Bacteria made to mimic cells, form communities
Rice University scientists have found a way to engineer a new kind of cell differentiation in bacteria, inspired by a naturally occurring process in stem cells.
Rice University scientists have found a way to engineer a new kind of cell differentiation in bacteria, inspired by a naturally occurring process in stem cells.
Cell & Microbiology
Aug 12, 2019
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191
Elaborate molecular networks inside living cells enable them to sense and process many signals from the environment to perform desired cellular functions. Synthetic biologists have been able to reconstruct and mimic simpler ...
Biotechnology
Apr 18, 2019
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115
Gene expression is a fundamental of life, where each cell switches specific genes on and off. Thus, an autonomous device that could control the on-off switching would have great value in medical care.
Bio & Medicine
Aug 20, 2018
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10
Researchers at The University of Texas at Dallas have designed genetic "circuits" out of living cellular material in order to gain a better understanding of how proteins function, with the goal of making improvements.
Biotechnology
Mar 6, 2018
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13
Rice University scientists have created a toolkit for synthetic biologists who need to precisely tune the input and output levels of genetic circuits.
Cell & Microbiology
Jan 11, 2018
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43
Rice University bioengineers who specialize in creating tools for synthetic biology have unveiled the latest version of their "biofunction generator and "bioscilloscope," an optogenetic platform that uses light to activate ...
Cell & Microbiology
May 8, 2017
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163
The human body is made up of trillions of cells, microscopic computers that carry out complex behaviors according to the signals they receive from each other and their environment. Synthetic biologists engineer living cells ...
Biotechnology
Apr 4, 2017
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229
Synthetic biology allows scientists to design genetic circuits that can be placed in cells, giving them new functions such as producing drugs or other useful molecules. However, as these circuits become more complex, the ...
Biochemistry
Nov 14, 2016
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8
Researchers believe that genetically modified bacteria can help explain how a developing animal keeps all of its parts and organs in the same general proportions as every other member of its species.
Cell & Microbiology
Apr 21, 2016
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20
In iPS technology, gene overexpression of the four genes can induce reprogramming of a cell from differentiated state to stem cell state.
Cell & Microbiology
May 26, 2015
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87