova, J., Sardos, J., Husakova, M., Van den houwe, I., Sutanto, A., Kepler, A.K., Swennen, R., Roux, N., Dolezel, J., 2017. Molecular and cytological characterization of the global Musa germplasm collection provides insights into the treasure of banana diversity. Biodivers. Conserv. 26, 801-824.
  • Clement, G., Moison, M., Soulay, F., Reisdorf-Cren, M., Masclaux-Daubresse, C., 2018. Metabolomics of laminae and midvein during leaf senescence and source-sink metabolite management in Brassica napus L. leaves. J. Exp. Bot. 69, 891-903.
  • Cordenunsi-Lysenko, B.R., Nascimento, J.R.O., Castro-Alves, V.C., Purgatto, E., Fabi, J.P., Peroni-Okyta, F.H.G., 2019. The starch is (not) just another brick in the wall: the primary metabolism of sugars during banana ripening. Front. Plant Sci. 10, 391.
  • Daniells, J., Jenny, C., Karamura, D., Tomekpe, K., 2001. Musalogue: a Catalogue of Musa Germplasm. Diversity in the Genus Musa. International Network for the Improvement of Banana and Plantain, Montpellier, France.
  • de Jesus, O.N., Silva, S.d.O., Amorim, E.P., Ferreira, C.F., de Campos, J.M.S., Silva, G.d.G., Figueira, A., 2013. Genetic diversity and population structure of Musa accessions in ex situ conservation. BMC Plant Biol. 13, 41.
  • Dhuli, P., Rohloff, J., Strimbeck, G.R., 2014. Metabolite changes in conifer buds and needles during forced bud break in Norway spruce (Picea abies) and European silver fir (Abies alba). Front. Plant Sci. 5, 706.
  • Drapal, M., de Carvalho, E.B., Rouard, M., Amah, D., Sardos, J., Van den Houwe, I., Brown, A., Roux, N., Swennen, R., Fraser, P.D., 2019. Metabolite profiling characterises chemotypes of Musa diploids and triploids at juvenile and pre-flowering growth stages. Sci. Rep. 9, 4657.
  • Dufour, D., Gibert, O., Giraldo, A., Sanchez, T., Reynes, M., Pain, J.-P., Gonzalez, A., Fernandez, A., Diaz, A., 2009. Differentiation between cooking bananas and dessert bananas. 2. Thermal and functional characterization of cultivated Colombian Musaceae (Musa sp.). J. Agric. Food Chem. 57, 7870-7876.
  • Emaga, T.H., Bindelle, J., Agneesens, R., Buldgen, A., Wathelet, B., Paquot, M., 2011. Ripening influences banana and plantain peels composition and energy content. Trop. Anim. Health Prod. 43, 171-177.
  • Englberger, L., Darnton-Hill, I., Coyne, T., Fitzgerald, M.H., Marks, G.C., 2003. Carotenoid-rich bananas: a potential food source for alleviating vitamin A deficiency. Food Nutr. Bull. 24, 303-318.
  • Ewane, C.A., Lepoivre, P., de Lapeyre de Bellaire, L., Lassois, L., 2012. Involvement of phenolic compounds in the susceptibility of bananas to crown rot. A review. BASE 16, 393-404.
  • FAO, 2014. FAOSTAT Statistics Database. Banana Facts and Figures. Food Agriculture Organization of the United Nations, Rome.
  • Gall, H.L., Philippe, F., Domon, J.-M., Gillet, F., Pelloux, J., Rayon, C., 2015. Cell wall metabolism in response to abiotic stress. Plants 4, 112-166.
  • Gawel, N., Jarret, R.L., 1991. Cytoplasmic genetic diversity in bananas and plantains. Euphytica 52, 19-23.
  • Gibert, O., Dufour, D., Giraldo, A., Sanchez, T., Reynes, M., Pain, J.-P., Gonzalez, A., Fernandez, A., Diaz, A., 2009. Differentiation between cooking bananas and dessert bananas. 1. Morphological and compositional characterization of cultivated colombian Musaceae (Musa sp.) in relation to consumer preferences. J. Agric. Food Chem. 57, 7857-7869.
  • Hahlbrock, K., Scheel, D., 1989. Physiology and molecular biology of phenylpropanoid metabolism. Annu. Rev. Plant Physiol. Plant Mol. Biol. 40, 347-369.
  • Harrigan, G.G., Goodacre, R., 2003. Introduction. In: Harrigan, G.G., Goodacre, R. (Eds.), Metabolic Profiling - its Role in Biomarker Discovery and Gene Function Analysis. Kluwer Academic Publishers, United States of America, pp. 1-9.
  • Heslop-Harrison, J.S., Schwarzacher, T., 2007. Domestication, genomics and the future for banana. Ann. Bot. 100, 1073-1084.
  • Kumar, R., Bohra, A., Pandey, A.K., Pandey, M.K., Kumar, A., 2017. Metabolomics for plant improvement: status and prospects. Front. Plant Sci. 8.
  • Lahav, E., Turner, D.W., 1989. Banana Nutrition. International Potash Institute, Berne/ Switzerland.
  • Muiruri, K.S., Britt, A., Amugune, N.O., Nguu, E., Chan, S., Tripathi, L., 2017. Dominant allele phylogeny and constitutive subgenome haplotype inference in bananas using mitochondrial and nuclear markers. Genome Biology and Evolution 9, 2510-2521.
  • Ortiz, R., Swennen, R., 2014. From crossbreeding to biotechnology-facilitated improvement of banana and plantain. Biotechnol. Adv. 32, 158-169.
  • Pandey, A., Alok, A., Lakhwani, D., Singh, J., Asif, M.H., Trivedi, P.K., 2016. Genomewide expression analysis and metabolite profiling elucidate transcriptional regulation of flavonoid biosynthesis and modulation under abiotic stresses in banana. Sci. Rep. 6, 31361.
  • Pantin, F., Simonneau, T., Rolland, G., Dauzat, M., Muller, B., 2011. Control of leaf expansion: a developmental switch from metabolics to hydraulics. Plant Physiol. 156, 803.
  • Passo Tsamo, C.V., Herent, M.F., Tomekpe, K., Happi Emaga, T., Quetin-Leclercq, J., Rogez, H., Larondelle, Y., Andre, C., 2015. Phenolic profiling in the pulp and peel of nine plantain cultivars (Musa sp.). Food Chem. 167, 197-204.
  • Price, E.J., Bhattacharjee, R., Lopez-Montes, A., Fraser, P.D., 2017. Metabolite profiling of yam (Dioscorea spp.) accessions for use in crop improvement programmes. Metabolomics 13, 144.
  • Price, E.J., Wilkin, P., Sarasan, V., Fraser, P.D., 2016. Metabolite profiling of Dioscorea (yam) species reveals underutilised biodiversity and renewable sources for high-value compounds. Sci. Rep. 6, 29136.
  • Sidhu, J.S., Zafar, T.A., 2018. Bioactive compounds in banana fruits and their health benefits. Food Quality and Safety 2, 183-188.
  • Smith, A.M., Stitt, M., 2007. Coordination of carbon supply and plant growth. Plant Cell Environ. 30, 1126-1149.
  • Turner, D.W., Barkus, B., 1977. A comparison of leaf sampling methods in bananas. Fruits 32, 725-730.
  • Ude, G., Pillay, M., Nwakanma, D., Tenkouano, A., 2002. Analysis of genetic diversity and sectional relationships in Musa using AFLP markers. Theor. Appl. Genet. 104, 1239-1245.
  • Valmayor, R.V., Jamaluddin, S.H., Silayoi, B., Kusumo, S., Danh, L.D., Pascua, O.C., Espino, R.R.C., 2000. Banana Cultivar Names and Synonyms in Southeast Asia. INIBAP Regional Office for Asia and the Pacific, Philippines.
  • Volkenburgh, E.V., 1999. Leaf expansion - an integrating plant behaviour. Plant Cell Environ. 22, 1463-1473.
  • Wuyts, N., De Waele, D., Swennen, R., 2006. Activity of phenylalanine ammonia-lyase, peroxidase and polyphenol oxidase in roots of banana (Musa acuminata AAA, cvs Grande Naine and Yangambi km5) before and after infection with Radopholus similis. Nematology 8, 201-209.
  • Xia, J., Wishart, D.S., 2016. Using MetaboAnalyst 3.0 for Comprehensive Metabolomics Data Analysis. Current Protocols in Bioinformatics. John Wiley & Sons, Inc.