High-Resolution Heteronuclear Multidimensional NMR of Proteins in Living Insect Cells Using a Baculovirus Protein Expression System

Hamatsu, Jumpei; O’Donovan, Diarmuid; Tanaka, Takashi; Shirai, Takahiro; Hourai, Yuichiro; Mikawa, Tsutomu; Ikeya, Teppei; Mishima, Masaki; Boucher, Wayne; Smith, Brian O.; Laue, Ernest D.; Shirakawa, Masahiro; Ito, Yutaka

doi:10.1021/ja310928u

Cited by 89 publications

(111 citation statements)

References 38 publications

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“…In-cell NMR on proteins expressed directly in the cells can also be performed in yeast, as shown by Bertrand et al (Fig. 1b), and in insect cells, as shown by Hamatsu et al (31) (Fig. 1c).…”

Section: Overview Of In-cell Nmr Approachesmentioning

confidence: 91%

A Unique Tool for Cellular Structural Biology: In-cell NMR

Luchinat

Banci

2016

Journal of Biological Chemistry

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Conventional structural and chemical biology approaches are applied to macromolecules extrapolated from their native context. When this is done, important structural and functional features of macromolecules, which depend on their native network of interactions within the cell, may be lost. In-cell nuclear magnetic resonance is a branch of biomolecular NMR spectroscopy that allows macromolecules to be analyzed in living cells, at the atomic level. In-cell NMR can be applied to several cellular systems to obtain biologically relevant structural and functional information. Here we summarize the existing approaches and focus on the applications to protein folding, interactions, and post-translational modifications.

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Section: Overview Of In-cell Nmr Approachesmentioning

confidence: 91%

A Unique Tool for Cellular Structural Biology: In-cell NMR

Luchinat

Banci

2016

Journal of Biological Chemistry

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“…Uniform 13 C or 15 N, 13 C labeling can be performed using commercial Bioexpress 2000 (CIL; Hamatsu et al, 2013;Strauss et al, 2005) or homemade media (Sitarska et al, 2015;Walton, Kasprzak, Hare, & Logan, 2006). For carbon labeling, algal extracts are the most economic source of amino acids, as they can be produced from 13 CO 2 instead of more complex and more expensive carbohydrates.…”

Section: Uniform 13 C Labelingmentioning

confidence: 99%

“…In-cell NMR was successfully demonstrated using insect cells as the expression host (Hamatsu et al, 2013). Four proteins, ranging in length from 57 to 148 amino acids, were expressed uniformly 13 C, 15 N-labeled in Sf9 cells using the Bioexpress 2000 medium (CIL).…”

Section: Isotope Labeling Of Proteins In Insect Cellsmentioning

confidence: 99%

Isotope Labeling of Proteins in Insect Cells

Skora¹,

Shrestha²,

Gossert³

2015

Isotope Labeling of Biomolecules - Labeling Methods

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“…While an understanding of nucleoprotein architecture at atomic resolution and how it changes in response to regulatory events can be achieved using structural biology techniques, singlemolecule techniques allow us to visualize and interrogate biologically important molecules individually, in real time. For both structural biology and single-molecule techniques, the ability to validate observations made in vitro under physiological conditions is both more important and more feasible (Sakakibara et al 2009;Ito et al 2012;Hamatsu et al 2013). The ability to observe and directly manipulate individual protein and nucleic acid molecules provides further unprecedented insight into the kinetics of the molecular recognition steps, which are often obscured in bulk biochemical and biophysical studies (Cornish and Ha 2007;Boehm et al 2016).…”

mentioning

confidence: 99%

Protein–nucleic acids interactions: new ways of connecting structure, dynamics and function

Spies

Smith

2017

Biophys Rev

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Molecular machines that act on nucleic acids, DNA and RNA are at the heart of the field of cellular information processing. A coherent description of the interactions involved in their assembly, activities and regulation affords a quantitative understanding of how transcription factors and DNA repair proteins find their unique targets among millions of nonspecific sequences and undamaged DNA bases, how the intricate choreography of DNA replication, recombination and repair and gene expression is regulated, how viral particles self-assemble and how chromosomes are organized inside living cells. These important questions are not easy to answer for the following reasons:(1) transactions between proteins and nucleic acids commonly involve extended surfaces with multiple interaction epitopes, and the resulting macromolecular assemblies are non-homogenous and dynamic; (2) the structures of multicomponent protein-DNA and protein-RNA complexes are often refractory to analysis by traditional X-ray crystallography and nuclear magnetic resonance (NMR). New techniques, clever adaptations and combinations of the state-of-the-art approaches are therefore needed.Our selection of speakers cover exciting new developments, both technological and conceptual, in determining the structures of protein-DNA and protein-RNA

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High-Resolution Heteronuclear Multidimensional NMR of Proteins in Living Insect Cells Using a Baculovirus Protein Expression System

Cited by 89 publications

References 38 publications

A Unique Tool for Cellular Structural Biology: In-cell NMR

A Unique Tool for Cellular Structural Biology: In-cell NMR

Isotope Labeling of Proteins in Insect Cells

Protein–nucleic acids interactions: new ways of connecting structure, dynamics and function

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