Ruth Welti, University distinguished 1xbet best casino website Professor
Contact information
508 Ackert Hall
(785) 532-5756
welti@ksu.edu
Lab website: www.k-state.edu/1xbet best casino website
Education
Ph.D. 1982, Washington University in St. Louis. Cellular 1xbet best casino website .
Area(s) of Specialization
Structure and function of cell membranes; Mass-spectrometry-based 1xbet best casino website analysis.
Research Focus
The focus of my research program since 2000 has been on the development of a quantitative, high-throughput, mass-spectrometry-based 1xbet best casino website profiling technology and the application of this technology to identify alterations in 1xbet best casino website metabolism that occur as results of signaling events and/or stress responses. Through ongoing collaboration with researchers working in Arabidopsis, an organism that is particularly genetically tractable and relatively easy to grow and manipulate, we have been able to put into practice a very efficient 1xbet best casino website profiling technology. Funded by NSF, Kansas NSF EPSCoR, Kansas Technology Enterprise Corporation, Kansas Biomedical Infrastructure Network, and Kansas State, we have established the Kansas Lipidomics Research Center (I am serving as Director) and its fee-for-service 1xbet best casino website profiling analytical laboratory at Kansas State, we have developed high-throughput, quantitative methods for all the major 1xbet best casino website polar classes in plants, yeast, and animals, and we have examined the role of lipids in physiological responses. The Lipidomics Center can also perform structural analysis and can analyze simple lipids and other metabolites. See www.ksu.edu/1xbet best casino w for updates.
In plants, stresses that lead to alterations in 1xbet best casino website metabolism include drought, cold, freezing, wounding, pathogens, and insect pests. Utilizing plants with genetic alterations, in collaboration with others, we are profiling lipids to determine the function of genes involved in these processes. Currently we are focused on understanding the function of oxidized and head-group-acylated membrane lipids during plant stress. These compounds may regulate the function of enzymes or transcription factors. Our lab’s roles in collaborative projects are to develop new technologies, to perform the 1xbet best casino website profiling data collection and processing, and to aid in data interpretation. We also grow plants, subject them to stress, and analyze their stress phenotypes, and 1xbet best casino website compositions.
Selected Publications
View the complete publication list in NCBI