Detection of nucleic acids in whole tissues has become key in our understanding of gene expression during development. In situ hybridization (ISH) has been an invaluable technique in the making of numerous discoveries. Most recently, the technical advance of using short, fluorescently labeled probes has allowed for the detection of single-mRNA molecules. Thus, quantification of RNA levels in single cells or even within subcellular regions is now possible without RNA isolation. In combination with the immunofluorescence (IF) technique, visualization of nucleic acids and associating proteins is achieved with higher resolution than ever before using light microscopy. Here we describe the steps implemented to achieve the visualization of individual messenger RNAs (mRNA) using single-molecule FISH (smFISH) probes, as well as detection of mRNA/protein (mRNP) complexes via smFISH in combination with IF.
Soil microbial communities are often subject to the influence of plants ( Bardgett and Van Der Putten, 2014). Microbial communities from the soil surrounding the roots (rhizosphere), for example, can reflect a host of conditions shaped by plants including temperature, pH, salinity, nutrient availability, and organic matter (Lozupone and Knight, 2007;Sharp et al., 2014). These and similar relationships raise the possibility of functional linkages between rhizosphere microbial community composition and trait variation
Vascular epiphytes contribute up to 35% of the plant diversity and foliar biomass of flowering plants. The family Bromeliaceae is a monophyletic group of plants native to the Neotropics. Epiphytic bromeliads form associations with distinct groups of organisms but their relationship with foliar fungal endophytes remain underexplored. In this study we examined the relationship of foliar fungal endophytes to host photosynthetic pathways and associated ecophysiological traits. We sampled the fungal endophyte communities of 67 host individuals in six epiphytic bromeliad species differing in C3 and crassulacean acid metabolism (CAM) photosynthetic pathways. We tested whether endophyte assemblages were associated with ecophysiological leaf traits related to host photosynthetic pathways. Our results indicate that (1) C3 and CAM bromeliads host dissimilar endophyte assemblages, (2) endophyte communities in C3 bromeliads are characterized by variable relative abundances of fungal orders; conversely, CAM associated endophyte communities were characterized by consistent relative abundances of fungal orders, and (3) endophyte communities in bromeliads are distributed along a continuum of leaf toughness and leaf water content. Taken together, our study suggests that host physiology and associated ecophysiological traits of epiphytic bromeliads may represent biotic filters for communities of fungal endophytes in the tropics.
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