Reversed-phase HPLC analytical

The metabolism of flavopiridol by the liver has been studied both in vitro and in vivo. Glucuronidation was found to occur when isolated human liver microsomes were used [33] and this was confirmed by examination of the results from a perfused rat liver [34] which showed that the process occurred at both the 5 and 7 position and that the metabolites were excreted mainly into the bile. A reverse-phase HPLC analytical method has been devised for analysis of flavopiridol in serum [35]. After extraction with dichloromethane and subsequent evaporation, the compound and internal standard are dissolved in the mobile phase and separated using a C-l 8 column with a mobile phase of methanol water 1 1 containing 0.05M ion-pairing reagent PIC B-6. The compounds were detected at 278nm. 

However, it is necessary to first consider a concern for the design of integrated extraction-clean-up-reversed phase HPLC analytical methods that arises from... 

The resulting oligonucleotide is often of surprising purity as judged by analytic HPLC or electrophoresis, and up to 30 mg of a deoxyeicosanucleotide (20-base DNA) can be routinely obtained. Nevertheless small amounts of short sequences, resulting from capping and from base-catalysed hydrolysis, must always be removed by quick gel filtration, repeated ethanol precipitation from water (desalting), reverse-phase HPLC, gel electrophoresis, and other standard methods. 

An on-line concentration, isolation, and Hquid chromatographic separation method for the analysis of trace organics in natural waters has been described (63). Concentration and isolation are accompHshed with two precolumns connected in series the first acts as a filter for removal of interferences the second actually concentrates target solutes. The technique is appHcable even if no selective sorbent is available for the specific analyte of interest. Detection limits of less than 0.1 ppb were achieved for polar herbicides (qv) in the chlorotriazine and phenylurea classes. A novel method for deterrnination of tetracyclines in animal tissues and fluids was developed with sample extraction and cleanup based on tendency of tetracyclines to chelate with divalent metal ions (64). The metal chelate affinity precolumn was connected on-line to reversed-phase hplc column, and detection limits for several different tetracyclines in a variety of matrices were in the 10—50 ppb range. 

The teehniques of membrane extraetion permit an effieient and modern applieation of elassieal liquid-liquid extraetion (LLE) ehemistry to instmmental and automated operation. Various shorteomings of LLE are overeome by membrane extraetion teehniques as they use none or very little organie solvents, high enriehment faetors ean be obtained and there ai e no problems with emulsions. A three phase SLM system (aq/org/aq), where analytes are extraeted from the aqueous sample into an organie liquid, immobilized in a porous hydrophobie membrane support, and further to a seeond aqueous phase, is suitable for the extraetion of polar eompounds (aeidie or basie, ehai ged, metals, ete.) and it is eompatible with reversed phase HPLC. A two-phase system (aq/org) where analytes ai e extraeted into an organie solvent sepai ated from the aqueous sample by a hydrophobie porous membrane is more suitable for hydrophobie analytes and is eompatible with gas ehromatography. 

Moore and Jorgenson eombined the rapid two-dimensional separation aehieved by LC-CZE with SEC to make the first eomprehensive three-dimensional separation involving an eleetrodriven eomponent in 1995. Size exelusion ehromatography separated the analytes over a period of several hours while the reverse phase HPLC-CZE eombination separated eomponents in only 7 min. A sehematie diagram of the three-dimensional SEC-reverse phase HPLC-CZE instrument is shown in Eigure 9.9 (18). A dilution tee was plaeed between the SEC eolumn and the reverse phase HPLC injeetion loop in order to dilute the eluent from the SEC eolumn, sinee it eon-tained more methanol than was optimal for the reverse phase HPLC eolumn. 

The method for chloroacetanilide soil metabolites in water determines concentrations of ethanesulfonic acid (ESA) and oxanilic acid (OXA) metabolites of alachlor, acetochlor, and metolachlor in surface water and groundwater samples by direct aqueous injection LC/MS/MS. After injection, compounds are separated by reversed-phase HPLC and introduced into the mass spectrometer with a TurboIonSpray atmospheric pressure ionization (API) interface. Using direct aqueous injection without prior SPE and/or concentration minimizes losses and greatly simplifies the analytical procedure. Standard addition experiments can be used to check for matrix effects. With multiple-reaction monitoring in the negative electrospray ionization mode, LC/MS/MS provides superior specificity and sensitivity compared with conventional liquid chromatography/mass spectrometry (LC/MS) or liquid chromatography/ultraviolet detection (LC/UV), and the need for a confirmatory method is eliminated. In summary,... 

The analytes, EMA and MEMA, are separated and quantitated by reversed phase HPLC/OECD. Details of the operating conditions are as follows ... 

The extraordinary complexity of human genes and their products has encouraged the development of extremely high-resolution analytical methods.75 Capillary electrophoresis is competitive with slab gel methods, with resolution up to the order of about 1,000 base pairs for sequencing, sizing, and detection of mutation. Reversed phase HPLC is useful for restriction digest mapping and MALDI-MS up to about 1000 base pairs. 

If simple sample pretreatment procedures are insufficient to simplify the complex matrix often observed in process mixtures, multidimensional chromatography may be required. Manual fraction collection from one separation mode and re-injection into a second mode are impractical, so automatic collection and reinjection techniques are preferred. For example, a programmed temperature vaporizer has been used to transfer fractions of sterols such as cholesterol and stigmasterol from a reversed phase HPLC system to a gas chromatographic system.11 Interfacing gel permeation HPLC and supercritical fluid chromatography is useful for nonvolatile or thermally unstable analytes and was demonstrated to be extremely useful for separation of compounds such as pentaerythritol tetrastearate and a C36 hydrocarbon standard.12... 

Figure 2. Analytical reversed phase HPLC of methyl formate fraction. Reproduced with permission from Ref. 15. Coyright 1983, The Hormel Institute.

Extracts of all matrices were analyzed by reversed-phase HPLC using ultraviolet detection at a wavelength of 266 nm (Soekhoe and Kerstens, 1995). The limit of detection (LOD) was 10 mg/L for all matrices. Recovery was > 90% and "between days" CV of the analytical chemical method was < 10%. 

Reverse-phase HPLC (RP-HPLC) separates proteins on the basis of differences in their surface hydophobicity. The stationary phase in the HPLC column normally consists of silica or a polymeric support to which hydrophobic arms (usually alkyl chains, such as butyl, octyl or octadecyl groups) have been attached. Reverse-phase systems have proven themselves to be a particularly powerful analytical technique, capable of separating very similar molecules displaying only minor differences in hydrophobicity. In some instances a single amino acid substitution or the removal of a single amino acid from the end of a polypeptide chain can be detected by RP-HPLC. In most instances, modifications such as deamidation will also cause peak shifts. Such systems, therefore, may be used to detect impurities, be they related or unrelated to the protein product. RP-HPLC finds extensive application in, for example, the analysis of insulin preparations. Modified forms, or insulin polymers, are easily distinguishable from native insulin on reverse-phase columns. 

The most popular current techniques for amino acid analysis rely on liquid chromatography and there are two basic analytical methods. The first is based on ion-exchange chromatography with post-column derivatization. The second uses pre-column derivatization followed by reversed-phase HPLC. Derivatization is necessary because amino acids, with very few exceptions, do not absorb in the UV-visible region, nor do they possess natural fluorescence. 

Very high APEO concentrations in coastal water were reported from Israel. At 10 locations along the coast, water samples were taken, all near the mouth of a river or stream. Samples were taken 2-3 m from the shoreline. With reversed phase HPLC, total APEO concentrations were determined. The levels varied from 4.2 to as much as 25 p,gL 1, while concentrations in the rivers themselves were in the range of 12.5-75 xg L-1. In samples taken further offshore (between 50 and 150 km), concentrations had decreased to <1.0-2.6 p.gL 1. In all samples, the higher oligomers (around 10 ethoxylate units) were most abundant. Unfortunately, as very little analytical details were reported, the validity of the results cannot be completely established [10]. 

In reversed-phase HPLC, column temperature is a strong determinant of retention time and also affects column selectivity. A column oven is therefore required for most automated pharmaceutical assays to improve retention time precision, typically at temperatures of 30-50°C. Temperatures >60°C are atypical due to concerns about thermal degradation of the analytes and column lifetimes. Exceptions are found in high-throughput screening where higher temperatures are used to increase flow and efficiency. Ambient or snb-ambient operation is sometimes found in chiral separations to enhance selectivity. Column ovens... 

In principle, the analytical results obtained by the GPC spin column/HPLC ESI-MS methodology described in this chapter should be similar to the results obtained using the tandem chromatographic method of GPC/reversed-phase HPLC ESI-MS described in Chapter 3. There are practical advantages for each method. Since each of the chromatographic and mass spectral steps are done serially for the GPC spin column/HPLC ESI-MS methodology, each of the steps can be performed and optimized individually. In the event of mass spectrometer failure, the production of spin column eluate samples can proceed and samples can be stored for future analysis. In contrast, the parallel methodology of tandem GPC/ reversed-phase HPLC ESI-MS requires the simultaneous optimization of multi-... 

The injector, columns and valves reside in a low temperature chamber to minimize the loss of deuterium by back exchange (Fig. 12.2). The quenched protein solution is pumped in series through a column containing an immobilized protease and a trap column to capture the peptide fragments. The gradient pump is activated following digestion and the peptides captured on the trap column are eluted and separated over an analytical reverse-phase HPLC column directly into the mass spectrometer. 

Dai, G., Wei, X., Liu, Z., Liu, S., Marcucci, G., and Chan, K. K., Characterization and quantification of Bcl-2 antisense G3139 and metabolites in plasma and urine by ion-pair reversed phase HPLC coupled with electrospray ion-trap mass spectrometry. Journal of Chromatography. B, Analytical Technologies in the Biomedical and Life Sciences 825(2), 201-213, 2005. 

Another reversed phase HPLC method reported the use of a Spherisorb column to effect the analytical separation [34]. The mobile phase consisted of methanol, to which perchloric acid was added at a level of 100 pL/L. The k value was reported to be 0.8. 

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