Bioluminescence: How Organisms Light Things Up - Bioluminescence occurs in a variety of species. Learn about bioluminescence and what it tells us about the phenomenon of light.
Bioluminescence: How Organisms Light Things Up What else do you think of when you think of bioluminescence? Our friend the firefly of course. Here's Photinus pyralis posing on a soy bean plant. Gail Shumway/Getty Images Another way to make photons, known as chemiluminescence, involves ...
Bioluminescence: How Organisms Light Things Up What else do you think of when you think of bioluminescence? Our friend the firefly of course. Here's Photinus pyralis posing on a soy bean plant. Gail Shumway/Getty Images Another way to make photons, known as chemiluminescence, involves ...
Visual communication can be observed over considerable distances, but can be limited in environments with limited visibility, such as night-time, in murky water or in thick vegetation. Many animals, such as fireflies, glow-worms and deep-sea fish usebioluminescenceto communicate in these low-visibi...
There are many forms of life in this world. There is also an incredible range of diversity among the kinds of living organisms that roam the earth. Although there is still a lot that we do not know about bioluminescence and fireflies, we do know that the findings of the experiments with ...
Similar associations between sexual selection and speciation are seen in a diversity of other organisms (e.g., cichlids22,51, centrarchid fishes52, insects23, and organisms that use bioluminescence in courtship24). There are also associations between pre-zygotic reproductive isolation and speciation ...
“I’m captivated by the phenomenon of bioluminescence—the way certain organisms produce light in the darkest environments. The first time I saw bioluminescence in person, I was visiting Vieques, a tiny island off the coast of Puerto Rico, and on a night kayaking trip. As my paddle sliced ...
In marine organisms, the blue light produced by bioluminescence is most helpful because the wavelength of the light, around 470 nanometers, transmits much farther inwater. Also, most organisms don't have pigments in their visual organs that enable them to see longer (yellow, red) or shorter ...
The question we had is: How could they do anything at all? I mean, they're incredibly small. You have to have a microscope to see one. They live this sort of boring life where they grow and divide, and they've always been considered to be these asocial, reclusive organisms. ...
an oligomer with NEK7. Furthermore, studies using bioluminescence resonance energy transfer (BRET) to distinguish the conformation of NLRP3 showed that ablation of RACK1 attenuates the transition of NLRP3 from its “closed” resting state into an “open” conformation in response to nigericin....