By Samantha Kummerer | Bond LSC
“#IAmScience because I want to help unravel the mysteries of nature that will improve our futures and positively impact our planet.”
Katelynn Koskie didn’t always know she loved plants. As an undergraduate, she focused on what was above her rather than what grew below her.
“I was really interested in how galaxies interact and then I started to think, ‘you know I’ve always thought plants were really, really cool,’ and I wanted something that was a little bit more down to earth,” she said.
While she was pursuing a degree in astrophysics, she took one plant biology course and fell in love. From there she signed up for grad school and has been with plants ever since.
Koskie works with a mutated plant called hyper phototrophic hypocotyl, hph. The mutation is a variation of the lab’s model plant Arabidopsis. This variation is special. It produces more seeds, bends more under light and is stronger. It’s up to Koskie to figure out why.
That answer could have a large impact on the agriculture industry. If Koskie’s findings can be applied to crop plants like maize, farmers can grow better crops.
“Maize is more complicated than Arabidopsis, but with new techniques like CRISPR/CAS9 now it might make it a little bit easier,” she said.
She plants genetically modified seeds and then waits and observes and begins again.
It is a lot of time in the growth chamber and in the dark room, hoping the research may reveal a breakthrough.