Freshwater Aquarium Microbiome

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Introduction

Microbiomes, the communities of microorganisms living together in particular habitats, are vital for maintaining ecological balance. The habitat hosting the microbial communities can be anything from the gastrointestinal tract of a cow to the soils of the land (1). Of recent particular interest are those of aquatic ecosystems, which contain diverse arrays of bacterial communities. The fish themselves oftentimes possess more microbial cells than fish cells in their bodies (2). Of increasing use in identifying the microbes present in these microbiomes is 16S amplicon sequencing. The 16S rRNA gene encodes for 16S rRNA, which is an important constituent of the prokaryotic ribosome 30S subunit. It is noteworthy to point out that this gene is only found in bacteria and archaea (3). The 16S gene has a number of conserved regions, which enables the 16S gene to be recognized across many different microbes through only a few sets of primers catered to this conserved region. The variable regions in the gene are indicative to which specific microbes are products of the amplification of the microbiomes. Up until 2012, there have not been very many studies pertaining to the characterization of the microbiome pertaining to the water associated with freshwater ornamental fishes (4)...This experiment aims to obtain a report on the bacterial community composition of the freshwater fish tank housing four generations of convict cichlids and on the saltwater fish tank, located on the 3rd floor of CSB. To accomplish this, a protocol modeled after Smith et al. and Patin et al. will be established (4,5). 600 mL of aquarium water will be filtered through a 0.22 um filter unit. The concentrated microbial biomass trapped on the filter will be treated with a Puregene Qiagen kit with some modifications from the protocol. Afterwards amplification of the bacterial 16S rRNA gene will be carried out and sequencing at the University of Illinois will ensue.

Materials and Methods

Water Sampling

Sterivex Filters

1 L of water from the surface of the freshwater fish tank and saltwater fish tank were filtered through separate 0.22 um sterivex filter units via a peristaltic pump. Air was pushed through following filtration to initiate the removal of residual water contained in the filter units.

Nanopure Filtration

Due to the low concentration of DNA extracted from filtering 1 L of water through the sterivex filter unit, 2 L of water from the freshwater and saltwater fish tanks were filtered through the free 0.22 um filter membranes via a reusable filter funnel and with a vacuum source.

Spectra Field-Pro Peristaltic Pump (~$2600)

- eDNA Sampler Usage

DNA Extraction

File:PowerWater_Sterivex.pdf

Primer Construction

PCR Amplification

Sequencing

Bioinformatics

Results

Discussion

References

2. Savage, D. C. Microbial ecology of the gastrointestinal tract. Ann Rev Microbiol. 1977. 31. 107-133.

3. Smith, K. F.; Schmidt, V.; Rosen, G. E.; Amaral-Zettler, L. Microbial Diversity and Potential Pathogens in Ornamental Fish Aquarium Water. Public Library of Science One. 2012. 7.


Page History

This page was created by Sara L Simonson in the spring of 2021