#METABOLOMICS WORKBENCH michaelsa93_20170628_124602 DATATRACK_ID:1105 STUDY_ID:ST000659 ANALYSIS_ID:AN001006 PROJECT_ID:PR000463 VERSION 1 CREATED_ON June 29, 2017, 11:33 am #PROJECT PR:PROJECT_TITLE Changes in metabolites and lipid mediators associated with supervised exercise PR:PROJECT_TITLE training for peripheral artery disease PR:PROJECT_SUMMARY Peripheral artery disease (PAD) is a leading cause of cardiovascular related PR:PROJECT_SUMMARY morbidity and mortality, affecting over 8.5 million men and women in the United PR:PROJECT_SUMMARY States and greater than 200 million individuals worldwide. The mainstay of PR:PROJECT_SUMMARY treatment to improve lower limb symptoms is supervised walking therapy, which PR:PROJECT_SUMMARY does not affect plaque morphology or alter conduit artery blood flow, but rather PR:PROJECT_SUMMARY ameliorates endothelial dysfunction, enhances skeletal muscle metabolism and PR:PROJECT_SUMMARY mitochondrial function, and suppresses inflammatory activation. In this pilot PR:PROJECT_SUMMARY feasibility project we will employ metabolic and lipidomic techniques to measure PR:PROJECT_SUMMARY the effects of supervised exercise therapy on primary metabolism, complex PR:PROJECT_SUMMARY lipids, and lipid mediators, and correlate these effects with individual, PR:PROJECT_SUMMARY subject-level measures of the response to exercise therapy among subjects with PR:PROJECT_SUMMARY PAD. The overarching theme of this work is to identify metabolites, complex PR:PROJECT_SUMMARY lipids, and lipid mediators that are associated with the inter-individual PR:PROJECT_SUMMARY variability in the response of subjects with PAD to supervised exercise therapy. PR:PROJECT_SUMMARY This knowledge will significantly enhance our understanding of the PR:PROJECT_SUMMARY pathophysiology of lower extremity symptoms in PAD, as well as the manner in PR:PROJECT_SUMMARY which supervised exercise therapy improves walking intolerance. It will identify PR:PROJECT_SUMMARY novel therapeutic targets and pathways for pharmacologic manipulation in the PR:PROJECT_SUMMARY treatment of PAD. Aside from having the potential to generate multiple PR:PROJECT_SUMMARY high-impact publications, it will serve as the basis for a planned NIH R01 PR:PROJECT_SUMMARY submission by the PI at the conclusion of the award period. PR:INSTITUTE University of Pennsylvania PR:DEPARTMENT Surgery, Perelman School of Medicine PR:LAST_NAME Scott PR:FIRST_NAME Damrauer PR:ADDRESS 3400 Spruce Street, 4 Silverstein Philadelphia, PA 19104 PR:EMAIL Scott.Damrauer@uphs.upenn.edu PR:PHONE 215-615-1698 #STUDY ST:STUDY_TITLE Changes in metabolites and lipid mediators associated with supervised exercise ST:STUDY_TITLE training for peripheral ST:STUDY_TYPE Timecourse ST:STUDY_SUMMARY Peripheral artery disease (PAD) is a leading cause of cardiovascular related ST:STUDY_SUMMARY morbidity and mortality, affecting over 8.5 million men and women in the United ST:STUDY_SUMMARY States and greater than 200 million individuals worldwide. The mainstay of ST:STUDY_SUMMARY treatment to improve lower limb symptoms is supervised walking therapy, which ST:STUDY_SUMMARY does not affect plaque morphology or alter conduit artery blood flow, but rather ST:STUDY_SUMMARY ameliorates endothelial dysfunction, enhances skeletal muscle metabolism and ST:STUDY_SUMMARY mitochondrial function, and suppresses inflammatory activation. In this pilot ST:STUDY_SUMMARY feasibility project we will employ metabolic and lipidomic techniques to measure ST:STUDY_SUMMARY the effects of supervised exercise therapy on primary metabolism, complex ST:STUDY_SUMMARY lipids, and lipid mediators, and correlate these effects with individual, ST:STUDY_SUMMARY subject-level measures of the response to exercise therapy among subjects with ST:STUDY_SUMMARY PAD. The overarching theme of this work is to identify metabolites, complex ST:STUDY_SUMMARY lipids, and lipid mediators that are associated with the inter-individual ST:STUDY_SUMMARY variability in the response of subjects with PAD to supervised exercise therapy. ST:STUDY_SUMMARY This knowledge will significantly enhance our understanding of the ST:STUDY_SUMMARY pathophysiology of lower extremity symptoms in PAD, as well as the manner in ST:STUDY_SUMMARY which supervised exercise therapy improves walking intolerance. It will identify ST:STUDY_SUMMARY novel therapeutic targets and pathways for pharmacologic manipulation in the ST:STUDY_SUMMARY treatment of PAD. Aside from having the potential to generate multiple ST:STUDY_SUMMARY high-impact publications, it will serve as the basis for a planned NIH R01 ST:STUDY_SUMMARY submission by the PI at the conclusion of the award period. ST:INSTITUTE USDA ST:DEPARTMENT Obesity and metabolism research unit ST:LAST_NAME Newman ST:FIRST_NAME John ST:ADDRESS 430 West Health Sciences Dr. Davis, Ca, 95616 ST:EMAIL john.newman@ars.usda.gov ST:PHONE (530) 752-1009 ST:STUDY_COMMENTS Fatty acids measured but not against a calibration curve. Therefore values are ST:STUDY_COMMENTS expressed as a relative abundance of the entire samples set such that the sum of ST:STUDY_COMMENTS all subjects eguals 100%. #SUBJECT SU:SUBJECT_TYPE Human SU:SUBJECT_SPECIES Homo sapiens SU:TAXONOMY_ID 9606 SU:GENDER Male SU:SUBJECT_COMMENTS Individuals with peripheral arterial disease, as defined by ankle brachial SU:SUBJECT_COMMENTS indices ≥0.4 and ≤0.8 and the presence of classic claudication symptoms #SUBJECT_SAMPLE_FACTORS: SUBJECT(optional)[tab]SAMPLE[tab]FACTORS(NAME:VALUE pairs separated by |)[tab]Additional sample data SUBJECT_SAMPLE_FACTORS - P1 A01 Visit:v2 | Blood Draw:A SUBJECT_SAMPLE_FACTORS - P1 B01 Visit:v2 | Blood Draw:B SUBJECT_SAMPLE_FACTORS - P1 C01 Visit:v2 | Blood Draw:A SUBJECT_SAMPLE_FACTORS - P1 D01 Visit:v3 | Blood Draw:B SUBJECT_SAMPLE_FACTORS - P1 E01 Visit:v3 | Blood Draw:A SUBJECT_SAMPLE_FACTORS - P1 F01 Visit:v3 | Blood Draw:B SUBJECT_SAMPLE_FACTORS - P1 G01 Visit:v2 | Blood Draw:B SUBJECT_SAMPLE_FACTORS - P1 H01 Visit:v2 | Blood Draw:A SUBJECT_SAMPLE_FACTORS - P1 A02 Visit:v2 | Blood Draw:B SUBJECT_SAMPLE_FACTORS - P1 B02 Visit:v3 | Blood Draw:A SUBJECT_SAMPLE_FACTORS - P1 C02 Visit:v2 | Blood Draw:A SUBJECT_SAMPLE_FACTORS - P1 D02 Visit:v3 | Blood Draw:A SUBJECT_SAMPLE_FACTORS - P1 E02 Visit:v2 | Blood Draw:B SUBJECT_SAMPLE_FACTORS - P1 F02 Visit:v2 | Blood Draw:A SUBJECT_SAMPLE_FACTORS - P1 G02 Visit:v2 | Blood Draw:B SUBJECT_SAMPLE_FACTORS - P1 H02 Visit:v2 | Blood Draw:A SUBJECT_SAMPLE_FACTORS - P1 A03 Visit:v2 | Blood Draw:A SUBJECT_SAMPLE_FACTORS - P1 B03 Visit:v3 | Blood Draw:A SUBJECT_SAMPLE_FACTORS - P1 C03 Visit:v2 | Blood Draw:B SUBJECT_SAMPLE_FACTORS - P1 D03 Visit:v3 | Blood Draw:B SUBJECT_SAMPLE_FACTORS - P1 H03 Visit:v3 | Blood Draw:A SUBJECT_SAMPLE_FACTORS - P1 A04 Visit:v2 | Blood Draw:B SUBJECT_SAMPLE_FACTORS - P1 B04 Visit:v3 | Blood Draw:B SUBJECT_SAMPLE_FACTORS - P1 C04 Visit:v3 | Blood Draw:B SUBJECT_SAMPLE_FACTORS - P1 D04 Visit:v3 | Blood Draw:B SUBJECT_SAMPLE_FACTORS - P1 E04 Visit:v3 | Blood Draw:B SUBJECT_SAMPLE_FACTORS - P1 F04 Visit:v2 | Blood Draw:B SUBJECT_SAMPLE_FACTORS - P1 G04 Visit:v3 | Blood Draw:A SUBJECT_SAMPLE_FACTORS - P1 H04 Visit:v2 | Blood Draw:A SUBJECT_SAMPLE_FACTORS - P1 A05 Visit:v3 | Blood Draw:A SUBJECT_SAMPLE_FACTORS - P1 B05 Visit:v2 | Blood Draw:B SUBJECT_SAMPLE_FACTORS - P1 C05 Visit:v3 | Blood Draw:A SUBJECT_SAMPLE_FACTORS - P1 D05 Visit:v2 | Blood Draw:A SUBJECT_SAMPLE_FACTORS - P1 E05 Visit:v3 | Blood Draw:B SUBJECT_SAMPLE_FACTORS - P1 F05 Visit:v2 | Blood Draw:A SUBJECT_SAMPLE_FACTORS - P1 G05 Visit:v3 | Blood Draw:B SUBJECT_SAMPLE_FACTORS - P1 H05 Visit:v2 | Blood Draw:B SUBJECT_SAMPLE_FACTORS - P1 A06 Visit:v2 | Blood Draw:A SUBJECT_SAMPLE_FACTORS - P1 B06 Visit:v2 | Blood Draw:B SUBJECT_SAMPLE_FACTORS - P1 C06 Visit:v2 | Blood Draw:A SUBJECT_SAMPLE_FACTORS - P1 G06 Visit:v3 | Blood Draw:A SUBJECT_SAMPLE_FACTORS - P1 H06 Visit:v2 | Blood Draw:A SUBJECT_SAMPLE_FACTORS - P1 A07 Visit:v2 | Blood Draw:A SUBJECT_SAMPLE_FACTORS - P1 B07 Visit:v3 | Blood Draw:B SUBJECT_SAMPLE_FACTORS - P1 C07 Visit:v3 | Blood Draw:B SUBJECT_SAMPLE_FACTORS - P1 D07 Visit:v2 | Blood Draw:A SUBJECT_SAMPLE_FACTORS - P1 E07 Visit:v3 | Blood Draw:A SUBJECT_SAMPLE_FACTORS - P1 F07 Visit:v2 | Blood Draw:A SUBJECT_SAMPLE_FACTORS - P1 G07 Visit:v3 | Blood Draw:A SUBJECT_SAMPLE_FACTORS - P1 H07 Visit:v2 | Blood Draw:A SUBJECT_SAMPLE_FACTORS - P1 A08 Visit:v3 | Blood Draw:A SUBJECT_SAMPLE_FACTORS - P1 B08 Visit:v3 | Blood Draw:A SUBJECT_SAMPLE_FACTORS - P1 C08 Visit:v3 | Blood Draw:A SUBJECT_SAMPLE_FACTORS - P1 D08 Visit:v2 | Blood Draw:A SUBJECT_SAMPLE_FACTORS - P1 E08 Visit:v3 | Blood Draw:A SUBJECT_SAMPLE_FACTORS - P1 F08 Visit:v2 | Blood Draw:B SUBJECT_SAMPLE_FACTORS - P1 G08 Visit:v2 | Blood Draw:B SUBJECT_SAMPLE_FACTORS - P1 H08 Visit:v3 | Blood Draw:B SUBJECT_SAMPLE_FACTORS - P1 A09 Visit:v3 | Blood Draw:A SUBJECT_SAMPLE_FACTORS - P1 B09 Visit:v2 | Blood Draw:B SUBJECT_SAMPLE_FACTORS - P1 F09 Visit:v2 | Blood Draw:B SUBJECT_SAMPLE_FACTORS - P1 G09 Visit:v2 | Blood Draw:B SUBJECT_SAMPLE_FACTORS - P1 H09 Visit:v2 | Blood Draw:A SUBJECT_SAMPLE_FACTORS - P1 A10 Visit:v3 | Blood Draw:A SUBJECT_SAMPLE_FACTORS - P1 B10 Visit:v3 | Blood Draw:B SUBJECT_SAMPLE_FACTORS - P1 C10 Visit:v3 | Blood Draw:A SUBJECT_SAMPLE_FACTORS - P1 D10 Visit:v3 | Blood Draw:B SUBJECT_SAMPLE_FACTORS - P1 E10 Visit:v3 | Blood Draw:A SUBJECT_SAMPLE_FACTORS - P1 F10 Visit:v2 | Blood Draw:B SUBJECT_SAMPLE_FACTORS - P1 G10 Visit:v2 | Blood Draw:A SUBJECT_SAMPLE_FACTORS - P1 H10 Visit:v2 | Blood Draw:B SUBJECT_SAMPLE_FACTORS - P1 A11 Visit:v2 | Blood Draw:B SUBJECT_SAMPLE_FACTORS - P1 B11 Visit:v3 | Blood Draw:B SUBJECT_SAMPLE_FACTORS - P1 C11 Visit:v2 | Blood Draw:B SUBJECT_SAMPLE_FACTORS - P1 D11 Visit:v3 | Blood Draw:B SUBJECT_SAMPLE_FACTORS - P1 E11 Visit:v2 | Blood Draw:A SUBJECT_SAMPLE_FACTORS - P1 F11 Visit:v3 | Blood Draw:B SUBJECT_SAMPLE_FACTORS - P1 G11 Visit:v3 | Blood Draw:B SUBJECT_SAMPLE_FACTORS - P1 H11 Visit:v3 | Blood Draw:A SUBJECT_SAMPLE_FACTORS - P1 A12 Visit:v2 | Blood Draw:A SUBJECT_SAMPLE_FACTORS - P1 E12 Visit:v2 | Blood Draw:A SUBJECT_SAMPLE_FACTORS - P1 F12 Visit:v3 | Blood Draw:A SUBJECT_SAMPLE_FACTORS - P1 G12 Visit:v2 | Blood Draw:B SUBJECT_SAMPLE_FACTORS - P1 H12 Visit:v2 | Blood Draw:B SUBJECT_SAMPLE_FACTORS - P2 A01 Visit:v2 | Blood Draw:B SUBJECT_SAMPLE_FACTORS - P2 B01 Visit:v3 | Blood Draw:B SUBJECT_SAMPLE_FACTORS - P2 C01 Visit:v2 | Blood Draw:A SUBJECT_SAMPLE_FACTORS - P2 D01 Visit:v3 | Blood Draw:B SUBJECT_SAMPLE_FACTORS - P2 E01 Visit:v2 | Blood Draw:A SUBJECT_SAMPLE_FACTORS - P2 F01 Visit:v2 | Blood Draw:A SUBJECT_SAMPLE_FACTORS - P2 G01 Visit:v2 | Blood Draw:A SUBJECT_SAMPLE_FACTORS - P2 H01 Visit:v3 | Blood Draw:B SUBJECT_SAMPLE_FACTORS - P2 A02 Visit:v3 | Blood Draw:B SUBJECT_SAMPLE_FACTORS - P2 B02 Visit:v2 | Blood Draw:B SUBJECT_SAMPLE_FACTORS - P2 C02 Visit:v3 | Blood Draw:B SUBJECT_SAMPLE_FACTORS - P2 D02 Visit:v3 | Blood Draw:A SUBJECT_SAMPLE_FACTORS - P2 E02 Visit:v3 | Blood Draw:B SUBJECT_SAMPLE_FACTORS - P2 F02 Visit:v3 | Blood Draw:B SUBJECT_SAMPLE_FACTORS - P2 G02 Visit:v2 | Blood Draw:A SUBJECT_SAMPLE_FACTORS - P2 H02 Visit:v2 | Blood Draw:A SUBJECT_SAMPLE_FACTORS - P2 D03 Visit:v3 | Blood Draw:B SUBJECT_SAMPLE_FACTORS - P2 E03 Visit:v3 | Blood Draw:B SUBJECT_SAMPLE_FACTORS - P2 F03 Visit:v2 | Blood Draw:A SUBJECT_SAMPLE_FACTORS - P2 G03 Visit:v2 | Blood Draw:A SUBJECT_SAMPLE_FACTORS - P2 H03 Visit:v3 | Blood Draw:B SUBJECT_SAMPLE_FACTORS - P2 A04 Visit:v2 | Blood Draw:B SUBJECT_SAMPLE_FACTORS - P2 B04 Visit:v3 | Blood Draw:A SUBJECT_SAMPLE_FACTORS - P2 C04 Visit:v2 | Blood Draw:A SUBJECT_SAMPLE_FACTORS - P2 D04 Visit:v2 | Blood Draw:B SUBJECT_SAMPLE_FACTORS - P2 E04 Visit:v3 | Blood Draw:B SUBJECT_SAMPLE_FACTORS - P2 F04 Visit:v2 | Blood Draw:A SUBJECT_SAMPLE_FACTORS - P2 G04 Visit:v3 | Blood Draw:B SUBJECT_SAMPLE_FACTORS - P2 A05 Visit:v2 | Blood Draw:A SUBJECT_SAMPLE_FACTORS - P2 B05 Visit:v2 | Blood Draw:A SUBJECT_SAMPLE_FACTORS - P2 C05 Visit:v3 | Blood Draw:B SUBJECT_SAMPLE_FACTORS - P2 D05 Visit:v3 | Blood Draw:B SUBJECT_SAMPLE_FACTORS - P2 E05 Visit:v2 | Blood Draw:B SUBJECT_SAMPLE_FACTORS - P2 F05 Visit:v2 | Blood Draw:B SUBJECT_SAMPLE_FACTORS - P2 G05 Visit:v3 | Blood Draw:A SUBJECT_SAMPLE_FACTORS - P2 C06 Visit:v3 | Blood Draw:A SUBJECT_SAMPLE_FACTORS - P2 D06 Visit:v3 | Blood Draw:B SUBJECT_SAMPLE_FACTORS - P2 E06 Visit:v2 | Blood Draw:B SUBJECT_SAMPLE_FACTORS - P2 F06 Visit:v3 | Blood Draw:A SUBJECT_SAMPLE_FACTORS - P2 G06 Visit:v2 | Blood Draw:A SUBJECT_SAMPLE_FACTORS - P2 H06 Visit:v3 | Blood Draw:A SUBJECT_SAMPLE_FACTORS - P2 A07 Visit:v3 | Blood Draw:B SUBJECT_SAMPLE_FACTORS - P2 B07 Visit:v3 | Blood Draw:A SUBJECT_SAMPLE_FACTORS - P2 C07 Visit:v2 | Blood Draw:B SUBJECT_SAMPLE_FACTORS - P2 D07 Visit:v2 | Blood Draw:B SUBJECT_SAMPLE_FACTORS - P2 E07 Visit:v2 | Blood Draw:B SUBJECT_SAMPLE_FACTORS - P2 F07 Visit:v2 | Blood Draw:B SUBJECT_SAMPLE_FACTORS - P2 G07 Visit:v2 | Blood Draw:B SUBJECT_SAMPLE_FACTORS - P2 H07 Visit:v3 | Blood Draw:A SUBJECT_SAMPLE_FACTORS - P2 A08 Visit:v2 | Blood Draw:B SUBJECT_SAMPLE_FACTORS - P2 B08 Visit:v3 | Blood Draw:B SUBJECT_SAMPLE_FACTORS - P2 C08 Visit:v2 | Blood Draw:A SUBJECT_SAMPLE_FACTORS - P2 D08 Visit:v3 | Blood Draw:B SUBJECT_SAMPLE_FACTORS - P2 E08 Visit:v3 | Blood Draw:A SUBJECT_SAMPLE_FACTORS - P2 F08 Visit:v2 | Blood Draw:B SUBJECT_SAMPLE_FACTORS - P2 B09 Visit:v3 | Blood Draw:A SUBJECT_SAMPLE_FACTORS - P2 C09 Visit:v2 | Blood Draw:B SUBJECT_SAMPLE_FACTORS - P2 D09 Visit:v2 | Blood Draw:B SUBJECT_SAMPLE_FACTORS - P2 E09 Visit:v3 | Blood Draw:B SUBJECT_SAMPLE_FACTORS - P2 F09 Visit:v3 | Blood Draw:A SUBJECT_SAMPLE_FACTORS - P2 G09 Visit:v3 | Blood Draw:B SUBJECT_SAMPLE_FACTORS - P2 H09 Visit:v2 | Blood Draw:B SUBJECT_SAMPLE_FACTORS - P2 A10 Visit:v3 | Blood Draw:A SUBJECT_SAMPLE_FACTORS - P2 B10 Visit:v2 | Blood Draw:B SUBJECT_SAMPLE_FACTORS - P2 C10 Visit:v3 | Blood Draw:A SUBJECT_SAMPLE_FACTORS - P2 D10 Visit:v2 | Blood Draw:B SUBJECT_SAMPLE_FACTORS - P2 E10 Visit:v3 | Blood Draw:B SUBJECT_SAMPLE_FACTORS - P2 F10 Visit:v3 | Blood Draw:A SUBJECT_SAMPLE_FACTORS - P2 G10 Visit:v3 | Blood Draw:A SUBJECT_SAMPLE_FACTORS - P2 H10 Visit:v2 | Blood Draw:A SUBJECT_SAMPLE_FACTORS - P2 A11 Visit:v3 | Blood Draw:A SUBJECT_SAMPLE_FACTORS - P2 B11 Visit:v3 | Blood Draw:B SUBJECT_SAMPLE_FACTORS - P2 C11 Visit:v3 | Blood Draw:B SUBJECT_SAMPLE_FACTORS - P2 D11 Visit:v2 | Blood Draw:A #COLLECTION CO:COLLECTION_SUMMARY Blood was drawn form the subject at the baseline (Visit 2 (V2)) before (B) and CO:COLLECTION_SUMMARY after (A) the treadmill exercise test. Further, blood was collected after 12 CO:COLLECTION_SUMMARY weeks of supervised walking therapy (Visit 3 (V3)), before (B) and after (A) the CO:COLLECTION_SUMMARY treadmill exercise test. CO:SAMPLE_TYPE Plasma #TREATMENT TR:TREATMENT_SUMMARY Subjects with peripheral arterial disease, as defined by ankle brachial indices TR:TREATMENT_SUMMARY ≥0.4 and ≤0.8 and the presence of classic claudication symptom were TR:TREATMENT_SUMMARY subjected to the treadmill exercise test. Further, they underwent 12 weeks of TR:TREATMENT_SUMMARY supervised walking therapy and subjected to the treadmill exercise test again. #SAMPLEPREP SP:SAMPLEPREP_SUMMARY Lipid mediator extraction and quantification: Oxylipins, endocannabinoids, and SP:SAMPLEPREP_SUMMARY fatty acids were isolated from plasma using Ostro Sample Preparation Plates SP:SAMPLEPREP_SUMMARY (Waters; Milford, MA) in the presence of BHT/EDTA and quantified by UPLC-MS/MS SP:SAMPLEPREP_SUMMARY using internal standard methods. Briefly, in the Ostro Plate well, 100µl plasma SP:SAMPLEPREP_SUMMARY aliquots were mixed with 5µl of BHT/EDTA (1:1 v/v MeOH/water) and 5µl methanol SP:SAMPLEPREP_SUMMARY containing a suite of deuterated surrogates. The samples were then mixed with SP:SAMPLEPREP_SUMMARY 300µL of acetonitrile with 1% formic acid and eluted with 15 mmHg vacuum for 10 SP:SAMPLEPREP_SUMMARY min into 200µL glass inserts containing 10µl of 20% glycerol in methanol. SP:SAMPLEPREP_SUMMARY Solvent was removed by vacuum centrifugation and the glycerol plug was stored at SP:SAMPLEPREP_SUMMARY -80Co until analysis. Prior acquisition, samples were reconstituted in 100µl of SP:SAMPLEPREP_SUMMARY 1:1 methanol:acetonitrile containing 100nM of 1-cyclohexyl ureido, 3-dodecanoic SP:SAMPLEPREP_SUMMARY acid (CUDA) and 1-phenyl ureido, 3-hexadecanoic acid (PUHA). Residues within SP:SAMPLEPREP_SUMMARY extracts were separated on a 2.1 x 150mm 0.17µm BEH column (Waters) and SP:SAMPLEPREP_SUMMARY detected by electrospray ionization with multi reaction monitoring on a API 6500 SP:SAMPLEPREP_SUMMARY QTRAP (Sciex; Redwood City, CA) and quantified against 7-9 point calibration SP:SAMPLEPREP_SUMMARY curves of authentic standards using modifications of previously reported methods SP:SAMPLEPREP_SUMMARY (Grapov, D., et al. 2012. PLoS One 7: e48852.; doi: SP:SAMPLEPREP_SUMMARY 10.1371/journal.pone.0048852). #CHROMATOGRAPHY CH:CHROMATOGRAPHY_TYPE Reversed phase CH:INSTRUMENT_NAME Waters Acquity CH:COLUMN_NAME Waters Acquity BEH C18 (100 x 2mm, 1.7um) CH:FLOW_GRADIENT See protocol/methods file CH:FLOW_RATE 0.25 uL CH:COLUMN_TEMPERATURE 60 °C CH:METHODS_FILENAME 2017_6500_OxyEndo_Analysis_protocol.pdf CH:SOLVENT_A 0.1% acetic acid CH:SOLVENT_B 90% ACN / 10% IPA CH:INTERNAL_STANDARD See protocol/methods file CH:RETENTION_TIME See protocol/methods file CH:SAMPLE_INJECTION 5 µL CH:ANALYTICAL_TIME 20 min CH:WEAK_WASH_SOLVENT_NAME 20% methanol, 10% isopropanol CH:WEAK_WASH_VOLUME 600 µL CH:STRONG_WASH_SOLVENT_NAME 50:50 Acetonitrile:Methanol CH:STRONG_WASH_VOLUME 600 µL #ANALYSIS AN:ANALYSIS_TYPE MS AN:LABORATORY_NAME Newman AN:OPERATOR_NAME Kamil Borkowski AN:SOFTWARE_VERSION AB Sciex MultiQuant version 3.0.1 #MS MS:INSTRUMENT_NAME ABI Sciex 6500 QTrap MS:INSTRUMENT_TYPE Triple quadrupole MS:MS_TYPE ESI MS:ION_MODE NEGATIVE MS:MS_COMMENTS Oxylipin Analysis #MS_METABOLITE_DATA MS_METABOLITE_DATA:UNITS Concentration pmol/g MS_METABOLITE_DATA_START Samples P1 A01 P1 B01 P1 C01 P1 D01 P1 E01 P1 F01 P1 G01 P1 H01 P1 A02 P1 B02 P1 C02 P1 D02 P1 E02 P1 F02 P1 G02 P1 H02 P1 A03 P1 B03 P1 C03 P1 D03 P1 H03 P1 A04 P1 B04 P1 C04 P1 D04 P1 E04 P1 F04 P1 G04 P1 H04 P1 A05 P1 B05 P1 C05 P1 D05 P1 E05 P1 F05 P1 G05 P1 H05 P1 A06 P1 B06 P1 C06 P1 G06 P1 H06 P1 A07 P1 B07 P1 C07 P1 D07 P1 E07 P1 F07 P1 G07 P1 H07 P1 A08 P1 B08 P1 C08 P1 D08 P1 E08 P1 F08 P1 G08 P1 H08 P1 A09 P1 B09 P1 F09 P1 G09 P1 H09 P1 A10 P1 B10 P1 C10 P1 D10 P1 E10 P1 F10 P1 G10 P1 H10 P1 A11 P1 B11 P1 C11 P1 D11 P1 E11 P1 F11 P1 G11 P1 H11 P1 A12 P1 E12 P1 F12 P1 G12 P1 H12 P2 A01 P2 B01 P2 C01 P2 D01 P2 E01 P2 F01 P2 G01 P2 H01 P2 A02 P2 B02 P2 C02 P2 D02 P2 E02 P2 F02 P2 G02 P2 H02 P2 D03 P2 E03 P2 F03 P2 G03 P2 H03 P2 A04 P2 B04 P2 C04 P2 D04 P2 E04 P2 F04 P2 G04 P2 A05 P2 B05 P2 C05 P2 D05 P2 E05 P2 F05 P2 G05 P2 C06 P2 D06 P2 E06 P2 F06 P2 G06 P2 H06 P2 A07 P2 B07 P2 C07 P2 D07 P2 E07 P2 F07 P2 G07 P2 H07 P2 A08 P2 B08 P2 C08 P2 D08 P2 E08 Factors Visit:v2 | Blood Draw:A Visit:v2 | Blood Draw:B Visit:v2 | Blood Draw:A Visit:v3 | Blood Draw:B Visit:v3 | Blood Draw:A Visit:v3 | Blood Draw:B Visit:v2 | Blood Draw:B Visit:v2 | Blood Draw:A Visit:v2 | Blood Draw:B Visit:v3 | Blood Draw:A Visit:v2 | Blood Draw:A Visit:v3 | Blood Draw:A Visit:v2 | Blood Draw:B Visit:v2 | Blood Draw:A Visit:v2 | Blood Draw:B Visit:v2 | Blood Draw:A Visit:v2 | Blood Draw:A Visit:v3 | Blood Draw:A Visit:v2 | Blood Draw:B Visit:v3 | Blood Draw:B Visit:v3 | Blood Draw:A Visit:v2 | Blood Draw:B Visit:v3 | Blood Draw:B Visit:v3 | Blood Draw:B Visit:v3 | Blood Draw:B Visit:v3 | Blood Draw:B Visit:v2 | Blood Draw:B Visit:v3 | Blood Draw:A Visit:v2 | Blood Draw:A Visit:v3 | Blood Draw:A Visit:v2 | Blood Draw:B Visit:v3 | Blood Draw:A Visit:v2 | Blood Draw:A Visit:v3 | Blood Draw:B Visit:v2 | Blood Draw:A Visit:v3 | Blood Draw:B Visit:v2 | Blood Draw:B Visit:v2 | Blood Draw:A Visit:v2 | Blood Draw:B Visit:v2 | Blood Draw:A Visit:v3 | Blood Draw:A Visit:v2 | Blood Draw:A Visit:v2 | Blood Draw:A Visit:v3 | Blood Draw:B Visit:v3 | Blood Draw:B Visit:v2 | Blood Draw:A Visit:v3 | Blood Draw:A Visit:v2 | Blood Draw:A Visit:v3 | Blood Draw:A Visit:v2 | Blood Draw:A Visit:v3 | Blood Draw:A Visit:v3 | Blood Draw:A Visit:v3 | Blood Draw:A Visit:v2 | Blood Draw:A Visit:v3 | Blood Draw:A Visit:v2 | Blood Draw:B Visit:v2 | Blood Draw:B Visit:v3 | Blood Draw:B Visit:v3 | Blood Draw:A Visit:v2 | Blood Draw:B Visit:v2 | Blood Draw:B Visit:v2 | Blood Draw:B Visit:v2 | Blood Draw:A Visit:v3 | Blood Draw:A Visit:v3 | Blood Draw:B Visit:v3 | Blood Draw:A Visit:v3 | Blood Draw:B Visit:v3 | Blood Draw:A Visit:v2 | Blood Draw:B Visit:v2 | Blood Draw:A Visit:v2 | Blood Draw:B Visit:v2 | Blood Draw:B Visit:v3 | Blood Draw:B Visit:v2 | Blood Draw:B Visit:v3 | Blood Draw:B Visit:v2 | Blood Draw:A Visit:v3 | Blood Draw:B Visit:v3 | Blood Draw:B Visit:v3 | Blood Draw:A Visit:v2 | Blood Draw:A Visit:v2 | Blood Draw:A Visit:v3 | Blood Draw:A Visit:v2 | Blood Draw:B Visit:v2 | Blood Draw:B Visit:v2 | Blood Draw:B Visit:v3 | Blood Draw:B Visit:v2 | Blood Draw:A Visit:v3 | Blood Draw:B Visit:v2 | Blood Draw:A Visit:v2 | Blood Draw:A Visit:v2 | Blood Draw:A Visit:v3 | Blood Draw:B Visit:v3 | Blood Draw:B Visit:v2 | Blood Draw:B Visit:v3 | Blood Draw:B Visit:v3 | Blood Draw:A Visit:v3 | Blood Draw:B Visit:v3 | Blood Draw:B Visit:v2 | Blood Draw:A Visit:v2 | Blood Draw:A Visit:v3 | Blood Draw:B Visit:v3 | Blood Draw:B Visit:v2 | Blood Draw:A Visit:v2 | Blood Draw:A Visit:v3 | Blood Draw:B Visit:v2 | Blood Draw:B Visit:v3 | Blood Draw:A Visit:v2 | Blood Draw:A Visit:v2 | Blood Draw:B Visit:v3 | Blood Draw:B Visit:v2 | Blood Draw:A Visit:v3 | Blood Draw:B Visit:v2 | Blood Draw:A Visit:v2 | Blood Draw:A Visit:v3 | Blood Draw:B Visit:v3 | Blood Draw:B Visit:v2 | Blood Draw:B Visit:v2 | Blood Draw:B Visit:v3 | Blood Draw:A Visit:v3 | Blood Draw:A Visit:v3 | Blood Draw:B Visit:v2 | Blood Draw:B Visit:v3 | Blood Draw:A Visit:v2 | Blood Draw:A Visit:v3 | Blood Draw:A Visit:v3 | Blood Draw:B Visit:v3 | Blood Draw:A Visit:v2 | Blood Draw:B Visit:v2 | Blood Draw:B Visit:v2 | Blood Draw:B Visit:v2 | Blood Draw:B Visit:v2 | Blood Draw:B Visit:v3 | Blood Draw:A Visit:v2 | Blood Draw:B Visit:v3 | Blood Draw:B Visit:v2 | Blood Draw:A Visit:v3 | Blood Draw:B Visit:v3 | Blood Draw:A 6-keto PGF1a 0.456 0.26 0.348 0.378 0.304 0.209 0.3 0.344 0.416 0.275 0.374 0.341 0.241 0.327 0.157 0.264 0.323 0.26 0.393 0.299 0.21 0.191 0.202 0.164 0.162 0.216 0.295 0.196 0.329 0.141 0.284 0.204 0.471 0.241 0.274 0.169 0.331 0.383 0.239 0.175 0.667 0.222 0.258 0.285 0.268 0.234 0.268 0.205 0.239 0.585 0.202 0.18 0.231 0.257 0.171 0.233 0.396 0.357 0.523 0.42 0.406 0.253 0.449 0.344 0.183 0.498 0.0884 0.362 0.187 0.269 0.253 0.419 0.243 0.163 0.289 0.158 0.199 0.244 0.263 0.189 0.228 0.255 0.181 0.694 0.383 0.383 0.443 0.301 0.196 0.33 0.161 0.207 0.238 0.408 0.267 0.211 0.339 0.643 0.254 0.339 0.549 0.192 0.295 0.241 0.579 0.105 0.375 0.334 0.309 0.587 0.222 0.305 0.309 0.257 0.251 0.186 0.582 0.239 0.254 0.32 0.402 0.34 0.261 0.205 0.256 0.25 0.422 0.327 0.392 0.242 0.432 0.435 0.284 0.31 0.278 0.734 0.176 0.326 PGF2a 1.31 0.258 0.548 0.635 0.0522 0.333 0.382 0.615 0.397 0.607 1.19 0.476 0.573 0.162 0.485 0.189 0.169 0.144 0.173 0.1 0.338 0.181 0.423 0.211 0.108 0.0464 0.47 0.174 0.208 0.126 0.667 0.935 1.08 0.109 0.89 0.044 1.39 2.32 0.642 0.137 3.01 0.0842 1.17 2.14 0.411 0.35 1.71 0.172 0.49 3.74 0.0873 0.0683 0.391 2.3 1.83 0.329 2.66 1.53 2.67 0.921 0.274 0.734 1.35 1.53 0.65 3.26 0.149 2.14 0.205 0.4 ND 1.51 1.2 0.0846 0.355 0.0188 0.046 0.123 0.214 0.113 0.824 0.503 0.0613 0.179 1.91 0.0747 1.89 0.119 0.255 0.472 0.561 0.214 0.238 0.827 0.406 0.219 0.78 3.59 0.19 0.633 0.955 0.0857 0.0555 0.161 1.77 0.278 0.933 0.652 0.184 1.88 0.111 0.349 0.191 0.825 0.1 0.536 0.867 0.454 0.183 1.24 2.02 0.692 0.531 0.072 0.291 0.586 3.3 0.273 2.06 0.555 3 3.77 0.604 0.475 1.25 3.29 0.512 0.055 15-deoxy PGJ2 0.14 0.0487 0.0492 0.0552 0.0461 0.0383 0.0513 0.0194 0.11 0.0427 0.0762 0.0496 0.0654 0.0623 0.0338 0.0333 0.0745 0.035 0.0109 0.0556 0.0357 0.0681 0.0507 0.0827 0.0431 0.0408 0.0527 0.0789 0.116 0.0908 0.115 0.0441 0.0202 0.0718 0.11 0.0626 0.087 0.0775 0.0635 0.0875 0.0765 0.0518 0.127 0.0976 0.0988 0.0903 0.0939 0.0891 0.0773 0.0686 0.1 0.076 0.0851 0.0807 0.0709 0.106 0.0754 0.085 0.0618 0.132 0.0788 0.077 0.099 0.101 0.12 0.0881 0.0638 0.104 0.0581 0.0609 0.113 0.0933 0.116 0.11 0.0996 0.0921 0.0699 0.0711 0.0978 0.144 0.0947 0.0613 0.0805 0.184 0.171 0.123 0.097 0.0825 0.109 0.0663 0.0548 0.0912 0.114 0.0905 0.0673 0.0817 0.0759 0.0844 0.0852 0.0944 0.104 0.0495 0.0956 0.0852 0.0769 0.123 0.0986 0.0839 0.102 0.101 0.0949 0.0883 0.0775 0.102 0.0773 0.106 0.0927 0.0628 0.196 0.14 0.174 0.0898 0.121 0.0989 0.0921 0.156 0.203 0.119 0.114 0.15 0.106 0.129 0.0935 0.203 0.134 0.122 0.114 0.19 PGF2a EA 0.0394 0.00352 ND ND 0.00232 0.0613 ND ND 0.0738 0.0000877 0.0832 0.0636 ND ND 0.0279 0.0223 0.0461 ND ND ND ND 0.0248 ND ND ND ND 0.00258 ND 0.146 ND ND ND 0.000147 0.0509 0.147 0.00694 0.182 ND 0.0831 ND 0.00536 0.0497 0.00281 ND 0.0259 0.0404 ND ND 0.0395 0.00672 ND ND 0.0297 ND ND ND 0.0344 ND ND ND ND 0.0439 0.0924 0.00872 ND ND ND 0.00648 ND ND ND ND ND 0.0636 0.0474 0.13 ND 0.208 ND ND ND ND 0.013 ND ND 0.207 ND ND 0.0568 ND 0.0327 ND 0.0711 ND ND 0.027 0.0379 0.0357 0.121 0.0378 ND ND 0.0101 ND 0.291 0.0336 ND 0.0286 0.115 ND ND 0.00824 0.0891 0.209 ND 0.0605 0.00199 0.055 0.0205 ND 0.0618 ND 0.134 ND 0.105 0.054 0.149 ND 0.0502 ND ND 0.0751 ND 0.0379 0.0576 0.142 0.0822 0.0814 11-HETE 3.21 1.58 1.12 6.29 2.26 1.56 2.11 3.94 1.34 2.56 1.03 0.792 0.803 1.16 1.23 1.2 0.643 1.24 0.776 1.54 1.15 0.834 0.387 0.556 0.794 0.587 1.02 0.709 0.979 0.809 0.576 4.78 8.62 1.34 0.749 0.773 0.633 1.07 0.801 0.856 1.05 0.71 1.76 0.4 1.39 1.43 0.549 0.487 0.968 0.411 4.91 0.568 0.801 0.46 0.517 0.471 0.689 0.768 0.898 1.07 0.572 0.827 4.19 0.575 0.676 1.1 0.614 0.521 1.95 0.606 1.28 1.95 0.952 0.331 0.69 0.65 0.447 1.38 0.979 1.16 3.08 1.17 0.618 0.601 1.52 2.05 0.993 0.347 2.77 1.19 0.727 0.565 0.79 0.929 0.502 0.749 0.697 0.484 0.477 3.08 1.12 0.479 1.06 1.27 1.09 0.544 0.894 0.954 1.7 0.551 1.01 0.622 0.696 0.76 0.633 0.485 0.876 0.438 0.613 1.15 0.673 0.395 0.519 0.512 0.71 0.632 0.888 0.552 1.63 0.615 0.809 0.415 1.61 0.98 0.515 1.05 0.553 1.04 9_12_13-TriHOME 3.78 1.88 1.94 2.4 1.65 0.82 1.81 2.18 1.85 2.02 3.27 1.76 1.46 2.04 1.99 1.54 1.17 1.12 2.8 1.51 1.66 3.07 5.47 1.27 0.806 1.01 1.15 1.12 1.73 1.31 1.11 1.61 2.44 1.24 1.37 1.24 0.768 1.29 0.798 1.68 1.31 3.32 1.23 2 0.947 2.06 1.49 1.64 1.37 2.01 1.97 1.54 1.28 2.43 1.49 1.65 1.15 1.15 1.3 2.21 1.26 2.36 2.38 1.92 1.36 1.9 0.682 4.22 1.83 1.43 5.85 1.25 6.1 2.55 0.969 0.869 1.93 1.19 1.25 1.62 1.23 1.12 1.09 2.81 3.2 5.85 1.12 2.61 2.27 1.63 1.84 1.32 1.81 1.2 3.55 4.35 1.63 2.08 0.819 2.74 1.07 2.37 5.35 0.922 1.63 2.25 1.72 1.13 1.73 4.01 1.38 1.55 1.03 1.27 1.11 1.34 1.65 1.67 3.05 1.78 4.16 1.15 1.89 1.29 1.88 1.31 8.79 2.75 1.27 2.01 3.42 1.93 1.59 1.98 1.06 1.92 1.58 5.98 9_10-e-DiHO 9.38 5.02 7.92 5.2 6.03 3.53 5.65 7.51 9.64 4.62 7.92 10 6.93 5.1 8.52 7.79 8.83 3.84 16.4 9.56 10.5 11 12.8 4.57 5.31 6.56 10.4 6.47 8.1 16.4 8.79 4.65 8.54 5.18 11.7 5.84 6.15 4.64 3.49 7.5 6.23 13.2 4.65 10.4 6.61 6.88 7.96 5.11 8.46 7 4.91 5.84 9.94 9.22 6.21 6.71 6.03 8.1 4.68 15.7 9.42 10.9 13.3 9.92 6.91 9.29 8.97 10.5 6.77 7.39 16.8 4.63 20.4 14.2 8.12 7.6 6.06 5.05 7.17 7.35 4.45 10.8 9.2 29.3 10.5 4.99 3.87 6.37 6.06 7.67 10.7 5.65 6.47 5.89 10.3 19 7.18 6.31 3.49 5.86 3.9 11.9 11.7 5.36 5.32 7.9 6.42 5.59 4.82 13.4 8.28 7.41 6.5 4.95 8.34 3.36 6.95 4.24 17 10.6 18.5 7.57 7.84 7.06 9.86 5.64 23.5 8.61 5.6 8.86 6.06 6.97 9.58 7.63 6.28 4.66 7.7 8.28 12_13-DiHOME 2.79 4.39 3.9 1.59 1.98 1.49 1.57 2.25 3.98 1.39 4.05 9.84 3.72 1.77 4.94 7.81 2.03 2.27 4.72 4.84 10.1 2.56 8.44 2.22 2.19 2.07 5.65 3.25 2.39 4.64 3.92 1.31 1.58 2.58 6.77 2.63 1.54 1.57 1.14 4.96 1.14 2.43 1.44 2.66 1.91 1.63 4.3 4.18 4.48 5 2.92 2.52 4.95 4.35 4.47 2.42 1.83 2.03 1.9 7.08 1.43 3.38 8.94 3.3 3.63 4.25 2.48 3.82 2.57 2.24 10.4 1.24 13.1 2.66 2.88 2.76 2 2.92 3.96 2.99 1.62 5.11 2.87 4.5 4.52 3.73 1.44 2.02 1.61 5.3 3.23 3.43 1.74 1.39 2.36 23.6 4.28 3.81 1.32 3.7 1.69 5.48 10.1 3.64 1.38 2.8 2.28 2.38 1.51 2.81 2.32 4.89 3.93 2.86 3.37 1.06 3.08 1.59 6.35 2.89 3.63 2.8 4.46 3.7 2.38 2.61 16.4 7.84 1.49 3.61 2.61 6.65 2.38 2.95 3.12 2.17 1.97 8.54 9_10-DiHOME 5.5 4.59 3.45 2.39 3.07 1.57 2.11 3.64 5.58 2.32 4.36 8.02 4.27 2.34 8.85 7.29 3.22 1.9 10.6 6.26 13.4 2.69 13.5 3.3 2.55 2.64 8.37 4.01 3.79 4.14 5.67 1.6 3.33 3.39 8.82 3.46 2.86 2.4 1.77 7.47 3.04 3.92 2.2 4.55 3.25 2.21 5.52 5.75 6.18 4.62 3.84 3.12 7.23 5.08 6.51 4.7 2.43 3.29 3.04 12.4 3.5 4.68 10.5 5.24 7.41 5.03 2.47 4.35 3.02 3.71 16.2 1.51 28.7 3.96 4.97 3.07 2.75 2.67 5.95 3.28 1.86 5.74 3.44 14 7.86 6.36 1.86 3.6 2.59 9.39 5.69 5.69 2.59 3.21 3.71 33.2 8.97 5.04 2.14 4.86 2.78 7.39 17.1 4.31 2.36 4.65 3.7 3.52 2.2 4.65 3.67 5.31 5.49 2.73 4.61 1.8 4.25 2.18 8.36 4.98 7 3 6.21 4.35 4.12 3.61 32.5 10.7 2.55 4.57 4.15 4.58 4.36 3.93 3.93 2.73 2.98 11.8 15_16-DiHODE 8.36 8.88 9.38 2.5 5.6 3.3 5.11 4.27 12.7 4.12 9.48 23 16.8 6.44 15.6 15 8.4 5.87 52.6 14.7 23.7 11.2 99.4 4.2 5.98 4.76 14 12.1 10.1 13.7 8.46 4.05 2.79 8.75 16.3 10.3 2.79 3 4.51 12.6 5.02 11.1 5.33 11 5.55 4.28 18.7 13.7 11.8 11.3 10.7 8.86 16.2 26.1 9.22 7.48 5.58 4.87 11.5 16.8 6.49 8.8 32.6 15.7 11.4 14.3 6.11 11.4 5.85 6.54 41.7 3.33 41.6 8.72 6.41 8.52 5.03 7.32 10.6 6.62 6.26 12.4 10.2 9.79 12.1 13.1 3.9 4.9 4.36 16.8 5.67 5.06 4.12 4.11 5.18 42.9 15.3 10 3.77 7.17 9.03 9.09 37 6.68 4.8 5.31 4.16 4.68 3.76 6.22 6.01 12.3 8.65 6.42 6.67 2.74 7.21 3.06 14.2 6.99 30.2 6.84 8.17 7.5 6.26 7.74 46.3 21.8 2.26 7.03 4.61 10.5 6.72 10.5 8.27 7.33 5.01 27.4 12_13-DiHODE 0.323 0.269 0.249 0.0376 0.054 0.0385 0.078 0.012 0.33 0.0982 0.242 0.677 0.197 0.135 0.477 0.49 0.145 0.132 0.34 0.406 0.763 0.164 0.836 0.135 0.108 0.127 0.288 0.231 0.161 0.167 0.204 0.0557 0.0414 0.141 0.555 0.16 0.0738 0.0959 0.0486 0.345 0.0598 0.198 0.0874 0.233 0.128 0.0727 0.339 0.338 0.363 0.224 0.171 0.125 0.441 0.307 0.203 0.116 0.138 0.142 0.104 0.561 0.0793 0.22 0.8 0.326 0.268 0.485 0.0838 0.191 0.205 0.192 1.2 0.0707 1.52 0.199 0.118 0.158 0.111 0.18 0.148 0.184 0.0691 0.394 0.0753 0.228 0.436 0.295 0.0694 0.0828 0.0285 0.409 0.133 0.128 0.0703 0.0567 0.143 1.38 0.307 0.342 0.0802 0.207 0.131 0.282 0.932 0.194 0.0953 0.195 0.12 0.155 0.0868 0.149 0.162 0.368 0.24 0.182 0.214 0.0867 0.231 0.0473 0.352 0.226 0.388 0.221 0.263 0.281 0.142 0.163 2.27 0.537 0.0262 0.307 0.233 0.249 0.183 0.194 0.184 0.2 0.127 0.619 9_10-DiHODE 0.703 0.349 0.306 0.161 0.271 0.0971 0.205 0.485 0.763 0.282 0.518 0.865 0.277 0.244 1.13 0.55 0.628 0.102 2.17 0.675 1.41 0.164 2.89 0.268 0.155 0.225 1.05 0.332 0.579 0.278 0.54 0.12 0.169 0.276 0.88 0.281 0.392 0.227 0.235 0.374 0.658 0.449 0.223 0.685 0.24 0.19 0.322 0.513 0.5 0.424 0.441 0.204 0.904 0.471 0.323 0.677 0.25 0.229 0.419 1.6 0.795 0.351 1.28 0.702 0.886 0.616 0.0852 0.274 0.226 0.559 2.07 0.133 4.36 0.393 0.487 0.271 0.19 0.269 0.556 0.343 0.257 0.668 0.376 2.1 0.784 0.538 0.187 0.413 0.195 0.999 0.207 0.245 0.166 0.384 0.144 2.46 0.914 0.452 0.143 0.231 0.249 0.418 2.02 0.183 0.196 0.165 0.368 0.276 0.0888 0.433 0.5 0.41 0.582 0.15 0.395 0.0712 0.354 0.0617 0.91 0.505 1.25 0.264 0.531 0.344 0.647 0.21 5.05 1.15 0.112 0.304 0.28 0.4 0.455 0.432 0.24 0.461 0.319 1.2 14_15-DiHETrE 1.08 1.11 0.81 0.889 0.594 1.11 0.674 0.807 0.696 1.08 0.861 0.971 0.606 0.703 1.33 1.37 0.548 0.829 0.463 1.47 1.26 0.614 0.41 0.37 1.09 0.449 1.29 1.22 0.929 1.03 0.807 1.07 1.24 0.978 1.01 0.996 0.96 1.3 1.08 0.798 0.561 0.625 0.679 0.547 0.674 0.744 0.71 0.63 1.24 0.551 1.12 0.75 1.57 0.586 0.583 0.748 0.878 1.22 0.717 1.13 0.564 0.88 1.07 0.61 0.975 0.681 0.708 0.564 0.674 0.552 0.898 0.436 1.09 0.725 1.24 0.629 0.683 0.865 1.52 0.545 1.04 0.612 0.68 0.629 1.33 0.682 0.462 0.647 1.06 1.2 0.433 0.544 0.822 0.659 0.765 1.19 1.01 0.648 0.854 0.79 0.921 0.695 0.863 2.08 0.544 0.381 0.843 1.43 0.96 0.491 0.746 0.901 1.04 0.817 0.507 0.994 0.694 0.771 1.03 1.06 0.706 0.875 0.461 0.995 1.27 0.794 1.35 0.687 1.15 0.632 1.64 0.543 0.595 1.16 0.635 0.778 1.17 0.838 11_12-DiHETrE 0.905 0.856 0.735 0.826 0.63 0.831 0.631 0.793 0.621 1.03 0.686 0.797 0.544 0.555 1.31 0.976 0.517 0.635 0.363 1.14 0.977 0.621 0.39 0.411 0.893 0.423 1.1 0.955 0.754 0.658 0.736 0.785 1.33 0.823 0.958 0.798 0.97 1.1 0.728 0.771 0.514 0.657 0.613 0.497 0.757 0.548 0.623 0.577 1 0.492 0.963 0.6 1.11 0.491 0.51 0.733 0.695 1.11 0.571 1.05 0.438 0.876 0.862 0.544 0.842 0.543 0.436 0.538 0.687 0.355 0.738 0.422 0.861 0.681 1.1 0.385 0.565 0.652 1.4 0.476 0.69 0.503 0.394 0.689 1.06 0.559 0.454 0.629 0.869 1.05 0.335 0.495 0.572 0.539 0.66 0.957 0.737 0.496 0.657 0.665 0.754 0.606 0.71 1.99 0.544 0.325 0.734 1.28 0.749 0.427 0.557 0.793 0.823 0.701 0.424 0.952 0.582 0.731 0.948 0.799 0.59 0.747 0.484 1.11 1.08 0.658 1.05 0.616 1.2 0.547 1.48 0.476 0.537 0.946 0.562 0.665 1.03 0.683 8_9-DiHETrE 0.33 0.295 0.283 0.439 0.364 0.54 0.312 0.287 0.236 0.425 0.305 0.326 0.228 0.272 0.583 0.3 0.191 0.321 0.184 0.349 0.569 0.199 0.203 0.202 0.293 0.163 0.335 0.456 0.336 0.387 0.389 0.51 0.637 0.347 0.43 0.307 0.42 0.456 0.521 0.279 0.242 0.232 0.366 0.24 0.399 0.276 0.257 0.228 0.309 0.268 0.338 0.263 0.36 0.203 0.177 0.551 0.426 0.53 0.307 0.561 0.198 0.366 0.332 0.291 0.397 0.202 0.337 0.261 0.191 0.199 0.272 0.209 0.314 0.259 0.927 0.291 0.201 0.302 1.05 0.158 0.546 0.219 0.298 0.262 0.451 0.23 0.16 0.203 0.325 0.415 0.186 0.175 0.257 0.245 0.276 0.438 0.407 0.191 0.207 0.337 0.403 0.224 0.255 0.539 0.168 0.225 0.268 0.586 0.259 0.242 0.188 0.254 0.196 0.418 0.197 0.377 0.25 0.227 0.369 0.27 0.443 0.31 0.228 0.347 0.464 0.367 0.366 0.269 0.617 0.235 0.707 0.291 0.315 0.475 0.218 0.379 0.433 0.31 5_6-DiHETrE 0.461 0.285 0.185 0.412 0.407 0.379 0.333 0.164 0.197 0.274 0.171 0.187 0.175 0.177 0.358 0.277 0.134 0.15 0.18 0.302 0.465 0.208 0.169 0.134 0.221 0.0975 0.283 0.451 0.18 0.326 0.544 0.398 0.546 0.258 0.389 0.352 0.413 0.311 0.459 0.18 0.104 0.222 0.322 0.214 0.387 0.101 0.202 0.234 0.281 0.193 0.273 0.192 0.359 0.176 0.143 0.599 0.578 0.37 0.282 0.517 0.13 0.251 0.239 0.208 0.323 0.107 0.243 0.184 0.243 0.171 0.227 0.0646 0.35 0.161 0.916 0.193 0.157 0.188 1.22 0.0597 0.426 0.166 0.311 0.179 0.501 0.341 0.124 0.261 0.146 0.325 0.093 0.144 0.168 0.248 0.249 0.268 0.385 0.12 0.173 0.48 0.238 0.191 0.214 0.367 0.0784 0.125 0.176 0.418 0.121 0.212 0.201 0.122 0.158 0.51 0.164 0.229 0.136 0.0952 0.39 0.223 0.557 0.199 0.142 0.377 0.401 0.339 0.51 0.369 0.618 0.15 0.488 0.239 0.344 0.213 0.135 0.342 0.462 0.295 14_15-DiHETE 0.801 0.443 0.533 0.919 0.476 0.709 0.491 0.641 0.538 0.807 0.48 0.634 0.628 0.427 0.735 0.649 0.259 0.39 0.184 0.601 0.671 0.268 0.336 0.223 0.364 0.343 0.485 0.584 0.26 0.516 0.335 0.699 1.07 0.468 0.947 0.498 0.71 1.5 0.573 0.405 0.681 0.282 0.442 0.811 0.576 0.251 0.548 0.497 0.466 1.05 0.487 0.284 0.583 0.8 0.78 0.208 1.08 0.999 0.636 1.05 0.308 0.544 0.936 1.05 0.461 3.42 0.323 0.985 0.26 0.247 0.4 0.601 0.471 0.208 0.572 0.353 0.267 0.391 0.561 0.196 0.749 0.282 0.525 0.411 0.638 0.399 0.632 0.297 0.543 0.751 0.135 0.14 0.245 0.304 0.406 0.881 0.745 2.7 0.226 0.393 0.77 0.322 0.554 0.799 0.585 0.235 0.522 1.24 0.401 0.783 0.331 0.493 0.482 0.964 0.331 0.493 0.433 0.636 0.28 0.661 1.12 0.628 0.17 0.418 0.796 0.128 0.71 0.537 1.05 0.3 2.24 1.31 0.408 0.624 0.158 1.18 0.918 0.634 19_20-DiHDoPA 1.66 1.05 1.14 2.15 0.649 2.29 1 1.39 0.868 2.92 1.51 1.17 2.73 1.35 2.31 1.21 1.01 0.869 0.991 1.6 2.32 0.843 0.911 0.188 1.87 0.596 2.43 2.8 1.1 1.3 1.74 2.19 3.96 1.76 3.17 2.2 2.03 4.09 2.22 0.509 1.63 0.767 1.02 1.51 0.66 0.943 3 1.86 2.07 2.46 1.82 1.12 1.5 1.11 2.54 1.26 2.76 3 2.44 3.32 0.971 2.37 1.17 1.7 1.67 2.96 0.975 2.41 0.803 1.02 1.64 1.05 1.66 0.887 1.79 0.744 1.04 0.9 2.38 0.68 2.45 1.14 0.765 0.442 2.04 1.23 1.05 0.762 1.43 2.06 0.158 0.324 1.04 1.38 1.07 2.18 1.98 2.9 1.59 1.54 2.93 1 1.61 2.57 1.46 0.222 1.37 3.01 1.16 2.13 0.899 1.23 1.88 2.54 1.03 2.43 1.1 1.32 1.32 1.35 2.13 1.07 0.192 1.11 1.74 1.11 2 1.89 3.6 0.932 5.11 2.32 1.05 1.27 1.17 2.52 1.53 1.73 13-HODE 68.1 34.3 29.5 91.7 40.6 17.1 33 45.2 24.8 60.1 24.2 23.6 31.3 23.2 34.3 41 16.6 17.5 22.3 39.5 68 17.3 24.6 9.6 16.8 13.8 29.7 19.2 18.3 24.2 19.8 84.6 79.8 25.1 34.4 24.2 7.24 19.4 11 26.5 14.1 17.1 25.9 16.7 17.3 27.6 28.8 17.2 31.5 21.3 84.9 18.6 29.3 22.5 41.9 10.7 13.2 11.9 17.3 42.9 13.2 24.6 71 22 23.4 25.1 10.3 20.5 61.5 16.3 49.1 26.2 47.9 12 14.6 18.4 16.2 20.6 23.3 33.5 37.5 26.3 16.8 57.2 46.9 58.1 18 17.5 66 43.1 23.9 19.3 17.2 27.6 10.5 83.6 26 17.8 9 33.8 18.3 25.7 41.8 19 20.4 14 13.6 15.3 35.3 21.1 24.1 15.5 22.3 24.6 22.9 11.4 24.6 9.64 31.7 25.8 23.1 12.9 19.8 30.8 13 17.5 57.9 30.8 16.9 21 26.2 29.9 52.6 23.6 20.7 26.8 11.5 34.9 9-HODE 52.9 27.2 25 75.8 34.8 14.9 28.6 43.8 21.2 53.3 23.8 19.4 27.9 21.2 29 27.6 14.1 13.3 28.5 29.3 49 16 17.2 8.02 14.6 12 22.3 17.2 17.6 16.2 17.1 61 67.4 20.4 27 19.5 6.66 17 9.31 19.5 13.8 18 22.7 17.3 16.4 22.2 26.5 13.8 27.3 16.3 66.7 16.2 19.8 21 28.5 9.99 11.4 11.1 14.4 40.9 13.1 21.7 59 27.4 23.1 22.5 8.07 20.4 53.6 14.1 59.5 22.4 65.7 11.2 12.5 13.8 14.8 20.5 19.1 29.5 34.8 24.1 14.6 61.6 35.5 43.2 14.3 26.3 49.5 31.1 18.1 15.6 15.2 23.2 9.7 59.8 17.9 13.2 7.19 32.6 13.8 20 45.4 16.1 17.5 11.7 14.1 13.2 29.2 18.4 19.6 12.4 17 18.6 16.6 9.46 21.9 9.91 23.1 20.8 19 9.66 14.1 24.8 12.2 14 66.1 20.5 15.2 17.4 21.6 20 32.3 17.9 17 19.9 9.95 35.3 13-HOTE 6.85 2.81 2.85 5.53 3.86 1.38 3.73 4.45 3.15 5.17 3.39 2.23 3.02 1.7 4.41 3.53 2.34 1.52 6.29 4.69 4.25 1.24 3.91 0.79 1.18 1.13 2.11 2.06 1.62 2.08 1.79 8.88 6.69 3.03 2.76 2.47 0.715 2.08 0.841 1.56 1.58 1.65 3.31 1.95 1.88 2.28 2.49 1.98 2.69 1.36 10.3 1.24 2.96 1.86 2.45 1.19 1.68 0.923 2.15 4.61 2.47 2.54 9.95 2.8 1.92 3.28 1.15 1.38 5.66 1.88 5.56 3.05 7.59 1.74 1.11 2.12 1.35 2.47 2.05 3.28 4.15 2.22 1.74 21.9 4.16 5.2 1.72 1.07 4.82 4.47 1.54 1.14 1.47 1.9 1.1 4.44 2.44 1.92 0.721 1.9 1.79 1.47 4.03 1.15 1.92 1.09 1.04 1.37 2.53 1.83 2.37 1.24 1.42 1.68 1.74 0.726 2.62 0.614 2.17 2.3 2.81 1.12 1.14 1.62 1.26 0.891 7.2 2.51 0.99 1.03 2.17 1.48 4.65 1.58 1.22 2.4 0.827 2.55 15-HETE 3.64 2.27 2.3 6.84 3.04 2.5 2.27 5.67 1.9 3.56 3.58 1.78 1.1 1.82 3.5 2.32 1.39 2.94 1.3 2.26 2.18 1.35 0.897 1.35 1.38 1.32 1.8 2.32 3.54 1.86 1.3 5.33 9.07 1.87 1.38 2.01 1.69 1.62 1.45 2.6 1.65 1.1 2.18 0.98 2.04 2.42 0.986 1.78 1.65 1.06 5.37 1.42 1.9 1.27 1.03 1.48 1.52 1.92 1.58 1.96 1.18 1.38 5.06 1.16 1.21 2.85 1.38 1.17 2.78 1.05 2.28 2.66 2.13 1.06 1.35 1.32 1.16 3.45 2.4 2.2 4.12 1.68 1.42 1.14 3.11 2.38 1.41 0.784 3.03 2.6 1.43 1.49 1.66 1.46 1.28 1.47 1.73 1.89 0.702 3.7 1.84 1.18 2.02 2.16 1.5 1.26 1.48 2.42 2.44 1.05 2.1 1.24 1.24 1.71 1.09 0.884 2.84 0.818 1.37 1.58 1.36 1.08 1.26 1.12 1.64 1.06 1.85 1.94 1.81 1.58 1.82 1.02 2.39 2.84 1.4 1.84 1.31 1.78 12-HETE 4.59 2.88 2.89 6.96 7.29 2.54 2.7 5.65 12.2 3.96 1.97 1.96 6.63 2.08 2.65 1.9 2.76 3.22 3.82 2.42 3.19 1.12 0.874 2.16 1.91 1.23 7.34 4.15 4.98 1.71 5.15 7.99 10.4 25 3.4 3.56 7.1 2.34 2.17 2.7 3.81 1.06 1.99 0.974 11.9 2.31 2.39 1.49 2.36 1.2 7.24 1.53 1.79 0.727 3.3 9.23 1.43 8.02 1.06 22.5 5.56 13.7 11.2 1.44 8.92 1.6 5.89 1.01 8.26 1.49 5.5 10 9.9 1.15 9.28 2.42 1.87 18.7 4.49 2.52 5 2.29 5.18 2.92 9.35 15.5 4.13 2.02 3.67 2.19 1.28 3.47 6.49 6.58 1.35 1.46 7.1 2.16 5.26 5.22 1.49 1.56 3.13 10.9 5.23 1.62 1.74 7.45 12.6 0.683 1.91 2.01 1.19 1.72 2.52 3.79 2.6 0.705 2.36 1.89 0.877 1.28 1.98 1.97 3.06 3.99 3.28 1.36 3.05 4.41 8.16 1.29 4.62 6.56 3.83 1.43 1.59 7.53 9-HETE 2.49 1.17 0.913 6.19 1.55 1.09 1.69 3.85 1 1.76 0.612 0.646 0.35 0.656 0.838 0.774 0.59 0.949 0.41 1.08 0.839 0.771 0.356 0.455 0.561 0.376 0.649 0.458 0.511 0.735 0.481 4.31 7.14 1.28 0.401 0.598 0.522 0.761 0.678 0.451 0.799 0.482 1.5 0.383 0.856 1.1 0.374 0.264 0.652 0.445 4.83 0.405 0.571 0.412 0.351 0.265 0.59 0.402 0.946 0.703 0.458 0.698 3.13 0.54 0.422 0.782 0.533 0.424 1.92 0.582 0.853 1.73 0.692 0.194 0.692 0.494 0.383 1.17 0.838 0.855 2.8 0.959 0.384 0.376 1.06 1.6 0.714 0.295 2.07 0.846 0.731 0.438 0.471 0.805 0.364 0.712 0.627 0.281 0.407 2.71 0.92 0.288 0.742 0.636 0.772 0.471 0.88 0.797 1.17 0.552 1.11 0.488 0.481 0.466 0.632 0.31 0.609 0.333 0.503 0.939 0.615 0.309 0.445 0.456 0.537 0.241 0.692 0.399 1.21 0.376 0.703 0.396 1.85 0.687 0.429 0.919 0.467 0.774 8-HETE 1.98 1.08 1.02 4.64 1.72 1.34 1.6 3.58 0.964 2.32 0.681 1.04 0.502 0.8 0.855 0.913 0.563 0.943 0.619 1.3 1.05 0.865 0.49 0.572 0.713 0.498 0.796 0.659 0.777 1.02 0.476 4.01 6.53 1.13 0.57 0.703 0.641 0.737 0.803 0.753 0.687 0.55 1.2 0.364 0.842 0.868 0.438 0.464 0.832 0.584 4.32 0.519 0.574 0.403 0.414 0.451 0.665 0.69 1 0.824 0.484 0.791 3.37 0.649 0.624 0.887 0.636 0.645 1.7 0.652 1.39 1.69 0.859 0.428 0.674 0.715 0.438 1.2 0.901 0.83 2.59 0.816 0.583 0.464 1.52 1.96 0.868 0.359 2.03 1.02 0.705 0.634 0.66 0.844 0.454 0.857 0.876 0.519 0.48 2.3 0.995 0.529 1.17 0.873 1.03 0.58 1.02 1.11 1.33 0.56 1.16 0.798 0.636 0.698 0.625 0.506 0.703 0.45 0.672 1.02 0.758 0.385 0.537 0.617 0.548 0.517 0.854 0.578 1.21 0.583 0.774 0.497 1.65 0.952 0.494 1.05 0.576 1.4 5-HETE 4.12 2.35 2.47 6.7 4.47 3.78 2.73 6.32 3.25 3.69 2.85 2.4 1.82 3.27 2.91 2.43 1.44 2.81 2.08 2.77 7.33 1.91 1.54 2.05 1.9 1.94 2.27 2.07 2.9 2.38 1.83 7.5 9.5 2.43 2.79 1.98 2.36 1.74 2.04 2.08 6.09 3.05 2.85 1.31 3.54 2.54 1.72 1.05 2.81 1.62 4.9 1.51 2.37 1.19 1.14 1.84 2.05 2.98 1.67 4.32 5.24 2.72 6.69 1.62 1.92 2.54 1.82 2.24 3.91 1.38 2.81 3.19 2.81 1.42 3.02 1.59 1.1 4.5 4.5 2.25 19.2 10.3 2.33 3.22 4.1 3.52 2.47 1.28 4.64 2.31 2.48 1.85 2.35 2.97 1.09 2.38 1.47 1.43 1.06 7.77 6.03 2.15 3.12 2.23 3.02 2.21 2.61 2.64 3.1 1.54 1.59 1.45 1.49 2.37 2.42 1.12 2.02 1.47 1.9 4.3 2.2 1.26 2.38 1.83 1.26 1.39 2.32 1.14 1.92 1.93 2.53 1.39 1.83 3.15 1.34 1.81 1.11 2.14 15-HEPE 0.401 0.269 0.246 1.62 0.483 0.336 0.203 0.974 0.228 0.391 0.594 0.198 0.267 0.209 0.596 0.245 0.172 0.561 0.0804 0.281 0.0482 0.0475 0.11 0.0883 0.0612 0.0707 0.127 0.348 0.661 0.378 0.156 1.02 2.51 0.184 0.332 0.347 0.411 0.726 0.16 0.389 0.579 0.132 0.472 0.225 0.305 0.297 0.315 0.341 0.265 0.529 0.568 0.333 0.472 0.276 0.496 0.215 0.491 0.566 0.56 0.215 0.156 0.115 0.75 0.304 0.165 2.24 0.0972 0.334 0.229 0.179 0.175 1.04 0.28 0.075 0.149 0.183 0.141 0.471 0.256 0.182 0.546 0.174 0.131 0.187 0.389 0.361 0.509 0.106 0.364 0.4 0.127 0.13 0.146 0.143 0.133 0.247 0.303 1.45 0.0379 0.337 0.231 0.0745 0.175 0.274 0.438 0.16 0.194 0.511 0.238 0.284 0.204 0.104 0.085 0.422 0.112 0.147 0.468 0.105 0.174 0.202 0.444 0.129 0.13 0.0751 0.184 0.0812 0.245 0.2 0.422 0.118 0.612 0.259 0.283 0.452 0.212 0.618 0.175 0.246 12-HEPE 0.416 0.153 0.293 1.54 0.561 0.371 0.263 0.856 0.592 0.345 0.187 0.18 0.549 0.127 0.179 0.109 0.131 0.103 0.0958 0.184 0.228 0.091 0.112 0.147 0.0811 0.139 0.434 0.217 0.0862 0.131 0.152 1.03 2.23 0.401 0.356 0.231 0.521 0.436 0.17 0.133 0.399 0.0547 0.289 0.204 0.69 0.117 0.269 0.103 0.12 0.438 0.409 0.0459 0.142 0.147 0.604 0.273 0.254 0.627 0.173 1.53 0.129 0.35 0.846 0.241 0.296 1.13 0.112 0.282 0.329 0.0839 0.277 1.75 0.382 0.0355 0.268 0.131 0.1 0.276 0.233 0.17 0.519 0.139 0.164 0.0996 0.611 0.511 0.866 0.0855 0.336 0.186 0.098 0.138 0.151 0.289 0.0851 0.119 0.451 0.851 0.079 0.262 0.157 0.0403 0.177 0.22 0.594 0.117 0.158 0.544 0.473 0.243 0.0892 0.153 0.0813 0.276 0.113 0.104 0.188 0.0772 0.167 0.256 0.261 0.055 0.0983 0.0778 0.109 0.222 0.208 0.12 0.6 0.255 1.11 0.516 0.286 0.234 0.186 0.447 0.0899 0.226 9-HEPE 0.367 0.13 0.174 1.47 0.389 0.31 0.294 0.84 0.329 0.422 0.127 0.187 0.114 0.179 0.127 0.165 0.112 0.127 0.178 0.23 0.119 0.145 0.0923 0.089 0.0759 0.0823 0.0184 0.0401 0.0624 0.124 0.138 1.04 2.64 0.156 0.306 0.141 0.191 0.333 0.156 0.071 0.303 0.118 0.301 0.201 0.29 0.0827 0.166 0.0717 0.0951 0.351 0.469 0.0412 0.0536 0.244 0.214 0.0754 0.174 0.176 0.384 0.247 0.0696 0.0912 0.724 0.214 0.101 1.13 0.069 0.213 0.128 0.0439 0.162 0.744 0.106 0.0301 0.0836 0.126 0.0622 0.148 0.0165 0.143 0.477 0.203 0.109 1.45 0.23 0.342 0.567 0.0688 0.32 0.203 0.173 0.0517 0.0703 0.167 0.0364 0.166 0.137 0.464 0.0623 0.306 0.299 0.0573 0.189 0.0594 0.513 0.107 0.189 0.236 0.0919 0.286 0.114 0.105 0.0642 0.188 0.0427 0.074 0.0937 0.0718 0.0295 0.223 0.346 0.0542 0.105 0.0368 0.0647 0.0953 0.217 0.0899 0.515 0.109 0.458 0.274 0.287 0.0987 0.0795 0.598 0.0895 0.179 5-HEPE 0.92 0.304 0.62 2.09 0.867 1.2 0.567 1.35 0.821 0.777 0.822 1.11 0.467 0.603 0.802 0.282 0.124 0.313 0.161 0.454 0.996 0.446 0.439 0.315 0.269 0.366 0.399 0.522 0.292 0.65 0.443 1.75 2.69 0.0481 1.03 0.513 0.773 0.839 0.533 0.558 1.41 0.487 0.484 0.71 0.672 0.436 0.687 0.113 0.279 1.3 0.408 0.178 0.476 0.645 0.579 0.25 1.05 0.759 0.692 0.874 0.142 0.357 1.87 0.738 0.356 1.87 0.248 1.52 0.436 0.196 0.447 1.38 0.367 0.133 0.352 0.41 0.163 0.321 0.855 0.365 1.53 0.771 0.436 0.0964 0.836 0.533 1.35 0.171 0.614 0.808 0.53 0.316 0.182 0.428 0.259 0.815 0.519 1.32 0.112 0.78 0.628 0.322 0.57 0.503 1.18 0.478 0.726 1.09 0.375 1 0.187 0.582 0.271 1.19 0.31 0.181 0.466 0.524 0.385 0.709 1.13 0.277 0.506 0.193 0.288 0.305 0.583 0.26 0.839 0.473 1.09 1.36 0.37 0.534 0.257 0.818 0.249 0.363 17-HDoHE 4.32 2.43 2.19 15.7 2.96 2 1.53 6.8 2.45 4.69 3 1.02 2.74 1.99 2.64 2.63 1.83 1.45 1.62 2.74 1.58 1.08 1.34 0.779 0.899 1.33 0.735 1.26 1.38 2.46 1.06 7.3 19.7 2.05 1.62 1.78 1.88 3.89 1.15 1.63 1.99 0.772 1.95 2.18 1.34 2.14 1.49 1.3 0.602 2.13 5.82 0.94 2.59 2.23 1.84 1.05 1.8 2.86 2.22 2.08 1.16 2.07 10.5 1.98 1.69 7.38 1.97 2.14 2.54 1.32 1.73 5.91 1.54 0.84 0.737 0.944 0.507 1.74 1.16 1.53 3.9 1.54 1.35 2.03 2.78 1.97 2.12 0.384 2.78 1.74 0.745 0.952 0.874 1.54 0.914 1.95 1.68 4.22 0.545 1.74 2.76 0.667 1.25 0.978 2.71 0.905 1.05 2.11 2.03 1.87 1.72 0.871 0.584 1.42 1.39 0.768 2.14 0.603 0.812 1.78 2.07 0.892 0.226 0.707 1.25 0.458 2.14 1.23 2.43 0.932 3.16 2.49 4.8 2.32 2.05 5.6 1.38 0.725 14-HDoHE 2.23 0.99 1.52 7.16 1.51 1.38 1.29 4.17 3.8 2.38 0.827 0.763 3.08 0.876 1.16 0.663 1.01 0.657 0.712 0.942 1.06 0.526 0.386 0.266 0.504 0.485 2.3 0.776 0.551 0.651 0.731 4.14 10.7 1.37 1.2 0.669 1.43 1.45 0.839 0.641 0.851 0.206 0.868 0.583 1.25 0.542 0.762 0.369 0.645 1.08 2.72 0.285 0.453 0.624 1.28 1.15 0.524 2.1 0.805 6.91 0.76 2.49 5.37 0.924 2.08 2.9 0.599 0.732 1.7 0.526 0.694 6.06 1.88 0.305 1.09 0.612 0.336 1.74 1.11 1.25 2.68 1 0.643 0.404 2.43 1.54 1.92 0.391 1.63 0.985 0.272 0.564 0.663 1.49 0.555 0.32 1.63 1.22 0.428 0.872 0.673 0.253 0.535 1.02 2.71 0.282 0.693 1.44 1.99 0.874 0.771 0.737 0.381 0.604 0.926 0.597 0.672 0.243 0.386 0.775 0.636 0.289 0.143 0.389 0.364 0.758 0.768 0.217 1.37 0.862 2.33 1.16 1.51 0.629 1.34 1.41 0.309 0.419 4-HDoHE 1.88 1.01 1.05 5.87 1.17 1.43 1.13 3.71 1.44 2.88 0.74 0.608 0.984 1.05 0.841 0.95 0.833 0.56 0.511 1.26 1.34 0.702 0.599 0.236 0.576 0.51 0.602 0.344 0.515 0.814 0.503 4.15 8.78 1.05 1.09 0.427 0.679 1.53 0.743 0.394 2.06 0.486 1.01 0.71 0.703 0.57 0.937 0.21 0.527 0.966 2.37 0.297 0.57 0.626 0.901 0.275 0.645 0.691 0.978 1.06 0.994 0.832 4.28 0.992 0.749 2.17 0.632 1.05 1.15 0.514 0.526 2.63 0.68 0.188 0.371 0.467 0.225 0.81 0.493 0.906 3.94 1.53 0.472 0.92 1.36 1.21 1.27 0.251 1.74 0.782 0.245 0.278 0.494 0.925 0.545 0.575 0.591 0.845 0.315 0.953 1.77 0.368 0.478 0.662 1.61 0.292 0.914 0.784 1 1.35 0.774 0.62 0.535 0.653 0.776 0.66 0.607 0.411 0.462 1.25 1.21 0.482 0.273 0.346 0.431 0.579 1.09 0.3 1.11 0.375 1.81 1.41 1.9 0.722 0.651 2.15 0.556 0.457 9_10-EpO 8.43 5.27 9.89 8.62 10.1 6.99 5.41 8.68 8.26 6.25 7.81 6.28 8.24 9.8 7.26 5.39 4.12 4.35 5.96 7.93 9.76 6.29 7.74 6 7.16 7.48 10.1 11.9 7.51 8.46 8.87 9.45 11.1 3.11 8.94 14.3 7.4 5.44 7.28 5.59 6.74 6.51 4.84 8.17 8.06 6.01 8.1 4.73 7.67 7.33 3.08 5.4 7.77 6.3 5.65 8.27 6.69 9.55 4.31 10.5 3.74 6.9 8.23 8.4 7.23 10.2 8.04 12.3 11.6 4.12 10.8 8.72 11.5 16.1 14 5.38 6.57 4.96 11.6 11.8 8.8 9.34 6.35 6.74 9.63 7.98 7.65 7.87 8.59 7.16 10.9 7.84 6.25 8.85 7.04 7.68 6.26 8.02 2.51 6.42 3.32 7.45 6.72 6.35 7.44 10.9 9.45 9.01 9.1 9.62 5.3 5.03 7 11 6.97 4.99 6.23 5.26 13.8 7.14 22 6.41 10.2 8.02 7.48 14.8 12.8 7.58 7.93 17.8 13.2 7.89 7.86 11.7 13.2 5.86 8.22 7 12(13)-EpOME 7.47 6.32 6.54 5.34 6.35 3.99 3.95 9.01 5.28 5.35 5.07 6.15 6.1 4.22 8.81 8.33 2.58 3.4 5.57 7.92 10.5 6.22 10.1 4.2 3.94 4.78 5.88 5.48 3.42 3.18 5.21 4.9 5.91 3.33 6.94 4.93 2.35 3.4 2.74 4.43 2.52 4.24 2.71 4.57 4.15 2.56 6.01 6.53 5.52 7.56 5.33 2.53 7.34 4.61 6.31 2.64 2.23 3.5 2.65 7.51 2.25 3.2 6.96 5.35 5.17 5.79 3.28 5.53 11.7 2.01 14.9 3.29 17.5 5.49 4.28 2.53 3.29 3.75 3.66 4.98 3.91 4.52 2.88 11.8 8.14 5.09 3.56 3.27 3.58 8.09 7.68 4.28 2.4 3.83 5.04 7.49 5.9 4.87 1.52 3.53 1.95 4.83 7.87 2.75 2.95 6.74 2.59 4.04 3.85 5.95 2.95 3.79 3.34 2.95 3.48 2.22 3.53 2.07 6.34 3.53 7.4 3.2 7.08 3.84 2.86 4.04 15.4 7.64 2.48 5.9 4 10.9 4.42 2.93 3.67 3.06 3.18 6.42 9(10)-EpOME 7.7 3.3 4.99 5.17 5.95 3.73 3.09 8.94 3.46 5.25 3.74 3.58 4.86 3.74 5.64 3.31 1.93 2.28 3.98 4.63 9.56 4.43 5.38 2.12 3.68 3.82 4.32 5.17 2.89 1.94 3.84 5.38 5.36 1.68 5.37 3.82 1.82 3.07 2.26 2.46 1.84 3.16 2.52 3.38 3.46 2.16 5.36 2.38 4.16 3.48 3.84 1.82 3.6 2.35 4.08 1.7 1.75 2.58 1.82 5.92 1.51 2.44 3.83 4.88 3.96 4.01 1.58 4.21 12.4 1.3 5.78 2.53 7.01 3.67 3.09 1.44 1.96 2.07 3.21 3.97 3.79 3.54 1.57 9.31 8.4 3.88 2.59 2.57 3.59 5.82 4.64 3.02 1.82 3.4 2.75 4.32 3.06 2.87 1.14 2.67 1.21 3.1 3.73 2.31 2.02 4.46 2.13 3.55 3.46 4.37 2.23 1.93 2.75 2.85 2.73 1.95 2.13 1.48 5.05 2.87 5.8 1.28 3.9 3.43 2.21 4.53 8.18 2.91 1.93 4.22 3.26 3.07 3.52 2.11 3.02 2.25 2.49 3.91 15(16)-EpODE 3.14 4.83 2.93 1.23 1.85 1.15 1.48 2.01 2.76 2.3 3.45 6.05 2.95 1.94 9.81 6.79 1.35 1 4.39 5.69 6.8 2.4 10.9 1.52 1.71 2.82 3.27 4.46 2.37 2.12 1.95 1.11 0.839 1.63 2.89 3.73 0.853 1.41 1.43 2.32 1.16 2.4 1.09 3.39 1.19 1.02 4.03 3.85 4.9 3.46 2.12 1.51 5.93 6 2.45 1.47 1.16 1.34 1.89 3.09 0.913 1.46 6.33 4.14 3.58 3.94 1.06 4.24 3.38 1.06 13.8 0.903 17.2 2.25 0.926 1.62 0.975 1.23 1.49 3.04 1.66 3.01 1.78 2.68 4.41 4.98 1.92 2.07 1.15 7.35 4.67 2.16 1.15 1.3 1.67 10.5 5.4 4.14 0.877 1.79 1.41 4.28 10.8 1.53 2 3.28 1.77 2.31 1.22 2.63 1.39 2.6 2.3 2.56 1.88 1.58 2.26 1.09 3.8 1.41 9.85 1.22 4.72 4.58 1.31 2.12 23.8 7.58 1.01 5.03 2.52 5.62 1.59 2.63 1.72 1.68 0.778 9.39 12(13)-EpODE 0.597 0.355 0.281 0.16 0.327 0.175 0.117 0.378 0.0679 0.19 0.225 0.259 0.201 0.191 0.548 0.306 0.108 0.123 0.294 0.33 0.403 0.226 0.725 0.0862 0.152 0.131 0.137 0.31 0.13 0.0876 0.13 0.157 0.125 0.153 0.169 0.179 0.0649 0.158 0.0556 0.124 0.0753 0.112 0.287 0.227 0.151 0.0907 0.21 0.243 0.163 0.189 0.215 0.0897 0.305 0.103 0.122 0.0784 0.0756 0.121 0.111 0.239 0.0656 0.106 0.353 0.215 0.198 0.362 0.0192 0.108 0.602 0.0719 1.05 0.144 1.24 0.201 0.0766 0.0685 0.0683 0.15 0.0809 0.141 0.151 0.126 0.116 0.261 0.794 0.42 0.253 0.119 0.129 0.495 0.261 0.0642 0.0579 0.154 0.0949 0.263 0.356 0.347 0.0311 0.107 0.0456 0.0948 0.644 0.0823 0.0927 0.459 0.237 0.191 0.195 0.158 0.145 0.157 0.105 0.123 0.112 0.0679 0.186 0.0395 0.369 0.184 0.286 0.13 0.169 0.148 0.119 0.272 1.81 0.521 0.0918 0.243 0.228 0.346 0.24 0.14 0.158 0.173 0.122 0.58 9(10)-EpODE 2.01 0.587 0.911 0.615 1.19 0.431 0.62 1.18 0.322 0.531 0.919 0.854 0.547 0.601 1.61 0.458 0.341 0.171 0.832 0.825 1.73 0.475 0.662 0.381 0.311 0.543 0.602 0.786 0.459 0.408 0.49 0.661 0.388 0.308 1.06 0.573 0.169 0.392 0.277 0.537 0.23 0.365 0.476 0.671 0.566 0.484 0.864 0.322 0.824 0.482 0.529 0.228 0.589 0.504 0.545 0.187 0.312 0.258 0.25 1.13 0.249 0.42 1.01 0.681 0.613 0.508 0.216 0.573 1.45 0.342 1.3 0.319 3.97 0.507 0.285 0.281 0.235 0.159 0.354 0.595 0.462 0.788 0.272 2.39 2.23 0.58 0.42 0.401 0.54 1.51 0.799 0.266 0.341 0.45 0.304 1.44 0.388 0.363 0.127 0.349 0.22 0.595 1.12 0.37 0.426 0.595 0.26 0.543 0.689 0.466 0.44 0.455 0.526 0.906 0.701 0.318 0.534 0.168 0.806 0.628 0.837 0.292 0.512 0.829 0.381 0.763 5.82 0.808 0.297 0.972 0.829 0.772 0.763 0.679 0.588 0.394 0.422 0.822 14(15)-EpETrE 0.56 0.351 0.334 0.552 0.454 0.45 0.333 0.697 0.192 0.36 0.135 0.144 0.134 0.137 0.424 0.211 0.0751 0.215 0.185 0.203 0.253 0.391 0.242 0.125 0.165 0.148 0.169 0.216 0.255 0.118 0.234 0.446 0.743 0.21 0.203 0.171 0.204 0.242 0.25 0.12 0.111 0.169 0.397 0.184 0.223 0.18 0.159 0.12 0.214 0.152 0.363 0.139 0.202 0.134 0.0693 0.0845 0.12 0.188 0.103 0.247 0.305 0.0837 0.0693 0.188 0.0987 0.138 0.161 0.159 0.424 0.133 0.143 0.171 0.21 0.0535 0.129 0.162 0.179 0.174 0.147 0.135 0.331 0.0794 0.119 1 0.681 0.453 0.262 0.228 0.422 0.31 0.248 0.189 0.233 0.154 0.24 0.156 0.155 0.211 0.197 0.228 0.115 0.107 0.161 0.331 0.239 0.407 0.402 0.506 0.337 0.26 0.259 0.165 0.2 0.178 0.187 0.254 0.145 0.211 0.272 0.247 0.212 0.222 0.139 0.259 0.434 0.411 0.315 0.147 0.492 0.17 0.381 0.168 0.396 0.316 0.134 0.227 0.506 0.283 11(12)-EpETrE 0.422 0.15 0.173 0.232 0.253 0.199 0.129 0.451 0.0917 0.165 0.0535 0.082 0.0695 0.0556 0.142 0.118 0.0466 0.0826 0.148 0.0893 0.155 0.177 0.102 0.0823 0.0833 0.0535 0.0716 0.119 0.061 0.0469 0.094 0.247 0.288 0.0595 0.138 0.116 0.0501 0.0741 0.0915 0.0775 0.0506 0.0693 0.267 0.137 0.166 0.0983 0.08 0.0624 0.111 0.0805 0.177 0.0569 0.103 0.0276 0.0329 0.0312 0.0687 0.068 0.0499 0.136 0.0696 0.0671 0.107 0.167 0.122 0.0838 0.0514 0.0743 0.27 0.0226 0.0828 0.0909 0.0741 0.0481 0.0785 0.039 0.0713 0.103 0.0722 0.0603 0.193 0.0684 0.061 0.266 0.461 0.259 0.157 0.112 0.161 0.161 0.122 0.0707 0.0736 0.132 0.0715 0.0904 0.0928 0.0666 0.053 0.0711 0.0536 0.0329 0.0736 0.138 0.076 0.503 0.269 0.205 0.156 0.0893 0.144 0.0613 0.0818 0.114 0.0662 0.0441 0.039 0.0686 0.265 0.109 0.133 0.0577 0.0916 0.0734 0.138 0.278 0.21 0.127 0.181 0.12 0.174 0.0959 0.142 0.129 0.0627 0.0942 0.142 0.242 8(9)-EpETrE 0.403 0.162 0.191 0.253 0.276 0.232 0.259 0.621 0.0934 0.211 0.0575 ND ND 0.106 0.191 0.106 0.0435 0.0715 0.179 0.0777 0.312 0.208 0.0712 0.0203 0.115 0.0646 0.0879 0.192 0.0665 0.0631 0.0786 0.297 0.6 0.0637 0.131 0.134 0.124 0.261 0.149 0.0444 0.123 0.0889 0.329 0.15 0.255 0.181 0.116 0.113 0.134 0.0944 0.25 0.112 0.126 0.0503 0.0703 0.148 0.1 0.078 0.0623 0.275 0.0535 0.0965 0.142 0.14 0.171 0.117 0.0409 0.085 0.249 0.114 0.122 0.0598 0.0333 0.0549 0.181 0.0599 0.142 0.029 0.139 0.067 0.249 0.0762 0.142 1.06 0.373 0.218 0.155 0.093 0.0821 0.244 0.0854 0.0834 0.0997 0.143 0.0755 0.0846 0.134 0.133 0.024 0.108 0.0708 0.0157 0.0923 0.23 0.111 0.465 0.387 0.231 0.097 0.171 0.158 0.0595 0.0636 0.136 0.0724 0.0896 0.128 0.0689 0.225 0.136 0.14 0.0309 0.154 0.0415 0.136 0.298 0.34 0.121 0.166 0.159 0.242 0.136 0.191 0.0773 0.108 0.111 0.15 0.185 12(13)-Ep-9-KODE 15.8 8.87 1.16 5.39 2.82 3.56 7.65 8.23 1.18 6.23 6.03 1.87 6.36 2.92 18.5 6.85 4.05 2.12 2.91 2.09 11.5 2.16 2.11 0.825 2.67 2.53 2.95 5.47 6.81 1.18 4.23 8.62 3.68 4.8 9.87 4.59 1.67 2.12 3.77 4.88 1.88 2.18 4.92 1.09 0.989 4.81 6.13 2.74 1.69 3.62 5.4 1.31 0.517 2.34 5.6 1.22 0.706 2.51 1.87 5.24 3.95 3.56 2.17 2.03 4.11 5.2 0.604 1.18 9.11 3.9 11.7 1.76 1.91 2.13 1.31 3.05 1.23 2.14 1.78 5.22 4.03 1.54 2.97 4.2 2.13 4.21 1.05 4.01 6.38 3.93 1.14 3.69 4 2.66 2.23 5.82 2.43 3.82 1.66 1.64 1.05 3.82 6.06 1.06 1.67 1.14 2.49 1.41 2.67 4.11 1.99 1.43 2.02 0.727 1.91 2.01 2.46 3.03 3.29 3.14 0.905 0.189 1.31 1.51 1.72 1.73 3.14 3.82 2.62 3.01 3 4.81 1.54 4.08 2.01 2.23 2 4.17 13-KODE 18.4 6.01 1.73 8.12 3.3 1.92 5.76 3.39 1.9 6.24 1.38 1.37 2.63 2.22 7.43 1.7 0.994 1.18 4.18 2.32 3.96 1.31 1.03 0.645 1.19 1.09 0.884 1.9 1.85 2.02 1.62 7.51 5.13 3.15 2.62 2.05 0.834 1.27 0.88 2.15 1.19 1.01 3.18 1.61 1.48 4.04 3.41 1.47 1.46 1.52 8.3 1.48 1.36 1.42 3.16 1.67 0.953 1.2 2.27 3.47 1.28 1.16 4.34 2.38 1.69 2.27 1.12 1.08 7.36 2.09 6.24 2.64 1.94 0.915 2.09 2.3 1.54 1.98 2.19 5.32 2.69 1.84 1.37 27.9 2.92 4.28 2.33 1.87 4.99 3.83 1.82 2 1.91 2.74 0.708 2.72 2.64 1.86 1.24 2.25 2.16 1.4 2.52 0.989 1.64 1.51 1.29 1.76 3.68 1.55 2.14 1.33 1.24 1.56 1.32 1.34 1.48 1.68 1.85 2.24 1.55 1.02 1.19 2.47 1.13 2.05 3.22 1.97 2.45 3.21 3.48 2.11 3.48 2.61 2.15 2.36 1.58 3.45 9-KODE 34.4 14.5 4.34 17.9 8.46 3.96 13.4 10.9 3.96 12.2 3.04 2.56 6.19 5.29 17.2 4.51 3.49 2.74 10.8 5.42 6.45 3.3 2.95 2.04 2.67 2.59 2.39 2.99 3.99 2.8 2.93 20.4 13.7 5.76 5.12 4.22 1.34 3.68 1.67 5.32 3.33 2.32 9.03 5.21 3.88 7.7 6.84 3.31 3.32 4.52 17.8 4.58 4.19 5.83 6.41 2.67 2.11 3.03 3.91 6.99 6.17 3.98 9.83 8.42 4.66 5.35 2.39 4.94 17.7 4.08 20 5.96 9.05 2.31 4.85 5.27 5.88 6.06 6.06 11 6.23 3.49 3.96 60.7 6.57 12.5 3.06 11.3 10.5 9.03 4.79 4.86 4.92 5.39 3.4 8.09 5.92 3.36 3.26 5.38 3.78 3 9.24 3.36 5.33 3.93 4.46 2.76 4.59 6.41 5.39 3.74 3.58 3.49 3.76 4.06 3.45 9.75 3.79 4.41 4.28 2.52 3.38 5.52 3.79 3.74 11.2 4.57 4.62 8.23 6.59 6.37 7.87 5.64 5.07 5.55 3.77 10.1 5-KETE 0.512 0.222 0.121 0.355 0.228 0.203 0.232 0.364 0.193 0.237 0.0522 0.0795 0.0555 0.105 0.257 0.0755 0.0106 0.0876 0.0749 0.112 0.252 0.159 0.0779 0.062 0.063 0.0384 0.0487 0.0946 0.0365 0.0772 0.104 0.309 0.467 0.148 0.0812 0.0603 0.0652 0.0818 0.058 0.104 0.295 0.116 0.357 0.128 0.246 0.225 0.167 0.0888 0.122 0.0235 0.293 0.0747 0.0549 0.0631 0.0698 0.0716 0.0512 0.116 0.104 0.249 0.224 0.071 0.344 0.15 0.1 0.198 0.0802 0.12 0.367 0.0714 0.167 0.184 0.115 0.0511 0.104 0.0587 0.0394 0.228 0.13 0.123 0.623 0.368 0.142 0.252 0.37 0.403 0.175 0.134 0.372 0.206 0.0887 0.099 0.107 0.187 0.05 0.133 0.0674 0.108 0.0781 0.0535 0.28 0.0952 0.12 0.115 0.13 0.257 0.207 0.144 0.223 0.0889 0.129 0.152 0.0781 0.11 0.0687 0.0632 0.121 0.106 0.311 0.325 0.161 0.0863 0.114 0.133 0.0972 0.366 0.381 0.119 0.23 0.178 0.246 0.0971 0.186 0.199 0.0573 0.158 0.0941 0.273 10-Nitrooleate 3.02 2.97 3.46 4.43 4.35 2.97 3.59 3.08 3.13 3.62 2.45 2.96 6.09 2.53 5.39 3.14 3.26 3.88 4.29 2.55 3.43 3.42 2.88 2.43 3.91 1.91 1.99 3.65 4.75 0.971 1.67 1.14 5.27 0.985 2.34 3.43 1.49 1.8 1.81 4.27 4.05 2.64 2.9 4.58 2.72 1.24 6.52 4.44 3.09 4.13 1.38 4.12 3.6 3.24 8.04 2.72 2.29 1.66 0.474 2.93 1.21 4.49 2.19 2.72 2.07 1.46 1.13 2.81 1.51 0.94 0.936 2.76 3.26 1.63 2.1 0.943 5.48 3.92 2.38 1.43 1.57 1.39 2.49 1.99 6.07 2.37 3.49 4.27 2.27 4.24 4.56 26 2.12 0.937 2.04 6.11 4.24 3.97 1.96 2.63 1.34 1.49 1.4 8.4 3.4 5.5 4.68 2.47 2.03 3.08 4.37 3.45 2.6 3.19 1.75 2.91 1.95 4.39 1.09 5.7 2.11 2.4 1.65 2.59 4.15 1.62 4.76 3.61 10 1.86 2.81 2.99 1 5.93 0.808 1.28 3.89 2.09 OEA 2.81 2.86 3.66 3.25 2.73 2.13 2.73 3.55 3.06 2.36 3.66 2.38 2.99 4.15 3.17 2.76 1.31 2.88 4.58 3.22 4.87 4.71 4.41 2.97 6.51 5.36 4.73 3.45 2.77 2.53 3.9 2.27 1.97 4 5.55 3.17 3.7 3.1 2.49 3.36 2.97 4.28 2.09 4.15 3.25 4.34 4.21 1.98 7.79 3.45 2.33 2.24 3.75 2.93 3.8 3.03 3.55 4.23 1.95 7.69 2.49 4.28 3.54 2.96 4.42 3.08 3.14 3.37 4.03 2.97 3.32 5.93 3.56 5.09 4.48 2.61 10.2 4.17 4.78 5.8 2.85 4.69 2.02 5.26 4.9 2.91 4.15 3.83 4.27 2.52 4.63 5.59 5.82 5.03 2.48 6.12 3.07 4.11 2.41 3.68 2.69 4.7 2.78 3.24 4.43 4.81 4.47 6.6 4.93 4.56 2.05 5.02 4.48 4.75 4.59 2.91 3.1 3.53 4.9 3.07 3.18 4.01 3.25 3.39 2.13 6.4 4.23 2.86 3.74 8.41 4.74 3.23 1.72 5.01 2.79 2.97 2.44 2.26 MS_METABOLITE_DATA_END #METABOLITES METABOLITES_START metabolite_name HMDB ID InChIKey PubChem CID KEGG 6-keto PGF1a HMDB02886 KFGOFTHODYBSGM-ZUNNJUQCSA-N 5280888 C05961 PGF2a HMDB01139 PXGPLTODNUVGFL-UAAPODJFSA-N 5283078 15-deoxy PGJ2 HMDB05079 VHRUMKCAEVRUBK-GODQJPCRSA-N 5311211 C14717 PGF2a EA HMDB13628 XCVCLIRZZCGEMU-FPLRWIMGSA-N 53481911 11-HETE HMDB04682 GCZRCCHPLVMMJE-RSPKXIRXSA-N 5312981 9_12_13-TriHOME HMDB04708 MDIUMSLCYIJBQC-MVFSOIOZSA-N 9858729 C14833 9_10-e-DiHO VACHUYIREGFMSP-SJORKVTESA-N 441460 12_13-DiHOME HMDB04705 CQSLTKIXAJTQGA-FLIBITNWSA-N 10236635 C14829 9_10-DiHOME HMDB04704 XEBKSQSGNGRGDW-YFHOEESVSA-N 9966640 C14828 15_16-DiHODE HMDB10208 LKLLJYJTYPVCID-OHPMOLHNSA-N 16061068 12_13-DiHODE HMDB10201 RGRKFKRAFZJQMS-OOHFSOINSA-N 16061067 9_10-DiHODE HMDB10221 QRHSEDZBZMZPOA-ZJSQCTGTSA-N 16061066 14_15-DiHETrE HMDB02265 SYAWGTIVOGUZMM-ILYOTBPNSA-N 5283147 C14775 11_12-DiHETrE HMDB02314 LRPPQRCHCPFBPE-KROJNAHFSA-N 5283146 C14774 8_9-DiHETrE HMDB02311 DCJBINATHQHPKO-TYAUOURKSA-N 5283144 C14773 5_6-DiHETrE HMDB02343 GFNYAPAJUNPMGH-QNEBEIHSSA-N 5283142 C14772 14_15-DiHETE HMDB10204 BLWCDFIELVFRJY-QXBXTPPVSA-N 16061119 19_20-DiHDoPA HMDB10214 FFXKPSNQCPNORO-MBYQGORISA-N 16061148 13-HODE HMDB04667 HNICUWMFWZBIFP-IRQZEAMPSA-N 6443013 C14762 9-HODE HMDB10223 NPDSHTNEKLQQIJ-SIGMCMEVSA-N 5282945 13-HOTE HMDB10203 KLLGGGQNRTVBSU-JDTPQGGVSA-N 10469728 15-HETE HMDB03876 JSFATNQSLKRBCI-VAEKSGALSA-N 5280724 C04742 12-HETE HMDB06111 ZNHVWPKMFKADKW-FYMOKONMSA-N 5312983 9-HETE HMDB10222 KATOYYZUTNAWSA-DLJQHUEDSA-N 5312978 8-HETE HMDB04679 NLUNAYAEIJYXRB-VYOQERLCSA-N 5283154 C14776 5-HETE HMDB11134 KGIJOOYOSFUGPC-JGKLHWIESA-N 5280733 C04805 15-HEPE HMDB10209 UDXLGBLAJBYLSZ-XBCQTNLFSA-N 53480357 12-HEPE HMDB10202 MCRJLMXYVFDXLS-QGQBRVLBSA-N 10041593 9-HEPE HMDB60053 OXOPDAZWPWFJEW-FPRWAWDYSA-N 5283187 5-HEPE HMDB05081 FTAGQROYQYQRHF-FCWZHQICSA-N 6439678 17-HDoHE HMDB10213 SWTYBBUBEPPYCX-VIIQGJSXSA-N 6439179 14-HDoHE HMDB60044 ZNEBXONKCYFJAF-BGKMTWLOSA-N 11566378 4-HDoHE HMDB60049 IFRKCNPQVIJFAQ-JGDWKEERSA-N 53394255 9_10-EpO IMYZYCNQZDBZBQ-UHFFFAOYSA-N 15868 12(13)-EpOME HMDB04702 CCPPLLJZDQAOHD-FLIBITNWSA-N 5356421 9(10)-EpOME HMDB04704 XEBKSQSGNGRGDW-YFHOEESVSA-N 9966640 C14828 15(16)-EpODE HMDB10206 HKSDVVJONLXYKL-OHPMOLHNSA-N 16061062 12(13)-EpODE HMDB10200 BKKGUKSHPCTUGE-OOHFSOINSA-N 16061061 9(10)-EpODE HMDB10220 JTEGNNHWOIJBJZ-ZJSQCTGTSA-N 16061060 14(15)-EpETrE HMDB04693 WLMZMBKVRPUYIG-LTCHCNGXSA-N 11954058 C14813 11(12)-EpETrE HMDB10409 DXOYQVHGIODESM-IQCOFVSKSA-N 53480479 8(9)-EpETrE HMDB02232 DBWQSCSXHFNTMO-TYAUOURKSA-N 5283203 C14769 12(13)-Ep-9-KODE HMDB13623 RCMABBHQYMBYKV-BUHFOSPRSA-N 5283007 13-KODE HMDB04668 JHXAZBBVQSRKJR-BSZOFBHHSA-N 6446027 C14765 9-KODE HMDB04669 LUZSWWYKKLTDHU-ZJHFMPGASA-N 9839084 C14766 5-KETE HMDB10217 MEASLHGILYBXFO-XTDASVJISA-N 5283159 C14732 10-Nitrooleate --- WRADPCFZZWXOTI-UHFFFAOYSA-N 53394576 OEA HMDB02088 BOWVQLFMWHZBEF-KTKRTIGZSA-N 5283454 METABOLITES_END #END