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Current Projects

Current Research Projects

The main research focus of my lab group is the integration of genetic information, gene expression data, and metabolism for increased production of value-added products. Our research has the ability to enhance current productions, create new green production routes, and produce new products that find uses directly or as precursors in the foodstuff, pharmaceutical, nutraceutical, agrochemical, and textile industries. We primarily focus on harnessing the metabolism of acetic acid bacteria. This group of bacteria are characterized by the incomplete oxidation of a variety of carbohydrates, sugar acids, polyols and alcohols to their respective acids, ketones, and aldehydes. These microbes perform oxidations that are either impossible by classical chemistry or that would require complicated protection chemistry and oftentimes toxic metal catalysts. Hence, acetic acid bacteria are viewed as ‘living oxidative catalysts,’ performing highly specific oxidations that channel the released electrons to molecular oxygen. These biotechnological processes are called ‘oxidative fermentations.’ Accordingly, acetic acid bacteria are used for numerous biotechnological processes, such as the production of L-sorbose (vitamin C synthesis) and 1-amino-D-sorbitol for the production of the antidiabetic drug miglitol. Industrial production of ketogluconates, dihydroxyacetone (tanning agent), aliphatic and aromatic carboxylates (fragrance and flavors) also use acetic acid bacteria.

Collaborations and Partnerships

Turtle Gut Microbiota Changes in Response to Nutrition

We have a collaboration with Dr. Day Ligon in the MSU Biology Department that involves analyzing the changes of the microbiota of alligator snapping turtle hatchlings when exposed to different nutritional feedings. The goals are to 1) improve nutritional feeding for laboratory and sanctuary rearing and 2) determine if there are microbial changes that are correlated with hatchling growth and health. Our role is 16S rDNA profiling using NGS techniques. These data are correlated to hatchling growth rates and overall health to identify potentially probiotic bacteria. 

 

 

 

 

 

 

 

 

Microbiota
Collaborations
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