#METABOLOMICS WORKBENCH petern_20160203_9687291_mwtab.txt DATATRACK_ID:499 amitch_20160212_075938 STUDY_ID:ST000351 ANALYSIS_ID:AN000568 PROJECT_ID:PR000280 VERSION 1 CREATED_ON February 18, 2016, 3:29 pm #PROJECT PR:PROJECT_TITLE Application of a targeted metabolomic profiling for the delineation of PR:PROJECT_TITLE mechanisms of autolytic systems in Streptococcus mutans cells under oxidative PR:PROJECT_TITLE stresses PR:PROJECT_SUMMARY Streptococcus mutans is capable of withstanding a variety of stressors PR:PROJECT_SUMMARY encountered in the oral cavity. The ability to efficiently and rapidly adjust to PR:PROJECT_SUMMARY the changing environment is essential for its pathogenic lifestyle. Oxidative PR:PROJECT_SUMMARY stress is one of the most important environmental variables affecting the PR:PROJECT_SUMMARY pathogenic potential of S. mutans, as high oxygen concentrations disfavor growth PR:PROJECT_SUMMARY of S. mutans and other oral bacteria. In order to fulfill its role as a major PR:PROJECT_SUMMARY constituent of cariogenic oral biofilms and sustain virulence, S. mutans must PR:PROJECT_SUMMARY overcome oxidative stress. Oxidation sensing and response is a complex yet PR:PROJECT_SUMMARY highly-regulated process, particularly because it is cross-regulated with other PR:PROJECT_SUMMARY metabolic pathways, stress responses and virulence physiology. In addition, we PR:PROJECT_SUMMARY previously showed that exposure of S. mutans to oxygen strongly inhibits biofilm PR:PROJECT_SUMMARY formation and alters cell surface biogenesis, possibly through AtlA, a major PR:PROJECT_SUMMARY autolysin of the organism. More recently, we have also shown that S. mutans PR:PROJECT_SUMMARY Cid/Lrg system, potentially mediating cell lysis/death in a programmed fashion, PR:PROJECT_SUMMARY uniquely leads a global readjustment in central metabolism and virulence PR:PROJECT_SUMMARY processes, particularly in coping with oxidative stress. To this end, a targeted PR:PROJECT_SUMMARY metabolomics approach will be employed to understand how these autolytic systems PR:PROJECT_SUMMARY influence the metabolism of S. mutans, ultimately leading to a more complete PR:PROJECT_SUMMARY appreciation of how S. mutans survives and persists in hostile host PR:PROJECT_SUMMARY microenvironment. PR:INSTITUTE University of Florida PR:DEPARTMENT College of Dentistry PR:LAST_NAME Ahn PR:FIRST_NAME Sang-Joon PR:ADDRESS 1395 Center Drive, Room D5-29 Gainesville FL 32610 PR:EMAIL sahn@dental.ufl.edu PR:PHONE 352-273-8834 PR:FUNDING_SOURCE NIH R03 #STUDY ST:STUDY_TITLE Determining the metabolic profile of wildtype, lrgAB, and atlA mutant ST:STUDY_TITLE Steptococcus mutans grown aerobically and anaerobically ST:STUDY_TYPE Single time point, aerobic vs. anaerobic cultures ST:STUDY_SUMMARY Whole cells from both aerobic and anaerobic cultures of wild-type,lrgAB and atlA ST:STUDY_SUMMARY strain will be isolated for analysis of the whole cytosolic metabolome. ST:STUDY_SUMMARY Supernatants will be also analyzed for their metabolite profile in wild type and ST:STUDY_SUMMARY lrgAB cultures. ST:INSTITUTE University of Florida ST:DEPARTMENT SECIM ST:LAST_NAME Ahn ST:FIRST_NAME Sang-Joon ST:ADDRESS 1395 Center Drive, Room D5-29 Gainesville FL 32610 ST:EMAIL sahn@dental.ufl.edu ST:PHONE 352-273-8834 ST:NUM_GROUPS 3 ST:TOTAL_SUBJECTS 36 #SUBJECT SU:SUBJECT_TYPE Bacteria SU:SUBJECT_SPECIES Streptococcus mutans #SUBJECT_SAMPLE_FACTORS: SUBJECT(optional)[tab]SAMPLE[tab]FACTORS(NAME:VALUE pairs separated by |)[tab]Additional sample data SUBJECT_SAMPLE_FACTORS - 1 Strain:UA159 wild type | Sample type:Whole cells | Growth condition:anaerobically SUBJECT_SAMPLE_FACTORS - 2 Strain:lrgAB mutant | Sample type:Whole cells | Growth condition:anaerobically SUBJECT_SAMPLE_FACTORS - 3 Strain:atlA mutant | Sample type:Whole cells | Growth condition:anaerobically SUBJECT_SAMPLE_FACTORS - 4 Strain:UA159 wild type | Sample type:Whole cells | Growth condition:aerobically SUBJECT_SAMPLE_FACTORS - 5 Strain:lrgAB mutant | Sample type:Whole cells | Growth condition:aerobically SUBJECT_SAMPLE_FACTORS - 6 Strain:atlA mutant | Sample type:Whole cells | Growth condition:aerobically SUBJECT_SAMPLE_FACTORS - 7 Strain:UA159 wild type | Sample type:Supernatant | Growth condition:anaerobically SUBJECT_SAMPLE_FACTORS - 8 Strain:lrgAB mutant | Sample type:Supernatant | Growth condition:anaerobically SUBJECT_SAMPLE_FACTORS - 9 Strain:UA159 wild type | Sample type:Supernatant | Growth condition:aerobically SUBJECT_SAMPLE_FACTORS - 10 Strain:lrgAB mutant | Sample type:Supernatant | Growth condition:aerobically SUBJECT_SAMPLE_FACTORS - 11 Strain:UA159 wild type | Sample type:Whole cells | Growth condition:anaerobically SUBJECT_SAMPLE_FACTORS - 12 Strain:lrgAB mutant | Sample type:Whole cells | Growth condition:anaerobically SUBJECT_SAMPLE_FACTORS - 13 Strain:atlA mutant | Sample type:Whole cells | Growth condition:anaerobically SUBJECT_SAMPLE_FACTORS - 14 Strain:UA159 wild type | Sample type:Whole cells | Growth condition:aerobically SUBJECT_SAMPLE_FACTORS - 15 Strain:lrgAB mutant | Sample type:Whole cells | Growth condition:aerobically SUBJECT_SAMPLE_FACTORS - 16 Strain:atlA mutant | Sample type:Whole cells | Growth condition:aerobically SUBJECT_SAMPLE_FACTORS - 17 Strain:UA159 wild type | Sample type:Supernatant | Growth condition:anaerobically SUBJECT_SAMPLE_FACTORS - 18 Strain:lrgAB mutant | Sample type:Supernatant | Growth condition:anaerobically SUBJECT_SAMPLE_FACTORS - 19 Strain:UA159 wild type | Sample type:Supernatant | Growth condition:aerobically SUBJECT_SAMPLE_FACTORS - 20 Strain:lrgAB mutant | Sample type:Supernatant | Growth condition:aerobically SUBJECT_SAMPLE_FACTORS - 21 Strain:UA159 wild type | Sample type:Whole cells | Growth condition:anaerobically SUBJECT_SAMPLE_FACTORS - 22 Strain:lrgAB mutant | Sample type:Whole cells | Growth condition:anaerobically SUBJECT_SAMPLE_FACTORS - 23 Strain:atlA mutant | Sample type:Whole cells | Growth condition:anaerobically SUBJECT_SAMPLE_FACTORS - 24 Strain:UA159 wild type | Sample type:Whole cells | Growth condition:aerobically SUBJECT_SAMPLE_FACTORS - 25 Strain:lrgAB mutant | Sample type:Whole cells | Growth condition:aerobically SUBJECT_SAMPLE_FACTORS - 26 Strain:atlA mutant | Sample type:Whole cells | Growth condition:aerobically SUBJECT_SAMPLE_FACTORS - 27 Strain:UA159 wild type | Sample type:Supernatant | Growth condition:anaerobically SUBJECT_SAMPLE_FACTORS - 28 Strain:lrgAB mutant | Sample type:Supernatant | Growth condition:anaerobically SUBJECT_SAMPLE_FACTORS - 29 Strain:UA159 wild type | Sample type:Supernatant | Growth condition:aerobically SUBJECT_SAMPLE_FACTORS - 30 Strain:lrgAB mutant | Sample type:Supernatant | Growth condition:aerobically SUBJECT_SAMPLE_FACTORS - C1-1 Strain:N/A | Sample type:Media only | Growth condition:N/A SUBJECT_SAMPLE_FACTORS - C1-2 Strain:N/A | Sample type:Media only | Growth condition:N/A SUBJECT_SAMPLE_FACTORS - C1-3 Strain:N/A | Sample type:Media only | Growth condition:N/A #COLLECTION CO:COLLECTION_SUMMARY Bacterial cells were harvested at mid-exponential phase of growth by CO:COLLECTION_SUMMARY centrifugation. The cell pellets were washed with PBS buffer and then flash CO:COLLECTION_SUMMARY frozen in liquid nitrogen. The culture supernatants were filtered and then flash CO:COLLECTION_SUMMARY frozen in liquid nitrogen CO:SAMPLE_TYPE Bacterial cells #TREATMENT TR:TREATMENT_SUMMARY Bacterial cells were grown under aerobic and anaerobic conditions. #SAMPLEPREP SP:SAMPLEPREP_SUMMARY see attached protocols #CHROMATOGRAPHY CH:CHROMATOGRAPHY_SUMMARY Acylcarnitine method CH:CHROMATOGRAPHY_TYPE Reversed phase CH:INSTRUMENT_NAME Agilent 1290 Infinity CH:COLUMN_NAME Waters Acquity BEH C18 (100 x 2.1mm, 1.7um) #ANALYSIS AN:ANALYSIS_TYPE MS #MS MS:MS_COMMENTS - MS:INSTRUMENT_NAME Agilent 6490 QQQ MS:INSTRUMENT_TYPE Triple quadrupole MS:MS_TYPE ESI MS:ION_MODE POSITIVE #MS_METABOLITE_DATA MS_METABOLITE_DATA:UNITS nmol/mg MS_METABOLITE_DATA_START Samples 1 11 21 4 14 24 2 12 22 5 15 25 3 13 23 6 16 26 Factors Strain:UA159 wild type | Sample type:Whole cells | Growth condition:anaerobically Strain:UA159 wild type | Sample type:Whole cells | Growth condition:anaerobically Strain:UA159 wild type | Sample type:Whole cells | Growth condition:anaerobically Strain:UA159 wild type | Sample type:Whole cells | Growth condition:aerobically Strain:UA159 wild type | Sample type:Whole cells | Growth condition:aerobically Strain:UA159 wild type | Sample type:Whole cells | Growth condition:aerobically Strain:lrgAB mutant | Sample type:Whole cells | Growth condition:anaerobically Strain:lrgAB mutant | Sample type:Whole cells | Growth condition:anaerobically Strain:lrgAB mutant | Sample type:Whole cells | Growth condition:anaerobically Strain:lrgAB mutant | Sample type:Whole cells | Growth condition:aerobically Strain:lrgAB mutant | Sample type:Whole cells | Growth condition:aerobically Strain:lrgAB mutant | Sample type:Whole cells | Growth condition:aerobically Strain:atlA mutant | Sample type:Whole cells | Growth condition:anaerobically Strain:atlA mutant | Sample type:Whole cells | Growth condition:anaerobically Strain:atlA mutant | Sample type:Whole cells | Growth condition:anaerobically Strain:atlA mutant | Sample type:Whole cells | Growth condition:aerobically Strain:atlA mutant | Sample type:Whole cells | Growth condition:aerobically Strain:atlA mutant | Sample type:Whole cells | Growth condition:aerobically C2 BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ 0.07 BLOQ BLOQ 0.08 0.06 C3 BLOQ 0.01 0.01 BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ 0.01 0.01 0.01 0.01 0.01 0.01 C3-DC BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ C3-OH BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ C4 Butyryl 0.01 0.01 0.02 0.01 0.01 BLOQ 0.01 0.01 0.01 0.01 0.01 0.01 0.02 0.02 0.01 0.01 0.02 0.01 C4 Isobutyryl BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ C4:1 BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ C4-DC Methylmalonyl BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ C4-DC Succinyl BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ C4-OH Butyryl BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ C4-OH Isobutyryl BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ C5 2-Methylbutyryl BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ C5 Isovaleryl BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ C5 Valeryl BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ C5:1 BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ C5-DC BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ C5-OH 0.01 0.01 0.01 0.01 0.01 BLOQ 0.01 0.01 0.01 0.02 0.01 0.01 0.02 0.01 0.01 0.01 0.02 0.01 C6 BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ C6-OH BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ C8 BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ C8:1-OH BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ C8-OH BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ C10 BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ C10-OH BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ C12 BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ C12:1 BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ C12-OH BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ C14 BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ C14:1 BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ C14:1-OH BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ C14:2 BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ C14:2-OH BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ C14-OH BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ C16 0 0 0 BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ 0 BLOQ BLOQ BLOQ BLOQ C16:1 BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ C16:1-OH BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ C16:2 BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ C16:2-OH BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ C16-OH BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ C18 BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ C18:1 BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ C18:1-OH BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ C18:2 BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ C18:2-OH BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ C18-OH BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ C20 BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ C20:1 BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ C20:1-OH BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ C20:2 BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ C20:2-OH BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ C20:3 BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ C20:4 BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ C20-OH/C22:6 BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ C22 BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ C22:1 BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ C22:2 BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ C22:3 BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ C22:4 BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ C22:5 BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ BLOQ MS_METABOLITE_DATA_END #METABOLITES METABOLITES_START metabolite_name Retention Index Moverz Quant PubChem CID C10 7.93 421.2, 190.1 28402062 C10-OH 7.13 437.1, 190.1 NIDB C12 8.53 449.2, 190.1 168381 C12:1 8.22 447.2, 190.1 53481671 C12-OH 7.88 465.1, 190.1 53481640 C14 9.07 477.3, 190.1 6426854 C14:1 8.74 475.3, 190.1 22833575 C14:1-OH 8.08 491.2, 190.1 NIDB C14:2 8.34 473.3, 190.1 71464539 C14:2-OH 7.99 489.2, 190.1 71464482 C14-OH 8.48 493.2, 190.1 71464541 C16 9.57 505.2, 190.1 11953816 C16:1 9.27 503.2, 190.1 53481653 C16:1-OH 8.72 519.3, 190.1 71464549 C16:2 8.98 501.2, 190.1 71464545 C16:2-OH 9.46 517.3, 190.1 71464484 C16-OH 9.02 521.3, 190.1 53481693 C18 10.02 533.3, 190.1 6426855 C18:1 9.71 531.3, 190.1 46907933 C18:1-OH 9.22 547.3, 190.1 71464558 C18:2 9.42 529.3, 190.1 6450015 C18:2-OH 8.919 545.2, 190.1 71464556 C18-OH 9.453 549.3, 190.1 71464560 C2 3.077 309.2, 190.1 1 C20 10.424 561.3, 190.1 53477833 C20:1 10.13 559.3, 190.1 71464507 C20:1-OH 9.65 575.3, 190.1 NIDB C20:2 10.13 557.3, 190.1 71464509 C20:2-OH 9.366 573.3, 190.1 NIDB C20:3 9.6 555.3, 190.1 NIDB C20:4 9.356 553.3, 190.1 53477832 C20-OH/C22:6 9.967 577.3, 190.1 71464572 C22 10.798 589.3, 190.1 71464577 C22:1 10.494 587.3, 190.1 NIDB C22:2 10.225 585.3, 190.1 71464511 C22:3 9.994 583.3, 190.1 NIDB C22:4 9.79 581.3, 190.1 71464592 C22:5 9.548 579.3, 190.1 71464594 C3 3.769 323.2, 190.1 107738 C3-DC 5.079 458.1, 190.1 22833583 C3-OH 2.514 325.2, 190.1 53481613 C4 Butyryl 4.498 337.2, 190.1 439829 C4 Isobutyryl 4.399 337.2, 190.1 168379 C4:1 4.105 335.2, 190.1 NIDB C4-DC Methylmalonyl 5.357 472.2, 190.1 53481628 C4-DC Succinyl 5.172 472.2, 190.1 71464481 C4-OH Butyryl 3.205 353.2, 190.1 71464477 C4-OH Isobutyryl 3.105 353.2, 190.2 NIDB C5 2-Methylbutyryl 5.106 351.2, 190.1 6426901 C5 Isovaleryl 5.232 351.2, 190.1 6426852 C5 Valeryl 5.32 351.2, 190.1 6426903 C5:1 4.751 349.2, 190.1 22833596 C5-DC 5.451 486.2, 190.1 53481622 C5-OH 3.717 367.2, 190.1 NIDB C6 6.124 365.2, 190.1 6426853 C6-OH 3.99 381.1, 190.1 53481624 C8 7.197 393.2, 190.1 11953814 C8:1-OH 5.622 407.1, 190.1 NIDB C8-OH 6.143 409.1, 190.1 NIDB METABOLITES_END #END