Anshuman Swain scite author profile

Purpose: To explore the presence of new resonances beyond 9.4 ppm from the human brain, down-field proton MRS was performed in vivo in the human brain on 6 healthy volunteers at 7 T. Methods:To maximize the SNR, a large voxel was placed within the brain to cover the maximal area in such a way that sinus cavities were avoided. A spectrally selective 90 • E-BURP pulse with an excitation bandwidth of 2 ppm was used to probe the spectral chemical shift range between 9.1 and 10.5 ppm. The E-BURP pulse was integrated with PRESS spatial localization to obtain non-water-suppressed proton MR spectra from the desired spectral region. Results:In the down-field proton MRS obtained from all of the volunteers scanned, we identified a new peak consistently resonating at 10.1 ppm. Protons associated with this resonance are in cross-relaxation with the bulk water, as demonstrated by the water saturation and deuterium exchange experiments. Conclusion:Based on the chemical shift, this new peak was identified as the indole (-NH) proton of l-tryptophan (l-TRP) and was further confirmed from phantom experiments on l-TRP. These promising preliminary results potentially pave the way to investigate the role of cerebral metabolism of l-TRP in healthy and disease conditions. K E Y W O R D S1 H MRS, brain, down-field spectroscopy, NAD + , spectral excitation INTRODUCTIONRecently published studies on the in vivo detection of nicotinamide adenosine dinucleotide (NAD + ) in the 1 H-NMR spectrum by de Graff et al 1,2 has re-ignited a lot of interest in determining the characteristics of the down-field proton MRS (DF 1 H MRS) found at chemical shifts > 4.7 ppm. 3-5 A challenge of DF 1 H MRS is that many of the metabolite peaks that resonate in this region are either in direct chemical exchange or have significant cross-relaxation with water. [6][7][8] Consequently,

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In vitro trackable assembly of RNA-specific nucleocapsids of the respiratory syncytial virus

Gao

Cao

Ahn

et al. 2019

J. Biol. Chem.

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The templates for transcription and replication by respiratory syncytial virus (RSV) polymerase are helical nucleocapsids (NCs), formed by viral RNAs that are encapsidated by the nucleoprotein (N). Proper NC assembly is vital for RSV polymerase to engage the RNA template for RNA synthesis. Previous studies of NCs or nucleocapsid-like particles (NCLPs) from RSV and other nonsegmented negative-sense RNA viruses have provided insights into the overall NC architecture. However, in these studies, the RNAs were either random cellular RNAs or average viral genomic RNAs. An in-depth mechanistic understanding of NCs has been hampered by lack of an in vitro assay that can track NC or NCLP assembly. Here we established a protocol to obtain RNA-free N protein (N0) and successfully demonstrated the utility of a new assay for tracking assembly of N with RNA oligonucleotides into NCLPs. We discovered that the efficiency of the NCLP (N–RNA) assembly depends on the length and sequence of the RNA incorporated into NCLPs. This work provides a framework to generate purified N0 and incorporate it with RNA into NCLPs in a controllable manner. We anticipate that our assay for in vitro trackable assembly of RSV-specific nucleocapsids may enable in-depth mechanistic analyses of this process.

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Anshuman Swain

Structure of the Human Respiratory Syncytial Virus M2-1 Protein in Complex with a Short Positive-Sense Gene-End RNA

Integrating 1H MRS and deuterium labeled glucose for mapping the dynamics of neural metabolism in humans

In vitro trackable assembly of RNA-specific nucleocapsids of the respiratory syncytial virus

Identification of l‐Tryptophan by down‐field ¹H MRS: A precursor for brain NAD⁺ and serotonin syntheses

In vitro trackable assembly of RNA-specific nucleocapsids of the respiratory syncytial virus

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Anshuman Swain

Structure of the Human Respiratory Syncytial Virus M2-1 Protein in Complex with a Short Positive-Sense Gene-End RNA

Integrating 1H MRS and deuterium labeled glucose for mapping the dynamics of neural metabolism in humans

In vitro trackable assembly of RNA-specific nucleocapsids of the respiratory syncytial virus

Identification of l‐Tryptophan by down‐field 1H MRS: A precursor for brain NAD+ and serotonin syntheses

In vitro trackable assembly of RNA-specific nucleocapsids of the respiratory syncytial virus

Contact Info

Product

Resources

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Identification of l‐Tryptophan by down‐field ¹H MRS: A precursor for brain NAD⁺ and serotonin syntheses