Difference between revisions of "Team:Austin UTexas/Description"
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<p>The indigenous gut microbiota in humans possesses the ability to synthesize neurotransmitters that are hypothesized to modulate behavioral, cognitive, and emotional processes of the body via the gut-brain axis. Since the emergence of this axis theory, researchers have been interested in genetically modifying probiotics for use as edible delivery vehicles of neurotransmitters to treat a variety of illnesses. There is limited experimental evidence regarding the effectiveness of these probiotics in the gut as this is a relatively novel concept. </p> | <p>The indigenous gut microbiota in humans possesses the ability to synthesize neurotransmitters that are hypothesized to modulate behavioral, cognitive, and emotional processes of the body via the gut-brain axis. Since the emergence of this axis theory, researchers have been interested in genetically modifying probiotics for use as edible delivery vehicles of neurotransmitters to treat a variety of illnesses. There is limited experimental evidence regarding the effectiveness of these probiotics in the gut as this is a relatively novel concept. </p> | ||
| − | <p>Thus, our project is aimed at engineering an effective probiotic capable of producing higher levels of gamma-aminobutyric acid (GABA) to treat patients with anxiety and certain bowel disorders. GABA is the neurotransmitter of interest due to its proposed anxiolytic and digestion-regulating effects. In order to create an accurate and translational model, we will utilize <i>Lactobacillus plantarum</i> as our probiotic, as it is native to the human gut. <i>L. plantarum</i> is also commonly found in a wide variety of foods, including yogurt, kimchi, and cheese, allowing us to easily utilize our genetically-modified version to create medicinal food. Although <i>L. plantarum</i> can naturally synthesize GABA, we intend to expand the GABA-producing potential of the bacteria by characterizing and subsequently optimizing the expression of glutamate decarboxylase, an enzyme responsible for converting glutamate into GABA. </p> | + | <p>Thus, our project is aimed at engineering an effective probiotic capable of producing higher levels of gamma-aminobutyric acid (GABA) to treat patients with anxiety and certain bowel disorders. GABA is the neurotransmitter of interest due to its proposed anxiolytic, anti-hypertensive, and digestion-regulating effects. In order to create an accurate and translational model, we will utilize <i>Lactobacillus plantarum</i> as our probiotic, as it is native to the human gut. <i>L. plantarum</i> is also commonly found in a wide variety of foods, including yogurt, kimchi, and cheese, allowing us to easily utilize our genetically-modified version to create medicinal food. Although <i>L. plantarum</i> can naturally synthesize GABA, we intend to expand the GABA-producing potential of the bacteria by characterizing and subsequently optimizing the expression of glutamate decarboxylase, an enzyme responsible for converting glutamate into GABA. </p> |
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Revision as of 16:52, 22 October 2017
Description
The indigenous gut microbiota in humans possesses the ability to synthesize neurotransmitters that are hypothesized to modulate behavioral, cognitive, and emotional processes of the body via the gut-brain axis. Since the emergence of this axis theory, researchers have been interested in genetically modifying probiotics for use as edible delivery vehicles of neurotransmitters to treat a variety of illnesses. There is limited experimental evidence regarding the effectiveness of these probiotics in the gut as this is a relatively novel concept.
Thus, our project is aimed at engineering an effective probiotic capable of producing higher levels of gamma-aminobutyric acid (GABA) to treat patients with anxiety and certain bowel disorders. GABA is the neurotransmitter of interest due to its proposed anxiolytic, anti-hypertensive, and digestion-regulating effects. In order to create an accurate and translational model, we will utilize Lactobacillus plantarum as our probiotic, as it is native to the human gut. L. plantarum is also commonly found in a wide variety of foods, including yogurt, kimchi, and cheese, allowing us to easily utilize our genetically-modified version to create medicinal food. Although L. plantarum can naturally synthesize GABA, we intend to expand the GABA-producing potential of the bacteria by characterizing and subsequently optimizing the expression of glutamate decarboxylase, an enzyme responsible for converting glutamate into GABA.
GABA Project
Throughout the course of the project, we met with experts to better understand how our project relates to the kombucha industry and consumers. Click on the pictures below to learn more.
Part Plasmid Assembly
We had to construct various part plasmids in order to use them in Golden Gate Assembly.
Cassette Assembly
In order to over express GABA in L. plantarum, a cassette plasmid must be made from various part plasmids.
Working with L. plantarum
Our proposed bacteria for over expression of GABA in the human gut is L. plantarum, a probiotic..
