SE136:/S1/M1

One hundred milligrams of each sample was extracted with extraction buffer [methanol/chloroform/water(3:1:1,v/v/v)] at a concentration of 100 mg/ml containing 10 stable isotope reference compounds as follows:

・[2H4]-succinic acid,
・[13C5,15N]-glutamic acid,
・[2H7]-cholesterol,
・[13C3]-myristic acid,
・[13C5]-proline,
・[13C12]-sucrose,
・[13C4]-hexadecanoic acid,
・[2H4]-1,4-butanediamine,
・[2H6]-2-hydoxybenzoic acid and
・[13C6]-glucose.

Each isotope compound was adjusted to a final concentration of 15ng/μl for each 1-μl injection. After centrifugation, a 200-μl aliquot of the supernatant (ca. 25 mg of each sample) was drawn and transferred into a glass insert vial. The extracts were evaporated to dryness in an SPD2010 Speed-Vac® concentrator from ThermoSavant (Thermo electron corporation, Waltham, MA, USA). For methoximation, 30μl of methoxyamine hydrochloride (20mg/ml in pyridine) was added to the sample. After 24 h of derivatization at room temperature, the sample was trimethylsilylated for 1h using 30μl of MSTFA with 1% TMCS at 37°C with shaking. Thirty μl of n-heptane was added　following silylation. All the derivatization steps were performed in the vacuum glove box VSC-100(Sanplatec, Japan) filled with 99.9995% (G3 grade) of dry nitrogen. For methoximation, 30μl of methoxyamine hydrochloride (20 mg/ml in pyridine) was added to the sample. After 24 h of derivatization at room temperature, the sample was trimethylsilylated for 1 h using 30μl of MSTFA with 1% TMCS at 37°C with shaking. Thirty μl of n-heptane was added following silylation. All the derivatization steps were performed in the vacuum glove box VSC-100 (Sanplatec, Japan) filled with 99.9995% (G3 grade) of dry nitrogen.

GC-TOF-MS conditions
One microliter of extracts (ca. 277.8μg each sample) was injected in the splitless mode by an CTC CombiPAL autosampler (CTC analytics, Zwin-gen, Switzerland) into an Agilent 6890N gas chromatograph (Agilent Technologies, Wilmingston, USA) equipped with a 30 m × 0.25 mm inner diameter fused-silica capillary column with a chemically bound 0.25-μl film Rtx-5 Sil MS stationary phase (RESTEK, Bellefonte, USA) for metabolome analysis.
Helium was used as the carrier gas at a constant flow rate of 1 ml/min. The temperature program for metabolome analysis started with a 2-min isothermal step at 80°C and this was followed by temperature ramping at 30°C to a final temperature of 320°C, which was maintained for 3.5 min. The transfer line and the ion source temperatures were 250 and 200°C, respectively. Ions were generated by a 70-eV electron beam at an ionization current of 2.0 mA. The acceleration voltage was turned on after a solvent delay of 222 and 237 s. Data acquisition was performed on a Pegasus III and Pegasus IV TOF mass spectrometers (LECO, St. Joseph, MI, USA) with an acquisition rate of 30 spectra s−1 in the mass range of a mass-to-charge ratio of m/z = 60–800.
Alkane standard mixtures (C8–C20 and C21–C40) were purchased from Sigma–Aldrich (Tokyo,Japan) and were used for calculating the retention index (RI) [10, 11]. The normalized response for the calculation of the signal intensity of each metabolite from the mass-detector response was obtained by each selected ion current that was unique in each metabolite MS spectrum to normalize the peak response. For quality control, we injected methylstearate in every 6 samples. Data was normalized using the CCMN algorithm.