#METABOLOMICS WORKBENCH mlhomme_20221213_043543 DATATRACK_ID:3642 STUDY_ID:ST002400 ANALYSIS_ID:AN003909 VERSION 1 CREATED_ON 12-16-2022 #PROJECT PR:PROJECT_TITLE Alcohol dehydrogenase 1B is crucial for adipocyte homeostasis. PR:PROJECT_SUMMARY Background. Alcohol dehydrogenase (ADH1B), encoded by the ADH1B gene, is a PR:PROJECT_SUMMARY cytosolic enzyme mainly known for its role in ethanol catabolism in the liver. A PR:PROJECT_SUMMARY few studies have paved the way to show an equally important role of ADH1B in PR:PROJECT_SUMMARY adipocytes. This study aimed to better identify the cellular mechanisms and PR:PROJECT_SUMMARY signaling pathways involving ADH1B in adipose tissue and to determine if ADH1B PR:PROJECT_SUMMARY variants might contribute to adipose tissue dysfunction. Results. We showed that PR:PROJECT_SUMMARY CRISPR-Cas9-mediated ADH1B knockout (KO) in human adipose stem cells (ASC) PR:PROJECT_SUMMARY abolished adipocyte differentiation and decreased insulin response. This was PR:PROJECT_SUMMARY accompanied by oxidative stress, altered mitochondrial functions, and cellular PR:PROJECT_SUMMARY senescence. Lipidomic analysis revealed that ADH1B deficiency results in a major PR:PROJECT_SUMMARY remodeling of lipid composition in ASC. An ADH1B homozygous loss-of-function PR:PROJECT_SUMMARY variant was also identified in a patient presenting with a lipodystrophic and PR:PROJECT_SUMMARY insulin resistant syndrome associated with major liver dysfunction, leading to PR:PROJECT_SUMMARY early death. Discussion. This translational study underlines the crucial role of PR:PROJECT_SUMMARY ADH1B in adipose tissue. It unveils cellular mechanisms accounting for its key PR:PROJECT_SUMMARY role in adipogenesis, and adipocyte homeostasis. This study also identifies PR:PROJECT_SUMMARY ADH1B as a candidate gene in monogenic forms of lipodystrophic and insulin PR:PROJECT_SUMMARY resistant syndromes. PR:INSTITUTE INSERM PR:LAST_NAME Gautheron PR:FIRST_NAME Jérémie PR:ADDRESS 27 rue Chaligny, 75012 Paris France PR:EMAIL jeremie.gautheron@gmail.com PR:PHONE +33623398373 PR:DOI http://dx.doi.org/10.21228/M8VM64 #STUDY ST:STUDY_TITLE Alcohol dehydrogenase 1B is crucial for adipocyte homeostasis ST:STUDY_SUMMARY Background. Alcohol dehydrogenase (ADH1B), encoded by the ADH1B gene, is a ST:STUDY_SUMMARY cytosolic enzyme mainly known for its role in ethanol catabolism in the liver. A ST:STUDY_SUMMARY few studies have paved the way to show an equally important role of ADH1B in ST:STUDY_SUMMARY adipocytes. This study aimed to better identify the cellular mechanisms and ST:STUDY_SUMMARY signaling pathways involving ADH1B in adipose tissue and to determine if ADH1B ST:STUDY_SUMMARY variants might contribute to adipose tissue dysfunction. Results. We showed that ST:STUDY_SUMMARY CRISPR-Cas9-mediated ADH1B knockout (KO) in human adipose stem cells (ASC) ST:STUDY_SUMMARY abolished adipocyte differentiation and decreased insulin response. This was ST:STUDY_SUMMARY accompanied by oxidative stress, altered mitochondrial functions, and cellular ST:STUDY_SUMMARY senescence. Lipidomic analysis revealed that ADH1B deficiency results in a major ST:STUDY_SUMMARY remodeling of lipid composition in ASC. An ADH1B homozygous loss-of-function ST:STUDY_SUMMARY variant was also identified in a patient presenting with a lipodystrophic and ST:STUDY_SUMMARY insulin resistant syndrome associated with major liver dysfunction, leading to ST:STUDY_SUMMARY early death. Discussion. This translational study underlines the crucial role of ST:STUDY_SUMMARY ADH1B in adipose tissue. It unveils cellular mechanisms accounting for its key ST:STUDY_SUMMARY role in adipogenesis, and adipocyte homeostasis. This study also identifies ST:STUDY_SUMMARY ADH1B as a candidate gene in monogenic forms of lipodystrophic and insulin ST:STUDY_SUMMARY resistant syndromes. ST:INSTITUTE INSERM ST:LAST_NAME Gautheron ST:FIRST_NAME Jérémie ST:ADDRESS 27 rue Chaligny ST:EMAIL jeremie.gautheron@gmail.com ST:PHONE +33623398373 ST:SUBMIT_DATE 2022-12-13 #SUBJECT SU:SUBJECT_TYPE Cultured cells SU:SUBJECT_SPECIES Homo sapiens #SUBJECT_SAMPLE_FACTORS: SUBJECT(optional)[tab]SAMPLE[tab]FACTORS(NAME:VALUE pairs separated by |)[tab]Additional sample data SUBJECT_SAMPLE_FACTORS ADH1B_KO_01_LIP329 ADH1B_KO_01_LIP329 Genotype:ADH1B_KO Batch=1; RAW_FILE_NAME=LIP329_C18_1x_KO_01; RAW_FILE_NAME=LIP329_C18_10x_KO_01; RAW_FILE_NAME=LIP329_long_1x_KO_01; RAW_FILE_NAME=LIP329_short_1x_KO_01; RAW_FILE_NAME=LIP329_short_20x_KO_01 SUBJECT_SAMPLE_FACTORS ADH1B_KO_02_LIP329 ADH1B_KO_02_LIP329 Genotype:ADH1B_KO Batch=1; RAW_FILE_NAME=LIP329_C18_1x_KO_02; RAW_FILE_NAME=LIP329_C18_10x_KO_02; RAW_FILE_NAME=LIP329_long_1x_KO_02; RAW_FILE_NAME=LIP329_short_1x_KO_02; RAW_FILE_NAME=LIP329_short_20x_KO_02 SUBJECT_SAMPLE_FACTORS ADH1B_KO_03_LIP329 ADH1B_KO_03_LIP329 Genotype:ADH1B_KO Batch=1; RAW_FILE_NAME=LIP329_C18_1x_KO_03; RAW_FILE_NAME=LIP329_C18_10x_KO_03; RAW_FILE_NAME=LIP329_long_1x_KO_03; RAW_FILE_NAME=LIP329_short_1x_KO_03; RAW_FILE_NAME=LIP329_short_20x_KO_03 SUBJECT_SAMPLE_FACTORS ADH1B_KO_04_LIP329 ADH1B_KO_04_LIP329 Genotype:ADH1B_KO Batch=1; RAW_FILE_NAME=LIP329_C18_1x_KO_04; RAW_FILE_NAME=LIP329_C18_10x_KO_04; RAW_FILE_NAME=LIP329_long_1x_KO_04; RAW_FILE_NAME=LIP329_short_1x_KO_04; RAW_FILE_NAME=LIP329_short_20x_KO_04 SUBJECT_SAMPLE_FACTORS ADH1B_KO_05_LIP329 ADH1B_KO_05_LIP329 Genotype:ADH1B_KO Batch=1; RAW_FILE_NAME=LIP329_C18_1x_KO_05; RAW_FILE_NAME=LIP329_C18_10x_KO_05; RAW_FILE_NAME=LIP329_long_1x_KO_05; RAW_FILE_NAME=LIP329_short_1x_KO_05; RAW_FILE_NAME=LIP329_short_20x_KO_05 SUBJECT_SAMPLE_FACTORS CTL_01_LIP329 CTL_01_LIP329 Genotype:CTL Batch=1; RAW_FILE_NAME=LIP329_C18_1x_CTL_01; RAW_FILE_NAME=LIP329_C18_10x_CTL_01; RAW_FILE_NAME=LIP329_long_1x_CTL_01; RAW_FILE_NAME=LIP329_short_1x_CTL_01; RAW_FILE_NAME=LIP329_short_20x_CTL_01 SUBJECT_SAMPLE_FACTORS CTL_02_LIP329 CTL_02_LIP329 Genotype:CTL Batch=1; RAW_FILE_NAME=LIP329_C18_1x_CTL_02; RAW_FILE_NAME=LIP329_C18_10x_CTL_02; RAW_FILE_NAME=LIP329_long_1x_CTL_02; RAW_FILE_NAME=LIP329_short_1x_CTL_02; RAW_FILE_NAME=LIP329_short_20x_CTL_02 SUBJECT_SAMPLE_FACTORS CTL_03_LIP329 CTL_03_LIP329 Genotype:CTL Batch=1; RAW_FILE_NAME=LIP329_C18_1x_CTL_03; RAW_FILE_NAME=LIP329_C18_10x_CTL_03; RAW_FILE_NAME=LIP329_long_1x_CTL_03; RAW_FILE_NAME=LIP329_short_1x_CTL_03; RAW_FILE_NAME=LIP329_short_20x_CTL_03 SUBJECT_SAMPLE_FACTORS CTL_04_LIP329 CTL_04_LIP329 Genotype:CTL Batch=1; RAW_FILE_NAME=LIP329_C18_1x_CTL_04; RAW_FILE_NAME=LIP329_C18_10x_CTL_04; RAW_FILE_NAME=LIP329_long_1x_CTL_04; RAW_FILE_NAME=LIP329_short_1x_CTL_04; RAW_FILE_NAME=LIP329_short_20x_CTL_04 SUBJECT_SAMPLE_FACTORS CTL_05_LIP329 CTL_05_LIP329 Genotype:CTL Batch=1; RAW_FILE_NAME=LIP329_C18_1x_CTL_05; RAW_FILE_NAME=LIP329_C18_10x_CTL_05; RAW_FILE_NAME=LIP329_long_1x_CTL_05; RAW_FILE_NAME=LIP329_short_1x_CTL_05; RAW_FILE_NAME=LIP329_short_20x_CTL_05 #COLLECTION CO:COLLECTION_SUMMARY ASC were isolated from surgical samples of subcutaneous abdominal adipose tissue CO:COLLECTION_SUMMARY from a 25-year-old healthy woman with a normal body mass index (BMI). Adipose CO:COLLECTION_SUMMARY tissue was enzymatically digested with collagenase B (0.2%). CO:SAMPLE_TYPE Adipose tissue #TREATMENT TR:TREATMENT_SUMMARY After centrifugation, stromal vascular fraction was filtered, rinsed, plated and TR:TREATMENT_SUMMARY cultured in α-MEM with 10% Fetal Calf Serum (FCS), 1% GlutaMAX (#35050061, TR:TREATMENT_SUMMARY Thermo Fisher Scientific), 1% Penicillin/streptomycin (PS - 10,000 UI/mL), 1% TR:TREATMENT_SUMMARY HEPES and Fibroblast Growth Factor-2 (FGF-2 -145 nmol/L). After 24 h, only ASC TR:TREATMENT_SUMMARY adhered to plastic surfaces, while other cells were removed after culture medium TR:TREATMENT_SUMMARY replacement. ASC were maintained in an undifferentiated state in α-MEM TR:TREATMENT_SUMMARY supplemented with 10 % newborn calf serum (#CA-1151500; Biosera, MI, USA), 1% TR:TREATMENT_SUMMARY GlutaMAX, HEPES and P/S, and FGF-2 (145 nmol/L). Adipocyte differentiation was TR:TREATMENT_SUMMARY induced by treating 2-day post-confluent cultures with high-glucose (25 mmol/L) TR:TREATMENT_SUMMARY DMEM supplemented with 10 % FCS, 1 % PS, 1 µmol/L dexamethasone (#D4902; TR:TREATMENT_SUMMARY Sigma-Aldrich, MI, USA), 1 µM rosiglitazone (#D4902; Sigma-Aldrich), 250 µM TR:TREATMENT_SUMMARY 3-isobutyl-1-methyl xanthine (IBMX) (#I7018; Sigma-Aldrich) and 0.17 µmol/L TR:TREATMENT_SUMMARY insulin (#I0516; Sigma-Aldrich) for ten days. The medium was then replaced with TR:TREATMENT_SUMMARY high-glucose DMEM supplemented with 10% FCS, 1 % PS, 1 µmol/L rosiglitazone and TR:TREATMENT_SUMMARY 0.17 µM insulin, and changed to fresh medium every 2 days until the 20th day. #SAMPLEPREP SP:SAMPLEPREP_SUMMARY Lipid extraction. Lipids were extracted from ASC cells according to a modified SP:SAMPLEPREP_SUMMARY Folch method. Cell pellets were resuspended in 100µl methanol and supplemented SP:SAMPLEPREP_SUMMARY with deuterated internal standards. Lipids were extracted with 1.5 mL chloroform SP:SAMPLEPREP_SUMMARY and 650 µL methanol, sonicated for 15 min. Phase separation was triggered by SP:SAMPLEPREP_SUMMARY addition of 450 µL of ammonium carbonate (250 mM). Lower organic phase was SP:SAMPLEPREP_SUMMARY dried and resuspended in 200 µL of liquid chromatography – mass spectrometry SP:SAMPLEPREP_SUMMARY (LC-MS) solvent. #CHROMATOGRAPHY CH:INSTRUMENT_NAME Shimadzu 20AD CH:COLUMN_NAME Phenomenex Kinetex HILIC (150 x 3mm,2.6um) CH:COLUMN_TEMPERATURE 45 CH:FLOW_GRADIENT - CH:FLOW_RATE 300ul/min CH:SOLVENT_A 100% water; 0.2% acetic acid; 30mM ammonium acetate CH:SOLVENT_B 100% acetonitrile; 0.2% acetic acid CH:CHROMATOGRAPHY_TYPE HILIC #ANALYSIS AN:ANALYSIS_TYPE MS #MS MS:INSTRUMENT_NAME ABI Sciex 4000 QTrap MS:INSTRUMENT_TYPE QTRAP MS:MS_TYPE ESI MS:MS_COMMENTS MRM acquisition of narrow chromatographic peaks of abundant phospho- and MS:MS_COMMENTS sphingolipid classes: PC and SM following 20-fold dilution This acquisition is MS:MS_COMMENTS referred to as "short_20x" MS:ION_MODE POSITIVE #MS_METABOLITE_DATA MS_METABOLITE_DATA:UNITS mol% of total lipids MS_METABOLITE_DATA_START Samples ADH1B_KO_01_LIP329 ADH1B_KO_02_LIP329 ADH1B_KO_03_LIP329 ADH1B_KO_04_LIP329 ADH1B_KO_05_LIP329 CTL_01_LIP329 CTL_02_LIP329 CTL_03_LIP329 CTL_04_LIP329 CTL_05_LIP329 Factors Genotype:ADH1B_KO Genotype:ADH1B_KO Genotype:ADH1B_KO Genotype:ADH1B_KO Genotype:ADH1B_KO Genotype:CTL Genotype:CTL Genotype:CTL Genotype:CTL Genotype:CTL PC(30:0) 0.9228 0.9095 0.8767 1.0396 0.8798 1.1416 1.1412 1.1482 1.1576 1.1759 PC(30:1) 0.4126 0.3531 0.3726 0.4991 0.3812 0.5572 0.5088 0.5343 0.5722 0.5990 PC(30:2) 0.0319 0.0290 0.0303 0.0360 0.0308 0.0430 0.0414 0.0418 0.0428 0.0437 PC(32:0) 8.2624 6.9040 8.0795 9.6651 8.5243 10.7702 11.6781 11.8228 10.0626 12.2961 PC(32:1) 13.7520 14.1381 14.0546 14.9468 12.6068 13.5749 14.2098 13.7453 12.5730 15.0181 PC(34:0) 1.2892 1.2946 1.1996 1.3344 1.0969 1.7936 1.4197 1.4265 1.5262 1.8152 PC(34:1) 7.1451 7.1913 6.8809 6.5467 6.7652 4.9543 5.4340 5.5805 5.1843 5.5911 PC(34:2) 1.3135 1.2098 1.1563 1.4409 1.1551 1.4020 1.4231 1.5539 1.4257 1.6526 PC(34:3) 0.1404 0.1266 0.1273 0.1439 0.1180 0.1547 0.1657 0.1720 0.1445 0.1858 PC(36:0) 0.1270 0.0075 0.0528 0.1217 0.1270 0.1064 0.0584 0.0792 0.0556 0.0574 PC(36:1) 2.0814 2.2808 2.4651 2.2978 2.0926 1.3146 1.4303 1.3544 1.2599 1.5131 PC(36:2) 1.8107 1.7663 1.8407 1.9376 1.5485 2.2898 2.3086 2.4414 2.2270 2.6051 PC(36:3) 0.5558 0.5497 0.5745 0.6478 0.5046 0.6440 0.6448 0.6324 0.5913 0.6885 PC(36:4) 1.3726 1.2487 1.4160 1.4915 1.2375 0.8299 0.7841 0.7652 0.7520 0.8892 PC(36:5) 0.1823 0.1768 0.1718 0.2339 0.1721 0.1937 0.1812 0.1721 0.1835 0.2161 PC(36:6) 0.0252 0.0273 0.0249 0.0313 0.0269 0.0339 0.0332 0.0300 0.0311 0.0346 PC(38:2) 0.0968 0.0938 0.0926 0.1109 0.0847 0.1394 0.1520 0.1528 0.1391 0.1463 PC(38:3) 0.4154 0.4386 0.4402 0.4789 0.4067 0.3628 0.3265 0.3233 0.3058 0.3885 PC(38:4) 1.5657 1.6945 1.6095 1.8081 1.4816 1.0414 1.0026 0.8601 0.9229 1.0357 PC(38:5) 0.9524 0.9317 0.9471 1.1381 0.8169 1.0682 0.9996 0.8955 0.9923 1.1090 PC(38:6) 0.2109 0.2139 0.1880 0.2585 0.1701 0.2856 0.2493 0.2526 0.2498 0.2886 PC(40:4) 0.1490 0.1378 0.1484 0.1693 0.1483 0.1516 0.1456 0.1386 0.1403 0.1489 PC(40:5) 0.3478 0.3475 0.3573 0.3877 0.3469 0.3674 0.3723 0.3540 0.3592 0.3843 PC(40:6) 0.3730 0.3467 0.3761 0.4432 0.3660 0.4420 0.4366 0.4140 0.4347 0.4462 PC(40:7) 0.1118 0.0965 0.1033 0.1372 0.1026 0.1742 0.1720 0.1643 0.1690 0.1902 PC(40:8) 0.0228 0.0207 0.0199 0.0271 0.0216 0.0250 0.0238 0.0230 0.0242 0.0254 PC O-32:0 1.5079 1.4274 1.4550 1.6660 1.5382 1.9650 1.8302 1.8848 1.8189 1.9023 PC O-32:1/PC P-32:0 0.3138 0.2770 0.3046 0.3357 0.3089 0.3692 0.3452 0.3585 0.3550 0.3676 PC O-34:2/PC P-34:1 0.2129 0.2019 0.2084 0.2208 0.2045 0.2440 0.2561 0.2593 0.2487 0.2644 PC O-34:3/PC P-34:2 0.0168 0.0153 0.0166 0.0187 0.0152 0.0180 0.0185 0.0191 0.0184 0.0183 PC O-36:0 0.2336 0.2526 0.2420 0.2512 0.2463 0.2600 0.2490 0.2461 0.2506 0.2507 PC O-36:2 0.2785 0.2804 0.2740 0.2756 0.2644 0.3777 0.3895 0.4156 0.3971 0.4072 PC O-36:3/PC P-36:2 0.0620 0.0583 0.0594 0.0641 0.0565 0.0777 0.0815 0.0836 0.0812 0.0863 PC O-36:4/PC P-36:3 0.1190 0.1110 0.1090 0.1221 0.1068 0.1192 0.1254 0.1249 0.1231 0.1279 PC O-36:5/PC P-36:4 0.1982 0.1837 0.1942 0.2577 0.1834 0.1126 0.1057 0.0940 0.1007 0.1060 PC O-38:5/PC P-38:4 0.2044 0.1941 0.1964 0.2390 0.1877 0.2554 0.2667 0.2560 0.2478 0.2710 PC O-38:6/PC P-38:5 0.1415 0.1239 0.1383 0.1884 0.1321 0.1614 0.1560 0.1407 0.1510 0.1660 PC O-40:5/PC P-40:4 0.0904 0.0868 0.0924 0.1091 0.0848 0.1262 0.1241 0.1197 0.1212 0.1319 PC O-40:6/PC P-40:5 0.0666 0.0638 0.0643 0.0742 0.0602 0.0973 0.1015 0.1015 0.0982 0.1109 PC P-38:6 0.2915 0.3028 0.2913 0.3005 0.3011 0.2118 0.2122 0.2135 0.2099 0.2162 PC P-40:6 0.0437 0.0404 0.0473 0.0677 0.0440 0.0932 0.0893 0.0847 0.0870 0.1007 SM(31:0) 0.0028 0.0028 0.0026 0.0028 0.0023 0.0028 0.0028 0.0026 0.0025 0.0029 SM(32:0) 0.0139 0.0126 0.0132 0.0136 0.0117 0.0322 0.0323 0.0305 0.0307 0.0350 SM(32:1) 0.1072 0.0926 0.0909 0.1123 0.0920 0.1276 0.1127 0.1078 0.1131 0.1242 SM(32:2) 0.0034 0.0031 0.0030 0.0036 0.0032 0.0032 0.0026 0.0025 0.0028 0.0029 SM(33:0) 0.0196 0.0169 0.0165 0.0203 0.0168 0.0244 0.0226 0.0215 0.0224 0.0241 SM(34:0) 0.3346 0.3284 0.2374 0.2785 0.2334 0.6735 0.7751 0.7127 0.6631 0.7237 SM(34:1) 2.8767 2.4499 2.3535 2.8101 2.6881 2.7062 2.6952 2.6681 2.4523 2.8185 SM(34:2) 0.2143 0.1828 0.1615 0.1923 0.1818 0.1427 0.1402 0.1271 0.1335 0.1335 SM(35:0) 0.0452 0.0423 0.0388 0.0425 0.0413 0.0718 0.0758 0.0687 0.0677 0.0786 SM(35:1) 0.3050 0.2654 0.2800 0.2904 0.2662 0.3029 0.2996 0.2674 0.2770 0.3060 SM(36:0) 0.0328 0.0249 0.0314 0.0329 0.0323 0.0593 0.0693 0.0615 0.0602 0.0691 SM(36:1) 0.5151 0.4686 0.4812 0.4888 0.4747 0.3609 0.3603 0.3507 0.3419 0.3759 SM(36:2) 0.0927 0.0825 0.0818 0.0953 0.0770 0.0523 0.0483 0.0452 0.0480 0.0514 SM(37:1) 0.0188 0.0171 0.0177 0.0204 0.0181 0.0250 0.0242 0.0236 0.0241 0.0254 SM(38:0) 0.0295 0.0176 0.0217 0.0255 0.0295 0.0454 0.0431 0.0377 0.0378 0.0445 SM(38:1) 0.0669 0.0647 0.0645 0.0771 0.0739 0.1250 0.1283 0.1221 0.1242 0.1239 SM(38:2) 0.0172 0.0166 0.0156 0.0190 0.0168 0.0259 0.0238 0.0228 0.0254 0.0246 SM(39:1) 0.0292 0.0262 0.0288 0.0339 0.0329 0.0383 0.0361 0.0320 0.0326 0.0350 SM(40:0) 0.0281 0.0227 0.0226 0.0263 0.0294 0.0623 0.0633 0.0567 0.0557 0.0617 SM(40:1) 0.3206 0.3008 0.3378 0.3527 0.3698 0.5801 0.5604 0.5647 0.5294 0.5711 SM(40:2) 0.1131 0.1044 0.1128 0.1313 0.1169 0.1638 0.1602 0.1505 0.1467 0.1602 SM(41:1) 0.1015 0.0930 0.1085 0.1241 0.1271 0.1781 0.1771 0.1602 0.1524 0.1686 SM(41:2) 0.0921 0.0862 0.0899 0.1073 0.0884 0.1816 0.1838 0.1651 0.1719 0.1755 SM(42:0) 0.0234 0.0268 0.0113 0.0137 0.0102 0.0355 0.0360 0.0148 0.0258 0.0339 SM(42:1) 0.1397 0.1675 0.2047 0.2436 0.3017 0.6471 0.6143 0.6422 0.6026 0.6230 SM(42:2) 0.4921 0.5262 0.4695 0.5575 0.4559 1.3267 1.3026 1.0874 1.3430 1.4070 SM(42:3) 0.0965 0.1003 0.1139 0.1233 0.1191 0.3393 0.2885 0.2708 0.2760 0.2903 SM(42:4) 0.0226 0.0284 0.0236 0.0211 0.0208 0.0487 0.0412 0.0356 0.0501 0.0462 SM(43:1) 0.0265 0.0256 0.0270 0.0302 0.0311 0.0685 0.0703 0.0609 0.0610 0.0666 SM(43:2) 0.0287 0.0292 0.0319 0.0384 0.0319 0.1118 0.1089 0.0970 0.0995 0.1134 SM(44:1) 0.0063 0.0061 0.0072 0.0092 0.0081 0.0261 0.0250 0.0217 0.0243 0.0247 SM(44:2) 0.0123 0.0125 0.0126 0.0155 0.0147 0.0590 0.0636 0.0549 0.0561 0.0638 SM(44:3) 0.0077 0.0073 0.0072 0.0094 0.0081 0.0381 0.0381 0.0322 0.0349 0.0406 MS_METABOLITE_DATA_END #METABOLITES METABOLITES_START metabolite_name pubchem_id inchi_key kegg_id other_id other_id_type ri ri_type moverz_quant PC(30:0) 8.71 PC(30:1) 8.67 PC(30:2) 8.61 PC(32:0) 8.64 PC(32:1) 8.62 PC(34:0) 8.58 PC(34:1) 8.56 PC(34:2) 8.51 PC(34:3) 8.52 PC(36:0) 8.45 PC(36:1) 8.45 PC(36:2) 8.44 PC(36:3) 8.44 PC(36:4) 8.37 PC(36:5) 8.4 PC(36:6) 8.41 PC(38:2) 8.4 PC(38:3) 8.39 PC(38:4) 8.32 PC(38:5) 8.33 PC(38:6) 8.34 PC(40:4) 8.32 PC(40:5) 8.32 PC(40:6) 8.29 PC(40:7) 8.28 PC(40:8) 8.28 PC O-32:0 8.68 PC O-32:1/PC P-32:0 8.62 PC O-34:2/PC P-34:1 8.51 PC O-34:3/PC P-34:2 8.45 PC O-36:0 8.56 PC O-36:2 8.47 PC O-36:3/PC P-36:2 8.48 PC O-36:4/PC P-36:3 8.43 PC O-36:5/PC P-36:4 8.3 PC O-38:5/PC P-38:4 8.36 PC O-38:6/PC P-38:5 8.27 PC O-40:5/PC P-40:4 8.36 PC O-40:6/PC P-40:5 8.33 PC P-38:6 8.46 PC P-40:6 8.26 SM(31:0) 9.34 SM(32:0) 9.28 SM(32:1) 9.31 SM(32:2) 9.34 SM(33:0) 9.26 SM(34:0) 9.22 SM(34:1) 9.23 SM(34:2) 9.27 SM(35:0) 9.18 SM(35:1) 9.2 SM(36:0) 9.16 SM(36:1) 9.18 SM(36:2) 9.18 SM(37:1) 9.16 SM(38:0) 9.09 SM(38:1) 9.12 SM(38:2) 9.13 SM(39:1) 9.14 SM(40:0) 9.04 SM(40:1) 9.13 SM(40:2) 9.09 SM(41:1) 9.04 SM(41:2) 9.06 SM(42:0) 9.01 SM(42:1) 9.04 SM(42:2) 9.04 SM(42:3) 9.04 SM(42:4) 9.05 SM(43:1) 9.02 SM(43:2) 9 SM(44:1) 8.99 SM(44:2) 8.98 SM(44:3) 8.97 METABOLITES_END #END