#METABOLOMICS WORKBENCH MariaFedorova_20210111_061749 DATATRACK_ID:2390 STUDY_ID:ST001738 ANALYSIS_ID:AN002831 PROJECT_ID:PR001112 VERSION 1 CREATED_ON April 12, 2021, 9:17 am #PROJECT PR:PROJECT_TITLE AdipoAtlas: A reference lipidome for human white adipose tissue PR:PROJECT_SUMMARY Global lipidome profiling of the human white adipose tissue lipidome was PR:PROJECT_SUMMARY performed using an optimized lipid extraction and fractionation protocol. PR:PROJECT_SUMMARY Several chromatographic separation modes (HILIC, C18 RPC, C30 RPC) were used to PR:PROJECT_SUMMARY enable high resolution of polar, amphiphilic and unpolar lipids. Two MS PR:PROJECT_SUMMARY platforms (QExactive; Orbitrap Fusion Lumos) were used in various acquisition PR:PROJECT_SUMMARY modes (DDA, Acquire X, PRM) to allow for the high lipid identification rates. PR:PROJECT_SUMMARY Subsequently the global lipidome of visceral and subcutaneous adipose tissue of PR:PROJECT_SUMMARY lean and obese individuals was quantified by MS (full MS on QExactive in PR:PROJECT_SUMMARY positive and negative polarity and PRM in positive polarity). PR:INSTITUTE University of Leipzig PR:DEPARTMENT Faculty for Chemistry and Mineralogy, Biotechnological-Biomedical Center PR:LABORATORY Fedorova Lab PR:LAST_NAME Fedorova PR:FIRST_NAME Maria PR:ADDRESS Deutscher Platz 5 PR:EMAIL maria.fedorova@bbz.uni-leipzig.de PR:PHONE 03419731336 PR:PUBLICATIONS https://www.biorxiv.org/content/10.1101/2021.01.20.427444v1 #STUDY ST:STUDY_TITLE AdipoAtlas: A Reference Lipidome for Human White Adipose Tissue ST:STUDY_SUMMARY Obesity, characterized by expansion and metabolic dysregulation of white adipose ST:STUDY_SUMMARY tissue (WAT), has reached pandemic proportions and acts as a primer for a wide ST:STUDY_SUMMARY range of metabolic disorders. Remodelling of WAT lipidome in obesity and ST:STUDY_SUMMARY associated comorbidities can explain disease etiology and provide valuable ST:STUDY_SUMMARY diagnostic and prognostic markers. To support understanding of WAT lipidome ST:STUDY_SUMMARY remodelling at molecular level, we performed in-depth lipidomics profiling of ST:STUDY_SUMMARY human subcutaneous and visceral WAT of lean and obese individuals. ST:STUDY_SUMMARY Tissue-tailored preanalytical and analytical workflows allowed accurate ST:STUDY_SUMMARY identification and semi-absolute quantification of 1636 and 737 lipid molecular ST:STUDY_SUMMARY species, respectively, and summarized here in a form of human WAT reference ST:STUDY_SUMMARY lipidome. Deep lipidomic profiling allowed to identify main lipid (sub)classes ST:STUDY_SUMMARY undergoing depot/phenotype specific remodelling. Furthermore, previously ST:STUDY_SUMMARY unanticipated diversity of WAT ceramides was uncovered. AdipoAtlas reference ST:STUDY_SUMMARY lipidome will serve as a data-rich resource for development of WAT-specific ST:STUDY_SUMMARY high-throughput methods and as a scaffold for systems medicine data integration. ST:INSTITUTE University of Leipzig ST:DEPARTMENT Faculty for Chemistry and Mineralogy, Biotechnological-Biomedical Center ST:LABORATORY Fedorova Lab ST:LAST_NAME Fedorova ST:FIRST_NAME Maria ST:ADDRESS Deutscher Platz 5 ST:EMAIL maria.fedorova@bbz.uni-leipzig.de ST:PHONE 03419731336 ST:NUM_GROUPS 4 ST:STUDY_COMMENTS Pools of subcutaneous and visceral white adipose tissue were generated from lean ST:STUDY_COMMENTS patients (BMI < 25; n=5) and obese (BMI > 40; n=81) ST:PUBLICATIONS https://www.biorxiv.org/content/10.1101/2021.01.20.427444v1 #SUBJECT SU:SUBJECT_TYPE Human SU:SUBJECT_SPECIES Homo sapiens SU:TAXONOMY_ID 9606 #FACTORS #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 - SAT (ob)1 Depot location:Subcutaneous | Phenotype:obese RAW_FILE_NAME=UP_Quant_POS_SAT_ob_1;Polar_Quant_POS_SAT_ob_1;Polar_Quant_NEG_SAT_ob_1;Polar_HIL_Quant_NEG_SAT_ob_1;Unpolar_QEx_PRM_CE_SAT_ob_1 SUBJECT_SAMPLE_FACTORS - SAT (ob)2 Depot location:Subcutaneous | Phenotype:obese RAW_FILE_NAME=UP_Quant_POS_SAT_ob_2;Polar_Quant_POS_SAT_ob_2;Polar_Quant_NEG_SAT_ob_2;Polar_HIL_Quant_NEG_SAT_ob_2;Unpolar_QEx_PRM_CE_SAT_ob_2 SUBJECT_SAMPLE_FACTORS - SAT (ob)3 Depot location:Subcutaneous | Phenotype:obese RAW_FILE_NAME=UP_Quant_POS_SAT_ob_3;Polar_Quant_POS_SAT_ob_3;Polar_Quant_NEG_SAT_ob_3;Polar_HIL_Quant_NEG_SAT_ob_3;Unpolar_QEx_PRM_CE_SAT_ob_3 SUBJECT_SAMPLE_FACTORS - SAT (ob)4 Depot location:Subcutaneous | Phenotype:obese RAW_FILE_NAME=UP_Quant_POS_SAT_ob_4;Polar_Quant_POS_SAT_ob_4;Polar_Quant_NEG_SAT_ob_4;Polar_HIL_Quant_NEG_SAT_ob_4;Unpolar_QEx_PRM_CE_SAT_ob_4 SUBJECT_SAMPLE_FACTORS - SAT (ob)5 Depot location:Subcutaneous | Phenotype:obese RAW_FILE_NAME=UP_Quant_POS_SAT_ob_5;Polar_Quant_POS_SAT_ob_5;Polar_Quant_NEG_SAT_ob_5;Polar_HIL_Quant_NEG_SAT_ob_5;Unpolar_QEx_PRM_CE_SAT_ob_5 SUBJECT_SAMPLE_FACTORS - SAT (ob)6 Depot location:Subcutaneous | Phenotype:obese RAW_FILE_NAME=UP_Quant_POS_SAT_ob_6;Polar_Quant_POS_SAT_ob_6;Polar_Quant_NEG_SAT_ob_6;Polar_HIL_Quant_NEG_SAT_ob_6;Unpolar_QEx_PRM_CE_SAT_ob_6 SUBJECT_SAMPLE_FACTORS - SAT (lean)1 Depot location:Subcutaneous | Phenotype:lean RAW_FILE_NAME=UP_Quant_POS_SAT_lean_1;Polar_Quant_POS_SAT_lean_1;Polar_Quant_NEG_SAT_lean_1;Polar_HIL_Quant_NEG_SAT_lean_1;Unpolar_QEx_PRM_CE_SAT_lean_1 SUBJECT_SAMPLE_FACTORS - SAT (lean)2 Depot location:Subcutaneous | Phenotype:lean RAW_FILE_NAME=UP_Quant_POS_SAT_lean_2;Polar_Quant_POS_SAT_lean_2;Polar_Quant_NEG_SAT_lean_2;Polar_HIL_Quant_NEG_SAT_lean_2;Unpolar_QEx_PRM_CE_SAT_lean_2 SUBJECT_SAMPLE_FACTORS - SAT (lean)3 Depot location:Subcutaneous | Phenotype:lean RAW_FILE_NAME=UP_Quant_POS_SAT_lean_3;Polar_Quant_POS_SAT_lean_3;Polar_Quant_NEG_SAT_lean_3;Polar_HIL_Quant_NEG_SAT_lean_3;Unpolar_QEx_PRM_CE_SAT_lean_3 SUBJECT_SAMPLE_FACTORS - VAT (ob)1 Depot location:Visceral | Phenotype:obese RAW_FILE_NAME=UP_Quant_POS_VAT_ob_1;Polar_Quant_POS_VAT_ob_1;Polar_Quant_NEG_VAT_ob_1;Polar_HIL_Quant_NEG_VAT_ob_1;Unpolar_QEx_PRM_CE_VAT_ob_1 SUBJECT_SAMPLE_FACTORS - VAT (ob)2 Depot location:Visceral | Phenotype:obese RAW_FILE_NAME=UP_Quant_POS_VAT_ob_2;Polar_Quant_POS_VAT_ob_2;Polar_Quant_NEG_VAT_ob_2;Polar_HIL_Quant_NEG_VAT_ob_2;Unpolar_QEx_PRM_CE_VAT_ob_2 SUBJECT_SAMPLE_FACTORS - VAT (ob)3 Depot location:Visceral | Phenotype:obese RAW_FILE_NAME=UP_Quant_POS_VAT_ob_3;Polar_Quant_POS_VAT_ob_3;Polar_Quant_NEG_VAT_ob_3;Polar_HIL_Quant_NEG_VAT_ob_3;Unpolar_QEx_PRM_CE_VAT_ob_3 SUBJECT_SAMPLE_FACTORS - VAT (ob)4 Depot location:Visceral | Phenotype:obese RAW_FILE_NAME=UP_Quant_POS_VAT_ob_4;Polar_Quant_POS_VAT_ob_4;Polar_Quant_NEG_VAT_ob_4;Polar_HIL_Quant_NEG_VAT_ob_4;Unpolar_QEx_PRM_CE_VAT_ob_4 SUBJECT_SAMPLE_FACTORS - VAT (ob)5 Depot location:Visceral | Phenotype:obese RAW_FILE_NAME=UP_Quant_POS_VAT_ob_5;Polar_Quant_POS_VAT_ob_5;Polar_Quant_NEG_VAT_ob_5;Polar_HIL_Quant_NEG_VAT_ob_5;Unpolar_QEx_PRM_CE_VAT_ob_5 SUBJECT_SAMPLE_FACTORS - VAT (ob)6 Depot location:Visceral | Phenotype:obese RAW_FILE_NAME=UP_Quant_POS_VAT_ob_6;Polar_Quant_POS_VAT_ob_6;Polar_Quant_NEG_VAT_ob_6;Polar_HIL_Quant_NEG_VAT_ob_6;Unpolar_QEx_PRM_CE_VAT_ob_6 SUBJECT_SAMPLE_FACTORS - VAT (lean)1 Depot location:Visceral | Phenotype:lean RAW_FILE_NAME=UP_Quant_POS_VAT_lean_1;Polar_Quant_POS_VAT_lean_1;Polar_Quant_NEG_VAT_lean_1;Polar_HIL_Quant_NEG_VAT_lean_1;Unpolar_QEx_PRM_CE_VAT_lean_1 SUBJECT_SAMPLE_FACTORS - VAT (lean)2 Depot location:Visceral | Phenotype:lean RAW_FILE_NAME=UP_Quant_POS_VAT_lean_2;Polar_Quant_POS_VAT_lean_2;Polar_Quant_NEG_VAT_lean_2;Polar_HIL_Quant_NEG_VAT_lean_2;Unpolar_QEx_PRM_CE_VAT_lean_2 SUBJECT_SAMPLE_FACTORS - VAT (lean)3 Depot location:Visceral | Phenotype:lean RAW_FILE_NAME=UP_Quant_POS_VAT_lean_3;Polar_Quant_POS_VAT_lean_3;Polar_Quant_NEG_VAT_lean_3;Polar_HIL_Quant_NEG_VAT_lean_3;Unpolar_QEx_PRM_CE_VAT_lean_3 #COLLECTION CO:COLLECTION_SUMMARY Samples of human white adipose tissue from a total of 86 donors were kindly CO:COLLECTION_SUMMARY provided by Matthias Blüher as a part of Leipzig Obesity BioBank. Tissue CO:COLLECTION_SUMMARY collection was approved by the Ethics committee of the University of Leipzig CO:COLLECTION_SUMMARY (approval number: 159-12-21052012) and all subjects gave written informed CO:COLLECTION_SUMMARY consent before taking part in the study. Removed tissue samples were flash CO:COLLECTION_SUMMARY frozen in liquid nitrogen and stored at -80°C until further analysis. For the CO:COLLECTION_SUMMARY purpose of this study, we included adipose tissue samples from abdominal CO:COLLECTION_SUMMARY visceral (VAT) and subcutaneous (SAT) fat depots of lean (BMI < 25kg/m²; n = 5) CO:COLLECTION_SUMMARY and obese (BMI > 40kg/m²; n = 81) individuals. Representative tissue pools were CO:COLLECTION_SUMMARY generated according to depot and phenotype specificity. CO:SAMPLE_TYPE Adipose tissue CO:COLLECTION_LOCATION Leipzig, Germany CO:STORAGE_CONDITIONS -80? CO:STORAGE_VIALS Plastic tubes CO:ADDITIVES none #TREATMENT TR:TREATMENT_SUMMARY Adipose tissue biopsy pools were not treated prior to sample preparation. #SAMPLEPREP SP:SAMPLEPREP_SUMMARY Adipose tissue was spiked with internal standards, homogenized by high-speed SP:SAMPLEPREP_SUMMARY homogenization and lipids were extracted using the Folch method. SP:SAMPLEPREP_SUMMARY Triacylglycerols were depleted by EtOH/Hexane based liquid/liquid extraction. SP:SAMPLEPREP_PROTOCOL_FILENAME Sample Preparation Workflow SP:PROCESSING_STORAGE_CONDITIONS 4? SP:EXTRACTION_METHOD Folch lipid extraction SP:EXTRACT_ENRICHMENT EtOH/Hexane liquid/liquid extraction SP:EXTRACT_STORAGE -80? SP:SAMPLE_DERIVATIZATION none SP:SAMPLE_SPIKING adipose tissue specific internal standard mix #CHROMATOGRAPHY CH:CHROMATOGRAPHY_SUMMARY Three chromatography types were employed to allow for optimal lipidome CH:CHROMATOGRAPHY_SUMMARY separation (i.e. C18 RPC for amphiphilic lipids, C30 RPC for triacylglycerols, CH:CHROMATOGRAPHY_SUMMARY HILIC for acylcarnitines). All details on the respective methods are provided in CH:CHROMATOGRAPHY_SUMMARY the attached methods document CH:CHROMATOGRAPHY_TYPE HILIC CH:INSTRUMENT_NAME Vanquish Horizon CH:COLUMN_NAME Acquity UPLC BEH HILIC Si column (100 x 1.0 mm; 1.7 µm, 130 Å, Waters Corp.) CH:FLOW_GRADIENT 0-10 min – 0 to 10 % B (curve 5), 10-10.1 min – 10 to 0 % B (curve 5) CH:FLOW_GRADIENT followed by 5 min re-equilibration at 0% B CH:FLOW_RATE 0.15 ml/min CH:COLUMN_TEMPERATURE 40 CH:SOLVENT_A MeCN/H2O (96:4, v/v) + 5 mM ammonium acetate CH:SOLVENT_B H2O + 5 mM ammonium acetate #ANALYSIS AN:ANALYSIS_TYPE MS #MS MS:INSTRUMENT_NAME Thermo Q Exactive Plus Orbitrap MS:INSTRUMENT_TYPE Orbitrap MS:MS_TYPE ESI MS:ION_MODE POSITIVE MS:MS_COMMENTS DDA and DDA with with inclusion list for acylcarnitines on polar extracts in positive ion mode #MS_METABOLITE_DATA MS_METABOLITE_DATA:UNITS fmol/?g protein MS_METABOLITE_DATA_START Samples SAT (ob)1 SAT (ob)2 SAT (ob)3 SAT (ob)4 SAT (ob)5 SAT (ob)6 SAT (lean)1 SAT (lean)2 SAT (lean)3 VAT (ob)1 VAT (ob)2 VAT (ob)3 VAT (ob)4 VAT (ob)5 VAT (ob)6 VAT (lean)1 VAT (lean)2 VAT (lean)3 Factors Depot location:Subcutaneous | Phenotype:obese Depot location:Subcutaneous | Phenotype:obese Depot location:Subcutaneous | Phenotype:obese Depot location:Subcutaneous | Phenotype:obese Depot location:Subcutaneous | Phenotype:obese Depot location:Subcutaneous | Phenotype:obese Depot location:Subcutaneous | Phenotype:lean Depot location:Subcutaneous | Phenotype:lean Depot location:Subcutaneous | Phenotype:lean Depot location:Visceral | Phenotype:obese Depot location:Visceral | Phenotype:obese Depot location:Visceral | Phenotype:obese Depot location:Visceral | Phenotype:obese Depot location:Visceral | Phenotype:obese Depot location:Visceral | Phenotype:obese Depot location:Visceral | Phenotype:lean Depot location:Visceral | Phenotype:lean Depot location:Visceral | Phenotype:lean CAR 10:0 2.583465792 1.443836632 1.244684839 1.076651306 1.245150807 0.883857269 2.371751727 1.310887538 2.270883643 1.8629869 0.883379692 1.693812318 2.099727288 1.00360607 1.456269197 0.653009501 2.134157739 0.833566076 CAR 12:0 1.131658261 0.881430868 0.746229705 0.8121375 0.751112657 0.332985405 1.169280733 0.79754177 1.426500879 1.062649751 0.787857058 1.296157521 0.8493683 0.707074465 0.651236003 0.610977468 1.403158983 0.516122389 CAR 13:0 0.197972157 0.134455214 0.101895575 0.145594024 0.184451099 0.032931035 0.242725651 0.203836759 0.244846874 0.287149488 0.086121291 0.149952993 0.367501795 0.167069663 0.167983126 0.186156437 0.282259804 0.292802546 CAR 14:0 2.258601026 1.887009834 1.33340081 1.896995851 1.274190814 0.799734581 2.452238643 2.006912591 3.564364467 1.858575891 1.556191068 3.057855852 2.021625484 1.929741498 1.792210805 1.785447916 3.295962476 1.490284358 CAR 15:0 0.284889697 0.216220363 0.1477426 0.268868768 0.187383358 0.065225009 0.210040692 0.410634845 0.396504015 0.162427994 0.202585453 0.34459158 0.198622629 0.266230621 0.241813779 0.349890464 0.455936578 0.197578186 CAR 16:0 17.71316333 12.38383009 9.458735817 10.90348817 9.03975982 5.637221773 13.64852572 17.06190706 24.11363155 13.90030046 10.64907604 18.72965358 10.20001218 13.51257271 12.82920795 16.1304321 19.76482333 10.37899837 CAR 16:1 3.599406519 3.07470798 2.72687394 2.865972801 2.229494654 1.118069189 4.522794972 3.335132785 9.052398277 2.766302326 2.676397831 4.502325055 3.271935322 3.472271811 2.775879763 1.814370785 4.805870548 1.651488895 CAR 16:2 0.262228849 0.175465781 0.104876721 0.206996717 0.097961247 0.035890059 0.324590787 0.174414121 0.354788782 0.154822113 0.180956231 0.399773041 0.455237114 0.227845635 0.152495622 0.113515154 0.312159349 0.137361899 CAR 17:0 0.50235893 0.312923655 0.21498364 0.347528912 0.24182934 0.128593177 0.351808643 0.806175453 0.797573843 0.364618218 0.284389646 0.546017412 0.317822538 0.399248511 0.379913798 0.774594991 0.752221781 0.466879012 CAR 18:0 3.275846764 2.090874813 1.347990791 1.878029624 1.850593563 1.476327095 2.359175109 4.095973313 3.793994372 3.684989105 1.890970569 3.521840191 2.074882169 2.780894003 2.501708302 4.942389642 4.409556901 5.305772224 CAR 18:1 15.61041284 12.12491763 9.941018762 10.94551393 9.171165335 7.511957652 13.64899971 17.23795919 26.80949173 16.45534221 11.8412995 16.97272148 9.856262277 13.26750397 11.80759113 12.0038395 20.52404463 16.20003205 CAR 18:2 4.196356765 3.131259082 2.154524779 2.599886489 2.368676607 1.608955469 3.420489468 3.706651048 4.988303257 3.739484239 3.167630901 4.494636968 3.679544656 3.512945779 3.651791637 2.446782953 4.347892308 2.791796725 CAR 18:3 0.372926347 0.315626676 0.219835354 0.291733909 0.252359233 0.146592342 0.2901797 0.291102391 0.356248556 0.378853276 0.278341102 0.327800485 0.340974662 0.372220734 0.411917433 0.230848066 0.386072851 0.237946993 CAR 2:0 779.2893409 499.5644643 496.1863945 653.4089814 320.4265754 201.914643 704.0753523 442.021537 867.1437392 408.9997285 594.9805132 797.8688883 473.7715553 565.0883008 509.1503216 586.7579783 1005.045706 453.0873609 CAR 20:4 1.148768092 0.79081123 0.658834599 0.740730984 0.675844328 0.485713765 0.720519107 0.862866234 1.017683203 0.704829784 0.655430827 1.044816135 0.804933015 0.743594757 0.768916953 0.811103293 1.264709827 1.101042884 CAR 20:5 0.036492523 0.02986968 0.026746308 0.068080796 0.027549524 0.028387918 0.0073064 0.035636393 0.016326479 0.024308155 0.046586057 0.013976184 0.045983852 0.072789318 0.06968346 0.026259695 0.036323213 0.037393785 CAR 20:6 0.05081652 0.074823721 0.096221681 0.085797807 0.022686928 0.016537918 0.088750849 0.08360468 0.104202517 0.045023252 0.070155692 0.116941559 0.052641566 0.071816959 0.096565612 0.062104159 0.046577875 0.06703827 CAR 22:4 0.041915467 0.026886348 0.017490634 0.018111669 0.013119537 0.012784662 0.01561122 0.039691722 0.051052965 0.0501907 0.014388162 0.00997032 0.008013662 0.019253816 0.02050002 0 0.048754115 0.009024381 CAR 22:5 0.02524486 0.009114089 0 0 0.009227812 0.009333415 0 0.007676304 0.006864054 0 0 0.013372772 0.022652983 0.00653143 0 0 0.01445929 0.0147446 CAR 22:6 0.020015501 0.032508284 0.02619646 0.016177989 0.005096067 0.022146694 0.014205522 0.003534829 0 0.008073281 0.007060539 0.007139008 0.020280582 0.006317041 0 0.007081156 0.005651184 0 CAR 3:0 62.39512896 43.31111743 36.29676589 45.28843931 23.76927094 20.96512081 45.62294608 43.12542999 43.6211156 25.12325293 56.23969951 64.55670898 72.36943098 48.0991072 71.85333035 342.9037583 82.9235963 82.71024317 CAR 4:0 26.93332305 16.22638376 11.05112378 21.00826962 20.98013808 8.705378505 15.72892394 12.05171061 20.52520653 10.84910979 18.53008827 28.62751561 40.55941406 20.97788574 24.93893645 15.52763861 21.5263789 12.98176818 CAR 5:0 9.726309618 8.618629488 5.891438039 8.34541268 7.516955577 4.53244349 4.189879551 5.733307142 7.161514815 4.757997585 5.537339598 10.51685218 10.12768171 6.85364727 6.644934044 4.041239881 6.581764248 5.000745186 CAR 6:0 6.738247428 4.193890636 3.798512129 4.630012845 5.562949958 2.54727171 5.362004774 3.582666047 7.51567105 5.87870483 4.031920714 7.261589688 7.046168413 4.749291235 5.318366185 2.631449598 6.317605544 2.81697609 CAR 7:0 0.961589598 0.65932594 0.707993523 0.777922454 0.961017695 0.571734775 0.851979408 0.658713838 0.739056416 0.770688873 0.672848862 1.330860326 1.398654659 1.088648745 0.731340214 0.800842862 0.999566373 0.758118055 CAR 8:0 1.9565935 1.145136153 0.851482344 1.199515578 1.059750445 0.756838015 1.430852609 1.000248272 1.605635899 1.157082992 0.757785671 1.551947844 1.960751685 1.044962313 1.274560744 0.55827282 1.479612274 0.622436841 CAR 9:0 0.188118685 0.103739225 0.116779843 0.182788442 0.160025175 0.15057817 0.128119191 0.079144268 0.112948482 0.243649374 0.125438232 0.157496402 0.244533813 0.113070579 0.129667285 0.125756385 0.170697506 0.130932415 MS_METABOLITE_DATA_END #METABOLITES METABOLITES_START metabolite_name Formula_Neutral Exact_mass retention time [min] Column ISTD CAR 10:0 C17H33NO4 315.241 8.67 HILIC CAR 8:0 (d3) CAR 12:0 C19H37NO4 343.2723 8.56 HILIC CAR 14:0 (d9) CAR 13:0 C20H39NO4 357.2879 8.15 HILIC CAR 14:0 (d9) CAR 14:0 C21H41NO4 371.3036 8.36 HILIC CAR 14:0 (d9) CAR 15:0 C22H43NO4 385.3192 8.12 HILIC CAR 14:0 (d9) CAR 16:0 C23H45NO4 399.3349 8.04 HILIC CAR 16:0 (d3) CAR 16:1 C23H43NO4 397.3192 8.09 HILIC CAR 16:0 (d3) CAR 16:2 C23H41NO4 395.3036 8.14 HILIC CAR 16:0 (d3) CAR 17:0 C24H47NO4 413.3505 7.95 HILIC CAR 16:0 (d3) CAR 18:0 C25H49NO4 427.3662 8.04 HILIC CAR 16:0 (d3) CAR 18:1 C25H47NO4 425.3505 7.92 HILIC CAR 16:0 (d3) CAR 18:2 C25H45NO4 423.3349 8.13 HILIC CAR 16:0 (d3) CAR 18:3 C25H43NO4 421.3192 8.15 HILIC CAR 16:0 (d3) CAR 2:0 C9H17NO4 203.1158 11.3 HILIC CAR 2:0 (d3) CAR 20:4 C31H54NO4 504.4053 7.86 HILIC CAR 16:0 (d3) CAR 20:5 C27H43NO4 445.3192 7.97 HILIC CAR 16:0 (d3) CAR 20:6 C27H41NO4 443.3036 7.6 HILIC CAR 16:0 (d3) CAR 22:4 C29H49NO4 475.3662 7.88 HILIC CAR 16:0 (d3) CAR 22:5 C29H47NO4 473.3505 7.86 HILIC CAR 16:0 (d3) CAR 22:6 C29H45NO4 471.3349 7.71 HILIC CAR 16:0 (d3) CAR 3:0 C10H19NO4 217.1314 10.85 HILIC CAR 3:0 (d3) CAR 4:0 C11H21NO4 231.1471 10.34 HILIC CAR 4:0 (d3) CAR 5:0 C12H23NO4 245.1627 9.99 HILIC CAR 5:0 (d9) CAR 6:0 C13H25NO4 259.1784 9.66 HILIC CAR 5:0 (d9) CAR 7:0 C14H27NO4 273.194 9.45 HILIC CAR 5:0 (d9) CAR 8:0 C15H29NO4 287.2097 9.01 HILIC CAR 8:0 (d3) CAR 9:0 C16H31NO4 301.2253 8.87 HILIC CAR 8:0 (d3) METABOLITES_END #END