#METABOLOMICS WORKBENCH cwalker_bcm_20200124_113143 DATATRACK_ID:1905 STUDY_ID:ST001311 ANALYSIS_ID:AN002182 PROJECT_ID:PR000892 VERSION 1 CREATED_ON February 2, 2020, 6:51 pm #PROJECT PR:PROJECT_TITLE Lipidomic profiling after early-life exposure to an endocrine disrupting PR:PROJECT_TITLE chemical in the liver. PR:PROJECT_TYPE Untargeted MS analysis PR:PROJECT_SUMMARY Lipidomic profiling in the liver after early-life exposure to an endocrine PR:PROJECT_SUMMARY disrupting chemical. PR:INSTITUTE Baylor College of Medicine PR:LAST_NAME Walker PR:FIRST_NAME Cheryl PR:ADDRESS 1 Baylor Plaza, Houston, TX, 77030, USA PR:EMAIL Cheryl.walker@bcm.edu PR:PHONE 713-798-8219 #STUDY ST:STUDY_TITLE Lipid expression in liver after early lifer exposure to an endocrine disruptor ST:STUDY_TITLE at 70 days postnatal in the liver (part-II) ST:STUDY_TYPE Lipid expression after chemical exposure versus control ST:STUDY_SUMMARY Our early-life environment has a profound influence on developing organs that ST:STUDY_SUMMARY impact metabolic function and determines disease susceptibility across the ST:STUDY_SUMMARY life-course. Using a rat model for exposure to an endocrine disrupting chemical ST:STUDY_SUMMARY (EDC), we show that early-life exposure causes metabolic dysfunction in ST:STUDY_SUMMARY adulthood and reprograms histone marks in the developing liver to accelerate ST:STUDY_SUMMARY acquisition of an adult epigenomic signature. This epigenomic reprogramming ST:STUDY_SUMMARY persists long after the initial exposure, but many reprogrammed genes remain ST:STUDY_SUMMARY transcriptionally silent with their impact on metabolism not revealed until a ST:STUDY_SUMMARY later life exposure to a Western-style diet. Diet-dependent metabolic disruption ST:STUDY_SUMMARY was largely driven by reprogramming of the Early Growth Response 1 (EGR1) ST:STUDY_SUMMARY transcriptome and production of metabolites in pathways linked to cholesterol, ST:STUDY_SUMMARY lipid and one-carbon metabolism. These findings demonstrate the importance of ST:STUDY_SUMMARY epigenome:environment interactions, which early in life accelerate epigenomic ST:STUDY_SUMMARY aging, and later in adulthood unlock metabolically restricted epigenetic ST:STUDY_SUMMARY reprogramming to drive metabolic dysfunction. ST:INSTITUTE Baylor College of Medicine ST:LAST_NAME Walker ST:FIRST_NAME Cheryl ST:ADDRESS 1 Baylor Plaza, Houston, TX, 77030, USA ST:EMAIL Cheryl.walker@bcm.edu ST:PHONE 713-798-8219 ST:NUM_GROUPS 2 ST:TOTAL_SUBJECTS 10 ST:NUM_MALES 10 #SUBJECT SU:SUBJECT_TYPE Mammal SU:SUBJECT_SPECIES Rattus norvegicus SU:TAXONOMY_ID 10116 SU:GENOTYPE_STRAIN Sprague Dawley SU:AGE_OR_AGE_RANGE 70 days old SU:GENDER Male SU:ANIMAL_ANIMAL_SUPPLIER Harlan SU:ANIMAL_HOUSING polycarbonate-free caging SU:ANIMAL_LIGHT_CYCLE 14-hr light and 10-hr dark SU:ANIMAL_FEED Phytoestrogen Reduced II 18-5, Ziegler Bros, Inc #SUBJECT_SAMPLE_FACTORS: SUBJECT(optional)[tab]SAMPLE[tab]FACTORS(NAME:VALUE pairs separated by |)[tab]Raw file names and additional sample data SUBJECT_SAMPLE_FACTORS - ncV1 Treatment:vehicle Day of Liver Harvest Post-Birth=70; BPA_exposure=0 ug/kg post natal days 1, 3, and 5; Diet=phytoestrogen-reduced a diet SUBJECT_SAMPLE_FACTORS - ncV2 Treatment:vehicle Day of Liver Harvest Post-Birth=70; BPA_exposure=0 ug/kg post natal days 1, 3, and 5; Diet=phytoestrogen-reduced a diet SUBJECT_SAMPLE_FACTORS - ncV3 Treatment:vehicle Day of Liver Harvest Post-Birth=70; BPA_exposure=0 ug/kg post natal days 1, 3, and 5; Diet=phytoestrogen-reduced a diet SUBJECT_SAMPLE_FACTORS - ncV4 Treatment:vehicle Day of Liver Harvest Post-Birth=70; BPA_exposure=0 ug/kg post natal days 1, 3, and 5; Diet=phytoestrogen-reduced a diet SUBJECT_SAMPLE_FACTORS - ncV5 Treatment:vehicle Day of Liver Harvest Post-Birth=70; BPA_exposure=0 ug/kg post natal days 1, 3, and 5; Diet=phytoestrogen-reduced a diet SUBJECT_SAMPLE_FACTORS - ncB1 Treatment:BPA Day of Liver Harvest Post-Birth=70; BPA_exposure=50 ug/kg post natal days 1, 3, and 5; Diet=phytoestrogen-reduced a diet SUBJECT_SAMPLE_FACTORS - ncB2 Treatment:BPA Day of Liver Harvest Post-Birth=70; BPA_exposure=50 ug/kg post natal days 1, 3, and 5; Diet=phytoestrogen-reduced a diet SUBJECT_SAMPLE_FACTORS - ncB3 Treatment:BPA Day of Liver Harvest Post-Birth=70; BPA_exposure=50 ug/kg post natal days 1, 3, and 5; Diet=phytoestrogen-reduced a diet SUBJECT_SAMPLE_FACTORS - ncB4 Treatment:BPA Day of Liver Harvest Post-Birth=70; BPA_exposure=50 ug/kg post natal days 1, 3, and 5; Diet=phytoestrogen-reduced a diet SUBJECT_SAMPLE_FACTORS - ncB5 Treatment:BPA Day of Liver Harvest Post-Birth=70; BPA_exposure=50 ug/kg post natal days 1, 3, and 5; Diet=phytoestrogen-reduced a diet #COLLECTION CO:COLLECTION_SUMMARY Liver tissue was harvested on post-natal day 70 . Tissue was snap-frozen in CO:COLLECTION_SUMMARY liquid nitrogen. CO:SAMPLE_TYPE Liver #TREATMENT TR:TREATMENT_SUMMARY Neonatal rats were treated with vehicle (sesame oil) or bisphenol A (BPA; 50 TR:TREATMENT_SUMMARY µg/kg dissolved in sesame oil) orally via pipette tip on post-natal days 1, 3, TR:TREATMENT_SUMMARY and 5. Littermates were randomly assigned to the treatment groups. BPA was TR:TREATMENT_SUMMARY obtained from the National Institute of Environmental Health Sciences (NIEHS). TR:TREATMENT_SUMMARY The dose and route of administration recapitulates human exposure to BPA. Tissue TR:TREATMENT_SUMMARY was harvested on postnatal day 70. #SAMPLEPREP SP:SAMPLEPREP_SUMMARY Lipids were extracted using a modified Bligh-Dyer method. Fifty µL of serum and SP:SAMPLEPREP_SUMMARY 25 mg of crushed liver was used for the extraction. The extraction was carried SP:SAMPLEPREP_SUMMARY out using 2:2:2 volume ratio of water/methanol/dichloromethane at room SP:SAMPLEPREP_SUMMARY temperature after spiking internal standards 17:0 LPC, 17:0 PC, 17:0 PE, 17:0 SP:SAMPLEPREP_SUMMARY PG, 17:0 ceramide, 17:0 SM, 17:0PS, 17:0PA, 17:0 TAG, 17:0 MAG, 16:0/18:1 DAG, SP:SAMPLEPREP_SUMMARY 17:0 CE. The organic layer was collected and completely dried under nitrogen. SP:SAMPLEPREP_SUMMARY Before MS analysis, the dried extract was resuspended in 100 μL of Buffer B SP:SAMPLEPREP_SUMMARY (10:5:85 Acetonitrile/water/Isopropyl alcohol) containing 10 mM NH4OAc and SP:SAMPLEPREP_SUMMARY subjected to LC/MS. The lipidome was separated using reverse-phase SP:SAMPLEPREP_SUMMARY chromatography. SP:SAMPLEPREP_PROTOCOL_FILENAME unbiased.liver.MS.method.pdf #CHROMATOGRAPHY CH:CHROMATOGRAPHY_TYPE Reversed phase CH:INSTRUMENT_NAME Shimadzu Nexera-x2 CH:COLUMN_NAME 1.8 µm particle 50 × 2.1 mm #ANALYSIS AN:ANALYSIS_TYPE MS #MS MS:INSTRUMENT_NAME ABI Sciex 5600 TripleTOF MS:INSTRUMENT_TYPE QTOF MS:MS_TYPE ESI MS:ION_MODE POSITIVE MS:MS_COMMENTS For data acquisition through LC/MS analysis, we used a Shimadzu CTO-20A Nexera MS:MS_COMMENTS X2 UHPLC system equipped with a degasser, binary pump, thermostatted auto MS:MS_COMMENTS sampler, and a column oven for chromatographic separation. The column heater MS:MS_COMMENTS temperature was set at 55°C. For lipid separation, the 5 uL of the lipid MS:MS_COMMENTS extract was injected into a 1.8 μm particle 50 × 2.1 mm Acquity HSS UPLC T3 MS:MS_COMMENTS column (Waters, Milford, MA) which heats to 55°C. Acetonitrile/water (40:60, MS:MS_COMMENTS v/v) with 10 mM ammonium acetate was solvent A and MS:MS_COMMENTS acetonitrile/water/isopropanol (10:5:85 v/v) with 10 mM ammonium acetate was MS:MS_COMMENTS solvent B. For chromatographic elution we used a linear gradient over a 20 min MS:MS_COMMENTS total run time, with 60% solvent A and 40% solvent B gradient in the first 10 MS:MS_COMMENTS minutes, then the gradient was ramped in a linear fashion to 100% solvent B MS:MS_COMMENTS which was maintained for 7 minutes. After that the system was switched back to MS:MS_COMMENTS 60% solvent B and 40% solvent A for 3 minutes. The flow rate used for these MS:MS_COMMENTS experiments was 0.4 mL/min and the injection volume was 5μL. The column was MS:MS_COMMENTS equilibrated for 3 min before the next injection and run at a flow rate of 0.4 MS:MS_COMMENTS mL/min for a total run time of 20 min. The data acquisition of each sample was MS:MS_COMMENTS performed in both positive and negative ionization modes using a TripleTOF 5600 MS:MS_COMMENTS equipped with a Turbo VTM ion source (AB Sciex, Concord, Canada). The column MS:MS_COMMENTS effluent was directed to the electrospray ionization source. The voltage of MS:MS_COMMENTS source was set to 5500 V for positive ionization and 4500 V for negative MS:MS_COMMENTS ionization mode, the declustering potential was set to 60 V, and the source MS:MS_COMMENTS temperature to 450oC for both modes. The curtain gas flow, nebulizer, and heater MS:MS_COMMENTS gas were set to 30, 40, and 45 units, respectively. The instrument performed one MS:MS_COMMENTS TOF MS survey scan (150 ms) and 15 MS/MS scans with a total duty cycle time of MS:MS_COMMENTS 2.4 s. The mass range in both modes was 50-1200 m/z. We controlled the MS:MS_COMMENTS acquisition of MS/MS spectra by data-dependent acquisition (DDA) function of the MS:MS_COMMENTS Analyst TF software (AB Sciex, Concord, Canada) with the following parameters: MS:MS_COMMENTS dynamic background subtraction, charge monitoring to exclude multiply charged MS:MS_COMMENTS ions and isotopes, and dynamic exclusion of former target ions for 9 s. Rolling MS:MS_COMMENTS collision energy spread was set whereby the software calculated the collision MS:MS_COMMENTS energy value to be applied as a function of m/z. Mass accuracy was maintained by MS:MS_COMMENTS the use of an automated calibrant delivery system interfaced to the second inlet MS:MS_COMMENTS of the DuoSpray source. Lipidomics Data Analysis. Raw data was converted to the MS:MS_COMMENTS mgf data format using proteoWizard software (2).The NIST MS PepSearch Program MS:MS_COMMENTS was used to search the converted files against LipidBlast libraries. The m/z MS:MS_COMMENTS width was determined by the mass accuracy of internal standards and were set to MS:MS_COMMENTS 0.001 for positive mode and to 0.005 for negative mode with an overall mass MS:MS_COMMENTS error of less than 2 parts per million. The minimum match factor used was set to MS:MS_COMMENTS 400. All raw data files were searched against the library of identified lipids MS:MS_COMMENTS based on mass and retention time using Multiquant 1.1.0.26 (ABsciex, Concord, MS:MS_COMMENTS Canada). Relative abundance of peak spectra was used for the analyses. Lipids MS:MS_COMMENTS that were identified in both positive and negative ion modes were initially MS:MS_COMMENTS analyzed separately for their relationship with outcome to ensure persistent MS:MS_COMMENTS results. As the relationship with outcome was not different in such lipids by MS:MS_COMMENTS ion modes, the values from positive mode were used in the final analysis. For MS:MS_COMMENTS lipid features with multiple adducts, the sum of spectral peaks from different MS:MS_COMMENTS adducts was used for the corresponding lipid. Identified lipids were quantified MS:MS_COMMENTS by normalizing against their respective internal standard. Quality control MS:MS_COMMENTS samples were used to monitor the overall quality of the lipid extraction and MS:MS_COMMENTS mass spectrometry analyses. The distributions of detected lipid species across MS:MS_COMMENTS the quality control samples indicated high reproducibility. #MS_METABOLITE_DATA MS_METABOLITE_DATA:UNITS peak intensity MS_METABOLITE_DATA_START Samples ncB1 ncB2 ncB3 ncB4 ncB5 ncV1 ncV2 ncV3 ncV4 ncV5 Factors Treatment:BPA Treatment:BPA Treatment:BPA Treatment:BPA Treatment:BPA Treatment:vehicle Treatment:vehicle Treatment:vehicle Treatment:vehicle Treatment:vehicle lysoPC 17:0; [M+H]+; PC(17:0/0:0) 8953886 10008349 7898395 9387988 8953155 9757985 9431364 2617101 10049054 8678187 PC 40:10; [M+H]+; GPCho(20:5(5Z,8Z,11Z,14Z,17Z)/20:5(5Z,8Z,11Z,14Z,17Z)) 63756 74386 35842 40377 63296 95396 41543 26436 61582 50026 DG 34:3; [M+NH4]+; DG(16:1/18:2/0:0) 128260 131486 200292 271787 114530 166105 190539 168160 104217 139930 PC 38:1; [M+Na]+; GPCho(18:1(11E)/20:0) 136683 191340 220175 166515 67869 197449 213051 252103 233606 138900 DG 35:2; [M+NH4]+; DG(17:1/18:1/0:0) 19464 20444 30498 47546 20232 23998 34877 28445 16510 13932 DG 34:1; [M+NH4]+; DG(16:0/18:1/0:0) 287434 391250 628160 813421 1028422 531258 528766 395475 335822 358396 DG 35:1; [M+NH4]+; DG(17:0/18:1/0:0) 4203 5714 9943 11265 10405 6490 9119 6593 5272 3396 DG 36:1; [M+NH4]+; DG(18:0/18:1/0:0) 32583 19504 46748 46558 76081 36475 39874 28487 21618 22618 DG 38:2; [M+NH4]+; DG(18:1/20:1/0:0) 23253 23868 45698 49328 40824 28774 45616 26063 21381 13731 TG 53:5; [M+NH4]+; TG(17:0/18:2/18:3) 2996 3485 2891 3503 3160 1749 2510 1168 1192 2873 TG 51:3; [M+NH4]+; TG(16:1/17:0/18:2) 4225 4149 3792 3270 4952 2356 2351 1664 2457 1350 TG 60:13; [M+Na]+; TG(18:2/20:5/22:6) 12678 15173 17041 17032 6703 63240 38676 55579 56561 35293 TG 55:2; [M+NH4]+; TG(18:1/18:1/19:0) 491 199 755 3 1001 9933 6025 9369 6132 7790 TG 58:11; [M+Na]+; TG(18:2/18:3/22:6) 1488 1335 767 784 1068 1661 1676 1253 3752 2241 TG 52:6; [M+Na]+; TG(16:1/18:2/18:3) 50336 56587 63500 60635 99607 72240 46856 77720 64271 78246 TG 52:6; [M+NH4]+; TG(16:1/18:2/18:3) 829 1308 671 752 482 909 306 601 248 1847 TG 56:9; [M+Na]+; TG(16:1/18:2/22:6) 101880 103252 125460 112333 36040 242617 156459 238261 223753 190742 TG 46:1; [M+NH4]+; TG(14:0/16:0/16:1) 11828 14224 11398 22194 278594 7560 4780 7460 5268 29629 TG 48:2; [M+NH4]+; TG(14:0/16:1/18:1) 92556 111375 106485 143986 871881 67237 35935 58569 41341 164836 TG 50:3; [M+NH4]+; TG(16:0/16:1/18:2) 368933 409791 476830 500279 816687 423229 255849 331221 267002 591674 TG 50:3; [M+Na]+; TG(16:0/16:1/18:2) 164417 194664 178119 184547 446217 129165 75733 103041 109495 255261 TG 48:1; [M+NH4]+; TG(14:0/16:0/18:1) 58572 62972 76615 89386 919942 57222 28221 33056 41873 140329 TG 50:2; [M+NH4]+; TG(16:0/16:1/18:1) 443799 440677 545968 591231 2151324 493862 265420 297430 356418 761389 TG 52:3; [M+Na]+; TG(16:0/18:1/18:2) 869652 982652 863621 897910 939897 859360 657998 874443 1120033 1079898 TG 56:4; [M+NH4]+; TG(18:1/18:2/20:1) 65753 71284 78608 74038 27685 149182 109565 98915 91864 57863 TG 56:4; [M+Na]+; TG(18:1/18:2/20:1) 160589 191490 155814 162602 63024 271702 229262 241019 211579 161916 TG 51:1; [M+NH4]+; TG(16:0/17:0/18:1) 11454 12605 14763 20379 93843 16236 8818 7823 12768 12511 TG 52:1; [M+Na]+; TG(16:0/18:0/18:1) 136556 126670 121681 133204 443806 131181 92449 114592 141236 165706 TG 52:1; [M+NH4]+; TG(16:0/18:0/18:1) 131263 112800 157157 152383 504211 151548 118547 106921 130817 149771 TG 54:2; [M+NH4]+; TG(16:0/18:1/20:1) 91405 89906 108694 105700 188259 125372 88665 82683 99358 79871 TG 56:3; [M+NH4]+; TG(18:1/18:1/20:1) 1068 412 567 1965 1126 1554 1234 1008 775 1743 TG 58:4; [M+NH4]+; TG(18:1/20:1/20:2) 13264 11387 13564 15438 7298 17756 20360 21716 11530 8069 TG 53:1; [M+NH4]+; TG(17:0/18:0/18:1) 6655 5216 7404 8865 53090 7533 6333 4669 6138 6452 TG 54:1; [M+NH4]+; TG(18:0/18:0/18:1) 15954 15570 16171 14351 31258 22095 15338 14266 19230 17205 TG 56:2; [M+NH4]+; TG(18:0/18:1/20:1) 14906 15497 26128 23761 23128 21335 22495 18126 15504 15983 TG 56:1; [M+NH4]+; TG(18:0/18:1/20:0) 1544 1727 2881 2344 3320 1803 1359 2570 1754 1814 TG 56:1; [M+Na]+; TG(16:0/18:1/22:0) 1064 2465 3780 4436 2410 4324 4124 2729 2478 2298 PC 40:8; [M+H]+; GPCho(20:4(5E,8E,11E,14E)/20:4(5E,8E,11E,14E)) 2787 1357 2772 2538 3402 2150 3000 2021 1235 2104 DG 33:2; [M+NH4]+; DG(15:0/18:2/0:0) 18231 18876 31969 37402 18194 17745 28769 27237 17132 14094 DG 36:3; [M+NH4]+; DG(18:1/18:2/0:0) 4630 4693 9196 5645 2258 5006 6869 7236 2351 1114 PC 38:2; [M+Na]+; GPCho(12:0/26:2(5E,9Z)) 2390 1725 2289 2084 994 1906 1892 2989 1561 2177 PC 37:1; [M+Na]+; GPCho(15:0/22:1(13Z)) 7565 5090 7392 4172 8710 8594 10439 8022 9344 8735 TG 55:3; [M+NH4]+; TG(18:1/18:2/19:0) 3429 2816 3434 3791 2112 4104 4937 3520 2497 3775 TG 54:7; [M+NH4]+; TG(18:2/18:2/18:3) 321702 298199 403044 399883 207520 596840 335417 505230 481779 483379 TG 60:11; [M+Na]+; TG(18:1/20:4/22:6) 4980 4864 2882 4086 1325 10815 6867 9731 12011 4965 TG 53:4; [M+NH4]+; TG(17:1/18:1/18:2) 32692 34543 41509 35905 16780 40327 35472 42838 33248 28094 TG 56:7; [M+Na]+; TG(16:0/18:1/22:6) 383389 303784 322128 372039 327304 517517 411264 480173 598590 488564 TG 53:3; [M+NH4]+; TG(17:0/18:1/18:2) 45752 48245 58242 54086 28916 75687 52583 55273 51057 52898 TG 53:2; [M+NH4]+; TG(17:0/18:1/18:1) 31017 28248 33353 33685 62890 37698 26834 27754 33723 23462 TG 58:4; [M+NH4]+; TG(18:1/18:2/22:1) 15134 9460 13713 15253 6208 14930 12778 15895 12170 7781 DG 35:3; [M+NH4]+; DG(17:1/18:2/0:0) 15394 14936 22373 28673 13092 15936 22811 17013 11317 10967 DG 34:0; [M+NH4]+; DG(16:0/18:0/0:0) 17660 26512 41903 41146 63090 32370 30173 25279 21470 23868 TG 60:12; [M+Na]+; TG(18:2/20:4/22:6) 16593 32078 24806 24761 6172 116892 72059 85701 100198 35890 TG 54:5; [M+Na]+; TG(18:1/18:2/18:2) 364846 467880 341790 403279 254093 482146 436511 491486 361168 421239 TG 56:5; [M+NH4]+; TG(18:1/18:2/20:2) 115291 111496 139366 133811 49955 222569 151769 181550 162248 110431 TG 60:6; [M+NH4]+; TG(18:1/20:1/22:4) 3433 6204 2738 3312 1155 3390 7427 4133 5337 1707 DG 30:0; [M+NH4]+; DG(14:0/16:0/0:0) 2166 2485 6244 6610 33665 4535 3653 4234 1857 4567 PC 38:1; [M+Na]+; GPCho(18:0/20:1(11E)) 148764 184707 230620 192830 63919 202718 198464 270289 250186 131263 TG 51:2; [M+NH4]+; TG(16:0/17:0/18:2) 2966 4285 4481 5868 12162 3937 1446 2013 3294 6678 TG 54:7; [M+Na]+; TG(18:2/18:2/18:3) 242843 231710 289173 248969 197182 401441 279181 291428 421821 385441 TG 48:2; [M+Na]+; TG(14:0/16:1/18:1) 21772 26363 22948 31346 367460 12676 9058 11712 12074 45733 TG 58:9; [M+Na]+; TG(18:1/18:2/22:6) 161040 178413 137075 186072 34529 350116 270365 304510 371087 194506 TG 53:4; [M+Na]+; TG(17:1/18:1/18:2) 22016 28095 20798 23073 10885 23204 18818 30432 20200 23940 PC 40:6; [M+Na]+; GPCho(18:0/22:6(4Z,7Z,10Z,13Z,16Z,19Z)) 27559 25842 21553 25336 22617 27210 26536 25928 27604 31264 TG 56:7; [M+Na]+; TG(18:1/18:2/20:4) 389212 313510 338820 382268 335594 535825 418382 490261 620482 499366 lysoPC 18:0; [M+H]+; PC(18:0/0:0) 4420513 3150078 2770050 3268951 5642935 4008503 5232971 4743420 5510001 4637823 PC 37:1; [M+Na]+; GPCho(15:1(9Z)/22:0) 14808 13053 12737 13110 10698 17107 13909 14910 17264 17732 TG 58:10; [M+Na]+; TG(18:2/18:2/22:6) 88493 101015 112398 114607 29600 285693 237349 272864 232160 163456 TG 52:3; [M+NH4]+; TG(16:0/18:1/18:2) 2435 2172 2745 2069 2159 1133 1418 1603 1497 2370 TG 51:1; [M+Na]+; TG(16:0/17:0/18:1) 16390 16174 12276 19566 104039 16462 15338 11639 17608 20969 TG 49:1; [M+NH4]+; TG(16:0/16:1/17:0) 1186 1281 1100 1073 8007 1052 569 330 535 1759 TG 53:7; [M+NH4]+; TG(17:2/18:2/18:3) 43255 45660 43901 47422 25257 49896 37609 46078 65237 53955 TG 50:2; [M+Na]+; TG(16:0/16:1/18:1) 225964 217875 203937 239016 865965 164041 106026 132971 172137 323236 TG 53:1; [M+NH4]+; TG(16:0/18:1/19:0) 7177 5061 7062 9158 54318 7753 6561 7968 6414 6824 PC 36:6; [M+H]+; GPCho(18:3(6Z,9Z,12Z)/18:3(6Z,9Z,12Z)) 17372 25297 36067 31694 39750 31519 33792 31724 22287 24114 TG 50:1; [M+NH4]+; TG(16:0/16:0/18:1) 199598 177473 240744 268033 1683222 260009 159609 152831 202194 330257 TG 52:2; [M+NH4]+; TG(16:0/18:1/18:1) 596 435 262 130 456 630 462 113 532 277 TG 58:3; [M+NH4]+; TG(18:1/20:1/20:1) 6972 7080 10785 9071 7324 9455 6420 5844 6900 4852 PC 31:1; [M+Na]+; GPCho(15:0/16:1(7Z)) 3416 2194 7015 2022 1556 12362 7971 4481 4388 14809 PC 34:0; [M+Na]+; GPCho(17:0/17:0) 110468 129404 81979 106211 73392 98674 96970 104000 90008 126188 PC 36:0; [M+Na]+; GPCho(17:0/19:0) 11377 15209 11616 10607 8567 16643 12166 10346 11049 11029 lysoPC 16:0; [M+H]+; PC(16:0/0:0) 4934790 3948454 5020760 3761790 4395364 3929518 3553939 4432432 5299061 5560956 DG 32:1; [M+NH4]+; DG(16:0/16:1/0:0) 73668 79830 131099 175931 442532 96490 77770 66862 43737 89403 PC 37:1; [M+Na]+; GPCho(18:1(11E)/19:0) 10960 9238 5338 8860 7455 13707 11983 12936 13623 10872 PC 38:1; [M+Na]+; GPCho(15:1(9Z)/23:0) 14699 12914 5523 11324 10389 11024 7220 16880 17975 11764 DG 40:3; [M+NH4]+; DG(18:2/22:1/0:0) 9337 4398 12296 11455 6005 4732 7993 8036 4368 3458 DG 38:1; [M+NH4]+; DG(18:1/20:0/0:0) 4160 4007 9596 5794 13171 4012 5846 5917 2782 2446 DG 40:2; [M+NH4]+; DG(18:1/22:1/0:0) 5706 3027 6149 6919 3844 1820 2554 3430 1955 898 TG 49:2; [M+NH4]+; TG(16:0/16:1/17:1) 800 577 483 1055 2154 1400 249 356 985 1037 TG 42:0; [M+NH4]+; TG(12:0/14:0/16:0) 403 1586 1795 3152 6989 611 1480 508 627 1423 TG 50:4; [M+Na]+; TG(16:1/16:1/18:2) 77348 93097 111728 94576 110447 61334 51106 80794 64427 107435 TG 51:4; [M+NH4]+; TG(16:1/17:1/18:2) 11603 13290 13658 10779 8357 15612 9639 16571 20207 14207 TG 52:4; [M+Na]+; TG(16:1/18:1/18:2) 612850 728088 685182 608619 455328 555955 523688 620119 635368 669448 TG 51:3; [M+NH4]+; TG(16:0/17:1/18:2) 50728 66191 90225 72670 61491 63766 40664 57886 54224 64977 TG 54:2; [M+Na]+; TG(16:0/18:1/20:1) 116351 149767 122065 124365 215974 169308 135113 146148 169706 126270 TG 58:4; [M+Na]+; TG(18:1/18:2/22:1) 35062 46204 43821 46198 26953 53173 51423 72788 46105 31438 TG 57:3; [M+NH4]+; TG(18:1/18:2/21:0) 7562 9345 16229 16084 23469 22332 16469 9031 9663 12408 TG 54:1; [M+NH4]+; TG(16:0/18:1/20:0) 20427 16259 20604 22620 35734 25739 18089 19573 18254 19618 TG 54:1; [M+Na]+; TG(16:0/18:1/20:0) 37791 25181 35866 25484 61930 31960 17891 28485 34438 29535 TG 56:2; [M+NH4]+; TG(16:0/18:1/22:1) 11030 12477 17526 13216 25366 16167 12936 17283 10192 8163 TG 55:1; [M+NH4]+; TG(16:0/18:1/21:0) 787 3189 4244 3879 40553 2095 2551 1325 1489 1476 TG 54:6; [M+NH4]+; TG(18:1/18:2/18:3) 10019 10264 11439 19081 10078 16151 10662 15217 16264 12429 TG 51:2; [M+NH4]+; TG(16:0/17:1/18:1) 64029 64696 90004 89508 159232 59613 46750 56641 57553 74814 TG 56:2; [M+Na]+; TG(16:0/18:1/22:1) 28927 34540 33513 34554 49623 34421 26939 32008 27443 27973 lysoPC 17:1; [M+H]+; PC(17:1(9Z)/0:0) 12256 12262 13061 7488 10714 20419 13419 22462 38454 8469 lysoPC 23:0; [M+H]+; PC(23:0/0:0) 1793 3474 2076 1926 2263 3147 2176 2044 4264 1598 TG 56:8; [M+Na]+; TG(16:0/18:2/22:6) 588056 546495 609231 590718 200376 923257 650953 779128 901444 771646 TG 52:0; [M+NH4]+; TG(16:0/18:0/18:0) 8043 11004 12846 13405 90646 12497 10235 7444 10466 8760 TG 56:6; [M+Na]+; TG(18:1/18:2/20:3) 333498 326576 327714 356231 194733 451124 350646 449701 501049 369039 PC 37:1; [M+Na]+; GPCho(26:1(5Z)/11:0) 10960 9238 5338 8860 7455 13707 11983 12936 13623 10872 PC 42:2; [M+Na]+; GPCho(18:2(2E,4E)/24:0) 14874 25857 25293 15009 12618 16732 20122 22913 27099 16461 TG 54:8; [M+Na]+; TG(16:1/18:2/20:5) 80291 69491 91387 80458 32905 130706 96505 154055 124295 139711 TG 62:13; [M+Na]+; TG(18:2/22:5/22:6) 15858 13583 17657 20231 2506 49344 44669 42298 53698 29971 TG 50:4; [M+NH4]+; TG(16:1/16:1/18:2) 7203 7201 8496 12446 5110 7754 6032 5379 4506 11288 TG 52:5; [M+NH4]+; TG(16:1/18:2/18:2) 315393 399002 480991 418677 253018 456891 339002 468201 310049 401220 TG 54:7; [M+Na]+; TG(16:0/18:2/20:5) 255607 239300 289120 262246 205094 411119 282189 324627 427910 385087 TG 48:2; [M+NH4]+; TG(16:0/16:1/16:1) 91122 110032 97785 136781 850966 67126 35749 53464 40686 157083 TG 54:6; [M+Na]+; TG(16:0/18:2/20:4) 182454 195490 203195 219608 239241 233900 156948 197996 276583 246739 TG 56:7; [M+Na]+; TG(16:0/18:2/22:5) 398237 322527 351058 387347 343593 557476 422889 501187 647920 506032 TG 54:3; [M+NH4]+; TG(16:0/18:2/20:1) 283567 349784 362190 355927 312133 523497 377094 384158 346254 333452 TG 56:1; [M+NH4]+; TG(16:0/18:0/22:1) 1993 1623 2469 2805 3816 1747 1424 2319 2111 1842 PC 44:12; [M+H]+; GPCho(22:6(4Z,7Z,10Z,13Z,16Z,19Z)/22:6(4Z,7Z,10Z,13Z,16Z,19Z)) 5405 12431 3457 1950 775 3390 1745 1281 8075 4143 PC 32:0; [M+Na]+; GPCho(16:0/16:0) 29236 30688 37695 26427 24942 27410 30274 31901 27650 29873 TG 54:7; [M+Na]+; TG(16:1/18:2/20:4) 254115 236224 291156 257931 203671 406919 281935 313580 431875 387253 TG 52:4; [M+NH4]+; TG(16:1/18:1/18:2) 1062387 1164108 1466204 1261999 692067 1606099 1182256 1583423 1288769 1278587 TG 56:6; [M+Na]+; TG(16:0/18:1/22:5) 350283 331687 319145 353811 168465 513480 382588 472001 562441 380233 TG 54:1; [M+NH4]+; TG(16:0/18:0/20:1) 22415 16817 20810 22406 37103 27478 18505 18875 19175 18646 TG 58:2; [M+NH4]+; TG(18:0/18:1/22:1) 4300 3412 6839 3983 5550 2362 2996 2374 3157 2073 PC 36:2; [M+Na]+; GPCho(18:0/18:2(2E,4E)) 7251 1343 1283 3011 983 5896 10339 5869 4397 4517 PC 42:3; [M+Na]+; GPCho(18:2(2E,4E)/24:1(15Z)) 6706 5039 8953 5046 2907 7537 7194 8928 5762 4918 TG 56:8; [M+Na]+; TG(16:1/18:2/22:5) 98024 87847 94712 94586 30417 157522 116779 138460 156986 135978 TG 52:4; [M+Na]+; TG(16:0/18:2/18:2) 715314 776704 709550 633039 466399 635309 622055 687142 702702 765869 TG 58:2; [M+NH4]+; TG(16:0/20:1/22:1) 3846 3673 5312 4107 5088 3236 3930 2723 2935 1731 DG 38:1; [M+NH4]+; DG(16:0/22:1/0:0) 3847 3652 6245 5160 8751 2742 5250 4031 4018 2691 TG 52:5; [M+Na]+; TG(16:1/18:2/18:2) 160126 221515 220932 182314 196751 195169 160962 213841 174236 234218 PC 40:2; [M+Na]+; GPCho(18:1(11E)/22:1(13Z)) 57496 61046 78440 70899 53894 67180 71019 72617 78784 46671 PC 37:1; [M+Na]+; GPCho(16:1(7Z)/21:0) 1834 1487 1873 1510 2408 2468 1456 967 2002 864 TG 56:9; [M+Na]+; TG(18:2/18:2/20:5) 95677 81291 118161 105085 34243 233239 149869 220205 210370 185002 TG 60:12; [M+Na]+; TG(18:1/20:5/22:6) 4277 3251 3274 6650 1737 9287 6560 6691 11125 7622 TG 52:5; [M+NH4]+; TG(16:0/18:2/18:3) 307076 391213 455139 414158 252366 453863 336860 472615 315197 399334 TG 52:5; [M+Na]+; TG(16:0/18:2/18:3) 160126 221515 220932 182314 196751 195169 160962 213841 174236 234218 TG 46:1; [M+Na]+; TG(14:0/16:0/16:1) 292 841 235 445 6934 540 300 288 248 376 TG 54:6; [M+Na]+; TG(16:0/18:1/20:5) 188420 198497 211184 226591 245100 239083 175876 198733 282485 255063 TG 51:2; [M+Na]+; TG(16:0/17:1/18:1) 38097 39606 38967 37382 114008 30276 26537 32243 35223 55069 TG 54:3; [M+NH4]+; TG(18:0/18:1/18:2) 283461 358624 374315 355974 318067 527536 381925 382845 356693 330610 TG 50:0; [M+NH4]+; TG(16:0/16:0/18:0) 31181 23569 32622 35118 270778 34580 20084 20857 30756 45126 TG 60:4; [M+NH4]+; TG(18:2/20:1/22:1) 4732 4110 6000 7857 2780 2795 4585 3187 2596 2146 PC 38:1; [M+Na]+; GPCho(16:0/22:1(13Z)) 157082 181197 219969 186968 56637 193701 182321 265994 247546 127892 PC 40:2; [M+Na]+; GPCho(20:1(11E)/20:1(11E)) 54139 62284 78084 67497 49005 68720 75553 74064 77382 52979 TG 56:10; [M+Na]+; TG(18:2/18:3/20:5) 13612 15840 18361 18173 9148 38731 32153 40291 30910 28018 TG 56:8; [M+Na]+; TG(18:1/18:2/20:5) 559004 524086 597485 580778 198832 907667 657738 817187 923558 781532 TG 60:11; [M+Na]+; TG(16:0/22:5/22:6) 39545 40234 19187 42095 9401 106779 69120 92697 99707 63687 TG 58:8; [M+NH4]+; TG(18:1/18:2/22:5) 78460 72275 170035 101980 30689 235005 167928 173481 182440 100366 TG 58:8; [M+Na]+; TG(18:1/18:2/22:5) 134041 206920 102369 137144 50919 254220 197423 202542 235525 146929 PC 44:4; [M+Na]+; GPCho(20:0/24:4(5Z,8Z,11Z,14Z)) 2598 4415 3500 4017 1890 3167 4036 3346 3105 2881 TG 60:7; [M+NH4]+; TG(18:1/20:1/22:5) 3988 3376 5007 5433 1491 12173 10147 10909 7698 3940 PC 35:2; [M+Na]+; GPCho(17:0/18:2(2E,4E)) 44025 47521 28808 17954 4088 21226 9660 14880 27802 14145 PC 44:4; [M+Na]+; GPCho(20:4(7E,10E,13E,16E)/24:0) 2525 4056 4389 4616 2154 3987 3671 2836 2591 2828 lysoPC 19:0; [M+H]+; PC(19:0/0:0) 4239 1909 4505 3697 2318 4216 3227 5569 5904 4415 PC 42:9; [M+Na]+; GPCho(20:5(5Z,8Z,11Z,14Z,17Z)/22:4(7Z,10Z,13Z,16Z)) 6906 7079 4499 1977 641 1615 927 459 2019 1579 PC 40:6; [M+Na]+; GPCho(20:3(5Z,8Z,11Z)/20:3(5Z,8Z,11Z)) 29329 26478 21144 27278 24541 27035 26798 26260 28187 31023 TG 58:11; [M+Na]+; TG(18:2/20:4/20:5) 22301 13512 29746 33060 6195 62368 46983 70700 69292 42649 TG 60:12; [M+Na]+; TG(18:2/20:5/22:5) 30011 30969 32215 41368 12470 125653 79336 92722 104934 69985 TG 57:9; [M+Na]+; TG(17:1/18:2/22:6) 4672 4995 8284 8292 1904 16027 10831 17740 12392 6260 TG 58:5; [M+NH4]+; TG(18:0/18:1/22:4) 22754 17707 21446 19146 6685 20345 20702 22200 17374 14998 CE 17:0; (internal standard) 566569 589504 798655 1013561 855216 749719 831785 557964 537721 576711 d5-DAG (internal standard) 10280 14625 26132 34811 27778 24365 22369 17583 11026 18352 lysoPC 17:0;[M+H]+ (internal standard) 4059943 4234026 5820930 3839147 6420489 6316007 4709913 5949738 6585397 4295474 MG 17:0; [M+NH4]+ (internal standard) 557506 842172 500772 549890 716264 537430 776241 558660 526920 798979 PC 17:0; [M+H]+ (internal standard) 4692230 5347153 4515792 4966984 4741843 4631580 4674858 4583686 4397819 4793468 PE 17:0; [M+H]+ (internal standard) 1109252 1209070 1143538 1420385 1122743 1063663 1093100 1239609 962951 1121758 SM 17:0;[M+H]+ (internal standard) 1376123 1516075 1107957 1409625 1562400 1143064 1143666 1046213 1004851 1209904 MS_METABOLITE_DATA_END #METABOLITES METABOLITES_START metabolite_name lysoPC 17:0; [M+H]+; PC(17:0/0:0) PC 40:10; [M+H]+; GPCho(20:5(5Z,8Z,11Z,14Z,17Z)/20:5(5Z,8Z,11Z,14Z,17Z)) DG 34:3; [M+NH4]+; DG(16:1/18:2/0:0) PC 38:1; [M+Na]+; GPCho(18:1(11E)/20:0) DG 35:2; [M+NH4]+; DG(17:1/18:1/0:0) DG 34:1; [M+NH4]+; DG(16:0/18:1/0:0) DG 35:1; [M+NH4]+; DG(17:0/18:1/0:0) DG 36:1; [M+NH4]+; DG(18:0/18:1/0:0) DG 38:2; [M+NH4]+; DG(18:1/20:1/0:0) TG 53:5; [M+NH4]+; TG(17:0/18:2/18:3) TG 51:3; [M+NH4]+; TG(16:1/17:0/18:2) TG 60:13; [M+Na]+; TG(18:2/20:5/22:6) TG 55:2; [M+NH4]+; TG(18:1/18:1/19:0) TG 58:11; [M+Na]+; TG(18:2/18:3/22:6) TG 52:6; [M+Na]+; TG(16:1/18:2/18:3) TG 52:6; [M+NH4]+; TG(16:1/18:2/18:3) TG 56:9; [M+Na]+; TG(16:1/18:2/22:6) TG 46:1; [M+NH4]+; TG(14:0/16:0/16:1) TG 48:2; [M+NH4]+; TG(14:0/16:1/18:1) TG 50:3; [M+NH4]+; TG(16:0/16:1/18:2) TG 50:3; [M+Na]+; TG(16:0/16:1/18:2) TG 48:1; [M+NH4]+; TG(14:0/16:0/18:1) TG 50:2; [M+NH4]+; TG(16:0/16:1/18:1) TG 52:3; [M+Na]+; TG(16:0/18:1/18:2) TG 56:4; [M+NH4]+; TG(18:1/18:2/20:1) TG 56:4; [M+Na]+; TG(18:1/18:2/20:1) TG 51:1; [M+NH4]+; TG(16:0/17:0/18:1) TG 52:1; [M+Na]+; TG(16:0/18:0/18:1) TG 52:1; [M+NH4]+; TG(16:0/18:0/18:1) TG 54:2; [M+NH4]+; TG(16:0/18:1/20:1) TG 56:3; [M+NH4]+; TG(18:1/18:1/20:1) TG 58:4; [M+NH4]+; TG(18:1/20:1/20:2) TG 53:1; [M+NH4]+; TG(17:0/18:0/18:1) TG 54:1; [M+NH4]+; TG(18:0/18:0/18:1) TG 56:2; [M+NH4]+; TG(18:0/18:1/20:1) TG 56:1; [M+NH4]+; TG(18:0/18:1/20:0) TG 56:1; [M+Na]+; TG(16:0/18:1/22:0) PC 40:8; [M+H]+; GPCho(20:4(5E,8E,11E,14E)/20:4(5E,8E,11E,14E)) DG 33:2; [M+NH4]+; DG(15:0/18:2/0:0) DG 36:3; [M+NH4]+; DG(18:1/18:2/0:0) PC 38:2; [M+Na]+; GPCho(12:0/26:2(5E,9Z)) PC 37:1; [M+Na]+; GPCho(15:0/22:1(13Z)) TG 55:3; [M+NH4]+; TG(18:1/18:2/19:0) TG 54:7; [M+NH4]+; TG(18:2/18:2/18:3) TG 60:11; [M+Na]+; TG(18:1/20:4/22:6) TG 53:4; [M+NH4]+; TG(17:1/18:1/18:2) TG 56:7; [M+Na]+; TG(16:0/18:1/22:6) TG 53:3; [M+NH4]+; TG(17:0/18:1/18:2) TG 53:2; [M+NH4]+; TG(17:0/18:1/18:1) TG 58:4; [M+NH4]+; TG(18:1/18:2/22:1) DG 35:3; [M+NH4]+; DG(17:1/18:2/0:0) DG 34:0; [M+NH4]+; DG(16:0/18:0/0:0) TG 60:12; [M+Na]+; TG(18:2/20:4/22:6) TG 54:5; [M+Na]+; TG(18:1/18:2/18:2) TG 56:5; [M+NH4]+; TG(18:1/18:2/20:2) TG 60:6; [M+NH4]+; TG(18:1/20:1/22:4) DG 30:0; [M+NH4]+; DG(14:0/16:0/0:0) PC 38:1; [M+Na]+; GPCho(18:0/20:1(11E)) TG 51:2; [M+NH4]+; TG(16:0/17:0/18:2) TG 54:7; [M+Na]+; TG(18:2/18:2/18:3) TG 48:2; [M+Na]+; TG(14:0/16:1/18:1) TG 58:9; [M+Na]+; TG(18:1/18:2/22:6) TG 53:4; [M+Na]+; TG(17:1/18:1/18:2) PC 40:6; [M+Na]+; GPCho(18:0/22:6(4Z,7Z,10Z,13Z,16Z,19Z)) TG 56:7; [M+Na]+; TG(18:1/18:2/20:4) lysoPC 18:0; [M+H]+; PC(18:0/0:0) PC 37:1; [M+Na]+; GPCho(15:1(9Z)/22:0) TG 58:10; [M+Na]+; TG(18:2/18:2/22:6) TG 52:3; [M+NH4]+; TG(16:0/18:1/18:2) TG 51:1; [M+Na]+; TG(16:0/17:0/18:1) TG 49:1; [M+NH4]+; TG(16:0/16:1/17:0) TG 53:7; [M+NH4]+; TG(17:2/18:2/18:3) TG 50:2; [M+Na]+; TG(16:0/16:1/18:1) TG 53:1; [M+NH4]+; TG(16:0/18:1/19:0) PC 36:6; [M+H]+; GPCho(18:3(6Z,9Z,12Z)/18:3(6Z,9Z,12Z)) TG 50:1; [M+NH4]+; TG(16:0/16:0/18:1) TG 52:2; [M+NH4]+; TG(16:0/18:1/18:1) TG 58:3; [M+NH4]+; TG(18:1/20:1/20:1) PC 31:1; [M+Na]+; GPCho(15:0/16:1(7Z)) PC 34:0; [M+Na]+; GPCho(17:0/17:0) PC 36:0; [M+Na]+; GPCho(17:0/19:0) lysoPC 16:0; [M+H]+; PC(16:0/0:0) DG 32:1; [M+NH4]+; DG(16:0/16:1/0:0) PC 37:1; [M+Na]+; GPCho(18:1(11E)/19:0) PC 38:1; [M+Na]+; GPCho(15:1(9Z)/23:0) DG 40:3; [M+NH4]+; DG(18:2/22:1/0:0) DG 38:1; [M+NH4]+; DG(18:1/20:0/0:0) DG 40:2; [M+NH4]+; DG(18:1/22:1/0:0) TG 49:2; [M+NH4]+; TG(16:0/16:1/17:1) TG 42:0; [M+NH4]+; TG(12:0/14:0/16:0) TG 50:4; [M+Na]+; TG(16:1/16:1/18:2) TG 51:4; [M+NH4]+; TG(16:1/17:1/18:2) TG 52:4; [M+Na]+; TG(16:1/18:1/18:2) TG 51:3; [M+NH4]+; TG(16:0/17:1/18:2) TG 54:2; [M+Na]+; TG(16:0/18:1/20:1) TG 58:4; [M+Na]+; TG(18:1/18:2/22:1) TG 57:3; [M+NH4]+; TG(18:1/18:2/21:0) TG 54:1; [M+NH4]+; TG(16:0/18:1/20:0) TG 54:1; [M+Na]+; TG(16:0/18:1/20:0) TG 56:2; [M+NH4]+; TG(16:0/18:1/22:1) TG 55:1; [M+NH4]+; TG(16:0/18:1/21:0) TG 54:6; [M+NH4]+; TG(18:1/18:2/18:3) TG 51:2; [M+NH4]+; TG(16:0/17:1/18:1) TG 56:2; [M+Na]+; TG(16:0/18:1/22:1) lysoPC 17:1; [M+H]+; PC(17:1(9Z)/0:0) lysoPC 23:0; [M+H]+; PC(23:0/0:0) TG 56:8; [M+Na]+; TG(16:0/18:2/22:6) TG 52:0; [M+NH4]+; TG(16:0/18:0/18:0) TG 56:6; [M+Na]+; TG(18:1/18:2/20:3) PC 37:1; [M+Na]+; GPCho(26:1(5Z)/11:0) PC 42:2; [M+Na]+; GPCho(18:2(2E,4E)/24:0) TG 54:8; [M+Na]+; TG(16:1/18:2/20:5) TG 62:13; [M+Na]+; TG(18:2/22:5/22:6) TG 50:4; [M+NH4]+; TG(16:1/16:1/18:2) TG 52:5; [M+NH4]+; TG(16:1/18:2/18:2) TG 54:7; [M+Na]+; TG(16:0/18:2/20:5) TG 48:2; [M+NH4]+; TG(16:0/16:1/16:1) TG 54:6; [M+Na]+; TG(16:0/18:2/20:4) TG 56:7; [M+Na]+; TG(16:0/18:2/22:5) TG 54:3; [M+NH4]+; TG(16:0/18:2/20:1) TG 56:1; [M+NH4]+; TG(16:0/18:0/22:1) PC 44:12; [M+H]+; GPCho(22:6(4Z,7Z,10Z,13Z,16Z,19Z)/22:6(4Z,7Z,10Z,13Z,16Z,19Z)) PC 32:0; [M+Na]+; GPCho(16:0/16:0) TG 54:7; [M+Na]+; TG(16:1/18:2/20:4) TG 52:4; [M+NH4]+; TG(16:1/18:1/18:2) TG 56:6; [M+Na]+; TG(16:0/18:1/22:5) TG 54:1; [M+NH4]+; TG(16:0/18:0/20:1) TG 58:2; [M+NH4]+; TG(18:0/18:1/22:1) PC 36:2; [M+Na]+; GPCho(18:0/18:2(2E,4E)) PC 42:3; [M+Na]+; GPCho(18:2(2E,4E)/24:1(15Z)) TG 56:8; [M+Na]+; TG(16:1/18:2/22:5) TG 52:4; [M+Na]+; TG(16:0/18:2/18:2) TG 58:2; [M+NH4]+; TG(16:0/20:1/22:1) DG 38:1; [M+NH4]+; DG(16:0/22:1/0:0) TG 52:5; [M+Na]+; TG(16:1/18:2/18:2) PC 40:2; [M+Na]+; GPCho(18:1(11E)/22:1(13Z)) PC 37:1; [M+Na]+; GPCho(16:1(7Z)/21:0) TG 56:9; [M+Na]+; TG(18:2/18:2/20:5) TG 60:12; [M+Na]+; TG(18:1/20:5/22:6) TG 52:5; [M+NH4]+; TG(16:0/18:2/18:3) TG 52:5; [M+Na]+; TG(16:0/18:2/18:3) TG 46:1; [M+Na]+; TG(14:0/16:0/16:1) TG 54:6; [M+Na]+; TG(16:0/18:1/20:5) TG 51:2; [M+Na]+; TG(16:0/17:1/18:1) TG 54:3; [M+NH4]+; TG(18:0/18:1/18:2) TG 50:0; [M+NH4]+; TG(16:0/16:0/18:0) TG 60:4; [M+NH4]+; TG(18:2/20:1/22:1) PC 38:1; [M+Na]+; GPCho(16:0/22:1(13Z)) PC 40:2; [M+Na]+; GPCho(20:1(11E)/20:1(11E)) TG 56:10; [M+Na]+; TG(18:2/18:3/20:5) TG 56:8; [M+Na]+; TG(18:1/18:2/20:5) TG 60:11; [M+Na]+; TG(16:0/22:5/22:6) TG 58:8; [M+NH4]+; TG(18:1/18:2/22:5) TG 58:8; [M+Na]+; TG(18:1/18:2/22:5) PC 44:4; [M+Na]+; GPCho(20:0/24:4(5Z,8Z,11Z,14Z)) TG 60:7; [M+NH4]+; TG(18:1/20:1/22:5) PC 35:2; [M+Na]+; GPCho(17:0/18:2(2E,4E)) PC 44:4; [M+Na]+; GPCho(20:4(7E,10E,13E,16E)/24:0) lysoPC 19:0; [M+H]+; PC(19:0/0:0) PC 42:9; [M+Na]+; GPCho(20:5(5Z,8Z,11Z,14Z,17Z)/22:4(7Z,10Z,13Z,16Z)) PC 40:6; [M+Na]+; GPCho(20:3(5Z,8Z,11Z)/20:3(5Z,8Z,11Z)) TG 58:11; [M+Na]+; TG(18:2/20:4/20:5) TG 60:12; [M+Na]+; TG(18:2/20:5/22:5) TG 57:9; [M+Na]+; TG(17:1/18:2/22:6) TG 58:5; [M+NH4]+; TG(18:0/18:1/22:4) CE 17:0; (internal standard) d5-DAG (internal standard) lysoPC 17:0;[M+H]+ (internal standard) MG 17:0; [M+NH4]+ (internal standard) PC 17:0; [M+H]+ (internal standard) PE 17:0; [M+H]+ (internal standard) SM 17:0;[M+H]+ (internal standard) METABOLITES_END #END