Adair L. Borges, Rachel J. Dutton, Elizabeth A. McDaniel, Taylor Reiter, and Emily C.P. Weiss
RD
TR
Published: Mar 11, 2023
How do you approach getting a microbiome set up in a new lab? We’re sharing protocols for how we collected, stocked, and sequenced a set of cheese rind microbiomes and generated a high-quality metagenomics resource for future computational studies.
Seeing how microbes are organized within a community can inspire hypotheses about how species interact with each other. We used HiPR-FISH spatial imaging to look at the distribution of microbes within five distinct microbial communities growing on the surface of aged cheeses.
We want to seamlessly process and summarize metagenomics data from Illumina or Nanopore technologies. We built a Nextflow workflow that handles common metagenomics tasks and produces useful outputs and intuitive visualizations.
Prachee Avasthi, Rachel J. Dutton, Taylor Reiter, and Emily C.P. Weiss
RD
KP
TR
Published: Jul 20, 2023
We are interested in neuroactive metabolites that influence animal behavior. Some fungi have horizontally transferred neuroactive metabolite pathways between species. We used a horizontal gene transfer detection pipeline to screen for novel fungal genes tied to neuroactivity.
Horizontal gene transfer (HGT) is the exchange of DNA between species. It can lead to the acquisition of new gene functions, so finding HGT events can reveal genome novelty. preHGT is a pipeline that uses multiple existing methods to quickly screen for transferred genes.
Adair L. Borges, Rachel J. Dutton, Elizabeth A. McDaniel, Atanas Radkov, Taylor Reiter, and Emily C.P. Weiss
RD
+4
Published: Jul 19, 2023
We sampled cheese microbial communities to discover bacteriophages with unusual genome chemistries. We isolated 114 bacterial host strains and 17 phages, and identified one phage with a probable arabinose hypermodification of hydroxymethylcytosine.
Rachel J. Dutton, Elizabeth A. McDaniel, and Manon Morin
RD
MM
DS
Published: Aug 15, 2023
Hoping to find proteins that alter physiology in useful ways, we screened venom data sets for toxins fused to domains with additional functionality. We identified candidates, but struggled to infer any novel functions, and none seem well-conserved across venomous species.