My name is Karley Lujan and I am an undergraduate working on culturing bacterial isolates from the Seagrass microbiome. I joined this project because I am interested in learning about what information we can obtain from studying microbiomes. I think it is fascinating that although we can’t see microorganisms they are extremely prevalent and can have crucial roles in biological systems. The focus at the beginning of this project was to take Seagrass samples from Bodega Bay, create culture samples, and use Sanger sequencing of the 16S rRNA to identify what we grew. Seagrass and sediment samples were taken from Bodega Bay, CA. Then, in order to obtain isolates from the seagrass, we focused on the leaves, roots, and sediment. What we were able to successfully extract DNA from were identified as Shewanella, Pseudoalteromonas, Colwellia, Tenacibaculum, Vibrio and Alteromonas.
- Sample preparation: Dilutions of sediment with PBS, PBS rinse of roots and leaves, ground and crushed leaves with PBS
- Culturing: Plated the PBS sample solutions onto two of each of the following plate types; one plate for 25℃ and the other at 4℃
Agar Plates/Liquid Media
- Nitrogen Free
- Seawater Agar
- Seawater Medium
- Difco Marine Broth
- Selected Colonies: After there was significant growth on the plates we selected various interesting colonies and isolated them by dilution streaking. Single colonies were then grown overnight in the appropriate liquid media and at the appropriate temperature
- DNA Extraction: Genomic DNA extractions were performed and glycerol stocks were made using the successful liquid cultures. Extracted DNA then went through 16S rRNA gene PCR and gel electrophoresis in order to confirm that enough DNA was present for Sanger Sequencing
- Sanger Sequencing: 16S rRNA sequences for each isolate were ran through BLAST and phylogenetic trees were built in order to obtain tentative identifications for the isolates
Results: After Sanger sequencing, the data was ran through BLAST to obtain a tentative identification and determine whether or not the microbe was a good candidate for sequencing.
Shewanella: Electrogenic- An electron generator that can be used in microbial fuel cells.
Vibrio: Some species of Vibrio can go through morphogenetic changes after going from a liquid to a solid surface. This leads them to change from swimmer cells to swarmer cells.
Pseudomonas: Two bacterial isolates were cable of growing on Nitrogen-Free agar plates at 25⁰C. Identified as part of the genera Pseudomonas, there are some species of this genera capable of aerobically fixing nitrogen. These are of particular interest as we will be further investigating which nitrogen-fixing bacteria are essential for seagrass health.
Currently I am beginning to look at the genomes of the bacteria we decided to sequence and I am also working with bacteria that are capable of growing on the nitrogen-free agar plates. At first it was difficult to extract the DNA from these bacteria but now both have been tentatively identified as Pseudomonas through sanger sequencing of the 16S gene. This is interesting because there aren’t many Pseudomonas that can fix nitrogen which is what these two must be doing in order to survive on the nitrogen-free plates. These two bacteria also have different morphologies which means they could be different species in the genus Pseudomonas. Due to their morphological similarities yet ability to grow on nitrogen-free agar, I think these two bacteria are very interesting and we will be finding out more about them by sequencing and analyzing their genomes.