After digesting the protein of the human milk samples into different parts by trypsin,the compositions of protein were identified by FT-ICR-MS under ECD and CAD mode.The analysis of MS chromatograms was performed by t...After digesting the protein of the human milk samples into different parts by trypsin,the compositions of protein were identified by FT-ICR-MS under ECD and CAD mode.The analysis of MS chromatograms was performed by the Mascot database search software.The result showed that nano-spray HPLC combined with FT-MS could be used as a high efficient method for the identification of the protein in human milk samples.展开更多
为探究沉水植物水生态修复对湖泊水体碳循环的影响,以武汉东湖沉水植物水生态修复区和未修复区作为研究对象,采用傅里叶变换离子回旋共振质谱(Fourier Transform Ion Cyclotron Resonance Mass Spectrometry,FT-ICR-MS)技术对比沉水植...为探究沉水植物水生态修复对湖泊水体碳循环的影响,以武汉东湖沉水植物水生态修复区和未修复区作为研究对象,采用傅里叶变换离子回旋共振质谱(Fourier Transform Ion Cyclotron Resonance Mass Spectrometry,FT-ICR-MS)技术对比沉水植物水生态修复区与未修复区水体溶解性有机质(Dissolved Organic Matter,DOM)的化学多样性,揭示沉水植物对水体DOM稳定性的影响。结果表明,沉水植物水生态修复显著改善水体理化性质的同时改变了DOM分子的化学多样性。修复区与未修复区分别含有7814和7282种DOM分子,其中修复区特有的1768种,主要以CHO、CHON和CHOP类型为主;未修复区特有的1236种,主要以CHO和CHON类型为主。进一步分析发现,修复区含P元素相对难降解的DOM分子类型(CHOP、CHONP、CHOPS和CHONPS)是未修复区的1.4—2.29倍且强还原态的DOM含量更高,表明修复区DOM在热力学上比未修复区更稳定。综上所述,沉水植物不仅改变了水体DOM分子组成,同时提高了水体难降解DOM分子丰度。研究将有利于加深湖泊稳态碳转换过程对水体碳循环影响的认识,为未来准确评估湖泊的碳汇潜力提供科学依据。展开更多
文摘After digesting the protein of the human milk samples into different parts by trypsin,the compositions of protein were identified by FT-ICR-MS under ECD and CAD mode.The analysis of MS chromatograms was performed by the Mascot database search software.The result showed that nano-spray HPLC combined with FT-MS could be used as a high efficient method for the identification of the protein in human milk samples.
文摘为探究沉水植物水生态修复对湖泊水体碳循环的影响,以武汉东湖沉水植物水生态修复区和未修复区作为研究对象,采用傅里叶变换离子回旋共振质谱(Fourier Transform Ion Cyclotron Resonance Mass Spectrometry,FT-ICR-MS)技术对比沉水植物水生态修复区与未修复区水体溶解性有机质(Dissolved Organic Matter,DOM)的化学多样性,揭示沉水植物对水体DOM稳定性的影响。结果表明,沉水植物水生态修复显著改善水体理化性质的同时改变了DOM分子的化学多样性。修复区与未修复区分别含有7814和7282种DOM分子,其中修复区特有的1768种,主要以CHO、CHON和CHOP类型为主;未修复区特有的1236种,主要以CHO和CHON类型为主。进一步分析发现,修复区含P元素相对难降解的DOM分子类型(CHOP、CHONP、CHOPS和CHONPS)是未修复区的1.4—2.29倍且强还原态的DOM含量更高,表明修复区DOM在热力学上比未修复区更稳定。综上所述,沉水植物不仅改变了水体DOM分子组成,同时提高了水体难降解DOM分子丰度。研究将有利于加深湖泊稳态碳转换过程对水体碳循环影响的认识,为未来准确评估湖泊的碳汇潜力提供科学依据。
