Project description:Coffea canephora, Coffea arabica, Coffea stenophylla, Coffea abeokutae, Coffea liberica GBS

Project description:Genetic diversity of Coffea stenophylla

Project description:As the phyllosphere is a resource-limited niche, microbes have evolved different survival strategies by collaborating or competing with other organisms. This leads to the establishment of network structures which are stabilised by so-called microbial hub organisms. An already identified hub in the Arabidopsis thaliana phyllosphere is the oomycete pathogen Albugo laibachii. From wild Arabidopsis plants with white rust symptoms we isolated the basidiomycete yeast Moesziomyces albugensis, which is closely related to plant pathogenic smut fungi. It suppresses the infection of A. laibachii in lab experiments and inhibits growth of several bacterial phyllosphere members. The transcriptomic response of M. albugensis to presence of A. laibachii and bacterial SynCom members was investigated by using RNA sequencing. Interestingly, several genes encoding secretory proteins, mostly glycoside hydrolases and peptidases, are particularly induced upon interaction with A. laibachii.

Project description:Genomic reads from 14 coffea species: Coffea benghalensis var bababudanii, Coffea benghalensis, Coffea canephora, Coffea dolichophylla, Coffea pseudozanguebariae, Coffea humblotiana, Coffea stenophylla, Coffea macrocarpa, Coffea tetragona, Coffea eb

Project description:Mango phyllosphere bacterial community

Project description:To explore the bacterial community profile of the gut of the African palm weevil and to identify the abundance and diversity of lignin degradation-associated bacteria in each gut segment.

Project description:Maize phyllosphere bacterial microbial community

Project description:Arthrobacter chlorophenolicus A6 is a 4-chlorophenol degrading soil bacterium with high phyllosphere colonization capacity. Till now the genetic basis for the phyllosphere competency of Arthrobacter or other pollutant-degrading bacteria is uncertain. We investigated global gene expression profile of A. chlorophenolicus grown in the phyllosphere of common bean (Phaseolus vulgaris) compared to growth on agar surfaces.

Project description:Bacterial community assembly in wheat phyllosphere

Project description:Phyllosphere bacterial community of Shaniodendron subaequale