Lori Dajose
Determining the chemical structure of an enzyme that enables microbes to breathe arsenic compounds provides insight into how bacteria contribute to arsenic poisoning.
Lori Dajose
Caltech scientists have developed an artificial neural network out of DNA that can recognize highly complex and noisy molecular information.
Lori Dajose
Gene expression in developing cells is heavily influenced by group dynamics of DNA-binding proteins interacting with each other.
Lori Dajose
A new study makes the first global estimates of the mass of life on Earth.
Lori Dajose
Scientists can now image the activity of 10,421 genes at once within individual cells, using a new technique developed at Caltech.
Lori Dajose
A new technique creates maps of the folded structures of DNA, RNA, and proteins within the cellular nucleus, revealing elegant "hubs" of organization.
Lori Dajose
Caltech researchers gain new insights into the brain mechanisms underlying the negative effects caused by long-term social isolation.
Lori Dajose
Caltech scientists have engineered cells to create spatial patterns in a dish similar to those that occur during embryonic development.
Lori Dajose
A new approach developed at Caltech is an important step in cracking the code of mysterious, noncoding regions of DNA.
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Lori Dajose
Many studies have linked the gut microbiome to health and disease. New research from Caltech reveals mechanisms utilized by gut bacteria to assemble a microbiome in the first place.
Lori Dajose
Using a tiny array of electrodes implanted in the brain's somatosensory cortex, Caltech scientists have induced sensations of touch and movement in the hand and arm of a paralyzed man.
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