Author:
Mukhopadhyay Sayak,Bagh Sangram
Abstract
AbstractBiological solutions to human space travel must consider microgravity as an important component, which is unknown by the biochemical worlds on the Earth. Thus, one of the fundamental challenges of space biotechnology is to create engineered biochemical systems to integrate microgravity as a signal within molecular and cellular processes. Here we created the first molecular or biochemical microgravity sensor by creating a synthetic-small-regulatory-RNA based molecular network in E.coli, which sensed microgravity and responded by altering the expression of a target protein. We demonstrated that the design was universal, could work potentially with any promoter and against any target gene. This device was applied to target cell division process and rescue the deformed cell shape by applying microgravity. The work showed for the first time, a way to integrate microgravity as physical signals within biochemical process of a living cell in a human designed way and thus, opens a new direction in space biotechnology, space chemistry and space technology.
Publisher
Cold Spring Harbor Laboratory