Wednesday, March 29, 2017

Creation Moment 3/30/2017 - Grass "Mute"

Grass Have switches....wouldn't a switch, that controls something so important, that if it didn't exist, life wouldn't exist---be evidence of organized DESIGN? {DESIGN = DESIGNER}
And the earth brought forth grass, ... and God saw that it was good.
Genesis 1:12
 
"Grasses have top-notch border control to conserve water in their leaves. Now, scientists have identified the genetic switch that makes them such masters at taking in carbon dioxide without losing water.

Adjustable pores called stomata on the undersides of leaves help plants take in CO2 while minimizing water loss. Like pupils responding to sunlight, plants open and close their stomata in response to changing light, humidity and temperature. Grass stomata can open wider and respond more quickly than those in other plants, which helps grasses photosynthesize more efficiently.

This ability might help explain why grasses grow successfully in so many places on Earth, says Brent
Helliker, a plant ecologist... For instance, grasses are particularly well equipped to deal with the rapidly changing weather and strong winds that can hit plains and prairies.
In most plant stomata, two kidney bean–shaped cells, one on each side of the pore, swell or deflate like balloons to control the size of the opening. But in grass, each of these cells is shaped like a dumbbell instead. And each dumbbell is linked to two other cells called subsidiary cells.
 TEAMWORK A grass stoma has two dumbbell-shaped “guard cells” that inflate and deflate to close and open the pore. Neighboring subsidiary cells give a helping hand.
 
Scientists have long suspected that grasses’ subsidiary cells might give the dumbbells, known as guard cells, an assist by making it easier for them to open and close. But that’s been hard to test in a controlled way.

When a stoma opens, “it’s elbowing its way into the neighbor cells,” says study coauthor Dominique Bergmann, a biologist.... “If the neighbors don’t want to move, you’re stuck.” But subsidiary cells have some squish. As guard cells inflate, their neighboring subsidiary cells deflate.

Bergmann and her colleagues mutated a gene called MUTE in purple false brome (Brachypodium distachyon) so that the grass didn’t make the MUTE protein. Without MUTE, plants didn’t make subsidiary cells. And without the helping hand, the plants were less efficient than usual at opening and closing their stomata.

Grasses aren’t the only plants that have the MUTE gene, Bergmann says. But in other plants, the gene provides instructions to help make guard cells, not subsidiary cells." LiveScience