人体指纹谱的测试可提供人体状态变化的重要信息。
The measurement of somatic fingerprint spectrum can provide important information of body state.
目的:研究复方人参注射液的色谱指纹谱测定方法。
Objective: to establish the fingerprint chromatogram of Compound Renshen Injection (CRSI).
本发明涉及一种天然药物高速逆流指纹谱的方法及应用。
The present invention relates to high speed countercurrent fingerprint method of natural medicine and its application.
本文提出了人体指纹谱的概念,并描述了实验记录方法。
The concept of somatic fingerprint spectrum is suggested for first time in this paper and the experimental recording method is described.
结果表明同属不同种植物的指纹谱、重叠率和八强峰各不相同。
The results point out that the fingerprint spectrum, overlap ratio and eight strong peaks are different from each other in various species of the same genus.
目的:探讨重叠率在植物以及植物提取物指纹谱研究中的地位和应用。
AIM: to discuss the application of overlapping ratio to the fingerprints of plant and plant extract.
人体指纹谱可以诊断某些疾病的性质和轻重程度,是一种方便的无损检测手段。
The somatic fingerprint spectrum can diagnose the properties and degree of some illness, which is a unbroken-test method.
结论依据18种分枝杆菌标准菌株的分枝菌酸指纹谱,即可对分枝杆菌菌种进行鉴定。
Conclusions The first clinical chromatographic fingerprinting of 18 standard strains of Mycobacteria in China was established in this laboratory.
得到的谱图不仅能作为指纹谱区别不同的聚合物,而且能用于研究聚合物热裂解机理。
The resulting DPCI spectra can be not only used as finger-prints to distinguish the different polymers, but also applied to investigate mechanism on thermal pyrolysis of polymers.
得到的谱图不仅能作为指纹谱区别不同的聚合物,而且能用于研究聚合物热裂解机理。
The resulting DPCI spectra can be not only used as finger-prints to distinguish the different polymers, but also applied to investigate mechanism on thermal pyrolysis of …
方法采用HPL C方法将获得的色谱数据转化为色谱指纹谱,据此对样品进行分析鉴别。
Methods HPLC results of the plants from Hypericum Linn. were transformed into HPLC fingerprint spectrum which was used to evaluate and distinguish the different plants of Hypericum Linn.
前言: 目的:研究连翘药材HPLC指纹谱(HPLCFP)差异,为合理应用连翘提供依据。
Objective: To provide application basis of the Forsythia suspensa by studying the difference of HPLC FP of F. suspensa fructification (medicinal materials).
方法:以TRF1抗体应用免疫共沉淀方法,从细胞蛋白抽提物中分离TRF1蛋白复合物,并作蛋白质肽指纹谱鉴定;
Methods: The co immunoprecipitation assay was employed to isolate TRF1 protein complex and the immunoprecipitate was subjected to MALDI TOF mass spectrometry for protein identification.
本文主要分为三个部分:质谱库的数据发掘,检索算法在中药复杂体系中的比较研究和中药指纹图谱建立的初步探索。
There are three main departs of this paper: Datamining in Mass databases, comparison for matching algorithms in complex herbal medicine system and research in herbal medicine fingerprint technology.
目的用核磁共振氢谱(1h - NMR)指纹图谱对吴茱萸和其伪品花椒、蚕砂进行鉴别。
Objective 1h-nmr fingerprints was established to identify Evodiae, Pericarpium Zanthoxylum and Feculae Bombycis.
因此,指纹特征和面部温谱图特征在详细的血管网络和出色的心血管系统结构方面是在初始阶段形成的。
Therefore both fingerprint features and facial thermogram features have their origin in the detailed network of blood vessels and finer structures of the cardiovascular system.
肽质谱指纹图分析是一种常用的蛋白质的鉴定方法。
Peptide mass fingerprinting analysis of proteins is the most widely used method for protein identification.
采用三维谱图提取放电指纹特征,并用人工神经网络来识别不同的放电类型。
The feature of discharge is extracted using the 3D pattern chart and the artificial neural networks is used to recognize the discharge models.
采用三维谱图提取放电指纹特征,并用人工神经网络来识别不同的放电类型。
The feature of discharge is extracted using the 3D pattern chart and the artificial neural networks is used to recognize the discharge models.
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