Laboratory Protocols

Journal Club
 Light Regulation of Plant Growth and Development

PMCB Class

Research Group

Building LED Light Sources for Plant Research

Spectra of Light Sources Used in Published Experiments

 Lab Resource Page

 

 

connect to strawberry data at the genome database for Rosaceae

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National Center for Science Education

 

Expelled Exposed
Kevin M. Folta

Associate Professor
Horticultural Sciences Department
Plant Molecular and Cellular Biology Program

Ph.D. 1998, University of Illinois at Chicago
Postdoctoral Research at the University of Wisconsin

Lab: 2308 Fifield Hall
Office: 2517 Fifield Hall

Teaching -

PCB6935 -- Plant Molecular and Cellular Biology I
PCB6528 -- Plant Molecular and Cellular Biology II
 HOS4341 -- Advanced Horticultural Physiology (previously)
 

Publications

 


News from the Laboratory

Welcome Summer Interns!

Heather Malone - Kyle Schmitt - Dave Salama

Enjoy the Slideshow!

 

Podcast:
Download these podcasts to hear about facets of the  UF Strawberry Genomics Program.

Transgenic Systems in Strawberry Research

Photoperiodic Flowering in Strawberry

 

                                 Research Programs

Green Light and Photomorphogenesis

 

  Functional, Structural, and Translational Genomics in Cultivated Strawberry

 
 Photocontrol of Plant Architecture and Developmental Transitions Using LED Illumination Blue Light and RNA Stability

 

Kevin M. Folta received a B.S.. from Northern Illinois University (1989), a M.S. from Northern Illinois University (1992), and a Ph.D from the University of Illinois at Chicago (1998) with Lon Kaufman.  He completed post-doctoral research under the direction of Edgar Spalding at the University of Wisconsin, then joined the Horticultural Sciences Department faculty at the University of Florida in November of 2002. He is currently an Assistant Professor in the Plant Molecular and Cellular Biology Program and is always uncomfortable referring to himself in the third person.

Arabidopsis thaliana is a model plant that uses light to initiate the developmental program of photomorphogenesis. Phytochrome, cryptochrome, phototropin and other photoreceptors mediate these responses. We have used microarrays to study how blue, red, and green light contribute to light-regulated development. We have found that light has an influence on the hormones auxin and gibberellic acid to change growth pattern. Gene expression changes note differences in the chloroplast and nucleus when an etiolated seedling initiates autotrophic growth. Octoploid strawberry genetics and physiology will be better understood once we have completed bioinformatics analysis of EST libraries. This information will aid in structural and functional genomics studies in Fragaria vesca and Fragaria ananassa and Fragaria x ananassa. We have identified LF9, a Florida strawberry genetic line that is capable of unprecedented transformation speed and frequency.  Transformation of strawberry will be important to understanding gene function, genomics, structural, translational and functional.

 to Roxanne's Site

contact:

kfolta 'at' ifas.ufl.edu

 

Horticultural Sciences Department
1301 Fifield Hall
PO Box 110690
Gainesville, FL 32611

 

NEW PHONE NUMBERS!!!

352-392-1928

ext  269  office

ext  270 lab

 

Map to Folta's

 
 

Other Links:  Greenhouse Vegetable Production, Protected Agriculture at UF