In Tiny Worm Unlocking Secrets Of The Brain / Elegans for short, has a nervous system, gut, muscle, and other tissues similar to humans.. They have trapped it in a tiny groove on a clear plastic chip, with just its nose sticking into a channel. Bargmann watches two colleagues manipulate a microscopic roundworm. In 1986 the first and only complete "neuronal wiring" map was made, based on the worm's 302 neurons, and the 7000. Tiny, glowing worm to unlock brain's. Elegans for short, has a nervous system, gut, muscle, and other tissues similar to humans.
The worm reaches maturity in a few days, has 300 offspring and is transparent, making it an ideal research tool. Tiny, glowing worm to unlock brain's. Bargmann watches two colleagues manipulate a microscopic roundworm. In 1986 the first and only complete "neuronal wiring" map was made, based on the worm's 302 neurons, and the 7000. A tiny transparent worm that lives in rotting fruit is helping to unravel how the brain works.
Elegans for short, has a nervous system, gut, muscle, and other tissues similar to humans. Bargmann watches two colleagues manipulate a microscopic roundworm. They have trapped it in a tiny groove on a clear plastic chip, with just its nose sticking into a channel. The worm reaches maturity in a few days, has 300 offspring and is transparent, making it an ideal research tool. Tiny, glowing worm to unlock brain's. In 1986 the first and only complete "neuronal wiring" map was made, based on the worm's 302 neurons, and the 7000. A tiny transparent worm that lives in rotting fruit is helping to unravel how the brain works.
Elegans for short, has a nervous system, gut, muscle, and other tissues similar to humans.
In 1986 the first and only complete "neuronal wiring" map was made, based on the worm's 302 neurons, and the 7000. Tiny, glowing worm to unlock brain's. Elegans for short, has a nervous system, gut, muscle, and other tissues similar to humans. Bargmann watches two colleagues manipulate a microscopic roundworm. A tiny transparent worm that lives in rotting fruit is helping to unravel how the brain works. They have trapped it in a tiny groove on a clear plastic chip, with just its nose sticking into a channel. The worm reaches maturity in a few days, has 300 offspring and is transparent, making it an ideal research tool.
A tiny transparent worm that lives in rotting fruit is helping to unravel how the brain works. They have trapped it in a tiny groove on a clear plastic chip, with just its nose sticking into a channel. Tiny, glowing worm to unlock brain's. The worm reaches maturity in a few days, has 300 offspring and is transparent, making it an ideal research tool. Elegans for short, has a nervous system, gut, muscle, and other tissues similar to humans.
In 1986 the first and only complete "neuronal wiring" map was made, based on the worm's 302 neurons, and the 7000. The worm reaches maturity in a few days, has 300 offspring and is transparent, making it an ideal research tool. They have trapped it in a tiny groove on a clear plastic chip, with just its nose sticking into a channel. Tiny, glowing worm to unlock brain's. A tiny transparent worm that lives in rotting fruit is helping to unravel how the brain works. Bargmann watches two colleagues manipulate a microscopic roundworm. Elegans for short, has a nervous system, gut, muscle, and other tissues similar to humans.
In 1986 the first and only complete "neuronal wiring" map was made, based on the worm's 302 neurons, and the 7000.
Elegans for short, has a nervous system, gut, muscle, and other tissues similar to humans. Bargmann watches two colleagues manipulate a microscopic roundworm. A tiny transparent worm that lives in rotting fruit is helping to unravel how the brain works. Tiny, glowing worm to unlock brain's. The worm reaches maturity in a few days, has 300 offspring and is transparent, making it an ideal research tool. They have trapped it in a tiny groove on a clear plastic chip, with just its nose sticking into a channel. In 1986 the first and only complete "neuronal wiring" map was made, based on the worm's 302 neurons, and the 7000.
The worm reaches maturity in a few days, has 300 offspring and is transparent, making it an ideal research tool. In 1986 the first and only complete "neuronal wiring" map was made, based on the worm's 302 neurons, and the 7000. They have trapped it in a tiny groove on a clear plastic chip, with just its nose sticking into a channel. Tiny, glowing worm to unlock brain's. Bargmann watches two colleagues manipulate a microscopic roundworm.
They have trapped it in a tiny groove on a clear plastic chip, with just its nose sticking into a channel. A tiny transparent worm that lives in rotting fruit is helping to unravel how the brain works. Elegans for short, has a nervous system, gut, muscle, and other tissues similar to humans. Tiny, glowing worm to unlock brain's. The worm reaches maturity in a few days, has 300 offspring and is transparent, making it an ideal research tool. Bargmann watches two colleagues manipulate a microscopic roundworm. In 1986 the first and only complete "neuronal wiring" map was made, based on the worm's 302 neurons, and the 7000.
They have trapped it in a tiny groove on a clear plastic chip, with just its nose sticking into a channel.
In 1986 the first and only complete "neuronal wiring" map was made, based on the worm's 302 neurons, and the 7000. Bargmann watches two colleagues manipulate a microscopic roundworm. The worm reaches maturity in a few days, has 300 offspring and is transparent, making it an ideal research tool. A tiny transparent worm that lives in rotting fruit is helping to unravel how the brain works. They have trapped it in a tiny groove on a clear plastic chip, with just its nose sticking into a channel. Elegans for short, has a nervous system, gut, muscle, and other tissues similar to humans. Tiny, glowing worm to unlock brain's.
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