Organic extracts, preparation

A solution of 6.3 g (0.9 moles) ethoxyacetylene in 50 ml ether is added dropwise during 30 min to a Grignard reagent prepared from 2.18 g (90 mg-atoms) magnesium and 9.81 g (90 mmoles) ethyl bromide. The reaction mixture is stirred for 1 hr at room temperature and then a solution of 3 g (9 mmoles) 3) -acetoxyandrost-5-en-I7-one in 50 ml dry ether is added dropwise. The mixture is refluxed for 1 hr and after cooling to 0° poured into 100 ml of an aqueous ammonium chloride solution. The aqueous solution is extracted with ether, and the organic extract is washed with ammonium chloride solution and water, dried, and evaporated. The residue is chromatographed on 130 g alumina (activity III). Elution with petroleum ether-benzene (1 1) yields, after crystallization from acetone-hexane, 1.27 g (35%) 3j5-acetoxy-17a-ethoxyethynylandrost-5-en-17) -ol mp 138-139° Ho -122°. 

A solution of a mixture of 1 -(2-acetoxypropy I)-2-methyl-4-nitroimidazole and of 1 -(2-acetoxy-propyl)-2-methyl-6-nitroimidazole (18.6 g) (prepared as described above) in 4N hydrochloric acid (186 cc) is heated at 90°Cfor90 minutes. The cooled solution is treated with ammonium hydroxide (d = 09 100 cc), saturated with sodium chloride, and then extracted with ethyl acetate (total 650 cc). The combined organic extracts are washed with a saturated aqueous... 

The bacteriochlorin 10 (65 mg, 0.11 mmol) was dissolved in coned H2S04 (18 mL) and allowed lo react at 20 C for 5 min. The mixture was poured into ice, diluted with H20 and NaOAc (7.5 g, 91 mmol) was added. The mixture was extracted several times with CHC13, the organic extractions were washed with H20 (2 x), dried (Na2S04) and evaporated. Preparative thin-layer chromatography (silica gel) gave 11 and 12 yields 10.7 mg (17%) and 44 mg (70%), respectively. 

A suspension of lithium methoxide (prepared from 1.00 g (31.2 mmol) of methanol in 50 mL of THF and 17.7 mL (27.2 mmol) of 1.54 M butyllithium in hexane) is transferred via a cannula into a — 78 C sol ution of 5.86 g (27.1 mmol) of 2-[(/ )-(/T)-1-chloro-2-butenyl]-4,4,5,5-tctramethyl-l,3,2-dioxaborolane in 100 mL of THF. The solution is warmed, becoming homogeneous at 0 JC, and stirred for 1 h. Solvents arc removed in vacuo and the residue dissolved in 150 mL of petroleum ether (bp 40 -60 °C). This solution is washed with a citric acid/boric acid/phosphate buffer (pH 3) until the aqueous phase shows a pH of 4. The aqueous phase is extracted with 50 mL of petroleum ether (bp 40 - 60 rC). The combined organic extracts are dried over MgS04 and concentrated in vacuo to give a slightly tan oil yield 5.34 g (90%) ca. 90% ee. 

Dodecatrien-1-ol, 3,7,11-trimethyl-, (E,E)-] (Note 1) and 40 ml. of dry pyridine (Note 2) is prepared in a stoppered 250-ml. Erlenmeyer flask, and 40 ml. of acetic anhydride is added in four portions over a 15-minute period. The mixture is stirred well and allowed to stand for 6 hours and then poured onto 250 g. of ice. Water is added (400 ml.), and the mixture is extracted with five 100-ml. portions of petroleum ether (b.p. 60-68°). The organic extracts are combined and washed in succession with two 50-mi. portions each of water, 5% aqueous sulfuric acid, and saturated aqueous sodium bicarbonate. Anhydrous magnesium sulfate (ca. 50 g.) is used to dry the petroleum ether solution, which is then concentrated on a rotary evaporator to provide 28-29 g. (94-98%) of famesyl acetate as a colorless oil (Note 3). 

A 100-mL volume of 5% NaCl aqueous solution and 100 mL of n-hexane are added to the concentrated extracts prepared in Section 2.2.1, and the mixture is shaken vigorously for 5 min. The organic layer is collected, 50 mL of n-hexane are added to... 

The crude organic solvent preparations were produced by sequential extractions of the plant material with petroleum ether (PE), followed by dichloromethane (DCM), and finally methanol (MeOH). 

Lussier [71] has given an overview of Uniroyal Chemical s approach to the analysis of compounded elastomers (Scheme 2.2). Uncured compounds are first extracted with ethanol to remove oils for subsequent analysis, whereas cured compounds are best extracted with ETA (ethanol/toluene azeotrope). Uncured compounds are then dissolved in a low-boiling solvent (chloroform, toluene), and filler and CB are removed by filtration. When the compound is cured, extended treatment in o-dichlorobenzene (ODCB) (b.p. 180 °C) will usually suffice to dissolve enough polymer to allow its separation from filler and CB via hot filtration. Polymer identification was based on IR spectroscopy (key role), CB analysis followed ASTM D 297, filler analysis (after direct ashing at 550-600 °C in air) by means of IR, AAS and XRD. Antioxidant analysis proceeded by IR examination of the nonpolymer ethanol or ETA organic extracts. For unknown AO systems (preparative) TLC was used with IR, NMR or MS identification. Alternatively GC-MS was applied directly to the preparative TLC eluent. 

The most active extracts were obtained8 from L. mesenteroides cultures containing sucrose extracts prepared from L. mesenteroides organisms repeatedly transferred through D-glucose broth were of low potency.48 Active extracts in dilutions of 1 2 or 1 4 produced dextran in 5% sucrose solutions after one to two hours at 23°, and at pH 5.6 with acetate buffer demonstrable amounts of dextran were produced after twenty days with 1/10,000 dilution of the extract. Optimal yields of dextran were less than 5% based on sucrose. Small concentrations of dextran were detected by means of precipitin titrations with pneumococcus antisera Types II or XX (see page 215). 

Nowicki et al. [51] point out that in the development of a Soxhlet sample preparation technique for sediment samples, the empty paper Soxhlet thimbles contained organic contaminants which adversely affected results. Glass thimbles were tried and found to be satisfactory. The authors detail the identification of organics solvent-extracted from paper and glass Soxhlet thimbles, and discuss the stability for multiple use of the two materials for trace organic sample preparation. 

Organic extraction and sample preparation Separatory funnel liquid-liquid extraction Continuous liquid-liquid extraction Solid-phase extraction (SPE) (3535A in update IVB)... 

Preparation of vinyl tellurides. To a mixture of NaH (1 mmol) (80% suspension in oil) and (phenyltelluromethyl)-phosphonate (1 mmol) in THF (5 mL) at reflux under Nj, aldehydes (1 mmol) were added dropwise. Following 3 h at reflux, the solution was cooled to room temperature. Then, saturated aqueous NH4CI was added and the mixture was extracted with diethyl ether. The organic extract was dried (MgS04) and evaporated to give vinyl tellurides, which were purified by column chromatography on silica gel with ethyl acetate/hexane (1 20) or by preparative TLC,... 

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