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A map of the rubisco biochemical landscape

A massively parallel assay developed to map the essential photosynthetic enzyme rubisco showed that non-trivial biochemical changes and improvements in CO₂ affinity are possible, signposting further enzyme engineering efforts to increase crop yields.

Noam Prywes
Naiya R. Phillips
David F. Savage
ResearchOpen Access22 Jan 2025
Nature

Volume: 638, P: 823-828
Author Correction: A map of the rubisco biochemical landscape

Noam Prywes
Naiya R. Phillips
David F. Savage
Amendments and CorrectionsOpen Access10 Feb 2025
Nature

Volume: 638, P: E47
A promiscuous mechanism to phase separate eukaryotic carbon fixation in the green lineage

Barrett et al. identify a key Rubisco phase-separating protein in the CO₂-fixing pyrenoid of Chlorella algae. This protein’s broad promiscuity for green lineage Rubiscos may aid in engineering CO₂-supercharging pyrenoids in plants to boost yields.

James Barrett
Mihris I. S. Naduthodi
Luke C. M. Mackinder
ResearchOpen Access09 Oct 2024
Nature Plants

Volume: 10, P: 1801-1813
Multivalent interactions between CsoS2 and Rubisco mediate α-carboxysome formation

Structural and binding studies show that a repeated peptide motif in the N-terminal domain of CsoS2 mediates multivalent interactions with assembled Rubisco to facilitate its encapsulation into the carboxysome.

Luke M. Oltrogge
Thawatchai Chaijarasphong
David F. Savage
Research02 Mar 2020
Nature Structural & Molecular Biology

Volume: 27, P: 281-287
Rubisco forms a lattice inside alpha-carboxysomes

Many autotrophic bacteria rely on Rubisco for carbon dioxide fixation. Here the authors report the position, orientation, and structure of Rubisco within alpha-carboxysomes; showing how it polymerizes and can form a lattice inside this compartment.

Lauren Ann Metskas
Davi Ortega
Grant J. Jensen
ResearchOpen Access18 Aug 2022
Nature Communications

Volume: 13, P: 1-9
DABs are inorganic carbon pumps found throughout prokaryotic phyla

A genome-wide transposon screen in Halothiobacillus neapolitanus identifies genes involved in CO₂ concentrating mechanisms, of which dabA and dabB encode a heterodimeric complex that works as an energy-coupled inorganic carbon pump. Dab homologues exist in multiple archaea and bacteria, including pathogens such as Bacillus anthracis and Vibrio cholerae.

John J. Desmarais
Avi I. Flamholz
David F. Savage
Research12 Aug 2019
Nature Microbiology

Volume: 4, P: 2204-2215
Ratiometric Matryoshka biosensors from a nested cassette of green- and orange-emitting fluorescent proteins

Single fluorescent protein biosensors are susceptible to expression and instrumental artifacts. Here Ast et al. describe a dual fluorescent protein design whereby a reference fluorescent protein is nested within a reporter fluorescent protein to control for such artifacts while preserving sensitivity and dynamic range.

Cindy Ast
Jessica Foret
Wolf B. Frommer
ResearchOpen Access05 Sept 2017
Nature Communications

Volume: 8, P: 1-13
The encapsulin from Thermotoga maritima is a flavoprotein with a symmetry matched ferritin-like cargo protein

Benjamin J. LaFrance
Caleb Cassidy-Amstutz
David F. Savage
ResearchOpen Access23 Nov 2021
Scientific Reports

Volume: 11, P: 1-10

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A map of the rubisco biochemical landscape

Author Correction: A map of the rubisco biochemical landscape

A promiscuous mechanism to phase separate eukaryotic carbon fixation in the green lineage

Multivalent interactions between CsoS2 and Rubisco mediate α-carboxysome formation

Rubisco forms a lattice inside alpha-carboxysomes

DABs are inorganic carbon pumps found throughout prokaryotic phyla

Ratiometric Matryoshka biosensors from a nested cassette of green- and orange-emitting fluorescent proteins

The encapsulin from Thermotoga maritima is a flavoprotein with a symmetry matched ferritin-like cargo protein

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