Katja Kolar scite author profile

Membrane-bound organelles are a wonderful evolutionary acquisition of the eukaryotic cell, allowing the segregation of sometimes incompatible biochemical reactions into specific compartments with tailored microenvironments. On the flip side, these isolating membranes that crowd the interior of the cell, constitute a hindrance to the diffusion of metabolites and information to all corners of the cell. To ensure coordination of cellular activities, cells use a network of contact sites between the membranes of different organelles. These membrane contact sites (MCSs) are domains where two membranes come to close proximity, typically less than 30nm. Such contacts create microdomains that favor exchange between two organelles. MCSs are established and maintained in durable or transient states by tethering structures, which keep the two membranes in proximity, but fusion between the membranes does not take place. Since the endoplasmic reticulum (ER) is the most extensive cellular membrane network, it is thus not surprising to find the ER involved in most MCSs within the cell. The ER contacts diverse compartments such as mitochondria, lysosomes, lipid droplets, the Golgi apparatus, endosomes and the plasma membrane. In this review, we will focus on the common organizing principles underlying the many MCSs found between the ER and virtually all compartments of the cell, and on how the ER establishes a network of MCSs for the trafficking of vital metabolites and information. This article is part of a Special Issue entitled: Functional and structural diversity of endoplasmic reticulum.

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OptoBase: A Web Platform for Molecular Optogenetics

Kolar

et al. 2018

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OptoBase is an online platform for molecular optogenetics. At its core is a hand-annotated and ontology-supported database that aims to cover all existing optogenetic switches and publications, which is further complemented with a collection of convenient optogenetics-related web tools. OptoBase is meant both for expert optogeneticists to easily keep track of the field, as well as for all researchers who find optogenetics inviting as a powerful tool to address their biological questions of interest. It is available at https://www.optobase.org . This work also presents OptoBase-based analysis of the trends in molecular optogenetics.

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Synthetic biological approaches to optogenetically control cell signaling

Kolar

Weber

2017

Current Opinion in Biotechnology

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A synthetic mammalian network to compute population borders based on engineered reciprocal cell-cell communication

et al. 2015

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BackgroundMulticellular organisms depend on the exchange of information between specialized cells. This communication is often difficult to decipher in its native context, but synthetic biology provides tools to engineer well-defined systems that allow the convenient study and manipulation of intercellular communication networks.ResultsHere, we present the first mammalian synthetic network for reciprocal cell-cell communication to compute the border between a sender/receiver and a processing cell population. The two populations communicate via L-tryptophan and interleukin-4 to highlight the population border by the production of a fluorescent protein. The sharpness of that visualized edge can be adjusted by modulating key parameters of the network.ConclusionsWe anticipate that this network will on the one hand be a useful tool to gain deeper insights into the mechanisms of tissue formation in nature and will on the other hand contribute to our ability to engineer artificial tissues.Electronic supplementary materialThe online version of this article (doi:10.1186/s12918-015-0252-1) contains supplementary material, which is available to authorized users.

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Additional file 2: Table S1. of A synthetic mammalian network to compute population borders based on engineered reciprocal cell-cell communication

Kolar¹,

Wischhusen²,

MĂźller³

et al. 2015

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Katja Kolar

Organization and function of membrane contact sites

OptoBase: A Web Platform for Molecular Optogenetics

Synthetic biological approaches to optogenetically control cell signaling

A synthetic mammalian network to compute population borders based on engineered reciprocal cell-cell communication

Additional file 2: Table S1. of A synthetic mammalian network to compute population borders based on engineered reciprocal cell-cell communication

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