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, students, and staff committed to research and education in the field of microbiology. Our faculty conduct interdisciplinary research that advances the study of microbes and microbial diseases. Basic
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modeling. The lab houses a state of the art mass spectrometry facility that specializes in metabolomics measurements of marine microbes and microbial communities. The successful candidate will work within a
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studies; models such as Hydrus and DayCent; wet chemical analytical instruments; and microbial methods. Special Instructions to Applicants Applicants must apply for the position electronically through https
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genetics in cancer, dietary interactions with the microbiota involved in cancer prevention/development, microbial metagenomics, metabolism or ecology in cancer settings. The role of microbes in influencing
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group develops statistical and machine-learning tools for high-dimensional and spatial data, with a particular emphasis on applications in plant microbiology and microbial ecology. The group partners
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microbiome, microbial food safety, sensory and consumer science, food engineering, and dairy foods. The Department of Food Science offers state-of-the-art research and teaching laboratories and unique
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featured in microbiology research integrated with microfluidics (website: http://nanobio.tamu.edu). The project will be highly interdisciplinary and fast-paced, having multiple collaborating labs in
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areas of interest include microbiota-immune interactions, mucosal immune pathways that promote health, dietary interactions with the microbiota, or microbial metagenomics, metabolism or ecology within
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), neonatal ethics and parental decision-making, neonatal pulmonary physiology, microbial interactions and nutrition and development (MIND), and congenital diaphragmatic hernia (CDH). Researchers leverage
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, microbial communities’ variability, C use efficiency, and other aspects related to soil health and the impact of agricultural practices (including 4Rs) into controlling C, N, and P biogeochemical cycling