RT Journal Article
SR Electronic
T1 Analog nitrogen sensing in <em>Escherichia coli</em> enables high fidelity information processing
JF bioRxiv
FD Cold Spring Harbor Laboratory
SP 015792
DO 10.1101/015792
A1 M. Komorowski
A1 J. Schumacher
A1 V. Behrends
A1 T. Jetka
A1 Mark H. Bennett
A1 A. Ale
A1 S. Filippi
A1 J.W. Pinney
A1 J.G. Bundy
A1 M. Buck
A1 M.P.H. Stumpf
YR 2015
UL http://biorxiv.org/content/early/2015/02/27/015792.abstract
AB The molecular reaction networks that coordinate the response of an organism to changing environmental conditions are central for survival and reproduction. Escherchia coli employs an accurate and flexible signalling system that is capable of processing ambient nitrogen availability rapidly and with high accuracy. Carefully orchestrated post-translational modifications of PII and the glutamine synthetase allow E. coli to trace nitrogen availability in a continuous, decidedly non-digital fashion. We measure the dynamic proteomic and metabolomic responses to trace the analog computations, and use an information theoretical framework to characterize the information capacity of E. coli’s nitrogen sensing network: we find that this system can transmit up to 9bits of information about the nitrogen state. This allows cells to respond rapidly and accurately even to small differences in metabolite concentrations.