SE53:/S01/M02/D02

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Sample Set Information

ID SE53
Title Covering chemical diversity of genetically-modified tomatoes using metabolomics for objective substantial equivalence assessment
Description We propose using multiple analytical platforms for the direct acquisition of an interpretable data set of estimable chemical diversity. As an example, we report an application of our multi-platform approach that assesses the substantial equivalence of tomatoes over-expressing the taste-modifying protein miraculin. In combination, the chosen platforms detected compounds that represent 86% of the estimated chemical diversity of the metabolites listed in the LycoCyc database. Following a proof-of-safety approach, we show that w92% had an acceptable range of variation while simultaneously indicating a reproducible transformation-related metabolic signature. We conclude that multi-platform metabolomics is an approach that is both sensitive and robust and that it constitutes a good starting point for characterizing genetically modified organisms.
Authors Miyako Kusano, Henning Redestig, Tadayoshi Hirai, Akira Oikawa, Fumio Matsuda, Atsushi Fukushima, Masanori Arita, Shin Watanabe, Megumu Yano, Kyoko Hiwasa-Tanase, Hiroshi Ezura, Kazuki Saito
Reference Kusano M et al. (2011) PLOS ONE 6: e16989
Comment


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The raw data files are available at DROP Met web site in PRIMe database of RIKEN.

Sample Information

ID S01
Title Tomato
Organism - Scientific Name Solanum lycopersicum
Organism - ID NCBI taxonomy:4081
Compound - ID
Compound - Source
Preparation Solanum lycopersicum, L. cv. Moneymaker, Aichi-first, Ailsa Craig, MicroTom, M82, and Rutgers.


<Biosource species>
The two transgenic lines overexpressing milaculin gene (moneymaker background) were also used.

<Organ>

Fruits


<Organ specification>

Green and red fruits. A three grade color scale (green, orange, and red) was employed to evaluate tomato color.

Sample Preparation Details ID SS01
Comment

Sample Preparation Details Information

ID SS01
Title Growth condition and Sampling
Description <Growth condition>

Seedlings of Solanum lycopersicum were potted in 1/2000 a Wagner pot containing compost soil (Kureha, Tokyo, Japan) for the soil experiment. Seeds were sown in 5 cm × 5 cm × 5 cm (height × length × width) rockwool cubes and grown in a hydroponics system (565 mg l-1 NO- 3 , 15.7 mg l-1 NH+4 , 202.2 mg l-1 PO- 3 , 218.4 mg l-1 K+, 19.9 mg l-1 Mg+2 , 95.0 mg l-1 Ca+2 and micronutrients) in an environmentally controlled growth room at 25 °C/20 °C (light/dark) and 600 ppm CO2 concentration with a light/dark cycle of 16 h/8 h for the hydroponic culture (HC) experiment. Seedlings were placed in a netted-greenhouse located at the Gene Research Center in University of Tsukuba


<Sampling and sampling date>

The fruits were harvested in spring (a pilot and HC experiments) and late summer (the soil experiment) in 2006, 2008, and 2009.


<Metabolism quenching method>

All samples were frozen within 30 s after sampling in liquid nitrogen. The frozen samples were lyophilized

Comment_of_details

Analytical Method Information

ID M02
Title LC-TOF/MS
Method Details ID MS02
Sample Amount 125μl
Comment

Analytical Method Details Information

ID MS02
Title LC-TOF/MS
Instrument Waters Acquity UPLC system and Waters Q-Tof Premier
Instrument Type UPLC-QTOF-MS
Ionization ESI
Ion Mode Positive and negative
Description <Sample processing and extraction>

The lyophilized sample in a 2 ml tube was frozen and then homogenized with a 5 mm of zirconia bead by a Mixer Mill (Retsch, Haan, Germany) at 20 Hz for 1 min. Five mg dry weight (DW) of the lyophilized samples were weighed for GC-MS and LC-MS analyses, while 25 mg DW of the samples for CE-MS analysis.

<Extraction for LC-MS>

Five mg DW per 150 μl of extraction medium (methanol/water [2:5 v/v] with reference compounds [0.5 mg l-1 flavonol-2'-sulfonic acid and 1.0 mg l-1 ampicilin]) each sample was used for the extraction of plant material using a Retsch mixer mill MM310 at a frequency of 20 Hz for 5 min at 4°C. After centrifugation for 10 min at 15,000 × g, the supernatant was transferred into a 2 ml tube. Thirty volumes of methanol were added to the tube and then extracted again using the mixer mill at a frequency of 20 Hz for 5 min at 4°C. After centrifugation for 10 min at 15,000 × g, the resulting supernatant was transferred into the tube. Two hundred-μl aliquot of the extracts was filtered using an Oasis® HLB -μelusion plate (30 μm, Waters Co., Massachusetts, USA). The extracts were evaporated to dryness in an SPD2010 SpeedVac® concentrator from ThermoSavant (Thermo electron corporation, Waltham, MA, USA). The extracts were dissolved by 160 μl of 20% aqueous methanol containing 0.5 mg l-1 lidocaine and d-camphor sulfonic acid.


<LC-TOF/MS conditions>

After filtration of the extracts (Ultrafree-MC, 0.2 μm pore size; Millipore), the sample extracts (5 μl) were analyzed using an LC-MS system equipped with an electrospray ionization (ESI) interface (HPLC, Waters Acquity UPLC system; MS, Waters Q-Tof Premier). The analytical conditions were as follows. HPLC: column, Acquity bridged ethyl hybrid (BEH) C18 (pore size 1.7 μ m, length 2.0 × 100 mm, Waters); solvent system, acetonitrile (0.1% formic acid):water (0.1% formic acid); gradient program, 1 : 99 v/v at 0 min, 1 : 99 v/v at 0.1 min, 99.5 : 0.5 at 15.5 min, 99.5 : 0.5 at 17.0 min, 1 : 99 v/v at 17.1 min and 1 : 99 at 20 min; flow rate, 0.3 ml min=1; temperature, 38°C; MS detection: capillary voltage, +3.0 keV; cone voltage, 23 V for positive mode and 35 V for negative mode; source temperature, 120°C; desolvation temperature, 450°C; cone gas flow, 50 l h=1; desolvation gas fiow, 800 l/ h; collision energy, 2 V for positive mode and 5 V for negative mode ; detection mode, scan (m/z 100-2000; dwell time 0.45 sec; interscan delay 0.05 sec, centroid). The scans were repeated for 19.5 min in a single run. The data were recorded using MassLynx version 4.1 software (Waters).

Comment_of_details

Data Analysis Information

ID D02
Title MassLynx and MetAlign
Data Analysis Details ID DS02
Recommended decimal places of m/z Default
Comment


Data Analysis Details Information

ID DS02
Title MassLynx and MetAlign
Description The profiling data files recorded in the MassLynx format (raw) were converted to the NetCDF format using the DataBridge function of MassLynx 4.1. From the set of NetCDF data files, the data matrix was generated using the MetAlign software (De Vos et al., 2007). By using this procedure, the data matrixes with unit mass data were generated. The data matrices were processed using in-house software written in Perl/Tk. The original peak intensity values were divided with that of the internal standards (lidocaine at m/z 235 [M + H]+ and (-)-camphor-10-sulfonic acid at m/z 231 [M - H]- for the positive and negative ion modes, respectively) determined in the same samples to normalize the peak intensity values among the metabolic profile data.
Comment_of_details
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