QUBES will have scheduled maintenance work on Tuesday, December 17, 2024, beginning sometime between 5 pm PST and 11:59 pm PST, with downtime lasting approximately 30 minutes. All running tool sessions will expire during the maintenance window. Please plan accordingly and we do apologize for any inconvenience. close

Resource Image

Lesson VI - The Community Science Project

Author(s): Anne Rosenwald1, Gaurav Arora2, Vinayak Mathur3

1. Georgetown University 2. Gallaudet University 3. Cabrini University

787 total view(s), 714 download(s)

0 comment(s) (Post a comment)

Summary:
Genome Solver's Community Science Project was developed as a way to use the skills taught in the previous lessons. We're asking members of the community to provide instances of potential phage genes embedded in bacterial genomes.

Licensed under CC Attribution-ShareAlike 4.0 International according to these terms

Version 2.0 - published on 30 Sep 2022 doi:10.25334/NNHK-8A89 - cite this

Description

Genome Solver's Community Science Project was developed as a way to use the skills taught in the preceding Lessons for an exploration into mechanisms for generating bacterial diversity. We're asking members of the community to provide instances of potential horizontal gene transfer between bacteriophages and bacteria by looking for phage genes embedded in bacterial genomes. With these data, we aim to examine the roles that horizontal gene transfer play in diversity and evolution of bacteria.

First, there is a slide deck and transcript to introduce the project and some of the work the Genome Solver developers have published on this topic.  

To join the project and help us explore this form of horizontal gene transfer, please look at the Word document in this Lesson called "CSP_Workflow."  If you need help getting started (such as finding a gene to begin with or a species of bacteria to investigate), let us know at genomesolver12@gmail.com.  Note there are also two Excel spreadsheets in this Lesson.  One is for collecting your "forward" BLAST hits - when you take a phage gene and find bacterial homologs.  The second is for collecting your "reverse" BLAST hits - when you take your top bacterial hit and look for additional viral (phage) homologs.  These two spreadsheets will then be uploaded to a Google Form, which you can access here: https://goo.gl/forms/EclEkDnBAH4MBLom1

 

 

Notes

Materials were updated as of Fall 2018.  Note that because the slide decks and exercises point to external websites and web-based tools, some of the illustrations contained in the materials may not look exactly like the live website.  Functionality is usually unchanged. 

Cite this work

Researchers should cite this work as follows: