Knowledgebases: Difference between revisions
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= | = Overview = | ||
Nuclear Magnetic Resonance (NMR) is one of the most versatile tools in scientific research, enabling detailed, non-destructive analysis of molecular structure, dynamics, and interactions across a wide range of systems. It is used extensively in chemistry, biology, materials science, and medicine to study everything from small organic molecules to complex biomacromolecules, solid-state materials, and living organisms. NMR provides atomic-level insights into chemical environments and conformational changes, supports drug discovery and metabolomics, and is essential for characterizing new materials and probing molecular mechanisms in cells and tissues. Its adaptability across solution, solid, and in vivo states makes it uniquely powerful for answering diverse scientific questions. | |||
To translate that versatility into practice, NAN Knowledgebases (KBs) includes come in two different flavors: | |||
# Topic-focused informational KBs that introduce different ways NMR can be used to address scientific questions across disciplines. | |||
# KB datasets—well-vetted experimental datasets that include raw data, pulse programs, acquisition parameters, processing scripts, processed data, sample metadata, and protocols for sample preparation, experimental setup, and analysis. —These KB datasets allow users to fully recapitulate these NMR experiments on different instruments and systems. | |||
NAN provides two types of Knowledgebase (KBs) resources | |||
# Novice KB content intended | |||
NAN provides a suite of '''Knowledgebases (KBs)''' to help users explore how NMR can be applied to address important scientific questions. These Knowledgebases are grouped into two main types: | |||
* '''Novice KBs''': Designed for newcomers to NMR, these KBs introduce key applications of NMR across a broad range of scientific domains. NMR is among the most versatile tools for studying matter, and these pages showcase its wide range of uses. Information is presented in four main ways: | * '''Novice KBs''': Designed for newcomers to NMR, these KBs introduce key applications of NMR across a broad range of scientific domains. NMR is among the most versatile tools for studying matter, and these pages showcase its wide range of uses. Information is presented in four main ways: | ||
Revision as of 13:29, 17 June 2025
Overview
Nuclear Magnetic Resonance (NMR) is one of the most versatile tools in scientific research, enabling detailed, non-destructive analysis of molecular structure, dynamics, and interactions across a wide range of systems. It is used extensively in chemistry, biology, materials science, and medicine to study everything from small organic molecules to complex biomacromolecules, solid-state materials, and living organisms. NMR provides atomic-level insights into chemical environments and conformational changes, supports drug discovery and metabolomics, and is essential for characterizing new materials and probing molecular mechanisms in cells and tissues. Its adaptability across solution, solid, and in vivo states makes it uniquely powerful for answering diverse scientific questions.
To translate that versatility into practice, NAN Knowledgebases (KBs) includes come in two different flavors:
- Topic-focused informational KBs that introduce different ways NMR can be used to address scientific questions across disciplines.
- KB datasets—well-vetted experimental datasets that include raw data, pulse programs, acquisition parameters, processing scripts, processed data, sample metadata, and protocols for sample preparation, experimental setup, and analysis. —These KB datasets allow users to fully recapitulate these NMR experiments on different instruments and systems.
NAN provides two types of Knowledgebase (KBs) resources
- Novice KB content intended
NAN provides a suite of Knowledgebases (KBs) to help users explore how NMR can be applied to address important scientific questions. These Knowledgebases are grouped into two main types:
- Novice KBs: Designed for newcomers to NMR, these KBs introduce key applications of NMR across a broad range of scientific domains. NMR is among the most versatile tools for studying matter, and these pages showcase its wide range of uses. Information is presented in four main ways:
- Novice KB pages: Covering a broad range of topics that illustrate the use of NMR in answering scientific questions
- Materials Periodic Table: A solid-state focused table presenting isotope-specific novice KBs and highlighting NMR properties and applications of various nuclei in material science
- Content vignettes: Provide fine-grained supporting information linked from KB pages
- Literature vignettes: Concise summaries of published studies where NMR played a central role in solving a scientific problem. These are linked from novice KBs, content vignettes, and isotope pages from the periodic table
- KB Datasets: These are exemplar datasets designed to guide users through real-world NMR experiments. Each KB dataset includes:
- Pulse programs
- Parameter files
- Example datasets
- Sample metadata
- Protocols
- Sample preparation
- Instrument setup
- Experiment setup
- Data processing
- Data analysis
- Processing scripts
- Processed data
KB Categories
NAN KBs are organized into four thematic categories, with both novice and dataset content available in each:
- BioSolids
- Bio Solutions
- Material Sciences
- Metabolomics
Contribute to the Knowledgebase
We invite members of the community to contribute to NAN KBs. If you are interested in becoming a KB content provider—for either novice KBs or exemplar KB datasets—please contact us to learn more.
