Karen Koch (plant biologist)
Karen Koch is a plant biologist in the horticultural science department in the University of Florida.[1][2][3] She is a professor in the Plant Molecular and Cellular Biology (PMCB)[4] Program, Horticultural Sciences Department, and Genetics Institute at University of Florida.
Research interest
Koch's lab is best known for its research on sugar-responsive gene expression and the capacity for this process to alter form and function of plants. Sugar availability provides pivotal cues for adjustment of genes affecting C and N allocation in plants.[5] Of all the nutrients and hormones involved, sucrose remains the “life blood” of plants. This sugar occupies a truly central position in vascular transport, carbon partitioning within the plant, and as a source of sugar signals for responsive genes.
Her group thus focuses on genes that affect sucrose metabolism, its contribution to sugar signaling, and its partitioning to different end products. Particular attention is being directed toward maize kernel (fruit) development, cell-wall composition, and mechanisms of sugar transfer. Single-gene knockout mutants are being used to examine gene function.
Current projects are testing hypotheses for carbon-partitioning and gene expression in developing maize ovaries from floral differentiation to kernel harvest, and for involvement of key genes in cell wall biosynthesis at strategic stages of development (e.g. root-hair and pollen-tube elongation, early phases of kernel differentiation, and growth of seedlings).
Research and work
- Genetic and Genomic Approaches to Understanding Long-Distance Transport and Carbon Partitioning. NSF-PGRP. Braun et al . (2011-2015). Diverse approaches are testing mechanisms of phloem function and carbon partitioning in maize and arabidopsis.
- Adapting Kernel Metabolism to Enhance Cereal Yield Under Adverse Conditions. NIFA. Hannah et al. (2011-2014). Central focus is heat-tolerance of genes for kernel dry weight.
- UniformMu: A Transposon Resource for Mutagenesis in Maize. NSF-PGRP. McCarty and Koch. (2007-2011; 2011-2013). Single-gene knock-outs provide an outstanding means of testing gene function, and mutant lines are now available for over a third of maize genes.
Publication list
Here are the list of publications[6] from Karen's lab.
Awards
Karen Koch is the 2016 recipient of the Charles Reid Barnes Award, the American Society of Plant Biologists (ASPB)’s first honor.[7] According to ASPB 'Karen has excelled in research, in the training of students of plant biology, and in service to the Society. Her research on carbohydrate metabolism and sugar signaling is known internationally and her training of plant biology students is legendary'.
Her work on carbon metabolism and the effects of sugars on gene expression, was one of five 2012 fellows inducted by the ASPB organization. Koch’s “feast and famine” framework for regulating the expression of genes forms the basis for understanding the responses of plant organs to sugar signaling to optimize resource allocation. She served the group as an elected member of its Executive Committee and is the first Fellow of ASPB recipient from Florida. She was on the Plant Physiology editorial board from 1987 to 1993.[8]
References
- ↑ "University of Florida". www.ufl.edu. Retrieved 2016-07-11.
- ↑ "Dr. Karen E. Koch | Horticultural Sciences at University of Florida". hos.ufl.edu. Retrieved 2016-07-11.
- ↑ "Dr. Karen Koch: Lab | Horticultural Sciences at University of Florida". hos.ufl.edu. Retrieved 2016-07-11.
- ↑ "PMCB Program". pmcb.ifas.ufl.edu. Retrieved 2016-07-11.
- ↑ "Dr. Karen Koch: Research | Horticultural Sciences at University of Florida". hos.ufl.edu. Retrieved 2016-07-11.
- ↑ "Dr. Karen Koch: Publications | Horticultural Sciences at University of Florida". hos.ufl.edu. Retrieved 2016-07-11.
- ↑ "PMCB Program". pmcb.ifas.ufl.edu. Retrieved 2016-07-11.
- ↑ "2 UF/IFAS faculty members receive prestigious ASPB Awards - IFAS Information and Communication Services - Institute of Food and Agricultural Sciences - University of Florida". ics.ifas.ufl.edu. Retrieved 2016-07-11.