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Core Microbiome


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P., Doehlemann, G., Parker, J.E., and Kemen, E. (2021). Shaping the leaf microbiota: Plant–microbe–microbe interactions. Journal of Experimental Botany Jan 20 72 (1): 36–56.

      85 85 Vacher, C., Hampe, A., Porté, A.J., Sauer, U., Compant, S., and Morris, C.E. (2016). The phyllosphere: Microbial jungle at the plant–climate interface. Annual Review of Ecology, Evolution, and Systematics Nov 1 47: 1–24.

      86 86 Shakir, S., Zaidi, S.S., de Vries, F.T., and Mansoor, S. Plant genetic networks shaping phyllosphere microbial community. Trends in Genetics. 2020 Oct 6.

      87 87 Carlos, A.R.P., Silvia, R., and Maria, M.Z. (2016). Microbial and functional diversity within the phyllosphere of Espeletia species in an Andean high-mountain ecosystem. Applied and Environmental Microbiology March 82 (6): 1807–1817.

      88 88 Carlstrom, C.I., Field, C.M., Bortfeld-Miller, M., Müller, B., Sunagawa, S., and Vorholt, J.A. (2019). Synthetic microbiota reveal priority effects and keystone strains in the Arabidopsis phyllosphere. Nature Ecology & Evolution Oct 3 (10): 1445–1454.

      89 89 Steven, W.K., Timothy, K.O., Holly, K.A., Stephen, P.H., Joseph, W., and Jessica, L.G. (2014). Relationships between phyllosphere bacterial communities and plant functional traits in a neotropical forest. PNAS sep 23 111 (38): 13715–13720.

      90 90 Delmotte, N., Claudia, K., Samuel, C., Gerd, I., Bernd, R., Ralph, S., Christian, V.M., and Julia, A.V. (2009). Community proteogenomics reveals insights into the physiology of phyllosphere bacteria. Proceedings of the National Academy of Sciences of the United States of America Sep 22 106 (38): 16428–16433.

      91 91 Vorholt, J.A. (2012). Microbial life in the phyllosphere. Nature Reviews. Microbiology Dec 10 (12): 828–840.

      92 92 Haefele, D.M. and Lindow, S.E. (1987). Flagellar motility confers epiphytic fitness advantages upon Pseudomonas syringae. Applied and Environmental Microbiology Oct 1 53 (10): 2528–2533.

      93 93 Tao, C., Kinya, N., Xiaolin, W., Reza, S., Jin, X., Lingya, Y., Bradley, C.P., Li, M., James, K., Yu, C., Li, Z., Nian, W., Ertao, W., Xiu-Fang, X., and Sheng, Y.H. (2020). A plant genetic network for preventing dysbiosis in the phyllosphere. Nature Apr 8 580 (7805): 653–657.

      94 94 Blin, K., Shaw, S., Steinke, K., Villebro, R., Ziemer, N., Lee, S.Y., Medema, M.H., and Weber, T. (2019). antiSMASH 5.0: Updates to the secondary metabolite genome mining pipeline. Nucleic Acids Research Apr 29 47 (1): 81–87.

      95 95 Kawaguchi, K., Yurimoto, H., Oku, M., and Sakai, Y. (2011). Yeast methylotrophy and autophagy in a methanol-oscillating environment on growing Arabidopsis thaliana leaves. PLoS One Sep 26 6 (9): e25257.

      96 96 Knief, C., Delmotte, N., Chaffron, S., Stark, M., Innerebner, G., Wassmann, R., Von Mering, C., and Vorholt, J.A. (2012). Metaproteogenomic analysis of microbial communities in the phyllosphere and rhizosphere of rice. The ISME Journal Jul 6 (7): 1378–1390.

      97 97 Boller, T. (1993). “Antimicrobial Functions of the Plant Hydrolases, Chitinase and ß-1,3-Glucanase,” in Mechanisms of Plant Defense Responses. Springer 2: 391–400.

      98 98 Essghaier, B., Hedi, A., Halaoui, M.R., Boudabous, A., and Sadfi-Zouaoui, N. (2012). In vivo and in vitro evaluation of antifungal activities from a halotolerant Bacillus subtilis strain J9. African Journal of Microbiology May 23 6 (19): 4073–4083.

      99 99 Urquhart, E.J. and Punja, Z.K. (2002). Hydrolytic enzymes and antifungal compounds produced by Tilletiopsis species, phyllosphere yeasts that are antagonists of powdery mildew fungi. Canadian Journal of Microbiology Mar 1 48 (3): 219–229.

      100 100 Muhammad, S., Nicole, M., Zahida, H.P., and Milton, B.T. (2017). Microbial interactions in the phyllosphere increase plant performance under herbivore biotic stress. Frontiers in Microbiology Jan 20 8 (41): 1–10.

      101 101 Eitzen, K., Sengupta, P., Kroll, S., Kemen, E., and Doehlemann, G. (2020). An antagonistic driver of the microbial phyllosphere suppresses infection of Arabidopsis thaliana by the oomycete pathogen Albugo laibachii via a secreted hydrolase. bioRxiv Apr 21: 1–36.

      102 102 Lopez-Mondejar, R., Ros, M., and Pascual, J.A. (2011). Mycoparasitism-related genes expression of Trichoderma harzianum isolates to evaluate their efficacy as biological control agent. Biological Control Jan 56 (1): 59–66.

      103 103 Volks, B. and May, R. (2001). Biological control of Pseudomonas syringae PV. glycine by epiphytic bacteria under field conditions. Microbial Ecology Feb 41: 132–139.

      104 104 Simionato, A.S., Navarro, M.O.P., de Jesus, M.L.A, Barazetti, A.R., da Silva, C.S., and Simoes, G.C. (2017). The effect of phenazine-1-carboxylic acid on mycelial growth of Botrytis cinerea produced by Pseudomonas aeruginosa LV strain. Front Microbiology Jun 14 8 (1102): 1–9.

      105 105 Chin-A-Woeng, T.F.C.Bloemberg, G.V., and Lugtenberg, B.J.J. (2003). Phenazines and their role in biocontrol by Pseudomonas bacteria. The New Phytologist Mar 3 157: 503–523.

      106 106 Yasmin, S., Hafeez, F.Y., Mirza, M.S., Rasul, M., Arshad, H.M.I., Zubair, M., and Iqbal, M. (2017). Biocontrol of Bacterial Leaf Blight of rice and profiling of secondary metabolites produced by rhizospheric Pseudomonas aeruginosa BRp3. Front. Microbiology Sep 26 8 (1895): 1–23.

      107 107 Noor, A.I., Abdiad, A.N., and Aris, T.W. (2016). Rice phyllosphere actinomycetes as biocontrol agent of bacterial leaf blight disease on rice. Asian Journal of Plant Pathology Mar 15 10 (1-2): 1–8.

      108 108 Vogel, C., Bodenhausen, N., Gruissem, W., and Vorholt, J.A. (2016). The Arabidopsis leaf transcriptome reveals distinct but also overlapping responses to colonization by phyllosphere commensals and pathogen infection with impact on plant health. New Phytologist Oct 212 (1): 192–207.

      109 109 Ryffel, F., Helfrich, E.J., Kiefer, P., Peyriga, L., Portais, J.C., Piel, J., and Vorholt, J.A. (2016). Metabolic footprint of epiphytic bacteria on Arabidopsis thaliana leaves. The ISME Journal Mar 10 (3): 632–643.

      110 110 Lee, G.H. and Ryu, C.M. (2016). Spraying of leaf-colonizing Bacillus amyloliquefaciens protects pepper from Cucumber mosaic virus. Plant Disease Oct 14 100 (10): 2099–2105.

      111 111 Savary, S., Willocquet, L., Pethybridge, S.J., Esker, P., McRoberts, N., and Nelson, A. (2019). The global burden of pathogens