Academic literature on the topic 'Fast size exclusion liquid chromatography (FastSEC)'
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Journal articles on the topic "Fast size exclusion liquid chromatography (FastSEC)":
Im, Kyuhyun, Hae-woong Park, Sekyung Lee, and Taihyun Chang. "Two-dimensional liquid chromatography analysis of synthetic polymers using fast size exclusion chromatography at high column temperature." Journal of Chromatography A 1216, no. 21 (May 2009): 4606–10. http://dx.doi.org/10.1016/j.chroma.2009.03.072.
Wang, Xueqin, Huahua Yu, Ronge Xing, and Pengcheng Li. "Characterization, Preparation, and Purification of Marine Bioactive Peptides." BioMed Research International 2017 (2017): 1–16. http://dx.doi.org/10.1155/2017/9746720.
Koellensperger, Gunda, Simon Daubert, Ralf Erdmann, Stephan Hann, and Hanspeter Rottensteiner. "Characterisation of zinc-binding domains of peroxisomal RING finger proteins using size exclusion chromatography/inductively coupled plasma-mass spectrometry." Biological Chemistry 388, no. 11 (November 1, 2007): 1209–14. http://dx.doi.org/10.1515/bc.2007.125.
Girardet, Jean-Michel, Franck Saulnier, Jean-Luc Gaillard, Jean-Paul Ramet, and Gérard Humbert. "Camel (camelus dromedarius) milk PP3: evidence for an insertion in the amino-terminal sequence of the camel milk whey protein." Biochemistry and Cell Biology 78, no. 1 (February 1, 2000): 19–26. http://dx.doi.org/10.1139/o99-067.
Mounicou, Sandra, Juris Meija, and Joseph Caruso. "Preliminary studies on selenium-containing proteins in Brassica juncea by size exclusion chromatography and fast protein liquid chromatography coupled to ICP-MS." Analyst 129, no. 2 (2004): 116. http://dx.doi.org/10.1039/b312960h.
Labrecque, Jean, Pangala V. Bhat, and André Lacroix. "Purification and partial characterization of a rat kidney aldehyde dehydrogenase that oxidizes retinal to retinoic acid." Biochemistry and Cell Biology 71, no. 1-2 (January 1, 1993): 85–89. http://dx.doi.org/10.1139/o93-013.
Uversky, V. N. "Use of fast protein size-exclusion liquid chromatography to study the unfolding of proteins which denature through the molten globule." Biochemistry 32, no. 48 (December 1993): 13288–98. http://dx.doi.org/10.1021/bi00211a042.
Housley, David M., Jeremy L. Pinyon, Georg von Jonquieres, Chamini J. Perera, Michael Smout, Michael J. Liddell, Ernest A. Jennings, David Wilson, and Gary D. Housley. "Australian Scorpion Hormurus waigiensis Venom Fractions Show Broad Bioactivity through Modulation of Bio-Impedance and Cytosolic Calcium." Biomolecules 10, no. 4 (April 16, 2020): 617. http://dx.doi.org/10.3390/biom10040617.
Hu, Jing, Chris Weise, Christoph Böttcher, Hua Fan, and Jian Yin. "Expression, purification and structural analysis of functional GABA transporter 1 using the baculovirus expression system." Beilstein Journal of Organic Chemistry 13 (May 11, 2017): 874–82. http://dx.doi.org/10.3762/bjoc.13.88.
Alcaide-Hidalgo, Juan María, Miguel Romero, Juan Duarte, and Eduardo López-Huertas. "Antihypertensive Effects of Virgin Olive Oil (Unfiltered) Low Molecular Weight Peptides with ACE Inhibitory Activity in Spontaneously Hypertensive Rats." Nutrients 12, no. 1 (January 20, 2020): 271. http://dx.doi.org/10.3390/nu12010271.
Dissertations / Theses on the topic "Fast size exclusion liquid chromatography (FastSEC)":
Maknun, Luluil. "Development of mass spectrometric analytical methods for the determination of iron complexes in plants and bacteria and for the determination of cobalt using bimetallic nanoparticles." Electronic Thesis or Diss., Pau, 2023. http://www.theses.fr/2023PAUU3039.
The research focuses on an analytical method development using chromatography coupled to mass spectrometry for the analysis of low molecular weight iron complexes. In the second part, the study explores the utilization of bimetallic nanoparticles for Co2+ detection.In the first part, a method using liquid chromatography with two detector mass spectrometry, i.e., electrospray high-resolution accurate mass (HRAM) mass spectrometry (MS) and inductively coupled mass spectrometry (ICP-MS), was developed for the analysis of low molecular weight iron (Fe) complexes, called ‘siderophores'. The complexity of the samples, their low concentrations, and the lability of the iron complexe were challenges in the development of methods for their identification and quantification. For the sample clean-up, solid phase extraction (SPE) using acidic conditions was developed to purify the samples, followed by evaporation to dryness. The individual 56Fe-siderophore complexes were identified by fast size-exclusion chromatography (FastSEC) - Orbitrap MSn based on the exact molecular mass (+ 1 ppm) and MS2. Their capability of exchanging the natural 56Fe with the spiked 58Fe was demonstrated by SEC with ICP-MS and ESI-MS detection. The method was applied to the analysis of peat collected in the Eastern part of the French Pyrenean mountains. Nineteen siderophores belonging to four different classes were presumptively identified and quantified. The results were compared with ICP-MS detection of iron and matching of the sum of the moles of iron complexes determined by the isotopic- ESI-MS within each peak as eluted from the fastSEC column.In the second part, a method using inductively coupled plasma mass spectrometry in the single particle mode and the conventional mode coupled to a flow field flow fractionation was developed to select suitable conditions for the synthesis of Ag-Au bimetallic nanoparticles and to monitor the colorimetric changes due to aggregations. Ag-Au BNPs, synthesized by using citrate reduction of Ag and Au ions, were used as sensors for the detection of Co2+. To better understand the colorimetric sensing of Co2+ using the Ag-Au BNPs, various mixtures were studied, viz. (i) only Ag-Au BNPs; (ii) Ag-Au BNPs with thiosulfate; (iii) Ag-Au BNPs with thiosulfate and ethylenediamine; and (iv) Ag-Au BNPs with thiosulfate, Co2+ and ethylenediamine. SP-ICP-MS was used to determine the core size, size distribution, and number concentration, as well as the heterogeneity of the particles synthesized by using various citrate concentrations and metal ratios. Fl-FFF-ICP-MS was also used to observe the hydrodynamic size and the Ag: Au signal intensity ratio of the BNPs to support information obtained from the SP-ICP-MS. The combination of the proposed techniques has been applied to monitor the reaction during colorimetric sensing. Additional information from fractograms provided by Fl-FFF-ICP-MS was also useful for the understanding of the aggregation of BNPs arising from the [Co(II)(en)3]2+ complex surrounding the surface of the BNPs. Furthermore, when compared to colorimetric sensing, the limit of detection for Co2+ ion, using the BNPs and SP-ICP-MS, were 20-fold lower, decreasing from ppb to ppt levels