Compartmentalised RNA catalysis in membrane-free coacervate protocells.

Reversible pH-responsive coacervate formation in lipid vesicles activates dormant enzymatic reactions

Love, C.
Steinkühler, J.
Gonzales, D.
Yandrapalli, N.
Robinson, T.
Dimova, R.
Tang, T.

January 2020

In situ, reversible coacervate formation within lipid vesicles represents a key step in the developm...

Charge-density reduction promotes ribozyme activity in RNA-peptide coacervates via RNA fluidization and magnesium partitioning.

Iglesias-Artola, J.
Drobot, B.
Kar, M.
Fritsch, A.
Mutschler, H.
Tang, T.
Kreysing, M.

April 2022

It has long been proposed that phase-separated compartments can provide a basis for the formation of...

Enhanced Ribozyme-Catalyzed Recombination and Oligonucleotide Assembly in Peptide-RNA Condensates.

Vay, K.
Song, E.
Ghosh, B.
Tang, T.
Mutschler, H.

December 2021

The ability of RNA to catalyze RNA ligation is critical to its central role in many prebiotic model ...

Compartmentalised RNA catalysis in membrane-free coacervate protocells

Drobot, B.
Iglesias Artola, J.
Le Vay, K.
Mayr, V.
Kar, M.
Kreysing, M.
Mutschler, H.
Tang, T.

January 2018

Phase separation of mixtures of oppositely charged polymers provides a simple and direct route to co...

Polyamine/Nucleotide Coacervates Provide Strong Compartmentalization of Mg<sup>2+</sup>, Nucleotides, and RNA

Erica A. Frankel (1739944)
Philip C. Bevilacqua (384871)
Christine D. Keating (1272396)

February 2016

Phase separation of aqueous solutions containing polyelectrolytes can lead to formation of dense, so...

Rapid RNA Exchange in Aqueous Two-Phase System and Coacervate Droplets

Jia, Tony Z.
Hentrich, Christian
Szostak, Jack W.

September 2014

Compartmentalization in a prebiotic setting is an important aspect of early cell formation and is cr...

Chemistry of active coacervate droplets: Liquid droplets as a minimal model of life

Nakashima, K.K.

January 2021

The chemical principles behind many vital processes are an open question in science. Be it to unders...

Nonspherical Coacervate Shapes in an Enzyme-Driven Active System

Spoelstra, W.K. (author)
van der Sluis, E.O. (author)
Dogterom, A.M. (author)
Reese, L. (author)

January 2020

Coacervates are polymer-rich droplets that form through liquid-liquid phase separation in polymer so...

Reversible pH-Responsive Coacervate Formation in Lipid Vesicles Activates Dormant Enzymatic Reactions.

Love, C.
Steinkühler, J.
Gonzales, D.
Yandrapalli, N.
Robinson, T.
Dimova, R.
Tang, T.

April 2020

In situ, reversible coacervate formation within lipid vesicles represents a key step in the developm...

Spontaneous membrane-less multi-compartmentalization via aqueous two-phase separation in complex coacervate micro-droplets.

Moreau, N.
Martin, N.
Gobbo, P.
Tang, T.
Mann, S.

October 2020

Polyelectrolyte/nucleotide multiphase complex coacervate droplets are produced by internalized aqueo...

Characterization of RNA content in individual phase-separated coacervate microdroplets.

Wollny, D.
Vernot, B.
Wang, J.
Hondele, M.
Safrastyan, A.
Aron, F.
Micheel, J.
He, Z.
Hyman, A.
Weis, K.
Camp, J.
Tang, T.
Treutlein, B.

May 2022

Condensates formed by complex coacervation are hypothesized to have played a crucial part during the...

RNA Catalysis in Model Protocell Vesicles

Chen, Irene A
Salehi-Ashtiani, Kourosh
Szostak, Jack W

September 2005

We are engaged in a long-term effort to synthesize chemical systems capable of Darwinian evolution, ...

Peptide-Assisted Nonenzymatic RNA Replication in Coacervate Droplets

Jia, Tony Z.

September 2017

Life on earth may have first appeared in the form of a protocell capable of metabolism and containin...

Characterization of RNA content in individual phase-separated coacervate microdroplets

Wollny, Damian
Vernot, Benjamin
Wang, Jie
Hondele, Maria
Safrastyan, Aram
Aron, Franziska
Micheel, Julia
He, Zhisong
Hyman, Anthony
Weis, Karsten
Camp, J. Gray
Tang, T.-Y. Dora
Treutlein, Barbara

January 2022

Condensates formed by complex coacervation are hypothesized to have played a crucial part during the...

Active coacervate droplets as a model for membraneless organelles and protocells

Donau, C.
Spaeth, F.
Sosson, M.
Kriebisch, B.
Schnitter, F.
Tena-Solsona, M.
Kang, H.
Salibi, E.
Sattler, M.
Mutschler, H.
Boekhoven, J.

January 2020

Membraneless organelles like stress granules are active liquid-liquid phase-separated droplets that ...

Reversible pH-responsive coacervate formation in lipid vesicles activates dormant enzymatic reactions

Love, C.
Steinkühler, J.
Gonzales, D.
Yandrapalli, N.
Robinson, T.
Dimova, R.
Tang, T.

January 2020

In situ, reversible coacervate formation within lipid vesicles represents a key step in the developm...

Charge-density reduction promotes ribozyme activity in RNA-peptide coacervates via RNA fluidization and magnesium partitioning.

Iglesias-Artola, J.
Drobot, B.
Kar, M.
Fritsch, A.
Mutschler, H.
Tang, T.
Kreysing, M.

April 2022

It has long been proposed that phase-separated compartments can provide a basis for the formation of...

Enhanced Ribozyme-Catalyzed Recombination and Oligonucleotide Assembly in Peptide-RNA Condensates.

Vay, K.
Song, E.
Ghosh, B.
Tang, T.
Mutschler, H.

December 2021

The ability of RNA to catalyze RNA ligation is critical to its central role in many prebiotic model ...

Compartmentalised RNA catalysis in membrane-free coacervate protocells

Drobot, B.
Iglesias Artola, J.
Le Vay, K.
Mayr, V.
Kar, M.
Kreysing, M.
Mutschler, H.
Tang, T.

January 2018

Phase separation of mixtures of oppositely charged polymers provides a simple and direct route to co...

Polyamine/Nucleotide Coacervates Provide Strong Compartmentalization of Mg<sup>2+</sup>, Nucleotides, and RNA

Erica A. Frankel (1739944)
Philip C. Bevilacqua (384871)
Christine D. Keating (1272396)

February 2016

Phase separation of aqueous solutions containing polyelectrolytes can lead to formation of dense, so...

Rapid RNA Exchange in Aqueous Two-Phase System and Coacervate Droplets

Jia, Tony Z.
Hentrich, Christian
Szostak, Jack W.

September 2014

Compartmentalization in a prebiotic setting is an important aspect of early cell formation and is cr...

Chemistry of active coacervate droplets: Liquid droplets as a minimal model of life

Nakashima, K.K.

January 2021

The chemical principles behind many vital processes are an open question in science. Be it to unders...

Nonspherical Coacervate Shapes in an Enzyme-Driven Active System

Spoelstra, W.K. (author)
van der Sluis, E.O. (author)
Dogterom, A.M. (author)
Reese, L. (author)

January 2020

Coacervates are polymer-rich droplets that form through liquid-liquid phase separation in polymer so...

Reversible pH-Responsive Coacervate Formation in Lipid Vesicles Activates Dormant Enzymatic Reactions.

Love, C.
Steinkühler, J.
Gonzales, D.
Yandrapalli, N.
Robinson, T.
Dimova, R.
Tang, T.

April 2020

In situ, reversible coacervate formation within lipid vesicles represents a key step in the developm...

Spontaneous membrane-less multi-compartmentalization via aqueous two-phase separation in complex coacervate micro-droplets.

Moreau, N.
Martin, N.
Gobbo, P.
Tang, T.
Mann, S.

October 2020

Polyelectrolyte/nucleotide multiphase complex coacervate droplets are produced by internalized aqueo...

Characterization of RNA content in individual phase-separated coacervate microdroplets.

Wollny, D.
Vernot, B.
Wang, J.
Hondele, M.
Safrastyan, A.
Aron, F.
Micheel, J.
He, Z.
Hyman, A.
Weis, K.
Camp, J.
Tang, T.
Treutlein, B.

May 2022

Condensates formed by complex coacervation are hypothesized to have played a crucial part during the...

RNA Catalysis in Model Protocell Vesicles

Chen, Irene A
Salehi-Ashtiani, Kourosh
Szostak, Jack W

September 2005

We are engaged in a long-term effort to synthesize chemical systems capable of Darwinian evolution, ...

Peptide-Assisted Nonenzymatic RNA Replication in Coacervate Droplets

Jia, Tony Z.

September 2017

Life on earth may have first appeared in the form of a protocell capable of metabolism and containin...

Characterization of RNA content in individual phase-separated coacervate microdroplets

Wollny, Damian
Vernot, Benjamin
Wang, Jie
Hondele, Maria
Safrastyan, Aram
Aron, Franziska
Micheel, Julia
He, Zhisong
Hyman, Anthony
Weis, Karsten
Camp, J. Gray
Tang, T.-Y. Dora
Treutlein, Barbara

January 2022

Condensates formed by complex coacervation are hypothesized to have played a crucial part during the...

Active coacervate droplets as a model for membraneless organelles and protocells

Donau, C.
Spaeth, F.
Sosson, M.
Kriebisch, B.
Schnitter, F.
Tena-Solsona, M.
Kang, H.
Salibi, E.
Sattler, M.
Mutschler, H.
Boekhoven, J.

January 2020

Membraneless organelles like stress granules are active liquid-liquid phase-separated droplets that ...

Reversible pH-responsive coacervate formation in lipid vesicles activates dormant enzymatic reactions

Love, C.
Steinkühler, J.
Gonzales, D.
Yandrapalli, N.
Robinson, T.
Dimova, R.
Tang, T.

January 2020

In situ, reversible coacervate formation within lipid vesicles represents a key step in the developm...

Charge-density reduction promotes ribozyme activity in RNA-peptide coacervates via RNA fluidization and magnesium partitioning.

Iglesias-Artola, J.
Drobot, B.
Kar, M.
Fritsch, A.
Mutschler, H.
Tang, T.
Kreysing, M.

April 2022

It has long been proposed that phase-separated compartments can provide a basis for the formation of...

Enhanced Ribozyme-Catalyzed Recombination and Oligonucleotide Assembly in Peptide-RNA Condensates.

Vay, K.
Song, E.
Ghosh, B.
Tang, T.
Mutschler, H.

December 2021

The ability of RNA to catalyze RNA ligation is critical to its central role in many prebiotic model ...

Compartmentalised RNA catalysis in membrane-free coacervate protocells.

Abstract

Extracted data

Compartmentalised RNA catalysis in membrane-free coacervate protocells.

Abstract

Extracted data

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