Micrograms Of Material Research Articles

Towards routine organic structure determination using Raman microscopy.

Raman microscopy can reveal a compound-specific vibrational "fingerprint" from micrograms of material with no sample preparation. We expect this increasingly available instrumentation to routinely assist synthetic chemists in structure determination; however, interpreting the information-dense spectra can be challenging for unreported compounds. Appropriate theoretical calculations using the highly efficient r2SCAN-3c method can accurately predict peak positions but are less precise in matching peak heights. To limit incorrect biases while comparing experimental and theoretical spectra, we introduce a user-friendly software that gives a match score to assist with structure determination. The capabilities and limitations of this approach are demonstrated for several proof-of-concept examples including the characterization of intermediates in the total synthesis of deoxyaspidodispermine.

Fully Unattended Online Protein Digestion and LC-MS Peptide Mapping.

LC-MS based peptide mapping, i.e., proteolytic digestion followed by LC-MS/MS analysis, is the method of choice for protein primary structural characterization. Manual proteolytic digestion is usually a labor-intensive procedure. In this work, a novel method was developed for fully automated online protein digestion and LC-MS peptide mapping. The method generates LC-MS data from undigested protein samples without user intervention by utilizing the same HPLC system that performs the chromatographic separation with some additional modules. Each sample is rapidly digested immediately prior to its LC-MS analysis, minimizing artifacts that can grow over longer digestion times or digest storage times as in manual or automated offline digestion methods. In this report, we implemented the method on an Agilent 1290 Infinity II LC system equipped with a Multisampler. The system performs a complete digestion workflow including denaturation, disulfide reduction, cysteine alkylation, buffer exchange, and tryptic digestion. We demonstrated that the system is capable of digesting monoclonal antibodies and other proteins with excellent efficiency and is robust and reproducible and produces fewer artifacts than manually prepared digests. In addition, it consumes only a few micrograms of material as most of the digested sample protein is subjected to LC-MS analysis.

Trapping-Enrichment Multi-dimensional Liquid Chromatography with On-Line Deuterated Solvent Exchange for Streamlined Structure Elucidation at the Microgram Scale.

At the forefront of chemistry and biology research, development timelines are fast-paced and large quantities of pure targets are rarely available. Herein, we introduce a new framework, which is built upon an automated, online trapping-enrichment multi-dimensional liquid chromatography platform (TE-Dt-mDLC) that enables: 1) highly efficient separation of complex mixtures in a first dimension (1 D-UV); 2) automated peak trapping-enrichment and buffer removal achieved through a sequence of H2 O and D2 O washes using an independent pump setup; and 3) a second dimension separation (2 D-UV-MS) with fully deuterated mobile phases and fraction collection to minimize protic residues for immediate NMR analysis while bypassing tedious drying processes and minimizing analyte degradation. Diverse examples of target isolation and characterization from organic synthesis and natural product chemistry laboratories are illustrated, demonstrating recoveries above 90 % using as little as a few micrograms of material.

Trapping‐Enrichment Multi‐dimensional Liquid Chromatography with On‐Line Deuterated Solvent Exchange for Streamlined Structure Elucidation at the Microgram Scale

AbstractAt the forefront of chemistry and biology research, development timelines are fast‐paced and large quantities of pure targets are rarely available. Herein, we introduce a new framework, which is built upon an automated, online trapping‐enrichment multi‐dimensional liquid chromatography platform (TE‐Dt‐mDLC) that enables: 1) highly efficient separation of complex mixtures in a first dimension (1D‐UV); 2) automated peak trapping‐enrichment and buffer removal achieved through a sequence of H2O and D2O washes using an independent pump setup; and 3) a second dimension separation (2D‐UV‐MS) with fully deuterated mobile phases and fraction collection to minimize protic residues for immediate NMR analysis while bypassing tedious drying processes and minimizing analyte degradation. Diverse examples of target isolation and characterization from organic synthesis and natural product chemistry laboratories are illustrated, demonstrating recoveries above 90 % using as little as a few micrograms of material.

Petrochronology of Zircon and Baddeleyite in Igneous Rocks: Reconstructing Magmatic Processes at High Temporal Resolution

Zircon (ZrSiO4) and baddeleyite (ZrO2) are common accessory minerals in igneous rocks of felsic to mafic composition. Both minerals host trace elements substituting for Zr, among them Hf, Th, U, Y, REEs and many more. The excellent chemical and physical resistivity of zircon makes this mineral a perfect archive of chemical and temporal information to trace geological processes in the past, utilizing the outstanding power and temporal resolution of the U–Pb decay schemes. Baddeleyite is a chemically and physically much more fragile mineral. It preserves similar information only where it is shielded from dissolution and physical fragmentation as an inclusion in other minerals or in a fine-grained or non-reactive rock matrix. It offers the potential for dating the solidification of mafic rocks with high-precision through its crystallization in small pockets of Zr-enriched melt, after extensive olivine and pyroxene fractionation. Zircon and baddelelyite U–Pb dates are, for an overwhelming majority of cases and where we can assume a closed system, considered to reflect the time of crystallization. The development of the U–Pb dating tool CA-ID-TIMS (chemical abrasion-isotope dilution-thermal ionization mass spectrometry) since 2005 has led to unprecedented precision of better than 0.1% in 206Pb/238U dates (Bowring et al. 2005). Increased sensitivity of mass spectrometers and low laboratory blanks due to reduction of acid volumes allow routine U–Pb age determinations of micrograms of material at sufficiently high radiogenic/common lead ratios (see Schoene and Baxter 2017, this volume). In situ U–Pb age analysis using laser ablation or primary ion beam sputtering allows analysis of sub-microgram quantities of zircon material from polished internal sections or zircon surfaces with spot diameters ranging from ~30 μm for laser-ablation, inductively coupled plasma mass spectrometry (LA-ICP-MS) to 10 μm for secondary ion mass spectrometry (SIMS), lateral resolutions of 2–5 μm for NanoSIMS …

Ion beam production with sub-milligram samples of material from an ECR source for AMS.

Current accelerator mass spectrometry experiments at the Argonne Tandem Linac Accelerator System facility at Argonne National Laboratory push us to improve the ion source performance with a large number of samples and a need to minimize cross contamination. These experiments can require the creation of ion beams from as little as a few micrograms of material. These low concentration samples push the limit of our current efficiency and stability capabilities of the electron cyclotron resonance ion source. A combination of laser ablation and sputtering techniques coupled with a newly modified multi-sample changer has been used to meet this demand. We will discuss performance, stability, and consumption rates as well as planned improvements.

Analysis of lignin from archaeological waterlogged wood by direct exposure mass spectrometry (DE-MS) and PCA evaluation of mass spectral data

The chemical characterisation of waterlogged archaeological wood is of fundamental importance to understand the degradation processes undergone by wooden objects and consequently to develop suitable consolidation and conservation procedures. Lignin extracted from archaeological waterlogged wood samples was characterized using direct exposure electron ionisation mass spectrometry (DE-MS). DE-MS achieves a mass spectral fingerprint of the sample in a few minutes, avoiding any chemical pre-treatment and requiring only few micrograms of material. Mass spectral data were put in relation to the chemical composition of lignin and evaluated by means of principal component analysis (PCA). The preliminary results, presented in this study, demonstrate the feasibility and the potential of DE-MS as a reproducible and rapid screening method for archaeological waterlogged wood samples.

APPLICATION OF BIOCATALYSIS TO DRUG METABOLISM: PREPARATION OF MAMMALIAN METABOLITES OF A BIARYL-BIS-SULFONAMIDE AMPA (α-AMINO-3-HYDROXY-5-METHYLISOXAZOLE-4-PROPIONIC ACID) RECEPTOR POTENTIATOR USINGActinoplanes missouriensis

LY451395 (2-propanesulfonamide, N-[(2R)-2-[4'-[2-[methylsulfonyl)amino]ethyl][1,1'-biphenyl]-4-yl]propyl]-) is a potent and highly selective potentiator of the alpha-amino-3-hydroxy-5-methylisoxazole-4-propionic acid (AMPA) receptors. It is a biaryl-bis-sulfonamide and is known to be highly metabolized in preclinical species. In those metabolism studies, the metabolite structures were proposed exclusively by the analysis of mass spectrometric data. Although mass spectrometry is clearly a technique of choice for rapid identification of drug metabolites, occasionally, nuclear magnetic resonance spectroscopy is required to unambiguously assign and characterize, particularly, the regio- and stereochemistry of metabolic changes. Nuclear magnetic resonance spectroscopy, in general, is less sensitive than other detection methods and demands several micrograms of material for the analysis. To support full structure characterization of metabolites by NMR, in this study we demonstrated the application of a microbial-based surrogate biocatalytic system to produce sufficient amounts of the mammalian metabolites of LY451395. The results revealed that incubation of LY451395 with Actinoplanes missouriensis NRRL B3342 generated several metabolites that were previously detected in the in vivo metabolism studies of the preclinical species. Subsequent large-scale bioconversion resulted in the isolation of seven mammalian metabolites in milligram quantities for structural characterization by nuclear magnetic resonance spectroscopy. Furthermore, a selected group of metabolites generated from the microbial conversion served as analytical standards to monitor and quantify drug metabolites during clinical investigations.

Measurement of trace element concentration in a metal matrix using total reflection X-ray fluorescence spectrometry

Total reflection X-ray fluorescence spectroscopy (TXRF) has been used in combination with synchrotron radiation in order to determine detection limits and lowest limits of concentration of trace elements in metal matrices. Two applications on irradiated material are described, where the TXRF method has some advantages, as compared to other detection methods, because only few micrograms of material is needed for the measurements. The first application is devoted to radiation damage studies on first wall material of future fusion reactors. Therefore, metal foils were irradiated with 590 MeV protons at PSI and the transmutational elements produced in the foils were measured. The second application is the assessment of radiation damage of core components in a nuclear power plant, e.g. the reactor pressure vessel. This is performed by the determination of the fast neutron fluence on the components using an activation reaction of 93Nb which is a trace element in most reactor steels. Detection limits of a few picograms have been found in the experiments.

Identification of Proteins Using Affinity Affi-Gel Simultaneously with Acrylamide Electrophoresis

Abstract This work presents a method in which a desired protein may be separated from a biological protein preparation and identified by highly specific monoclonal antibody. The desired protein may be isolated from crude protein preparations by this method. The protein remains intact and stable throughout the procedure. This method utilizes common nonreducing conditions of polyacrylamide gel electrophoresis (PAGE), and Western Blot transfer of protein. This isolation of the desired protein can be accomplished for a microgram or tens of micrograms of material. The application of Western blot technique with monoclonal antibody permits the highest specificity in terms of identifying the target protein. In addition to identifying the target protein the method can isolate sufficient amounts for further characterization.

High Resolution High Performance Liquid Chromatography Fingerprinting of Purified Human Chorionic Gonadotropin Demonstrates that Oxidation Is a Cause of Hormone Heterogeneity*

To characterize the structures of the various forms of hCG and its immunologically related fragments measured in blood, urine, and tissue culture media, we developed a highly sensitive HPLC tryptic fingerprinting system that can characterize as little as 15 micrograms of material. Standard preparations of the subunits of hCG purified from pregnancy urine were found to exhibit heterogeneity on reverse phase HPLC chromatography, complicating efforts to characterize such forms of hCG. The same type of chromatographic heterogeneity was observed when the hormone was reduced and S-carboxymethylated (RCM) and its RCM subunits separated on HPLC. One major and one minor peak were observed in the alpha- and beta-subunits from both native and RCM hormone, with a ratio of between 5:1 and 10:1. Development and application of a high resolution, semimicrobore HPLC fingerprint technique used together with an examination of selected peptides by amino acid sequencing and mass spectrometry defined the differences between these forms as oxidation. Using each of the isolated RCM subunit's major and minor HPLC peaks, the oxidation was shown to be reversible and probably due to interconversion of methionine with its sulfoxide form.

Cytidine 5'-monophospho-N-acetylneuraminic acid or a related compound is the low Mr factor from human red blood cells which induces gonococcal resistance to killing by human serum.

A low-Mr factor which induces gonococcal resistance to complement-mediated serum killing has been partially purified from lysates of mixed red and buffy coat cells from human blood. The lysates were dialysed against Tris buffer for 24 h at 25 degrees C with the diffusate being continuously recycled through a column of QAE-Sephadex A25. After elution in an NaCl gradient, the active fractions were both desalted and further purified on Sephadex G10. A second fractionation on QAE-Sephadex A25 and desalting with Sephadex G10 preceded further purification by repeated high-pressure liquid chromatography (HPLC) using a DEAE anion exchange column and desalting with Sephadex G10. Less than 500 micrograms of material showing one peak in HPLC was obtained from 1 litre of blood. After NMR had indicated the possible presence of pyrimidine nucleotide, carbohydrate and N-acetyl groups, nanogram quantities of a commercial preparation of cytidine 5'-monophospho-N-acetylneuraminic acid (CMP-NANA) were shown to induce gonococci to serum resistance. The synthetic CMP-NANA also co-eluted with the preparation from blood cells in HPLC, and the two materials were indistinguishable in their patterns of acid and heat lability. Furthermore, the resistance-inducing activity of both materials was inhibited by cytidine monophosphate, which is known to inhibit sialylation reactions by CMP-NANA. It appears therefore that the resistance-inducing factor is CMP-NANA or a closely related compound. If the factor is CMP-NANA, biological activities indicated that the cell lysate from 1 litre of blood contained about 40 micrograms, and the most purified preparation contained only about 1%. With this minute amount in a mixture, the presence of CMP-NANA or a closely related analogue could not be established unequivocally by NMR.

Analysis of gangliosides using fast atom bombardment mass spectrometry

The native gangliosides GM3, GM1, Fuc-GM1, GD1a, GD1b, Fuc-GD1b, GT1b and GQ1b were analysed by fast atom bombardment mass spectrometry (FAB-MS) in the negative ion mode in a matrix of thioglycerol. After permethylation the same gangliosides were analysed by electron impact (EI) and FAB-MS in the positive ion mode. The negative ion mass spectra furnished information on the molecular weight, the ceramide moiety and the sequence of carbohydrate residues. The sites of attachment and the number of sialic acids present could be deduced directly from the pattern of sequence ions. After addition of sodium acetate positive ion FAB-spectra of the permethylated samples show intense pseudomolecular ions M+Na, that provide evidence on the homogeneity of the samples. In addition, the ceramide part, the oligosaccharide moiety obtained after cleavage of the glycosidic bond of the hexosamine residue, the whole carbohydrate chain and the sialic acids are represented by specific fragment ions. With EI-MS further information can be obtained on the sphingosine and fatty acid components of the ceramide residue. The data show, that the combination of soft ionization mass spectrometry with classical EI-MS gives valuable information on the structure and homogeneity of gangliosides. The method is also applicable to the structural elucidation or quantitation of more complex gangliosides or glycolipid mixtures using only micrograms of material

Suppression of lymphocyte activation by a protein released from isolated perfused rat liver.

Isolated rat liver perfusates contain a substance which inhibits 3H-thymidine uptake by phytohemagglutinin-stimulated human peripheral blood lymphocytes in a dose-dependent, noncytotoxic fashion. Suppression is not due to interference of lymphocyte-phytohemagglutinin interaction or dilution of the thymidine pool. Complete inhibition of thymidine uptake is achieved with less than 1.0 microgram of material per ml (which is a potentially achievable concentration in vivo). The release of this material is directly and quantitatively associated with hepatocellular injury as measured by release of glutamic pyruvate transaminase. The material is a highly basic protein with a molecular weight of approximately 65,000 to 80,000 daltons. It is a product of the hepatocyte rather than of nonparenchymal liver cells. Liver-derived materials, such as the presently described molecule, may play a role in in situ regulation of lymphocyte function during immunologically mediated liver disease.

Preparation of a biologically active rat prolactin devoid of antidiuretic activity.

Rat prolactin (NIH rPRL-B2) was purified using Sephadex chromatography and isoelectric focusing. SDS-gel electrophoresis of the original material showed a major band of 23K daltons, as well as several minor bands; the purified prolactin had a single 23K band. The original material contained 33 pg of immunoreactive vasopressin per 0.1 micrograms of material; vasopressin was not detectable in the purified material by either RIA or bioassay. The purified preparation had complete biological activity in a mammary gland bioassay and a receptor binding assay.

Inelastic electron tunneling spectroscopy of nucleic acid derivatives.

Inelastic electron tunneling spectra of nucleosides and nucleotides are presented which show that detailed information on the vibrational spectra of these molecules can be obtained from a few micrograms of material. A series of studies on adenine derivatives demonstrates that unambiguous identification of a large number of slightly different derivatives can be carried out by means of this technique.

Rapid micromethod for locating the oxirane group in 1,2-epoxides

Abstract A procedure for the analysis of micro amounts of epoxides is described. The method is based on the splitting of epoxides by periodic acid in a nonaqueous medium, followed by direct analysis of the reaction mixture by gas chromatography. The procedure is simple, rapid and requires only a few micrograms of material. The reaction is straightforward and yields no secondary products. The gas chromatographic analysis is sufficiently sensitive to detect small amounts of epoxy and non-epoxy impurities in addition to the major epoxide being analyzed. The method is not specific for epoxides, and its application to other substances capable of being split by periodic acid is discussed.

Determination of Infrared Spectra on Microgram Quantities of Some Plant Growth-Regulating Compounds

Infrared spectroscopy is a valuable tool for the characterization of organic compounds, ibut only recently has it been possible to obtain detailed ispectra on quantities of a few micrograms of material. In the past ifew years papers have been lpublished describing several methods for doing this (2, 3, 4, 5,6, 8,9). Some techniques have been, considerably more successful than others. One of the best is th,e use of small KBr pellets (3). This method has been described in detaill by Mason (5). He employed 0.5 and 1.5 mm KRr pellets, the former enabling him to obtain informative spectra on less than 1 microgram of material. Recently we have been interested in applying infrared techniques to small quantities of plant hormones (7). Herein is descrilbed a method which employs 1.5 mm KB!r fpellets, permitting good spectra on 5 to 10 ,ug of material. The technique is essentialily that of Mason (5), but we have modified it so that the preparation of the sample is much simplified, requiring a minimum of time and special equipment. All of our wotk has been done with a PerkinElmer Model 337 sipectrophotometer. The instrument was routinely employed with a Perkin-Elmer 4x refracting beam condenser with KBr optics in the sample beam, and with an attenuator in the reference beam. to equilize beam energy. The 1.5 mm KBr pelilets were prepared using the Per~kin-Elmer Ultra Micro Die. The metlhod has been employed for obtaining spectra on a number of organic compounds, among them being IAA,, several gibberellins and l(+) abscisin II. The steps for preparing the 1.5 mm KBr pellets are as follows, using IAA as an example of the compound to be analiyzed: A) Clean all glassware and metal equipment that might come in contact with the sample. We often use nothing more than a water rinse, followed by an acetone rinse, then drying. However, for ultra-clean equipment the method of Behringer (1) may be used. Glassware is cooked for an hour in 800 2 N HNO,, rinsed thoroughly with distilled water, then cooked another hour in 800 2 N HCl, rinsed 15 or more tinmes with high 'purity distililed wateir, and finally baked for 1 hour at 1000. Metal parts may be soaked in water to remove any KBr, rinsed with ethyl alcohol to remove water, then soaked in boiling benzene for 5 to 10 minutes to degrease them. Finally, they may be placed in a vacuum chanzrber to remove volatiles. Forceps are used to handle cleansed equipment. B) 1AA is transferred in a Ifew jAl of solvent to a commercialily available borosilicate culture tube, 10 X 75 mm. The carrier solivent is evaporated, and the IAA residue dissolved in 10 jl of ethyl alcohol. C) Three mg of IR grade KBr dissolved in 90 ILI of glass diistilled 'water are added to the IAA solution. Controls containing only aqueous KBr are also prepared. D) The samples are lyophilized by placing them in the liquid state in a vacuum desiccator. No cold tralp is employed between pump and desiccator, since only a few ul of water are involrved. Lyophilization is complete in 30 to 45 minutes. It is imiportant that the sample be a finely divided, 'fluffy mass at the end of the lyophilization period, rather than a crystalline residue which sticks tightly to the sides of the cuilture tube; otherwise a transparent pellet may not be obtained. E) Working under a heat lamp to minimize water absorption, the lyophilized KBr-IAA sample is loosened ifrom the bottom of the lyophilization tube with a small metal spatula and transiferred to the mi'cro die where the 1.5 mm pellet is'made. F) The IJR spectrum of the pellet is obtained in a conventional manner, except that a beam condenser i's generally employed.

Preparative Circular Paper Chromatography

FROM the preparative aspect, the conventional paper chromatographic technique is rather limited, in that only a few micrograms of material can be spotted on a single strip or sheet, and the labour involved in the separation of even milligram quantities in this way is enormous. From this point of view the circular paper chromatographic technique1 offers great possibilities. By a suitable modification of this technique, it has been found possible to obtain from a single chromatogram material of individual components from a mixture of sugars sufficient for the determination of physical constants and preparation of characteristic derivatives.