2019
DOI: 10.1002/adbi.201800333
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Mimicking Adhesion in Minimal Synthetic Cells

Abstract: Cell adhesions to the extracellular matrix and to neighboring cells are fundamental to cell behavior and have also been implemented into minimal synthetic cells, which are assembled from molecular building blocks from the bottom‐up. Investigating adhesion in cell mimetic models with reduced complexity provides a better understanding of biochemical and biophysical concepts underlying the cell adhesion machinery. In return, implementing cell–matrix and cell–cell adhesions into minimal synthetic cells allows reco… Show more

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Cited by 21 publications
(21 citation statements)
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References 80 publications
(151 reference statements)
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“…To understand and reconstitute machinery of native cells, complex membrane proteins such as ion channels, ATPases, proton pumps and SNARE proteins are incorporated to recapitulate cell behaviors, which will be discussed in details in Section 3. [2,4,[58][59][60][61]70]…”
Section: Phospholipid Vesiclesmentioning
confidence: 99%
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“…To understand and reconstitute machinery of native cells, complex membrane proteins such as ion channels, ATPases, proton pumps and SNARE proteins are incorporated to recapitulate cell behaviors, which will be discussed in details in Section 3. [2,4,[58][59][60][61]70]…”
Section: Phospholipid Vesiclesmentioning
confidence: 99%
“…[154,366,380] The migration of synthetic cells can be achieved by manipulating their reversible adhesion to substrates (Figure 22). [58,381] For instance, proteins iLID and Micro are immobilized on a GUV and substrate respectively. These two proteins interact with each other and dissociate under blue light and in dark respectively.…”
Section: Motilitymentioning
confidence: 99%
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“…[ 15 ] The real‐time response to changes in the environmental inputs requires the direct and integrated sensing of different stimuli by the adhesion coupled receptors of a cell. In minimal synthetic cells different triggers such as temperature, [ 16,17 ] pH, [ 18,19 ] metal ions, [ 20 ] redox potential, [ 21,22 ] and light [ 23–26 ] have been used to regulate their functions, including the adhesion to substrates. [ 23,26 ] While these examples represent systems that respond to one parameter in their environment, the challenge remains to construct “smart” synthetic cells which can sense and integrate multiple signals and adhere to places with the right combination of stimuli to perform their function, analogous to natural cells.…”
Section: Figurementioning
confidence: 99%