What to make of Junk DNA A few weeks ago, science writer Carl Zimmer wrote (and literally bled in T. Ryan Gregory’s lab) a column in the New York Times exploring “junk” DNA. It’s a really good piece that also hits on how scientists have been arguing for a long time about what’s adaptive, what’s random, … More A small plant genome and “junk” DNA.
Einstein’s theories of relativity enables out modern global positioning system (GPS) to work because the satellites have to correct for the distances between the satellites and Earth. This was not the intent when Einstein derived the mathematics of the relativistic universe. At least I don’t think it was. He was playing around with figuring out how … More From nature to product.
Before getting into this week’s post, I’d like to remind my readers that the discoveries of plant science I talk about here are going on in plants everywhere. The details may vary and the specific output responses might be different, but the research plant scientists do translates to most plants. The processes that go on … More My greatest moment in plant science.
Cytokinins: Part 2. Last week, I told the story about how cytokinins as a factor that induced cell division and new shoot formation. The first in the class of molecules was the adenine derivative Kinetin. Kinetin is a synthetic molecule, or the product of rearranging natural ones when DNA sits out for many months. Carlos … More Cytokinins, Part 2.
This post touches on a lot of things. I wasn’t aware of just how many things interlinked in this story. So I hope you enjoy the story of the discovery of cytokinins, and the connections made herein. This year is the 60th anniversary of the discovery of the first cytokinin, kinetin. And this one is … More The Discovery of Cytokinin.