Frequency-selective REDOR and spin-diffusion relays in uniformly labeled whole cells

Rice, D.W.; Romaniuk, Joseph A. H.; Cegelski, Lynette

doi:10.1016/j.ssnmr.2015.10.008

Cited by 7 publications

(9 citation statements)

References 36 publications

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“…The peak at 42 ppm has been ascribed as having contributions from the D-Ala of teichoic acids. 43 We confirmed this assignment and demonstrated here that the 42-ppm peak is entirely due to teichoic acid D-Ala by comparison with the whole-cell NMR spectrum of a dltA mutant, which lacks the dltA gene responsible for the D-alanylation of both wall and lipoteichoic acids. 53 In the dltA mutant, the 42-ppm signal was abolished (Fig 4).…”

Section: Resultssupporting

confidence: 79%

“…Samples are either examined at natural abundance 13 C or through previously-reported uniform labeling in which all carbons are 13 C-labeled or all nitrogens are 15 N-labeled in the cell wall and whole cell samples. 42,43 We present an extensive comparative sample analysis, including ten whole-cell NMR samples and cells treated with a teichoic acid inhibitor (tunicamycin) to emphasize the sensitivity of the whole-cell NMR approach.…”

Section: Introductionmentioning

confidence: 99%

“…We present here a new strategy, demonstrating that interpretable and quantifiable spectral changes in cell-wall and whole-cell samples can report on changes to PG and WTA without any selective labeling. Samples are examined either at natural abundance 13 C or through previously reported uniform labeling in which all carbons are labeled with 13 C or all nitrogens are labeled with 15 N in the cell-wall and whole-cell samples. , We present an extensive comparative sample analysis, including 10 whole-cell NMR samples and cells treated with a teichoic acid inhibitor (tunicamycin), to emphasize the sensitivity of the whole-cell NMR approach.…”

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confidence: 99%

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Peptidoglycan and Teichoic Acid Levels and Alterations in Staphylococcus aureus by Cell-Wall and Whole-Cell Nuclear Magnetic Resonance

Romaniuk

Cegelski

2018

Biochemistry

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Gram-positive bacteria surround themselves with a multilayered macromolecular cell wall that is essential to cell survival and serves as a major target for antibiotics. The cell wall of Staphylococcus aureus is composed of two major structural components, peptidoglycan (PG) and wall teichoic acid (WTA), together creating a heterogeneous and insoluble matrix that poses a challenge to quantitative compositional analysis. Here, we present C cross polarization magic angle spinning solid-state nuclear magnetic resonance (NMR) spectra of intact cell walls, purified PG, and purified WTA. The spectra reveal the clear molecular differences in the two polymers and enable quantification of PG and WTA in isolated cell walls, an attractive alternative to estimating teichoic acid content from a phosphate analysis of completely pyrolyzed cell walls. Furthermore, we discovered that unique PG and WTA spectral signatures could be identified in whole-cell NMR spectra and used to compare PG and WTA levels among intact bacterial cell samples. The distinguishing whole-cellC NMR contributions associated with PG include the GlcNAc-MurNAc sugar carbons and glycyl α-carbons. WTA contributes carbons from the phosphoribitol backbone. Distinguishing N spectral signatures include glycyl amide nitrogens in PG and the esterified d-alanyl amine nitrogens in WTA.C NMR analysis was performed with samples at natural abundance and included 10 whole-cell sample comparisons. Changes consistent with altered PG and WTA content were detected in whole-cell spectra of bacteria harvested at different growth times and in cells treated with tunicamycin. This use of whole-cell NMR provides quantitative parameters of composition in the context of whole-cell activity.

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Section: Resultssupporting

confidence: 79%

Section: Introductionmentioning

confidence: 99%

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confidence: 99%

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Peptidoglycan and Teichoic Acid Levels and Alterations in Staphylococcus aureus by Cell-Wall and Whole-Cell Nuclear Magnetic Resonance

Romaniuk

Cegelski

2018

Biochemistry

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“…By using the high-resolution magic-angle spinning (HR-MAS) technique, Jachymek et al (93) demonstrated that the immunodominant O-polysaccharide on bacterial surfaces had the same structure as that in lipopolysaccharides and in isolated PSs. HR-MAS was also used to study capsular PSs, particularly sugar and capsular glycan modifications on Campylobacter cells (94), as well as the chemical composition and architecture of the bacterial and plant cell wall (95)(96)(97)(98)(99) and whole microalgae (100). In addition, evolution of the O-acetylation of the O-antigen on the outer bacteria membrane has been traced by HR-MAS (30).…”

Section: Magnetic Resonance Studies Of Cell Surface Carbohydratesmentioning

confidence: 99%

Magnetic Resonance Spectroscopy as a Tool for Assessing Macromolecular Structure and Function in Living Cells

Jie

Cheng

et al. 2017

Annual Rev. Anal. Chem.

214

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Investigating the structure, modification, interaction, and function of biomolecules in their native cellular environment leads to physiologically relevant knowledge about their mechanisms, which will benefit drug discovery and design. In recent years, nuclear and electron magnetic resonance (NMR) spectroscopy has emerged as a useful tool for elucidating the structure and function of biomacromolecules, including proteins, nucleic acids, and carbohydrates in living cells at atomic resolution. In this review, we summarize the progress and future of in-cell NMR as it is applied to proteins, nucleic acids, and carbohydrates.

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“…Atomic-level detail for DNA packaging in bacteriophage T4 capsids employed N{P} REDOR to describe the electrostatic interactions and mechanisms for DNA charge balance in capsid packaging . Furthermore, we have been developing approaches to identify and compare spectral signatures of specific biomolecules in the context of intact whole cells. − For example, we were able to distinguish whether bacteria were treated with a cell-wall-targeting antibiotic (fosfomycin) or a protein synthesis inhibitor targeting the ribosome (chloramphenicol) by inspecting the natural abundance 13 C NMR spectra of antibiotic-treated whole cells …”

Section: Introductionmentioning

confidence: 99%

Whole Ribosome NMR: Dipolar Couplings and Contributions to Whole Cells

et al. 2017

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Solid-state NMR is a powerful tool for quantifying chemical composition and structure in complex assemblies and even whole cells. We employed N{P} REDOR NMR to obtain atomic-level distance propensities in intact 15N-labeled E. coli ribosomes. The experimental REDOR dephasing of shift-resolved lysyl amine nitrogens by phosphorous was comparable to that expected from a calculation of N-P distances involving the lysines included in the crystal structure coordinates. Among the nitrogen contributions to the REDOR spectra, the strongest dephasing emerged from the dipolar couplings to phosphorous involving nitrogen peaks ascribed primarily to rRNA and the weakest dephasing arose from protein amide nitrogens. This approach is applicable to any macromolecular system and provides quantitative comparisons of distance proximities between shift-resolved nuclei of one type and heteronuclear dephasing spins. Enhanced molecular specificity could be achieved through the use of spectroscopic filters or specific labeling. Furthermore, ribosome 13C and 15N CPMAS spectra were compared with those of whole cells from which the ribosomes were isolated. Whole-cell signatures of ribosomes were identified and should be of value in comparing overall cellular ribosome content in whole-cell samples.

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Frequency-selective REDOR and spin-diffusion relays in uniformly labeled whole cells

Cited by 7 publications

References 36 publications

Peptidoglycan and Teichoic Acid Levels and Alterations in Staphylococcus aureus by Cell-Wall and Whole-Cell Nuclear Magnetic Resonance

Peptidoglycan and Teichoic Acid Levels and Alterations in Staphylococcus aureus by Cell-Wall and Whole-Cell Nuclear Magnetic Resonance

Magnetic Resonance Spectroscopy as a Tool for Assessing Macromolecular Structure and Function in Living Cells

Whole Ribosome NMR: Dipolar Couplings and Contributions to Whole Cells

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