Choosing the best pulse sequences, acquisition parameters, postacquisition processing strategies, and probes for natural product structure elucidation by NMR spectroscopy.
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An Evidence-Based Review of Related Metabolites and Metabolic Network Research on Cerebral IschemiaMetabolic changes in urine during and after pregnancy in a large, multiethnic population-based cohort study of gestational diabetesApplication of CRAFT in two-dimensional NMR data processing.Dissemination of original NMR data enhances reproducibility and integrity in chemical researchNatural Products as a Foundation for Drug Discovery.Essential parameters for structural analysis and dereplication by (1)H NMR spectroscopy.On the acceptor substrate of C-glycosyltransferase UrdGT2: three prejadomycin C-Glycosides from an engineered mutant of Streptomyces globisporus 1912 DeltalndE(urdGT2).The use of coupled HSQC spectra to aid in stereochemical assignments of molecules with severe proton spectral overlap.Using NMR to identify and characterize natural products.Marketed marine natural products in the pharmaceutical and cosmeceutical industries: tips for successEndiandric Acid Derivatives and Other Constituents of Plants from the Genera Beilschmiedia and Endiandra (Lauraceae).Identification of organic molecules from a structure database using proton and carbon NMR analysis results.A Platform for Discovery and Quantification of Modified Ribonucleosides in RNA: Application to Stress-Induced Reprogramming of tRNA Modifications.Strategies and tools for structure determination of natural products using modern methods of NMR spectroscopy.Mithramycin analogues generated by combinatorial biosynthesis show improved bioactivityGeneration of new derivatives of the antitumor antibiotic mithramycin by altering the glycosylation pattern through combinatorial biosynthesis.Elucidation of oxygenation steps during oviedomycin biosynthesis and generation of derivatives with increased antitumor activity.A simple microscale method for determining the relative stereochemistry of statine units.Signal intensities derived from different NMR probes and parameters contribute to variations in quantification of metabolites.Validation of a generic quantitative (1)H NMR method for natural products analysis.Open-chain steroidal glycosides, a diverse class of plant saponins.Mass spectrometry and NMR spectroscopy: modern high-end detectors for high resolution separation techniques--state of the art in natural product HPLC-MS, HPLC-NMR, and CE-MS hyphenations.Premithramycinone G, an early shunt product of the mithramycin biosynthetic pathway accumulated upon inactivation of oxygenase MtmOIIStudy of near-symmetric cyclodextrins by compressed sensing 2D NMR.NMR assignments and the acid-base characterization of the pomegranate ellagitannin punicalagin in the acidic pH-range.HSQC-ADEQUATE correlation: a new paradigm for establishing a molecular skeleton.Application of CRAFT (complete reduction to amplitude frequency table) in nonuniformly sampled (NUS) 2D NMR data processing.Elucidating ‘undecipherable’ chemical structures using computer-assisted structure elucidation approachesA combined NMR/MD/QM approach for structure and dynamics elucidations in the solution state: pilot studies using tetrapeptides
P2860
Q26747613-2CE06A35-4801-41E3-B8F3-C08E4A302E87Q28484522-663597A0-C27A-4BE1-B82C-4C191722498BQ31094368-98CF96EF-B42F-4F7C-80A3-7F26408CE4A1Q31097443-5127F852-81D0-42D7-82C3-4BAB450E00A6Q33617301-4AAD47A7-5FCE-4202-800B-AE9ABF4CABAEQ33824909-F320BDC8-E1FE-475E-80F3-DF91D05795C7Q33895686-93041CC4-0D26-467C-82C1-3DDAB883E775Q34013136-D9ED9A8B-2A60-4998-B343-C5AE080C2F59Q34647067-283FB283-1BC4-4767-A749-2D2A637A60BBQ35096907-FD4C94F3-167A-4C62-BCBD-55423C52682FQ35834030-19A2CEC9-3931-428B-9EF6-46830F29CB70Q36174020-A713D6C2-F257-41CE-A6D3-FC6473912E46Q36641579-11767303-A347-49DB-ABA7-60ACA8895770Q36693669-74D53182-27FD-4482-A311-281E27E1EA71Q36741739-D5FF353B-9BDB-457C-A470-37D204DEA2C4Q36953571-6E5A7C79-FDC8-4CC3-A9B3-9636EDE66066Q37141886-4A268ABE-87A8-4DFE-B362-86365CA8DDAEQ37395850-CE6B919A-FD65-4F0B-B99C-DE3EC09A4AACQ37499674-721750A2-CC08-4110-B4EA-52F0DC07B3FFQ37708434-97768CB9-614F-4669-9502-161591BB57A9Q38078798-4FF7858A-AA22-475B-9B0C-E596C372D8C1Q38112324-CC97C3F1-0534-4A2C-9C38-53348D033BD3Q42113467-D65D3C8D-5703-4054-9363-1843FAF62D8EQ43521759-C1695DEE-2D5C-4B09-B30A-20DA9A2A1766Q43770965-83BCE6C8-714F-42B5-844E-5ED527F541C3Q45743222-BAE307C5-B57F-4F2C-ADE6-0CDAF687586CQ47980347-61845F61-8CFB-42F3-9487-49205F446D7DQ56398075-1B509CBF-6D52-42CE-96B4-6C078F931755Q57586047-01BE5FF1-6DEE-4D5F-8D7E-89F2834B9184
P2860
Choosing the best pulse sequences, acquisition parameters, postacquisition processing strategies, and probes for natural product structure elucidation by NMR spectroscopy.
description
2002 nî lūn-bûn
@nan
2002 թուականի Փետրուարին հրատարակուած գիտական յօդուած
@hyw
2002 թվականի փետրվարին հրատարակված գիտական հոդված
@hy
2002年の論文
@ja
2002年論文
@yue
2002年論文
@zh-hant
2002年論文
@zh-hk
2002年論文
@zh-mo
2002年論文
@zh-tw
2002年论文
@wuu
name
Choosing the best pulse sequen ...... ucidation by NMR spectroscopy.
@ast
Choosing the best pulse sequen ...... ucidation by NMR spectroscopy.
@en
Choosing the best pulse sequen ...... ucidation by NMR spectroscopy.
@nl
type
label
Choosing the best pulse sequen ...... ucidation by NMR spectroscopy.
@ast
Choosing the best pulse sequen ...... ucidation by NMR spectroscopy.
@en
Choosing the best pulse sequen ...... ucidation by NMR spectroscopy.
@nl
prefLabel
Choosing the best pulse sequen ...... ucidation by NMR spectroscopy.
@ast
Choosing the best pulse sequen ...... ucidation by NMR spectroscopy.
@en
Choosing the best pulse sequen ...... ucidation by NMR spectroscopy.
@nl
P356
P1476
Choosing the best pulse sequen ...... lucidation by NMR spectroscopy
@en
P2093
William F Reynolds
P304
P356
10.1021/NP010444O
P577
2002-02-01T00:00:00Z