The molecular structure of the cides skeleton allows cells, especially neurons, but all kinds of cells, to know a direction. In the two headed worms, one of the things that happens is the Molecular Structure of the Cides Skeletons Allows Cells To Know A Direction. The information in these structures can then be used by future generations as part of an experiment called epi genetics.
As a semi-outsider, it’s fun for me to watch as a new era dawns in biology: one that adds ideas from physics, big data, computer science, and information theory to the usual biological toolkit. One of the big areas of study in this burgeoning field is the relationship between the basic bioinformatic building blocks (genes and proteins) to the macroscopic organism that eventually results. That relationship is not a simple one, as we’re discovering. Standard metaphors notwithstanding, an organism is not a machine based on genetic blueprints. I talk with biologist and information scientist Michael Levin about how information and physical constraints come together to make organisms and selves.
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Michael Levin received his Ph.D. in genetics from Harvard University. He is currently Distinguished Professor and Vannevar Bush Chair in the Biology department at Tufts University, and serves as director of the Tufts Center for Regenerative and Developmental Biology. His work on left-right asymmetric body structures is on Nature’s list of 100 Milestones of Developmental Biology of the Century.
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