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1.
Science ; 372(6539)2021 04 16.
Article in English | MEDLINE | ID: mdl-33766942

ABSTRACT

Animals in the wild are able to subsist on pathogen-infected and poisonous food and show immunity to various diseases. These may be due to their microbiota, yet we have a poor understanding of animal microbial diversity and function. We used metagenomics to analyze the gut microbiota of more than 180 species in the wild, covering diverse classes, feeding behaviors, geographies, and traits. Using de novo metagenome assembly, we constructed and functionally annotated a database of more than 5000 genomes, comprising 1209 bacterial species of which 75% are unknown. The microbial composition, diversity, and functional content exhibit associations with animal taxonomy, diet, activity, social structure, and life span. We identify the gut microbiota of wild animals as a largely untapped resource for the discovery of therapeutics and biotechnology applications.


Subject(s)
Animals, Wild/microbiology , Bacteria , Gastrointestinal Microbiome , Genome, Bacterial , Metagenome , Animals , Animals, Wild/classification , Animals, Wild/physiology , Bacteria/classification , Bacteria/genetics , Bacteria/isolation & purification , Bacterial Toxins/metabolism , Behavior, Animal , Biodiversity , Databases, Nucleic Acid , Diet , Ecosystem , Falkland Islands , Feces/microbiology , Host Microbial Interactions , Israel , Madagascar , Metagenomics , Peptide Hydrolases/genetics , Peptide Hydrolases/metabolism , Phylogeny , Queensland , Uganda
2.
Sci Rep ; 7(1): 8528, 2017 08 17.
Article in English | MEDLINE | ID: mdl-28819314

ABSTRACT

Living organisms constantly maintain their structural and biochemical integrity by the critical means of response, healing, and regeneration. Inanimate objects, on the other hand, are axiomatically considered incapable of responding to damage and healing it, leading to the profound negative environmental impact of their continuous manufacturing and trashing. Objects with such biological properties would be a significant step towards sustainable technology. In this work we present a feasible strategy for driving regeneration in fabric by means of integration with a bacterial biofilm to obtain a symbiotic-like hybrid - the fabric provides structural framework to the biofilm and supports its growth, whereas the biofilm responds to mechanical tear by synthesizing a silk protein engineered to self-assemble upon secretion from the cells. We propose the term crossbiosis to describe this and other hybrid systems combining organism and object. Our strategy could be implemented in other systems and drive sensing of integrity and response by regeneration in other materials as well.


Subject(s)
Bacteria/growth & development , Bacteria/metabolism , Biofilms/growth & development , Fibroins/metabolism , Stress, Mechanical , Textiles/microbiology , Tissue Scaffolds/microbiology , Tissue Scaffolds/chemistry
3.
J Biol Methods ; 4(2): e70, 2017.
Article in English | MEDLINE | ID: mdl-31453228

ABSTRACT

Scanning electron microscopy (SEM) is a powerful tool for structural analysis, but it requires biological samples to undergo lengthy, chemically-complex multi-step preparation procedures, arguably altering some features in the sample. Here we report an ultra-rapid and chemical-free technique for visualizing bacterial biofilms at their native state. Our technique minimizes the time interval from culture to imaging to approximately 20 min, while producing high-resolution images that enable the detection of a variety of topographic features such as bacterial chains, and resolving cells from matrix. We analyzed images obtained from Bacillus subtilis biofilms, demonstrate the usefulness of this technique for multiple types of image analysis, and discuss its potential to be improved and adapted to other types of biological samples.

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