Living organisms act as integrated wholes to maintain themselves. Individual actions can each be explained by characterizing the mechanisms that perform the activity. But these alone do not explain how various activities are coordinated and performed versatilely. We argue that this depends on a specific type of mechanism, a control mechanism. We develop an account of control by examining several extensively studied control mechanisms operative in the bacterium E. coli. On our analysis, what distinguishes a control mechanism from other mechanisms is that it relies on measuring one or more variables, which results in setting constraints in the control mechanism that determine its action on flexible constraints in other mechanisms. In the most...
Bacteria move towards favourable and away from toxic environments by changing their swimming pattern...
We advance an account that grounds cognition, specifically decision-making, in an activity all organ...
The process of cellular differentiation is vital for the development of multicellular organisms and ...
Living organisms act as integrated wholes to maintain themselves. Individual actions can each be exp...
Living organisms act as integrated wholes to maintain themselves. Individual actions can each be exp...
International audienceOrganization figures centrally in the understanding of biological systems adva...
Comparable processes in different species often involve homologous genes. One question is whether th...
© 2011 Soyer and Goldstein; licensee BioMed Central Ltd. This is an Open Access article distributed ...
International audienceLiving systems employ several mechanisms and behaviors to achieve robustness a...
Understanding how biological organisms are autonomous—maintain themselves far from equilibrium throu...
Bacteria are capable of sensing and responding to changes in their environment. One of the ways they...
Bacteria are capable of sensing and responding to changes in their environment. One of the ways they...
Bacteria move towards favourable and away from toxic environments by changing their swimming pattern...
PMCID: PMC3088647This is an open-access article distributed under the terms of the Creative Commons ...
Bacteria are capable of sensing and responding to changes in their environment. One of the ways they...
Bacteria move towards favourable and away from toxic environments by changing their swimming pattern...
We advance an account that grounds cognition, specifically decision-making, in an activity all organ...
The process of cellular differentiation is vital for the development of multicellular organisms and ...
Living organisms act as integrated wholes to maintain themselves. Individual actions can each be exp...
Living organisms act as integrated wholes to maintain themselves. Individual actions can each be exp...
International audienceOrganization figures centrally in the understanding of biological systems adva...
Comparable processes in different species often involve homologous genes. One question is whether th...
© 2011 Soyer and Goldstein; licensee BioMed Central Ltd. This is an Open Access article distributed ...
International audienceLiving systems employ several mechanisms and behaviors to achieve robustness a...
Understanding how biological organisms are autonomous—maintain themselves far from equilibrium throu...
Bacteria are capable of sensing and responding to changes in their environment. One of the ways they...
Bacteria are capable of sensing and responding to changes in their environment. One of the ways they...
Bacteria move towards favourable and away from toxic environments by changing their swimming pattern...
PMCID: PMC3088647This is an open-access article distributed under the terms of the Creative Commons ...
Bacteria are capable of sensing and responding to changes in their environment. One of the ways they...
Bacteria move towards favourable and away from toxic environments by changing their swimming pattern...
We advance an account that grounds cognition, specifically decision-making, in an activity all organ...
The process of cellular differentiation is vital for the development of multicellular organisms and ...