Your search keyword '"broad metabolite coverage"' showing total 4 results

1. Development and application of time staggered/mass staggered-globally optimized targeted mass spectrometry.

Author

Zhong, Fanyi, Xu, Mengyang, and Zhu, Jiangjiang

Subjects

*MASS spectrometry, *MULTIVARIATE analysis, *METABOLIC profile tests, *RF values (Chromatography), *STAPHYLOCOCCUS aureus

Abstract

The emerging requests for handling complex samples in system biology studies highlighted the need to expand the metabolite coverage in metabolomics analysis and to take advantage of the quantitative and targeted assays. Here, we developed a novel workflow to integrate time staggered or mass staggered scan methods with globally optimized targeted-mass spectrometry (GOT-MS), to enable broad metabolites coverage with better stability, repeatability, and quantitative capability. To establish these methods, two scheduled selected reaction monitoring (SRM) methods, time staggered and mass staggered approaches, were configured to achieve optimal sensitivity and scan speed and were combined with the GOT-MS strategy. Both methods took advantage of the systematic selection and rearrangement of all detectable metabolic peaks from a GOT-MS peak list, based on either retention time or m/z of the precursor ions. The established methods were then applied to the metabolic profile-based differentiation of Staphylococcus aureus N315 and N315 ex, an isogenic pair of Methicillin-resistant and susceptible S. aureus (MRSA and MSSA). A total of 464 metabolite peaks was detected successfully from pooled MSSA and MRSA bacterial metabolite extract using the GOT-MS method, and ts/ms-GOT-MS demonstrated better sensitivity and repeatability than the GOT-MS and previously established targeted metabolomics method. The semi-quantitative analysis in a broader metabolome coverage was also achieved with ts/ms-GOT-MS methods. Multivariate statistical analyses were also performed to determine whether metabolic profiling approach could differentiate MSSA from MRSA. The comparison of these methods to GOT-MS and targeted metabolic profiling demonstrated that ts/ms-GOT-MS are significantly improved hybrid metabolomics methods and can be used as promising tools for future studies. • Development of two hybrid metabolic profiling methods • Novel methods combining broad metabolite coverage and quantitative capability • Demonstrated utility in differentiating MRSA and MSSA strains via metabolic profiling • Hybrid metabolomics approaches achieved excellent linearity in metabolic features detection. [ABSTRACT FROM AUTHOR]

Published

2019

2. Bridging Targeted and Untargeted Mass Spectrometry-Based Metabolomics via Hybrid Approaches

Author

Li Chen, Fanyi Zhong, and Jiangjiang Zhu

Subjects

metabolomics, hybrid approaches, broad metabolite coverage, quantitative analysis, dynamic range, repeatability, Microbiology, QR1-502

Abstract

This mini-review aims to discuss the development and applications of mass spectrometry (MS)-based hybrid approaches in metabolomics. Several recently developed hybrid approaches are introduced. Then, the overall workflow, frequently used instruments, data handling strategies, and applications are compared and their pros and cons are summarized. Overall, the improved repeatability and quantitative capability in large-scale MS-based metabolomics studies are demonstrated, in comparison to either targeted or untargeted metabolomics approaches alone. In summary, we expect this review to serve as a first attempt to highlight the development and applications of emerging hybrid approaches in metabolomics, and we believe that hybrid metabolomics approaches could have great potential in many future studies.

Published

2020

3. Bridging Targeted and Untargeted Mass Spectrometry-Based Metabolomics via Hybrid Approaches

Author

Fanyi Zhong, Jiangjiang Zhu, and Li Chen

Subjects

dynamic range, 0301 basic medicine, Future studies, quantitative analysis, Computer science, Endocrinology, Diabetes and Metabolism, 010401 analytical chemistry, lcsh:QR1-502, Review, Computational biology, metabolomics, hybrid approaches, 01 natural sciences, Biochemistry, lcsh:Microbiology, broad metabolite coverage, 0104 chemical sciences, 03 medical and health sciences, 030104 developmental biology, Metabolomics, Workflow, Untargeted metabolomics, identification, repeatability, Molecular Biology

Abstract

This mini-review aims to discuss the development and applications of mass spectrometry (MS)-based hybrid approaches in metabolomics. Several recently developed hybrid approaches are introduced. Then, the overall workflow, frequently used instruments, data handling strategies, and applications are compared and their pros and cons are summarized. Overall, the improved repeatability and quantitative capability in large-scale MS-based metabolomics studies are demonstrated, in comparison to either targeted or untargeted metabolomics approaches alone. In summary, we expect this review to serve as a first attempt to highlight the development and applications of emerging hybrid approaches in metabolomics, and we believe that hybrid metabolomics approaches could have great potential in many future studies.

Published

2020

4. Bridging Targeted and Untargeted Mass Spectrometry-Based Metabolomics via Hybrid Approaches.

Author

Chen, Li, Zhong, Fanyi, and Zhu, Jiangjiang

Subjects

METABOLOMICS, MASS spectrometry

Abstract

This mini-review aims to discuss the development and applications of mass spectrometry (MS)-based hybrid approaches in metabolomics. Several recently developed hybrid approaches are introduced. Then, the overall workflow, frequently used instruments, data handling strategies, and applications are compared and their pros and cons are summarized. Overall, the improved repeatability and quantitative capability in large-scale MS-based metabolomics studies are demonstrated, in comparison to either targeted or untargeted metabolomics approaches alone. In summary, we expect this review to serve as a first attempt to highlight the development and applications of emerging hybrid approaches in metabolomics, and we believe that hybrid metabolomics approaches could have great potential in many future studies. [ABSTRACT FROM AUTHOR]

Published

2020