Lipophilicity of Amine Neurotransmitter Precursors, Metabolites and Related Drugs Estimated on Various TLC Plates

AbstractThin-layer chromatography (TLC) still enjoys widespread popularity among lichenologists as one of the fastest and simplest analytical strategies, today remaining the primary method of assessing the secondary product content of lichens. The pitfalls associated with this approach are well known as TLC leads to characterizing compounds by comparison with standards rather than properly identifying them, which might lead to erroneous assignments, accounting for the long-held interest in hyphenating TLC with dedicated identification tools. As such, commercially available TLC/Mass Spectrometry (MS) interfaces can be easily connected to any brand of mass spectrometer without adjustments. The spots of interest are extracted from the TLC plate to retrieve mass spectrometric signals within one minute, thereby ensuring accurate identification of the chromatographed substances. The results of this hyphenated strategy for lichens are presented here by 1) describing the TLC migration and direct MS analysis of single lichen metabolites of various structural classes, 2) highlighting it through the chemical profiling of crude acetone extracts of a set of lichens of known chemical composition, and finally 3) applying it to a lichen of unknown profile, Usnea trachycarpa.

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Coupling FT Raman and FT SERS microscopy with TLC plates for in situ identification of chemical compounds

Spectrochimica Acta Part A Molecular and Biomolecular Spectroscopy ◽

10.1016/0584-8539(95)01490-5 ◽

1995 ◽

Vol 51 (12) ◽

pp. 1977-1983 ◽

Cited By ~ 12

Author(s):

J.P Caudin ◽

A Beljebbar ◽

G.D Sockalingum ◽

J.F Angiboust ◽

M Manfait

Keyword(s):

Chemical Compounds ◽

Tlc Plates ◽

Ft Raman

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Photo Catalytic Activity of Anatase TiO2/PVA Film Coated Glass Plate

Advanced Materials Research ◽

10.4028/www.scientific.net/amr.584.396 ◽

2012 ◽

Vol 584 ◽

pp. 396-400 ◽

Cited By ~ 1

Author(s):

Aravind Naga Revuru ◽

Nagarajan Padmavathy ◽

Angappan Sheela ◽

Swamiappan Sasikumar

Keyword(s):

Methylene Blue ◽

Dye Degradation ◽

Anatase Phase ◽

Glass Plate ◽

Photocatalytic Decomposition ◽

Blue Dye ◽

Methylene Blue Dye ◽

Contributing Factors ◽

Tio2 Sample ◽

Tlc Plates

The major cause of surface and ground water contamination is due to effluent from dyeing industries. The discharged effluent chemicals inhibit light penetration into water bodies and some are considered to be carcinogenic. In this study, the photocatalytic decomposition of the synthetic dye, methylene blue was investigated in the presence of activated TiO2. The TiO2 sample was characterized by using XRD to analyze the presence of anatase and rutile phases. The dye degradation was monitored as a change in absorbance by UV-Visible spectrophotometer. The contributing factors towards dye degradation include both the dye concentration as well as the quantity of TiO2 used. Different quantities of TiO2 in anatase phase was taken and activated under UV radiation for 15 min. and subsequently coated on to TLC plates using 5% polyvinyl alcohol as a binding agent. This photocatalytic plate was kept in the methylene blue dye solution and exposed to sunlight. The results shows that 57% of the 30ppm methylene blue dye gets degraded within 75min., when exposed to UV activated TiO2 in presence of natural sunlight.

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1047 PSEUDOMONADS AND THE ROLE OF-THE ANTIBIOTICS IN THE CONTROL OF GREEN MOLD OF LEMONS.

HortScience ◽

10.21273/hortsci.29.5.578e ◽

1994 ◽

Vol 29 (5) ◽

pp. 578e-578

Author(s):

J.S. Parham ◽

J.L. Smilanick

Keyword(s):

Uv Light ◽

Inhibition Zone ◽

Sulfanilic Acid ◽

Pseudomonas Cepacia ◽

E Coli ◽

Green Mold ◽

Tlc Plates ◽

Stable Mutant ◽

Inhibition Zones

Pseudomonas cepacia LT412W reduced green mold on lemons caused by Penicillium digitatum. It produces phenylpyrrole antibiotics which cause inhibition zones in co-culture with the pathogen. Their role in control of the disease was investigated. Mutagenesis of P. cepacia (rifampicin resistant) was performed by mating it with E. coli S-17 pSUP1021 (kanamycin resistant), which carries the transposon Tn5. Transconjugate selection and screening for absence of inhibition zones identified a stable mutant. Growth of parent and mutant were comparable. When the mutant was co-cultured with the pathogen on lemon albedo agar, no inhibition zone appeared. Similar co-culture on potato dextrose agar with tryptophan (0.05 g/L), a precursor of phenylpyrroles, did not induce inhibition zones. This suggests the mutation is not in tryptophan biosynthesis. Parent and mutant were assayed for phenylpyrroles. They were cultured in nutrient broth, centrifuged, and the cells extracted with acetone. The extract was dried and dissolved in chloroform. It was spotted on nano-SIL Cl8 TLC plates, run one hour (methanol:acetonitrile:water, 1:1:1), dried, developed with sulfanilic acid, and observed under UV light. The relative mobility of spots from extracts of the parent matched phenylpyrroles, whereas the mutant produced none. Control of decay by the mutant and parent were equal, suggesting no role for phenylpyrroles in suppression of the disease.

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Spectrodensitometric simultaneous determination of esomeprazole and domperidone in human plasma

Open Chemistry ◽

10.1515/chem-2017-0030 ◽

2017 ◽

Vol 15 (1) ◽

pp. 293-298

Author(s):

Pakinaz Y. Khashaba ◽

Hassan Refat H. Ali ◽

Mohamed M. El-Wekil

Keyword(s):

Ethyl Acetate ◽

Factorial Design ◽

Simultaneous Determination ◽

Human Plasma ◽

Mobile Phase ◽

Fractional Factorial Design ◽

Cost Effective ◽

Fractional Factorial ◽

Tlc Plates

AbstractA simple, rapid, cost-effective, and sensitive TLC-spectrodensitometric method for simultaneous determination of esomeprazole and domperidone was developed and tested in human plasma. Ethyl acetate: methanol: benzene: acetonitrile (5: 4: 8: 3, v/v/v/v) mobile phase was used for separation on TLC plates detected at 286 nm. The linearity ranges were 5-1200 and 2-600 ng/ spot for esomeprazole and domperidone, and limits of detection were 1.73 and 0.59 ng/spot. The effects of four variables affecting Rf were evaluated by fractional factorial design. The benzene volume and saturation time had significant effects.

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Inertgas-Schutzdeckel für TLC-Platten / Inert Gas Blanket for TLC-plates

Tenside Surfactants Detergents ◽

10.1515/tsd-1991-280107 ◽

1991 ◽

Vol 28 (1) ◽

pp. 14-14

Keyword(s):

Inert Gas ◽

Tlc Plates

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Neurotransmitter Precursors and Cardiovascular Function

Clinics in Anaesthesiology ◽

10.1016/s0261-9881(21)00178-6 ◽

1984 ◽

Vol 2 (2) ◽

pp. 353-361

Author(s):

Lydia A. Conlay ◽

Timothy J. Maher

Keyword(s):

Cardiovascular Function ◽

Neurotransmitter Precursors

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Notizen: Improved 2,4-Dinitrophenylhydrazine, Thin Layer Chromatography Methods for the Determination of Micro- and Macroamounts of Ascorbic Acid

Zeitschrift für Naturforschung C ◽

10.1515/znc-1974-11-1222 ◽

1974 ◽

Vol 29 (11-12) ◽

pp. 777-780 ◽

Cited By ~ 8

Author(s):

A. Navon ◽

H. Z. Levinson

Keyword(s):

Acetic Acid ◽

Vitamin C ◽

Thin Layer ◽

Condensation Reaction ◽

Dehydroascorbic Acid ◽

Previous Method ◽

Aqueous Acetic Acid ◽

Tlc Plates ◽

Layer Chromatography

Microamounts of vitamin C could be readily determined in 20 μl-samples using the 2,4-dinitrophenylhydrazine method together with separation by thin layer chromatography. The condensation reaction was carried out for 5 min at 100 °C on a glass fibre disc. Purification of vitamin C hydrazones was accomplished by repeated separation on TLC plates. An aqueous solution of 65% acetic acid was employed to dissolve the vitamin C hydrazones, providing maximal absorbance at 500 nm. The minimum amount detectable by this method is 0.4 μg of dehydroascorbic acid. The macrodetermination of vitamin C was improved by simplifying a previous method and employing 65% aqueous acetic acid as a solvent for the hydrazones.

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Rapid Thin Layer Chromatographic Method for Determining Aflatoxin Bi, Ochratoxin A, and Zearalenone in Corn

Journal of AOAC INTERNATIONAL ◽

10.1093/jaoac/61.3.584 ◽

1978 ◽

Vol 61 (3) ◽

pp. 584-585

Author(s):

Ivan Balzer ◽

Čedo Bogdanić ◽

Stjepan Pepeljnjak

Keyword(s):

Sodium Bicarbonate ◽

Thin Layer ◽

Ochratoxin A ◽

Ultraviolet Light ◽

Aflatoxin B1 ◽

Chromatographic Method ◽

Limits Of Detection ◽

Chloroform Extraction ◽

Tlc Plates

Abstract A multimycotoxin thin layer chromatographic method is described for the analysis of corn. Aflatoxins are extracted from the samples with acetonitrile-water, and sodium bicarbonate is added to separate the acidic ochratoxin from zearalenone and aflatoxin B1. After chloroform extraction, 1/V NaOH is added to separate zearalenone and aflatoxin B1# The separated mycotoxins are spotted on TLC plates, which are then examined under ultraviolet light. The following recoveries ( % ) were obtained for corn samples: aflatoxin B1 71, ochratoxin A 87, and zearalenone 85. The limits of detection for the respective mycotoxins were 2, 40, and 200 ppb.

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