Spectroscopy Approaches(光谱学方法)研究综述
Spectroscopy Approaches 光谱学方法 - Here, we applied advanced fluorescence imaging and spectroscopy approaches on in vitro (model membranes) and in vivo (live cells and embryos) membranes as well as in silico analysis to systematically study the nanoscale dynamics of cholesterol in biological membranes. [1] The binding mechanism between Mitotic arrest deficient 2-like protein 1 (MAD2L1) and Neratinib under simulative physiological conditions was investigated by molecule simulation and multi-spectroscopy approaches. [2] Based on the literature, the near-infrared technique often has an advantage over other spectroscopy approaches and the expensive and time-consuming chemical methods such as high-performance liquid chromatography and gas chromatography. [3] Compared to dispersive optics or filter based spectroscopy approaches, FTS has a few significant advantages, such as high throughput, high signal-to-noise ratio, and high sensitivity. [4] Spectroscopy approaches for identification of pollen, such as Raman spectroscopy has potential benefits over traditional methods, due to the investigation of the intrinsic molecular composition of a sample. [5] Here, advanced fluorescence imaging and spectroscopy approaches were applied on in vitro (model membranes) and in vivo (live cells and embryos) membranes to systematically study the nanoscale dynamics of cholesterol in biological membranes. [6]在这里,我们将先进的荧光成像和光谱方法应用于体外(模型膜)和体内(活细胞和胚胎)膜以及计算机分析,以系统地研究生物膜中胆固醇的纳米级动力学。 [1] 通过分子模拟和多光谱方法研究了模拟生理条件下有丝分裂阻滞缺陷型2样蛋白1(MAD2L1)与Neratinib之间的结合机制。 [2] 根据文献,近红外技术通常比其他光谱方法和昂贵且耗时的化学方法(如高效液相色谱法和气相色谱法)具有优势。 [3] 与色散光学或基于滤光片的光谱学方法相比,FTS 具有一些显着优势,例如高通量、高信噪比和高灵敏度。 [4] 由于对样品内在分子组成的研究,用于鉴定花粉的光谱方法(例如拉曼光谱)具有优于传统方法的潜在优势。 [5] 在这里,先进的荧光成像和光谱方法被应用于体外(模型膜)和体内(活细胞和胚胎)膜,以系统地研究生物膜中胆固醇的纳米级动力学。 [6]
Raman Spectroscopy Approaches 拉曼光谱方法
While many prostate cancer studies have adopted Raman spectroscopy approaches, none have utilised the combination of Raman Chemical Imaging (RCI) and other imaging modalities. [1] Data collected from SEM, X-ray diffraction, and Raman Spectroscopy approaches demonstrated that P-DCPD has a more stable chemical structure than DCPD as evidenced by much less transformation to hydroxyapatite (HA) during setting. [2] This is currently not possible with existing Raman spectroscopy approaches. [3]虽然许多前列腺癌研究都采用了拉曼光谱方法,但没有人使用拉曼化学成像 (RCI) 和其他成像方式的组合。 [1] 从 SEM、X 射线衍射和拉曼光谱方法收集的数据表明,P-DCPD 具有比 DCPD 更稳定的化学结构,这在固化过程中向羟基磷灰石 (HA) 的转化要少得多。 [2] 这在现有的拉曼光谱方法中目前是不可能的。 [3]
Force Spectroscopy Approaches
AFM is not limited for imaging and allows the manipulation of individual viruses with force spectroscopy approaches, such as single indentation and mechanical fatigue assays. [1] AFM is not limited for imaging and allows the manipulation of individual viruses with force spectroscopy approaches, such as single indentation and mechanical fatigue assays. [2]AFM 不限于成像,并允许使用力谱方法操纵单个病毒,例如单压痕和机械疲劳测定。 [1] AFM 不限于成像,并允许使用力谱方法操纵单个病毒,例如单压痕和机械疲劳测定。 [2]