Frankenstein's Cat: Cuddling Up to Biotech's Brave New Beasts

BOOK: Frankenstein's Cat: Cuddling Up to Biotech's Brave New Beasts
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For my family—humans and canines alike

 

Contents
    
Title Page
    
Copyright Notice
    
Dedication
 
    
Introduction
1. Go Fish
2. Got Milk?
3. Double Trouble
4. Nine Lives
5. Sentient Sensors
6. Pin the Tail on the Dolphin
7. Robo Revolution
8. Beauty in the Beasts
 
    
Notes
    
Acknowledgments
    
Index
    
Also by Emily Anthes
    
A Note About the Author
    
Copyright

 

Introduction

In China, the world’s manufacturing powerhouse, a new industry is taking shape: the mass production of mutant mice. Peek into the 45,000 mouse cages at Shanghai’s Fudan University and you’ll see a growing collection of misfits. By randomly disabling the rodents’ genes, the scientists here are churning out hundreds of odd animals, assembly-line style. They have created mice studded with skin tumors and mice that grow tusks. There’s a mouse with male-pattern baldness, hair everywhere save for a lonely bare spot on its head. Some of the mice have strange behavioral quirks—they endlessly bury marbles, for instance, or make only left turns. One strain ages at warp speed. Another can’t feel pain.

While some of the rodents have obvious abnormalities, others reveal their secrets over time. One variety appears normal on the outside, with thick white fur and healthy pink ears and noses. But the animals are klutzes. They are clumsy and spectacularly uncoordinated. They fail miserably when researchers put them through their paces at a special rodent boot camp. In one test, the mice are tasked with standing on top of a rotating rod for as long as they can manage, the rodent equivalent of a log-rolling challenge. It’s not an easy undertaking, but normal mice eventually find their footing. The mutant mice never do. They also have trouble balancing on a narrow wooden beam and keeping their grip when suspended, upside down, from a wire screen. And they have strange gaits—taking abnormally wide steps and holding their tails at odd angles, curved up toward the ceiling, instead of letting them simply drag along the floor behind them, as mice usually do.

Even stranger, perhaps, are the Lonely Hearts Club mice. The males of this strain look like regular rodents, but the females consistently refuse to mate with them. The poor guys, lacking some certain je ne sais quoi, simply have no sex appeal, and they are rejected time and time again.

These mice are just a small sample of the more than 500 different kinds of mutants the Fudan team has created. Ultimately, the researchers hope to create
100,000
strains of modified mice, each eccentric in its own way. It would be enough to fill a carnival sideshow thousands of times over.

*   *   *

As long as we’re dreaming up animal sideshows, we needn’t stop with peculiar mice. Science has given us a whole new toolbox for tinkering with life, and we have the power to modify animals in profound new ways. We are editing their genetic codes, rebuilding their broken bodies, and supplementing their natural senses. Headlines frequently herald the birth of strange new creatures:
Bionic beetles! Glowing cats! Spider goats! Roborats!
The breakthroughs are simultaneously astounding and puzzling. What
are
these creatures exactly? What do they look like? Who’s creating them, and why? And are these animals really so novel?

Indeed, we have a long history of refashioning animal bodies. Take the varied members of the species
Canis lupus familiaris
—the modern dog—which are products of millennia of life with humans and bear little resemblance to their ancestors, gray wolves. Exactly how this dog domestication began is a subject of intense debate. Some scientists suggest that we deliberately set out to acquire canine companions, adopting wild wolf pups. Others hypothesize that hungry wolves, attracted to the bones, trash, and scraps produced by early humans, approached our camps on their own terms, and that our tolerance of the least threatening interlopers gave rise to future generations of human-friendly canines. Either way, as wolves became part of human society, moving from cold ground to warm hearth, they lost many of the traits they needed to survive in the wild. Their bodies and heads shrank, their faces and jaws grew more compact, and their teeth decreased in size.

As our relationship with canines developed, we began to breed them more carefully, molding dogs that excelled at specific tasks. We created the bulky, barrel-chested mastiff to guard our homes, and the dachshund, a wiggly salami of a dog, to shimmy into badger burrows. The diversity among modern dogs is so astounding that the thirty thousand dogs that strut their canine stuff at Crufts, the largest dog show in the world, don’t even look like members of the same species. One year, the “Best in Show” contenders included King, a hound with a deer’s build, all legs and lean muscle, and Ricky, a tiny black-and-white fluff ball who could stand easily underneath King’s smooth brown belly. They shared the ring with Donny—a standard poodle whose shaved gray haunches were set off by a thick white mane—and Cruella, an Old English sheepdog whose long, shaggy hair obscured all but the black dot that presumably served as her nose. Today, thanks to us, dogs are the most physically diverse species on Earth.

We’ve reshaped other species, too, turning scrawny chickens into plump broiler birds and bristly-haired wild sheep into producers of soft wool. The list goes on and on. We learned to breed animals that suited our every need, creating hunters, herders, guardians, food sources, and companions. Over the course of generations, the members of many species diverged from their wild ancestors and took their place in a human world.

But selective breeding was a blunt instrument, one that required us to transform animals using educated guesswork, breeding desirable hounds together, over and over again, until a puppy we liked squirmed into the world. It took thousands of years to turn wolves into dogs. Now we can create novel organisms in years, months, even days.

Today, the tools of molecular biology allow us to target one specific gene, to instantly turn it on or off, to silence or amplify its effects. For instance, the researchers at Fudan University are creating their stunning array of strange mice simply by knocking out a single gene at a time. To do so, they’re relying on a special genetic tool called a transposon or a “jumping gene,” a segment of DNA capable of hopping around the genome. When the scientists inject a transposon into a mouse embryo, this foreign piece of DNA inserts itself into a random place in the rodent’s genome, disabling whatever gene it finds there. But the real beauty of the system is that when this mouse grows up and mates, the transposon jumps to a different location in the genome of its pups, sabotaging a new gene. With each mating, researchers have no idea where the transposon will end up, what gene it will disrupt, or what the ultimate effects will be. It’s like throwing darts at a genetic dartboard. Blindfolded. Only when the pups are born, and start exhibiting various abnormalities, do the scientists learn what part of the genome has gone haywire. The approach is allowing the researchers to create cages upon cages of novel mutants, simply by playing matchmaker between their amorous rodents. In some cases, the scientists are making furry freaks faster than they can figure out what’s wrong with them.

We can also recombine genes in ways that nature never would—just consider a very curious cat skulking about New Orleans. With downy orange fur and a soft pink nose, the feline looks like your average tabby. But flick on a black light, and the cat becomes Mr. Green Genes, his nose turning from soft pink to electric lime, due to a bit of jellyfish DNA tucked into each of his cells. The insides of his ears and the whites of his eyes glow brightly, his face emerging from the dark like a modern-day Cheshire cat. (His son, Kermit, also glows green.)

Meanwhile, nearly two thousand miles away, a barn in Logan, Utah, is home to a strange herd of goats. Thanks to a pair of genes borrowed from a spider, each female goat produces milk that’s chock-full of silk proteins. When the milk is processed in the lab, scientists can extract the spider proteins and spin them into silk.

Genetics isn’t the only field providing us with the power to reengineer other species. Advances in electronics and computing make it possible to merge animal bodies with machines, to use tiny electrodes to hijack a rat’s brain and guide the rodent, like a remote-controlled toy, through a complicated obstacle course. Breakthroughs in materials science and veterinary surgery are helping us build bionic limbs for injured animals, and we can train monkeys to control robotic arms with their thoughts. Today, our grandest science fiction fantasies are becoming reality.

*   *   *

Some of us may find our growing control over living, breathing beings to be unsettling. After all, biotechnology is the stuff of dystopian nightmares, and many an apocalyptic scenario has been constructed around crazy chimeras or world-conquering cyborgs. Ethicists and activists worry about whether we should be altering other species when we can’t possibly get their consent. Some say that manipulating the planet’s wild things—whether we’re inserting genes or electrodes—is profoundly unnatural, causes animal suffering, and turns other life-forms into commodities. Critics worry that our effort to remake the world’s fauna is the worst example of human hubris, the expression of an arrogant desire to play God.

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