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Chemistry
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用于测定金属结合寡聚肽的金属电子识别和机制的Ion流动性-质谱技术
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Chemistry
Ion Mobility-Mass Spectrometry Techniques for Determining the Structure and Mechanisms of Metal Ion Recognition and Redox Activity of Metal Binding Oligopeptides
Please note that all translations are automatically generated.
Click here for the English version.
用于测定金属结合寡聚肽的金属电子识别和机制的Ion流动性-质谱技术
DOI:
10.3791/60102-v
•
11:04 min
•
September 07, 2019
•
Enas N. Yousef
,
Ramakrishna Sesham
,
Jacob W. McCabe
,
Rajpal Vangala
,
Laurence A. Angel
1
Department of Chemistry
,
Texas A&M University-Commerce
Chapters
00:04
Title
00:58
Electrospray-ion Mobility-Mass Spectrometry Analysis
03:02
Analysis of ESI-IM-MS pH Titration Data
06:11
Collision Cross-Sections and Computational Methods
08:30
Results: Reaction Mechanisms and Coordination Sites of the Alternative Methanobactin Complexes
10:00
Conclusion
Summary
Automatic Translation
English (Original)
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Automatic Translation
Ion 流动性质谱和分子建模技术可以描述设计金属结合肽和铜结合肽美他可辛的选择性金属结合性能。开发新的金属包合肽类将有助于治疗与金属子失平衡相关的疾病。
Tags
Ion Mobility-mass Spectrometry
IM-MS
Metal Ion Recognition
Redox Activity
Metal Binding Oligopeptides
Molecular Modeling
Tertiary Structure
Metal Correlation
ESI-IM-MS
Poly-DL-alanine
Alternative Methanobactin
PH-dependent Redox
Methyl Binding Reaction
Product Ions
Stoichiometry
Protonation State
Conformational Structure
Metal Chelating Peptides
Therapeutics
Menkes Disease
Wilson’s Disease
Cancer
Alzheimer’s Disease
Native ESI-IM-MS
Negative Ion
Positive Ion
Acetic Acid
Ammonium Hydroxide
Mass-to-charge
Isotope Pattern
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