GoKawiilYou’re the earliest known life form. There’s no food around right now. It would be great to go somewhere else. But you’re stuck. Really stuck. At your size (a couple of microns), water feels like tar, or rather, it feels the way being stuck in tar will eventually feel to a human. What do you do?
[One or more billion years later.] You’ve found the perfect solution.
Literally perfect.
“You can assume the system is working optimally,” said Aravinthan Samuel, a biophysicist at Harvard University.
Evolution has created the flagellar motor, a combination propeller/brain that enables single-celled bacteria to move toward food sources. It’s an electric motor that rotates at several hundred revolutions per second — faster than the flywheel in a race car engine — to twirl a tail-like flagellum that pushes the cell along. When the flagellar motor rotates counterclockwise, it propels the cell through the water 10 or more times its own length in a second. The motor can also rotate clockwise, causing the cell to tumble about randomly. This amazing, self-assembling, signal-processing, direction-switching molecular machine is so powerful yet so spare that, billions of years later, it’s still used by bacteria in virtually every gut and puddle on Earth.
In philosophy, “qualia” refers to the subjective qualities of our experience: what it’s like for Alice to see blue or for Bob to feel delighted. Qualia are “the ways things seem to us,” as the late philosopher Daniel Dennett put it. In these essays, our columnists follow their curiosity, and explore important but not necessarily answerable scientific questions.
Since the discovery of the bacterial flagellar motor in the 1970s, biologists and creationists alike have marveled at its design like medieval architects staring with awe at the dome of the Pantheon built by their Roman ancestors. It’s hard to fathom the level of engineering achievable by a billion years of bacterial evolution, especially with only 20 minutes between cell generations, which allows for a truly astronomical number of mutations and trial runs. Creationists hold up the bacterial flagellar motor as a prime example of intelligent design — specifically the concept of “irreducible complexity,” a biological system so intricate, they say, that it couldn’t possibly have arisen in stages through the gradual, stepwise process of Darwinian evolution.
Yet it very much did.
Over the past few decades, scientists have toiled to unravel how the flagellar motor works — namely, how it rotates and switches directions.
Now they finally have. A wave of studies since 2020 has cracked the molecular structures of the flagellar motor’s parts, including, most importantly, the small cogwheels that turn the larger cogwheel at the flagellum’s base. The final pieces of this dynamic puzzle fell into place as recently as March 2026.
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