Researchers have created “bacterial computers” with the potential to solve complicated mathematics problems. Scientists demonstrate that computing in living cells is feasible, opening the door to a number of applications. The second-generation bacterial computers illustrate the feasibility of extending the approach to other computationally challenging math problems.
Researchers have created “bacterial computers” with the potential to solve complicated mathematics problems. Scientists demonstrate that computing in living cells is feasible, opening the door to a number of applications. The second-generation bacterial computers illustrate the feasibility of extending the approach to other computationally challenging math problems.
A novel drug that targets a master disease-causing gene can dramatically reduce heart muscle damage after a heart attack and may lead to significantly improved patient outcomes, researchers have shown.
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A novel drug that targets a master disease-causing gene can dramatically reduce heart muscle damage after a heart attack and may lead to significantly improved patient outcomes, researchers have shown.
Continue reading about New Drug May Reduce Heart Attack Damage
A habitually shod lifestyle has consequences for the biologically normal anatomy and function of the foot.
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A habitually shod lifestyle has consequences for the biologically normal anatomy and function of the foot.
Continue reading about Footwear Alters Normal Form And Function Of The Foot
While repair of the central nervous system has long been considered impossible, researchers have just developed a strategy that could promote neuronal regeneration after injury.
While repair of the central nervous system has long been considered impossible, researchers have just developed a strategy that could promote neuronal regeneration after injury.
A new study shows why muscle membranes don’t rupture when healthy people exercise. The findings shed light on a mechanism that appears to protect cells from mechanical stress. The study also helps explain why muscle damage is so severe when this mechanism is disrupted, which occurs in certain muscular dystrophies.
Continue reading about Sticky Protein Helps Reinforce Fragile Muscle Membranes
A new study shows why muscle membranes don’t rupture when healthy people exercise. The findings shed light on a mechanism that appears to protect cells from mechanical stress. The study also helps explain why muscle damage is so severe when this mechanism is disrupted, which occurs in certain muscular dystrophies.
Continue reading about Sticky Protein Helps Reinforce Fragile Muscle Membranes