KEYS TO ETHYLENE GENES ARE WITHIN ENGINEER’S REACH

Genes are the keys to increased longevity. Though it may be a

little late to fiddle with your DNA or mine, there are generations of carnations

bound for production that could be genetically encoded to live extra long

lives. Now, after a decade studying blossoms’ ethylene production and responses,

Dr. William Woodson has keys — within close reach — to coaxing carnations

to keep their petals. Among over 30 genes believed to play a role in flowers’

flagging, Woodson has pinpointed several genes that go to work only during

a carnation blossom’s latest stages of development. The researcher reasons

that if late-stage genes’ instructions could be engineered to override

early ones, carnation vase life could be appreciably extended.

But genetic engineers can’t simply move plant genes around at

will. Genes transferred from one species or spot to another on DNA strands

require chemical escorts called “promoters.” And not just any promoter

will do. Most recently with the support of Endowment funds, Woodson has

been focusing on pinpointing proper promoters for carnation transformation.

He’s recently transformed some petunias with a promising promoter and identified

at least one carnation-gene promoter with potential. Over the next year,

Woodson plans to use these newly identified promoters in engineering especially

long-lived carnation cultivars. And the industry’s research community

is confident of Woodson’s success. Space in the University of Florida’s

greenhouses is tagged for trialing his transformed carnations.

FOR MORE INFORMATION, CONTACT RESEARCH-PROJECT LEADER:

Dr. William Woodson, Professor and Head of Horticulture, Purdue University

E-MAIL: <wrw@hort.purdue.edu>

This entry was posted on Friday, June 20th, 1997 at 12:51 pm and is filed under Floricultural Post Production Studies. You can follow any responses to this entry through the RSS 2.0 feed. You can leave a response, or trackback from your own site.