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Yi Zuo, a neurobiologist at UC Santa Cruz, has discovered how learning and memory imprint their effects on the brain – spurred by inspiration from her father, her 3-year-old son and a family friend who suffered a stroke. The intersection of those three people led to a long series of experiments with more than 200 smart and frisky laboratory mice that revealed that learning new tasks can permanently alter the brain’s nerve cells in animals, and perhaps in humans. In a recent visit to her lab among the towering redwoods on the Santa Cruz campus, Zuo explained that her lab mice have shown her and her research team that in learning a new task, the connections between specific cells in the brain are swiftly rewired, and that those fresh connections can become permanent – even after the mice learn even newer tasks. Much the same must be true in humans, she concluded. “When you learn to ride a bicycle,” Zuo said, “you may fall off a few times, but once you’ve learned how, you never, never for
Yi Zuo, a neurobiologist at UC Santa Cruz, has discovered how learning and memory imprint their effects on the brain – spurred by inspiration from her father, her 3-year-old son and a family friend who suffered a stroke. More Bay Area News * New lawsuit could stall plans for 49ers stadium in Santa Clara 12.08.09 * Real estate agent accused of molestation slain 12.08.09 * Shellfish harvesting resumes in Alameda 12.08.09 * Lab mice show brain’s role in learning, memory 12.08.09 The intersection of those three people led to a long series of experiments with more than 200 smart and frisky laboratory mice that revealed that learning new tasks can permanently alter the brain’s nerve cells in animals, and perhaps in humans. In a recent visit to her lab among the towering redwoods on the Santa Cruz campus, Zuo explained that her lab mice have shown her and her research team that in learning a new task, the connections between specific cells in the brain are swiftly rewired, and that those fres
Yi Zuo, a neurobiologist at UC Santa Cruz, has discovered how learning and memory imprint their effects on the brain – spurred by inspiration from her father, her 3-year-old son and a family friend who suffered a stroke. The intersection of those three people led to a long series of experiments with more than 200 smart and frisky laboratory mice that revealed that learning new tasks can permanently alter the brain’s nerve cells in animals, and perhaps in humans. In a recent visit to her lab among the towering redwoods on the Santa Cruz campus, Zuo explained that her lab mice have shown her and her research team that in learning a new task, the connections between specific cells in the brain are swiftly rewired, and that those fresh connections can become permanent – even after the mice learn even newer tasks. Much the same must be true in humans, she concluded. “When you learn to ride a bicycle,” Zuo said, “you may fall off a few times, but once you’ve learned how, you never, never for
Yi Zuo, a neurobiologist at UC Santa Cruz, has discovered how learning and memory imprint their effects on the brain – spurred by inspiration from her father, her 3-year-old son and a family friend who suffered a stroke. More Bay Area News * New lawsuit could stall plans for 49ers stadium in Santa Clara 12.08.09 * Real estate agent accused of molestation slain 12.08.09 * Shellfish harvesting resumes in Alameda 12.08.09 * Lab mice show brain’s role in learning, memory 12.08.09 The intersection of those three people led to a long series of experiments with more than 200 smart and frisky laboratory mice that revealed that learning new tasks can permanently alter the brain’s nerve cells in animals, and perhaps in humans. In a recent visit to her lab among the towering redwoods on the Santa Cruz campus, Zuo explained that her lab mice have shown her and her research team that in learning a new task, the connections between specific cells in the brain are swiftly rewired, and that those fres
