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High-efficacy subcellular micropatterning of proteins using fibrinogen anchors.


ABSTRACT: Protein micropatterning allows proteins to be precisely deposited onto a substrate of choice and is now routinely used in cell biology and in vitro reconstitution. However, drawbacks of current technology are that micropatterning efficiency can be variable between proteins and that proteins may lose activity on the micropatterns. Here, we describe a general method to enable micropatterning of virtually any protein at high specificity and homogeneity while maintaining its activity. Our method is based on an anchor that micropatterns well, fibrinogen, which we functionalized to bind to common purification tags. This enhances micropatterning on various substrates, facilitates multiplexed micropatterning, and dramatically improves the on-pattern activity of fragile proteins like molecular motors. Furthermore, it enhances the micropatterning of hard-to-micropattern cells. Last, this method enables subcellular micropatterning, whereby complex micropatterns simultaneously control cell shape and the distribution of transmembrane receptors within that cell. Altogether, these results open new avenues for cell biology.

SUBMITTER: Watson JL 

PROVIDER: S-EPMC7802367 | biostudies-literature | 2021 Feb

REPOSITORIES: biostudies-literature

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High-efficacy subcellular micropatterning of proteins using fibrinogen anchors.

Watson Joseph L JL   Aich Samya S   Oller-Salvia Benjamí B   Drabek Andrew A AA   Blacklow Stephen C SC   Chin Jason J   Derivery Emmanuel E  

The Journal of cell biology 20210201 2


Protein micropatterning allows proteins to be precisely deposited onto a substrate of choice and is now routinely used in cell biology and in vitro reconstitution. However, drawbacks of current technology are that micropatterning efficiency can be variable between proteins and that proteins may lose activity on the micropatterns. Here, we describe a general method to enable micropatterning of virtually any protein at high specificity and homogeneity while maintaining its activity. Our method is  ...[more]

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