SE155:/S2/M1

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Sample Set Information

ID TSE1311
Title Effects of freeze-drying of samples on metabolite levels in metabolome analyses.
Description Freeze-drying (FD) is a useful technique for removing water from biological tissues, such as food samples. Cellular components freeze at once, and the ice sublimates under conditions of high vacuum and low temperatures. Because biological activity is restricted during FD, the degradation of cellular metabolites is often believed to be limited. However, the cellular structure is damaged by several factors, such as the increase in cell volume during freezing, and this has serious effects on the levels of some cellular metabolites. We studied these effects of FD on metabolite levels when using it as a sample preparation step in metabolome analysis. We observed significant decreases in the levels of some metabolites, such as succinate and choline, in Arabidopsis and pear, respectively. We also found that the effects of FD on certain metabolite levels differed between Arabidopsis plants and pear fruits. These results suggest that it is necessary to confirm the metabolite recovery in each sample species when FD is used for sample preparation.
Authors Oikawa A, Otsuka T, Jikumaru Y, Yamaguchi S, Matsuda F, Nakabayashi R, Takashina T, Isuzugawa K, Saito K, Shiratake K.
Reference J Sep Sci. 2011 Dec;34(24):3561-7. doi: 10.1002/jssc.201100466. Epub 2011 Aug 24.
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Sample Information

ID S2
Title Pear fruits
Organism - Scientific Name
Organism - ID
Compound - ID
Compound - Source
Preparation
Sample Preparation Details ID SS1
Comment Species is not written in the paper.

Sample Preparation Details Information

ID SS1
Title Freeze-drying
Description Arabidopsis and pear were freeze-dried using a freeze-dryer (FDU-2200; EYELA, Tokyo, Japan). During FD, the pressure was reduced to 2.0 Pa. The temperature in the cold trap was -80°C, and the heating plate reached 381C. The yield rate of dryness (YRD) was alculated with the following equation:

YRD(%) = ( FW - DW ) / FW x 100
where FW and DW represent the fresh weight and dry weight, i.e. sample weights before and after FD, respectively.

Comment_of_details

Analytical Method Information

ID M1
Title CE-MS
Method Details ID MS1
Sample Amount
Comment


Analytical Method Details Information

ID MS1
Title Metabolome analysis using CE-MS
Instrument CE:Agilent CE capillary electrophoresis system (Agilent Technologies)
TOF-MS:Agilent G3250AA LC/MSD TOF system (Agilent Technologies)
CE-MS:Agilent G1603A
Instrument Type
Ionization ESI
Ion Mode positive and negative
Description Sample preparation

For frozen (F) samples, Arabidopsis plants and pear fruits were frozen in liquid nitrogen immediately after harvesting. They were homogenized using a mixer mill MM310 (Retsch, Haan, Germany) at a frequency of 27 Hz for 3 min at 4°C. Freeze-dried samples, approx. 50 mg of Arabidopsis plants and approx. 100 mg of pear fruits were homogenized to powder using the mixer mill mentioned above. We used three replicates for each sample. Twenty volumes (Arabidopsis) or five volumes (pear) of methanol were added to both F and FD samples (20 mL/mg or 5 mL/mg fresh weight), as well as 8 mM of internal standards (200 mM methionine sulfone for cation analyses, or 200 mM camphor 10-sulfonic acid for anion analyses). The internal standards were used for calibrating the peak area after CE-MS analyses. The samples were homogenized once more at 27 Hz, for 1 min. The sample solutions were then centrifuged at 20 400 x g for 3 min at 4°C. Subsequently, 500 mL chloroform and 200 mL water were added to a 500 mL sample of the supernatant. This mixture was vortexed for 3 min, and centrifuged at 20 400 x g for 3 min at 4°C. The upper layer was evaporated in a centrifugal concentrator for 30 min at 45°C, and then separated into two layers. The upper layer (100–200 mL) was centrifugally filtered through a Millipore 5-kDa cutoff filter at 9100 x g for 150 min. The filtrate was dried in a centrifugal concentrator for 120 min. The residue was dissolved in 20 mL water and used for CE-MS analyses.

Metabolome analysis using CE-MS
Details of the conditions for CE-MS were as described in a previous report.

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