Data for Exposure to high fat diets and bisphenol (Study ST000670)

(Analysis AN001027)

Values for each metabolite have been scaled by dividing by the mean across all factors

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MetaboliteF1F2F3F4F5F6F7F8F9F10F11F12
CE(16:0); [M+NH4]+@11.05 0.8078 1.1387 0.6103 1.0838 0.6514 1.0373 0.9032 1.3174 0.8114 1.1457 0.8224 1.3385
CE(16:1); [M+NH4]+@10.74 0.9347 1.2313 0.6493 0.9523 0.7007 1.2033 0.6464 1.5078 1.0136 0.9247 0.5960 1.0858
CE(17:1); [M+NH4]+@10.91 0.9104 1.6016 1.0810 0.9356 0.8238 0.8091 0.8633 1.1118 0.9704 0.9044 1.1223 0.8996
CE(18:0); [M+NH4]+@11.43 0.9563 0.9507 0.8589 1.1075 1.3873 0.5303 1.2081 0.9589 1.2755 0.7669 1.1505 0.9579
CE(18:1); [M+NH4]+@11.00 1.2259 1.1917 1.1974 0.8675 1.0186 1.4471 0.4791 0.9125 1.0159 0.5398 0.9558 0.9649
CE(18:2); [M+NH4]+@11.29 0.8677 1.0821 0.7916 1.0603 0.7617 0.9964 0.9731 1.1818 0.8813 1.1679 0.7579 1.2394
CE(18:3); [M+NH4]+@10.56 0.7952 1.2131 0.7039 1.0043 0.7323 1.0421 1.0819 1.3051 0.8622 0.9464 0.7899 1.3115
CE(20:1); [M+NH4]+@11.35 1.0753 1.2923 0.4188 1.1497 0.6037 0.9663 0.7936 1.3145 1.0946 0.8478 1.0342 1.0323
CE(20:2); [M+NH4]+@11.13 0.7892 1.2876 0.7003 1.1682 0.5463 0.8091 0.7594 1.1967 0.7859 1.2364 0.6978 1.6019
CE(20:3); [M+NH4]+@10.83 0.7726 1.0484 0.4531 0.9448 0.7888 0.9113 0.8546 1.3105 1.0562 1.2480 0.6377 1.4467
CE(20:4); [M+NH4]+@11.34 0.9776 1.4459 0.6111 0.9483 0.6282 0.6498 0.7606 0.9712 1.0169 1.5637 0.6862 1.2694
CE(20:5); [M+NH4]+@10.47 0.8308 0.9970 1.0404 0.9504 1.0196 1.3882 0.4935 1.0268 1.1983 0.6187 0.6927 1.3570
CE(22:4); [M+NH4]+@10.91 0.9145 1.1225 0.5793 0.9841 0.6794 0.7709 0.9358 1.1216 0.9732 1.3067 0.9173 1.4109
CE(22:5); [M+NH4]+@10.75 0.8922 1.1604 0.6472 1.0156 0.7402 0.8345 0.8768 1.0927 0.9797 1.2804 0.7526 1.3660
CE(22:6); [M+NH4]+@10.54 0.9495 0.9765 1.0413 0.6461 1.5148 1.1033 0.4505 0.8325 1.3360 0.7072 1.0430 1.1668
Cer(d34:0)[M+H]+ 0.8024 1.1224 0.7594 0.8094 0.6391 1.0119 0.5530 1.3332 0.4706 1.6802 0.5296 1.7099
Cer(d36:1)[M+H]+ 1.4340 0.6821 2.1553 0.5026 1.2363 0.6460 1.2129 0.7384 1.4077 0.8199 1.0356 0.8312
Cer(d41:1)[M+H]+ 1.7889 0.4010 1.4949 1.0307 1.8327 1.0432 1.2406 0.3648 0.9172 0.5203 1.2179 0.6247
Cer(d42:1)[M+H]+ 0.8076 1.1685 0.8743 1.0983 0.6283 0.9789 1.0453 1.2602 0.9405 1.0242 0.7678 1.2497
Cer(d42:1)[M+H-H2O] 0.9037 1.1417 0.8822 1.0414 0.6237 0.9719 1.0159 1.2475 0.9088 1.0701 0.7943 1.2451
Cer(d42:1)[M+Na]+ 0.8590 1.1484 0.6959 1.0870 0.6992 1.0255 0.9983 1.2648 1.0437 0.9445 0.8334 1.1640
Cer(d42:2)[M+H]+ 0.5773 1.2291 0.6685 1.2590 0.5170 1.0257 0.7838 1.4084 0.6451 1.4129 0.5161 1.4413
Cer(d42:2)[M+Na]+ 0.8449 0.9632 0.6851 1.1648 0.7943 1.1540 1.1047 1.2330 0.8034 1.1147 0.7318 1.1669
CerP(t39:1)[M+H]+ 0.8253 1.2796 0.5774 1.1269 0.7642 1.0201 0.6838 1.1401 0.9629 1.1028 0.9525 1.1714
Cer(t44:1)[M+H]+ 0.8900 1.2786 0.8381 1.1212 0.7068 0.9823 0.9570 1.2811 0.9067 0.8521 0.8493 1.1590
Cer(t45:1)[M+H]+ 0.7169 1.2025 0.7748 1.2028 0.6870 1.0925 0.9106 1.1757 0.9579 1.0701 0.8905 1.1068
DG 32:0; [M+NH4]+@7.97 0.8217 0.9334 0.9446 1.2436 1.1511 0.9246 1.0428 0.9868 0.9229 1.0872 0.7859 1.0421
DG 32:1; [M+NH4]+@7.53 0.6856 1.2792 1.1607 1.0253 0.9069 0.9608 0.8209 0.8053 1.1386 0.7826 1.3159 1.2669
DG 32:2; [M+NH4]+@7.10 0.5294 1.1448 0.3675 1.6346 0.5813 1.2337 0.1881 1.3846 0.6725 1.6316 1.1033 0.8580
DG 33:1; [M+NH4]+@7.71 1.3259 0.7351 1.1284 0.8348 0.8066 0.8970 0.5807 0.9350 0.8626 0.9146 2.3551 1.1563
DG 33:2; [M+NH4]+@7.33 1.1764 1.1337 0.4832 0.8225 0.7407 0.8543 1.6213 1.1870 1.0587 0.9691 1.0077 1.0016
DG 34:0; [M+NH4]+@8.48 0.9806 0.9208 1.0458 1.0728 1.0334 1.0567 1.0384 1.0276 0.9404 0.9652 0.8715 1.0246
DG 34:2; [M+NH4]+@7.65 0.8934 1.0879 0.5227 1.4048 0.5789 0.7921 0.9597 1.3209 0.8252 1.5536 0.7109 0.9466
DG 34:3; [M+NH4]+@7.24 0.8015 1.0238 0.3869 1.7003 0.4686 0.9737 0.6888 1.0849 0.6805 1.7102 0.4653 1.2859
DG 35:1; [M+NH4]+@8.28 1.1502 1.0229 0.7852 1.1696 0.8166 0.7018 1.7050 0.9912 1.0890 1.1776 1.1908 0.5406
DG 35:2; [M+NH4]+@7.91 0.6030 1.5785 0.5412 1.3468 0.5186 0.7098 1.1115 1.0118 0.6844 1.5403 0.3283 1.5163
DG 36:0; [M+NH4]+@8.91 0.9752 0.8711 1.0392 1.2637 1.1175 1.1621 1.0207 0.9061 0.9400 0.9536 0.8097 0.8759
DG 36:1; [M+NH4]+@8.55 0.8863 0.8480 0.6240 1.1887 0.7518 0.7446 1.7977 1.0902 1.0547 1.3433 0.9918 0.8857
DG 36:2; [M+NH4]+@8.12 0.7763 0.7742 0.6305 1.1833 0.6992 0.8435 2.0720 0.9627 0.9131 1.5254 1.1939 0.8739
DG 36:3; [M+NH4]+@7.73 1.1673 0.6673 0.7916 1.1270 0.7927 0.7958 1.5577 0.9034 1.0995 1.3831 1.1784 0.8001
DG 36:4; [M+NH4]+@7.40 1.0460 1.0466 0.9282 1.2920 0.5923 0.7810 0.9448 1.1725 0.9134 1.2983 0.8361 1.0032
DG 36:5; [M+NH4]+@7.02 0.8053 1.3287 1.0096 1.3335 0.8322 0.5451 0.8048 0.9035 0.7716 1.6711 1.2165 0.7937
DG 38:1; [M+NH4]+@8.75 0.8946 1.3277 1.2040 1.1551 1.0754 1.3894 0.7724 0.8109 0.8345 0.6462 0.8426 0.9569
DG 38:2; [M+NH4]+@8.62 0.2746 1.3072 0.2090 1.6766 0.1879 0.9013 0.4642 1.9115 0.2895 2.0401 0.2371 1.4562
DG 38:3; [M+NH4]+@8.28 0.6183 0.9764 0.7141 1.7764 0.5116 0.9399 0.9584 1.1726 0.6034 1.6050 0.6027 1.1588
DG 38:4; [M+NH4]+@8.19 0.7592 1.2017 0.5982 1.4615 0.4191 0.8207 1.5205 1.1919 0.7860 1.5697 0.9867 0.7375
DG 38:5; [M+NH4]+@7.69 0.9549 1.1335 1.2979 0.8942 0.8876 1.2829 0.7172 0.9564 0.9448 0.9524 0.9378 1.0170
DG 38:6; [M+NH4]+@7.35 0.9306 1.0829 0.5561 1.3447 0.5274 0.9996 0.6186 1.2024 0.7531 1.5874 0.8523 1.0583
DG 40:6; [M+NH4]+@7.75 1.0113 0.9020 1.6801 1.1768 0.8324 1.2030 0.5229 0.8921 0.8124 1.0515 1.2613 0.8863
DG 40:7; [M+NH4]+@7.64 0.9776 1.0388 0.6499 1.3333 0.6563 0.9740 1.0419 0.8134 0.7364 1.7789 0.9075 0.8917
DG(48:1);TG(O-48:1);TG(P-48:0)[M+NH4]+ 0.8208 0.9608 1.7952 1.2702 1.1310 1.5224 1.0444 0.5370 0.8293 0.9476 0.4372 0.8424
LPC(20:2)[M+H]+ 0.8084 1.1945 0.8422 1.3199 0.6706 1.4860 0.5002 1.0032 0.8442 0.8150 0.7845 1.2947
LPC(20:3)[M+H]+ 0.8514 0.9992 0.7861 1.1522 0.9784 1.1480 1.0205 1.0474 1.0201 0.9916 1.0077 0.9045
LPC(22:1)[M+H]+ 0.4591 1.4540 0.3550 1.5781 0.3997 1.1073 0.4641 1.2173 0.4664 1.5631 0.3976 1.6468
LPC(22:4)[M+H]+ 0.5503 1.2379 0.4343 1.5240 0.4992 1.2297 0.6422 1.1825 0.5524 1.4546 0.6114 1.4255
LPC(32:0);PC(O-32:0)[M+H]+ 0.8548 1.2273 0.6568 1.3360 0.6056 1.2233 0.6295 1.2033 0.6927 1.0113 0.5791 1.4129
LPC(P-18:0)[M+H]+ 0.8696 1.0119 0.8494 1.1735 0.7170 1.0415 0.8961 1.2014 0.9305 1.0439 0.7636 1.2561
LPE(P-16:0)[M+H]+ 0.9299 1.0003 0.8241 1.1967 0.8897 1.1399 0.7456 1.3326 1.0518 0.9467 0.5181 0.9685
LPE(P-18:0)[M+H]+ 0.8714 1.2974 0.8107 0.9221 0.7547 1.0159 0.9264 1.0612 0.9775 1.0870 1.0246 1.1318
LPE(P-20:0)[M+H]+ 0.9455 1.0897 0.8951 0.9546 0.8313 0.8596 0.9164 0.9948 1.1453 1.0874 1.0868 1.1425
lysoPC 14:0; [M+H]+@1.09 0.5724 1.4750 0.5059 1.2548 0.4205 0.7460 0.5996 1.6113 0.5586 1.4594 0.5862 1.5563
lysoPC 15:0; [M+H]+@1.26 0.7790 1.2620 0.8602 1.2445 0.7035 1.0393 0.6425 1.1101 0.7663 1.1382 0.7384 1.3366
lysoPC 16:0; [M+H]+@1.60 0.9507 1.1754 0.8930 1.0972 0.9065 1.4367 0.4513 1.0152 0.9741 0.7159 0.9254 1.0933
lysoPC 16:1; [M+H]+@1.21 0.7789 1.0997 0.7023 1.2127 0.6938 0.9608 0.9767 1.2437 0.8101 1.1293 0.8714 1.2958
lysoPC 17:1; [M+H]+@1.50 0.7299 1.0984 0.5522 1.2968 0.6686 1.0495 1.2961 1.1804 0.7964 1.0891 0.8841 1.2247
lysoPC 18:0; [M+H]+@2.41 0.9738 1.0012 0.7177 0.9538 0.7966 0.7388 1.2268 0.9868 1.1305 1.2452 1.0996 1.1513
lysoPC 18:1; [M+H]+@1.82 0.8067 1.1107 0.7128 1.0672 0.6658 0.8756 1.2628 1.2002 0.9024 1.1690 0.8734 1.2778
lysoPC 18:2; [M+H]+@1.38 0.9363 1.0255 0.8354 1.1596 0.6797 0.9532 1.0527 1.1979 0.8881 1.0663 0.6952 1.3017
lysoPC 18:3; [M+H]+@1.12 1.0493 0.9597 1.1586 1.0868 1.0812 1.2996 0.6596 0.9909 1.0448 0.5315 0.9865 1.0538
lysoPC 19:0; [M+H]+@2.92 0.6562 1.5402 0.4868 1.2793 0.5456 1.0143 0.7093 1.1749 0.6570 1.2958 0.6730 1.4021
lysoPC 20:0; [M+H]+@3.37 0.3712 1.7443 0.4779 1.3544 0.3759 1.3742 0.1849 1.0888 0.3733 1.2831 0.3949 2.0058
lysoPC 20:0; [M+Na]+@3.34 0.2665 1.5775 0.2146 1.8323 0.2083 0.9174 0.2520 1.2655 0.2567 1.8938 0.2582 1.9196
lysoPC 20:1; [M+H]+@2.55 0.5125 1.3689 0.4639 1.4354 0.3901 1.0611 0.6108 1.2259 0.5089 1.5660 0.5533 1.6172
lysoPC 20:3; [M+H]+@1.58 0.7582 1.0750 0.6297 1.1783 0.5937 0.9700 1.1175 1.2076 0.9449 1.2457 0.6403 1.3328
lysoPC 20:4; [M+H]+@1.35 0.9535 1.0224 0.7445 1.0153 0.8173 0.8256 1.2290 1.0855 1.0616 1.1493 0.9425 1.1116
lysoPC 20:5; [M+H]+@1.06 0.8881 0.8221 1.8558 1.6078 1.0251 1.5481 0.4023 0.6932 0.8747 0.5570 0.9018 0.9040
lysoPC 22:0; [M+H]+@4.32 0.8476 1.4139 0.8199 1.1205 0.7642 1.2043 0.3681 0.9564 0.8471 0.9312 0.8051 1.4182
lysoPC 22:4; [M+H]+@1.82 0.8221 1.0294 0.6372 1.2470 0.6755 0.8854 1.0005 1.1578 0.9175 1.3115 0.6690 1.3006
lysoPC 22:5; [M+H]+@1.48 0.8493 1.0198 0.6664 1.2120 0.6555 0.7922 1.1890 1.0411 0.9230 1.3703 0.8662 1.2759
lysoPC 22:6; [M+H]+@1.21 1.1000 0.8737 0.7894 0.9922 0.9062 0.6589 1.3012 0.8978 1.3148 1.1590 0.9693 1.0675
lysoPC 24:0; [M+H]+@5.17 0.8245 1.3089 0.5366 1.1491 0.5864 0.8365 0.7085 1.1873 0.8476 1.3531 0.7831 1.3925
lysoPC 24:1; [M+H]+@4.35 0.6748 1.3608 0.4786 1.2775 0.5616 0.9733 0.6987 1.2844 0.7363 1.2850 0.6389 1.4381
lysoPE 16:0; [M+H]+@1.72 0.9652 1.2770 0.7482 1.0353 0.8022 0.8918 0.9440 1.0830 1.0766 0.9465 1.0385 1.0572
lysoPE 18:0; [M+H]+@2.51 0.9055 1.2727 0.7346 1.0154 0.7959 0.8348 0.9478 1.1045 1.0148 1.0370 1.0387 1.1589
lysoPE 18:1; [M+H]+@1.88 0.8014 1.1438 0.7519 1.1461 0.6322 0.9895 1.1109 1.2063 0.9143 1.0308 0.7898 1.3093
lysoPE 18:2; [M+H]+@1.38 0.8866 1.0055 0.8015 1.2442 0.7305 1.0112 1.2921 1.2464 0.8196 1.0016 0.6459 1.1847
lysoPE 18:3; [M+H]+@1.15 0.8637 1.0205 1.2052 1.0821 1.0868 1.2169 1.6339 0.9069 0.7624 0.8197 0.6569 0.9930
lysoPE 20:4; [M+H]+@1.33 0.8991 1.1619 0.6077 1.1213 0.7518 0.9070 1.1150 1.0906 1.0117 1.1373 0.9143 1.1007
lysoPE 22:6; [M+H]+@1.29 0.6916 1.4440 0.3571 1.2037 0.4806 0.7028 0.5394 1.4597 0.7935 1.6164 0.5506 1.3841
MG 17:0; [M+Li]+@3.17 0.9957 0.9799 0.8535 1.0016 0.9129 0.9358 0.9182 1.1463 1.1502 1.0411 0.9115 0.9949
PA(P-47:3)[M+H]+ 0.8867 1.2000 0.5862 1.0664 0.7589 1.0252 0.8978 1.0598 1.0376 1.0708 0.8799 1.2127
PC 19:1; [M+H]+@1.87 0.8838 0.7597 0.4076 0.9605 0.8668 1.0451 0.6211 1.8162 0.7946 1.2638 0.5519 1.3193
PC(28:0)[M+H]+ 0.8002 1.4046 0.6969 0.9613 0.7714 1.2012 0.7996 1.0929 0.7987 0.9744 0.8451 1.3246
PC 30:0; [M+H]+@5.91 0.7865 1.1938 0.7242 1.2025 0.7132 1.0501 0.6394 1.2511 0.8290 1.0756 0.7094 1.3617
PC 30:0; [M+Na]+@6.05 1.0583 0.6630 1.0592 1.0927 0.9508 1.3421 1.1710 0.9321 1.1874 0.9070 0.9073 0.7980
PC 30:1; [M+Na]+@5.50 0.4383 2.0151 0.4462 0.9000 0.2849 0.6781 0.3175 1.2885 0.5283 1.7352 0.3746 2.0624
PC 30:3; [M+H]+@5.26 1.0281 0.9088 0.7786 1.7123 1.1586 1.5956 0.1741 0.4984 1.1116 0.5896 0.9836 0.9289
PC(31:0)[M+H]+ 1.0469 0.9339 0.8928 1.2646 0.7627 0.8129 0.8275 1.0837 0.8729 1.1650 0.9027 1.2458
PC(32:0)[M+H]+ 0.9053 1.2518 0.5685 1.0706 0.7619 1.1635 0.6004 1.2815 0.8442 1.1501 0.7210 1.1263
PC 32:0; [M+Na]+@6.66 0.9512 0.9665 0.9318 1.0182 0.9434 0.6736 1.0418 1.0454 0.7676 1.1563 1.0840 1.4492
PC(32:1)[M+H]+ 0.7543 1.1946 0.4775 1.2330 0.6731 1.0728 0.7474 1.3785 0.8394 1.1226 0.7421 1.2483
PC 32:1; [M+Na]+@6.14 0.5923 1.2683 0.4286 1.2574 0.5622 0.8678 0.5169 1.3875 0.6647 1.2519 0.5432 1.9035
PC(32:2)[M+H]+ 0.5712 1.4621 0.3210 1.4979 0.3546 0.8117 0.5330 1.3673 0.5995 1.5409 0.4816 1.6269
PC 32:2; [M+Na]+@5.69 0.3649 1.7890 0.2070 1.4118 0.2026 0.7053 0.2911 1.8413 0.4041 1.8614 0.2973 1.5219
PC 32:3; [M+H]+@6.08 1.1956 0.6538 1.0754 1.0554 1.0688 1.3857 0.9250 0.9601 1.1592 0.8384 1.0158 0.6749
PC(33:1)[M+H]+ 0.7583 1.3451 0.4883 1.2784 0.5611 0.9359 0.7352 1.3622 0.7838 1.1407 0.5876 1.4289
PC 33:2; [M+H]+@5.85 0.6580 1.3736 0.4519 1.4087 0.3929 1.0452 0.5647 1.3837 0.5440 1.3341 0.4418 1.6307
PC 33:2; [M+Na]+@6.07 1.0687 1.1463 0.8371 1.1059 1.0725 1.1170 0.8496 0.9900 0.9221 0.8255 0.8496 0.9839
PC 33:3; [M+H]+@5.62 0.6315 1.2245 0.6562 1.5581 0.7670 0.8754 0.4012 1.1025 0.5786 1.4882 0.5737 1.4586
PC(34:0)[M+H]+ 1.0003 1.0001 1.0009 0.9987 1.0003 0.9993 1.0024 1.0006 1.0009 0.9971 1.0004 1.0008
PC 34:0; [M+H]+@6.39 0.6773 1.4792 0.4209 1.1809 0.4485 1.0128 0.4437 1.5258 0.5850 1.3977 0.5936 1.4637
PC(34:1)[M+H]+ 0.7617 1.2159 0.4554 1.2721 0.5757 1.0385 0.7704 1.3290 0.7801 1.1889 0.6935 1.3785
PC(34:2)[M+H]+ 0.9216 1.0026 0.7536 1.2309 0.7936 1.0578 0.8603 1.1422 0.8757 1.0185 0.7266 1.2869
PC(34:3)[M+H]+ 0.5181 1.3746 0.3795 1.4885 0.2931 0.9408 0.5328 1.3597 0.6185 1.6356 0.5510 1.5395
PC 34:3; [M+H]+@4.18 0.7071 1.2107 0.6103 1.1470 0.4877 1.0181 0.8942 0.9574 0.5600 1.6070 0.9383 1.5837
PC 34:4; [M+H]+@5.44 0.3121 1.9656 0.1915 1.3864 0.1835 0.6528 0.2139 1.5970 0.3073 1.8934 0.2451 1.8766
PC 34:4; [M+Na]+@5.65 0.6033 1.6633 0.2923 1.2226 0.3485 0.8378 0.5338 1.1935 0.6059 1.8114 0.5502 1.5257
PC 34:5; [M+H]+@5.67 0.5415 1.5686 0.3728 1.4308 0.4007 0.8290 0.6335 1.3587 0.7062 1.5013 0.5279 1.3961
PC(35:1)[M+H]+ 0.7413 1.3880 0.7054 0.9987 0.7352 1.6151 0.4797 1.0995 0.8715 0.7955 0.9190 1.2031
PC(35:2)[M+H]+ 0.7110 1.2117 0.5755 0.9929 0.4312 1.0285 0.8549 1.3702 0.6195 1.4040 0.7396 1.6459
PC(35:3)[M+H]+ 0.5643 1.5761 0.4915 1.1747 0.4030 0.9433 0.6237 1.2208 0.6574 1.6324 0.5189 1.5110
PC(35:3)[M+H]+6.2 0.7259 1.1519 0.6456 1.3001 0.5998 1.0248 0.8013 1.2568 0.7417 1.2227 0.5964 1.4546
PC 35:5; [M+H]+@5.56 0.5954 1.6528 0.4165 1.6712 0.4726 0.6325 0.7093 1.4220 0.6276 1.4406 0.5390 1.1529
PC(36:1)[M+H]+ 0.6413 1.2526 0.8313 0.9500 0.6301 0.7477 0.9761 1.2954 0.9012 1.2373 0.9617 1.4598
PC(36:2)[M+H]+ 0.8373 1.0820 0.6627 1.1696 0.6816 0.9814 0.9039 1.2081 0.8711 1.1450 0.7884 1.3465
PC(36:3)[M+H]+ 0.7987 1.3555 0.6813 1.0762 0.6626 1.5395 0.3832 1.1523 0.8480 0.8316 0.5938 1.4065
PC(36:4)[M+H]+ 0.8495 0.9766 0.6158 1.1169 0.8024 0.9731 0.8866 1.1383 0.9879 1.2100 0.8834 1.2523
PC 36:4; [M+Na]+@6.08 0.9743 0.8320 1.3736 1.1400 0.9858 1.1601 0.9678 0.9927 0.9260 0.9645 0.6853 1.0111
PC(36:5)[M+H]+ 0.4817 1.4908 0.3308 1.2709 0.3547 0.8471 0.4577 1.3074 0.6326 1.7232 0.4867 1.7540
PC 36:5; [M+H]+@4.31 0.6990 0.9720 0.9051 0.8781 1.0024 0.8681 0.8376 1.1966 0.8101 1.1001 0.6528 1.7760
PC 36:5; [M+Na]+@5.56 0.8582 1.0530 1.6822 1.4367 1.0877 1.5118 0.3887 0.6816 0.9163 0.6254 0.8730 0.8572
PC 36:6; [M+H]+@5.45 0.7538 1.6103 0.4828 0.9644 0.5819 0.9263 0.3157 1.1793 0.8622 1.2568 0.6640 1.6337
PC 36:7; [M+H]+@5.65 0.6273 1.3406 0.3396 1.2062 0.4457 0.8325 0.4961 1.2556 0.6805 1.7884 0.7020 1.5543
PC 37:1; [M+H]+@7.72 0.7963 1.3726 0.6432 1.3372 0.6144 1.4369 0.3638 1.0767 0.8464 0.8137 0.9109 1.2468
PC 37:6; [M+H]+@5.81 0.9084 1.4188 0.6877 0.9700 0.7444 1.1706 0.4178 1.0548 0.9332 0.9196 0.8706 1.3920
PC(38:2)[M+H]+ 0.4285 1.4917 0.4066 1.4825 0.3705 0.9633 0.4343 1.3367 0.4433 1.6202 0.3300 1.7778
PC(38:3)[M+H]+ 0.4789 1.3644 0.4907 1.1837 0.4663 0.8355 0.5811 1.3063 0.7129 1.6345 0.4905 1.7361
PC 38:3; [M+H]+@8.48 0.7516 0.9444 0.4643 1.0989 0.6950 1.1659 0.8298 1.2043 1.2297 1.3702 1.1075 0.8393
PC(38:4)[M+H]+ 0.9316 0.9689 0.6211 0.9806 0.8430 0.7701 1.2027 1.0359 1.1473 1.2001 1.0645 1.1784
PC(38:5)[M+H]+ 0.6474 1.3122 0.4655 1.1705 0.5031 0.7861 0.7342 1.2620 0.7172 1.6659 0.6363 1.5177
PC(38:6)[M+H]+ 0.9070 1.1225 0.5669 1.0874 0.7723 0.7471 0.8970 0.9415 1.1179 1.3758 0.9226 1.2352
PC 38:6; [M+Na]+@6.16 0.9850 0.8328 1.0809 1.0599 1.1412 0.9997 1.3109 0.8612 1.1081 0.9510 1.0250 0.8528
PC 38:7; [M+H]+@5.55 0.7915 1.2828 0.7964 0.8892 0.7249 1.0492 0.3946 0.8936 0.9944 1.2427 0.5957 1.7382
PC 38:7; [M+Na]+@5.54 0.6938 1.1812 0.6233 1.1441 0.4885 0.6583 0.6881 1.2268 0.9404 1.4812 0.6867 1.6867
PC 38:8; [M+H]+@5.57 0.8791 1.0345 1.8641 1.3867 1.1127 1.5325 0.3850 0.6450 0.9577 0.6004 0.8294 0.8122
PC 38:9; [M+H]+@5.56 0.7971 1.3106 0.5428 1.0399 0.5299 0.8384 0.7500 0.9582 0.7251 1.8167 0.6977 1.4888
PC 39:3; [M+H]+@7.55 0.4681 1.7134 0.2684 1.1591 0.2624 0.9567 0.4853 1.6104 0.5639 1.6338 0.5300 1.4904
PC 39:4; [M+H]+@7.00 0.5017 1.5664 0.3238 1.4886 0.3687 0.8909 0.4587 1.3382 0.5378 1.5554 0.4989 1.6117
PC 40:10; [M+H]+@5.54 0.7506 1.3283 0.6764 1.2056 0.4887 0.7577 0.6219 1.1807 0.8999 1.5694 0.7526 1.2937
PC(40:1)[M+H]+ 0.5376 1.3441 0.3294 1.4460 0.4332 1.1184 0.4215 1.2724 0.5553 1.6050 0.5101 1.5576
PC 40:2; [M+H]+@8.18 0.3348 1.5603 0.2485 1.6101 0.2913 1.0500 0.3884 1.4483 0.3590 1.6132 0.4513 1.6888
PC(40:3)[M+H]+ 0.2792 1.5149 0.1315 1.6046 0.3437 0.8733 0.5446 1.2719 0.4244 1.8608 0.4420 1.7682
PC 40:4; [M+H]+@7.63 0.5800 1.3167 0.3631 1.1973 0.4124 0.7054 0.8575 1.3394 0.6473 1.7774 0.6633 1.5822
PC(40:5)[M+H]+ 0.6862 1.2311 0.4584 1.0095 0.5009 0.6813 0.9893 1.2420 0.8474 1.7493 0.8489 1.4039
PC(40:6)[M+H]+ 0.9513 0.9443 0.8171 0.8874 0.8675 0.5868 1.1084 0.8970 1.2723 1.3495 1.0070 1.2776
PC(40:7)[M+H]+ 0.8033 1.0194 0.8378 1.0000 0.7599 0.7195 1.2261 0.9453 1.0063 1.3401 0.9227 1.4129
PC(40:8)[M+H]+ 0.5341 1.2354 0.5052 1.2067 0.4828 0.8102 0.8625 1.1840 0.6418 1.7106 0.5847 1.7182
PC 40:8; [M+H]+@6.51 0.9667 0.7651 0.8176 1.1398 0.9585 0.9687 1.2906 1.0224 1.0712 1.1195 1.0844 0.8918
PC 40:9; [M+H]+@5.99 0.9526 0.8211 1.0439 1.0082 1.1284 0.9661 1.0878 0.8789 1.0850 0.9892 1.0741 1.0676
PC 42:10; [M+H]+@5.75 0.7052 1.2612 0.8108 0.8028 0.6694 0.9265 0.4874 0.9774 0.9055 1.3438 0.5466 1.9859
PC(42:1)[M+H]+ 0.5811 1.2750 0.3504 1.1521 0.5271 1.0861 0.5327 1.3348 0.8086 1.2285 0.6837 1.7232
PC 42:2; [M+H]+@8.73 0.6158 1.4175 0.4323 1.3706 0.4685 1.1087 0.5726 1.3586 0.5591 1.2221 0.6362 1.5584
PC(42:3)[M+H]+ 0.4144 1.4179 0.3965 1.6803 0.4124 0.9507 0.4503 1.3157 0.4772 1.4671 0.4493 1.7161
PC 42:4; [M+H]+@8.13 0.4705 1.7186 0.2826 1.5418 0.3977 0.9986 0.3907 1.2878 0.4109 1.6793 0.6283 1.3440
PC(42:7)[M+H]+ 0.6556 1.3394 0.3197 1.3715 0.4488 0.9089 0.6049 1.0441 0.5731 1.7822 0.8037 1.5123
PC 42:7; [M+H]+@7.57 0.5175 1.4059 0.6211 1.2496 0.8749 0.8256 0.8758 1.2624 0.5241 1.5928 0.6403 1.1787
PC 42:8; [M+H]+@6.46 0.7005 1.2530 0.8049 1.0710 0.5326 0.8475 0.7823 1.1587 0.9145 1.5802 0.7707 1.2629
PC 42:9; [M+H]+@6.10 0.5803 1.0737 0.5039 1.1264 0.5573 0.7609 1.0234 1.2078 0.6953 1.6897 0.6897 1.7003
PC 44:5; [M+H]+@8.16 0.4912 1.4686 0.2933 1.5667 0.3605 1.0342 0.2994 1.3429 0.5183 1.4728 0.4251 1.7360
PC(O-36:0)[M+H]+ 0.8347 1.0845 0.7127 0.9382 0.7365 1.0901 0.7219 1.2199 0.8452 1.1899 0.9878 1.3498
PC(O-38:0)[M+H]+ 0.5919 1.2005 0.6564 0.9860 0.5193 1.0971 0.5831 1.1424 0.7353 1.7352 0.6371 1.5541
PC(O-38:1);PC(P-38:0)[M+H]+ 0.5519 1.7039 0.3767 1.1700 0.4415 0.8085 0.3301 1.5081 0.5905 1.4612 0.4544 1.6837
PE(32:1)[M+H]+ 0.6958 1.2946 0.5434 1.6180 0.5370 1.3790 0.7451 1.3055 0.6567 1.0223 0.6087 1.0424
PE(34:1)[M+H]+ 0.5593 1.3965 0.8561 1.3330 0.8680 2.4702 0.2480 0.9012 0.5508 0.2983 0.6729 1.2342
PE 34:1; [M+H]+@6.88 0.6020 1.3908 0.4703 1.3642 0.6312 1.6019 0.4676 1.1362 0.7065 0.6630 0.6286 1.6210
PE 34:2; [M+H]+@6.44 0.7189 1.6011 0.5917 1.1981 0.5167 1.1024 0.6164 1.2384 0.6737 1.1512 0.5077 1.4417
PE 34:3; [M+H]+@6.08 0.7126 1.6786 0.3178 0.9952 0.3547 0.7395 0.5663 1.2875 0.4448 1.4843 0.6448 2.0383
PE 36:0; [M+H]+@7.89 0.8747 0.8406 1.7417 1.6551 1.4588 1.3748 0.5752 0.6229 0.9796 0.5024 0.6847 0.6903
PE 36:1; [M+H]+@7.47 0.6504 0.9909 0.6137 1.0096 0.6294 1.2577 0.7583 1.2406 0.8524 1.1655 0.6612 1.6868
PE 36:2; [M+H]+@7.08 0.6638 1.3553 0.5210 1.0997 0.5093 0.9654 0.8567 1.3361 0.6119 1.3986 0.4554 1.6433
PE 36:3; [M+H]+@6.59 0.5963 1.2663 0.5862 1.2114 0.4805 1.1388 0.5722 1.3248 0.6427 1.3403 0.4670 1.6862
PE 36:3; [M+Na]+@6.34 0.9030 1.2800 0.6360 1.1154 0.6726 0.8276 1.1329 0.7955 0.9111 1.5815 1.2794 0.8891
PE 36:4; [M+H]+@6.41 0.6968 1.6207 0.5328 1.1646 0.5595 1.0724 0.5421 1.3578 0.7416 1.1768 0.6238 1.2605
PE 38:4; [M+H]+@7.01 0.7334 1.5221 0.3912 1.0484 0.4757 0.9982 0.6321 1.3452 0.7756 1.4370 0.6573 1.3241
PE 38:5; [M+H]+@6.52 0.6082 1.4177 0.4815 1.1945 0.4812 0.9438 0.6714 1.2435 0.6364 1.4470 0.5919 1.6554
PE 38:6; [M+H]+@6.34 0.6139 1.4071 0.5337 1.0034 0.5430 0.7482 0.6488 1.3271 0.6564 1.7007 0.5634 1.6272
PE(40:6)[M+H]+ 0.8233 1.1546 0.9362 1.1776 0.9326 1.7740 0.5841 0.8968 0.6922 0.7402 0.8319 1.1325
PI(34:1)[M+NH4]+ 0.5142 1.3687 0.4749 1.1469 0.5026 0.6217 0.7282 1.1882 0.5836 1.7387 0.4673 2.0000
PI(36:2)[M+NH4]+ 0.9487 1.2863 1.1088 0.9152 0.5698 1.2156 0.5174 1.2320 0.7547 0.8395 0.6858 1.5823
PI(36:3)[M+NH4]+ 0.6159 1.3382 0.6554 1.0249 0.4609 1.0737 0.7391 1.4638 0.6517 1.2418 0.4689 1.6973
PI(36:4)[M+NH4]+ 0.7029 1.5971 0.5823 1.0828 0.4432 0.9670 0.5993 1.5470 0.5674 1.2331 0.6078 1.4649
PI(38:4)[M+NH4]+ 0.5482 1.3311 0.3988 1.1069 0.3334 0.6789 0.4672 1.7060 0.5589 1.7583 0.4910 1.7999
PI(38:5)[M+NH4]+ 0.6450 1.4591 0.4611 1.1537 0.4966 0.9221 0.8265 1.5647 0.6524 1.1907 0.6815 1.4311
plasmenyl-PC 18:0; [M+Na]+@1.84 1.0348 0.8703 0.8322 1.0927 0.8811 1.0636 1.3151 0.9982 1.0060 0.9884 1.0149 0.9838
plasmenyl-PC 44:4; [M+Na]+@8.56 0.5461 1.1524 0.3688 1.0749 0.6419 0.7868 0.9404 1.1197 1.0793 1.4233 0.8407 1.6006
plasmenyl-PE 34:1; [M+H]+@7.23 0.4653 1.5779 0.4018 0.9564 0.5438 1.3755 0.6103 1.0446 0.8398 1.2990 0.6812 1.5510
plasmenyl-PE 34:2; [M+H]+@6.81 0.5721 1.2439 0.3851 1.4338 0.3942 0.8288 0.9011 1.1053 0.5727 1.4621 1.1933 1.6473
plasmenyl-PE 36:2; [M+H]+@7.39 0.6174 1.0451 0.7149 1.2010 0.5325 0.9544 0.6865 1.1613 0.8129 1.4895 0.7453 1.6126
plasmenyl-PE 36:3; [M+H]+@7.05 0.7191 1.1120 0.4406 1.2735 0.5395 1.0404 0.9184 1.3124 0.8058 1.1977 0.7358 1.4523
plasmenyl-PE 36:4; [M+H]+@6.71 0.9249 0.8985 0.4153 1.2295 0.6859 1.0042 0.9453 1.0462 0.8507 1.2148 0.7738 1.5783
plasmenyl-PE 38:2; [M+H]+@7.90 0.8267 0.9190 1.5368 0.6628 1.0041 1.5346 0.4426 0.9260 1.2870 0.7785 0.8871 1.1281
plasmenyl-PE 38:3; [M+H]+@7.65 0.7736 1.1179 0.4489 1.1977 0.6286 0.9006 0.7985 1.2452 0.8154 1.3265 0.6826 1.5296
plasmenyl-PE 38:4; [M+H]+@7.32 0.8259 1.0603 0.5527 1.0803 0.6201 0.9553 0.7118 1.2008 0.7617 1.3396 0.8223 1.6126
plasmenyl-PE 38:5; [M+H]+@6.87 0.8409 1.0972 0.4117 1.2955 0.5625 1.0554 0.8679 1.0486 0.8007 1.2518 0.8371 1.4891
plasmenyl-PE 38:6; [M+H]+@6.65 0.7913 1.0808 0.5060 1.3046 0.5593 0.9111 0.7071 1.1973 0.7453 1.3052 0.7141 1.6414
plasmenyl-PE 40:4; [M+H]+@7.80 0.6829 1.0317 0.6584 1.0917 0.6605 0.7889 0.8680 1.1630 0.8632 1.5252 0.7685 1.5455
plasmenyl-PE 40:5; [M+H]+@7.43 0.8288 1.1558 0.5054 1.1066 0.6690 0.7513 0.7884 1.1001 0.9282 1.3619 0.7488 1.5770
plasmenyl-PE 40:6; [M+H]+@7.26 0.9262 1.1219 0.4929 1.0037 0.7474 0.7898 0.7589 1.1393 1.0492 1.2714 0.9166 1.3669
PS(36:3)[M+H]+ 0.9727 1.0797 0.8656 1.2626 1.0521 0.8840 0.9982 1.1633 0.7832 1.2010 0.4627 0.9380
SM 21:0; [M]+@1.82 0.8811 0.9690 0.7020 1.1134 0.6468 0.8849 1.2020 1.1848 1.0162 1.1637 0.8637 1.2562
SM 21:1; [M]+@1.33 0.8222 1.1214 0.7051 1.0652 0.6144 1.0724 1.1412 1.3424 1.0006 1.0377 0.7226 1.1391
SM 28:1; [M]+@3.60 0.7171 1.4172 0.5862 0.9439 0.4247 0.9572 0.8282 1.2276 1.0896 1.6449 0.8432 0.9490
SM 30:0; [M]+@4.71 0.9499 1.8184 0.9245 1.5885 0.6552 0.7359 0.5963 0.7909 1.0067 0.6981 0.9155 1.0381
SM 30:1; [M]+@4.32 1.1440 1.3211 0.5710 1.0641 0.5789 0.8913 1.0164 0.9899 1.0905 1.1524 0.9864 0.9809
SM 30:1; [M+Na]+@4.40 0.6825 0.9461 0.9649 0.8444 1.1525 1.6493 0.7379 1.2256 1.0806 0.7578 0.9408 0.8392
SM 31:1; [M]+@4.78 1.0060 1.3683 0.5827 0.6751 0.7222 0.7389 0.6293 1.0832 1.2802 1.3769 0.9345 1.1760
SM 32:0; [M]+@5.46 0.9003 1.1759 0.6818 0.9056 0.6319 0.8672 0.9239 1.2481 1.0767 1.0454 0.9811 1.3555
SM 32:1; [M]+@5.12 0.9617 1.2195 0.6750 1.0899 0.7169 0.7818 0.9035 1.1390 1.0530 1.0174 0.9323 1.2653
SM 32:1; [M+Na]+@5.13 0.8428 1.5273 0.5103 1.1301 0.5266 0.7802 0.6705 1.3633 0.8700 1.0288 0.9471 1.3669
SM 32:2; [M]+@4.68 0.8784 1.0262 0.7972 0.9071 0.6955 0.7291 0.7532 1.1596 1.0490 1.3059 0.6058 1.6710
SM 32:2; [M+Na]+@4.56 0.4920 1.2182 0.6362 1.1559 0.7979 1.3944 0.7235 0.8520 0.8434 1.0289 1.3486 1.3632
SM 33:0; [M]+@5.81 1.1269 1.2480 0.5493 0.9272 0.6019 0.7466 0.6919 1.1649 1.1104 1.2062 0.9809 1.2568
SM 33:1; [M]+@5.53 1.1509 1.2961 0.6261 0.9852 0.7062 0.7626 0.8890 1.0211 1.1705 0.9888 1.0226 1.1499
SM 33:1; [M+Na]+@5.58 1.1832 1.2622 0.5892 0.9932 0.7394 0.7930 0.9111 0.9780 1.2570 0.8990 1.1912 1.0494
SM 33:2; [M]+@5.04 0.5921 1.0719 0.2933 1.2351 0.6104 1.0283 0.8105 1.1646 1.5673 1.1105 0.6444 1.2457
SM 34:1; [M]+@5.83 0.6847 1.5571 0.4433 1.0164 0.4915 0.7263 0.4121 1.6413 0.7088 1.4707 0.4725 1.5392
SM 34:1; [M+Na]+@5.85 1.1828 0.6991 1.5750 1.0944 1.4579 1.0407 0.9053 0.7259 1.2165 0.6451 1.1392 0.6278
SM 34:2; [M]+@5.29 0.7492 1.2599 0.4457 1.3471 0.5480 0.8837 0.5830 1.1681 0.8311 1.3991 0.6143 1.4924
SM 34:2; [M+Na]+@5.32 0.8404 1.1676 0.4151 1.3093 0.5750 0.8825 0.6524 1.1736 0.9563 1.3942 0.6703 1.3322
SM 35:0; [M]+@6.49 1.1725 0.6828 1.6444 0.8923 1.2871 1.1071 1.3074 0.6933 1.2153 0.6791 1.2204 0.6844
SM 35:2; [M]+@5.75 0.7234 1.2120 0.6328 1.0657 0.7605 0.7819 0.7656 1.0049 1.2483 1.4217 0.7279 1.2184
SM 36:0; [M]+@6.85 1.2036 1.0695 0.7454 0.7880 1.0089 0.6492 0.8306 1.0732 1.3961 0.9776 0.7423 1.1748
SM 36:1; [M]+@6.52 1.2357 1.0466 0.7151 0.7848 1.0841 0.5784 0.8138 1.0275 1.5605 0.9321 0.8765 1.0476
SM 36:2; [M]+@6.05 0.8865 1.1422 0.6535 0.8920 0.7126 0.6187 0.6680 1.3069 1.2332 1.3305 0.6654 1.3840
SM 36:2; [M+Na]+@6.10 1.4302 0.7154 0.9405 0.6779 1.5443 0.7470 1.3541 0.5733 1.6754 0.5275 1.4707 0.7263
SM 37:1; [M]+@6.80 0.9607 1.2285 0.8052 1.5166 0.7411 0.9945 0.8352 1.1417 0.7294 0.8329 0.8896 1.0895
SM 38:1; [M]+@7.23 0.7660 1.2986 0.4247 1.0384 0.5901 0.9076 0.7489 1.2800 0.7886 1.4199 0.6722 1.4878
SM 38:2; [M]+@6.70 0.9051 0.9898 0.4418 1.2546 0.7230 0.8404 0.8536 1.0936 0.9462 1.2680 0.8620 1.4006
SM 38:4; [M]+@6.59 1.2349 0.4966 1.6493 0.7446 1.3139 0.5658 0.8851 0.6076 1.6094 0.7600 1.8270 0.9865
SM 39:0; [M]+@7.77 0.3566 1.5741 0.2862 1.6685 0.3922 0.8822 0.3992 1.2965 0.9104 1.1978 0.6948 1.5317
SM 39:1; [M]+@7.40 0.4943 1.6280 0.3371 1.4316 0.3923 0.9915 0.4253 1.3542 0.5234 1.5029 0.4700 1.5657
SM 39:1; [M+Na]+@7.61 1.1228 0.6510 1.0033 1.4168 0.7475 0.9478 0.4576 0.9765 1.1393 0.6632 0.9017 1.6538
SM 39:2; [M]+@7.07 0.4450 1.8024 0.3715 1.5651 0.2934 1.0808 0.5494 1.1968 0.5645 1.2720 0.5515 1.5437
SM 39:2; [M]+@9.26 1.1625 1.1813 1.3775 0.9578 0.6303 0.6124 0.6299 0.9397 0.8457 1.5556 1.1804 1.0208
SM 40:1; [M]+@7.76 0.4853 1.2668 0.3814 1.3835 0.4205 0.9326 0.5477 1.2821 0.6056 1.7213 0.4445 1.7155
SM 40:1; [M+Na]+@7.79 0.7362 0.9025 0.7996 1.3157 0.7646 0.9665 0.7822 1.0784 0.7979 1.3514 0.7025 1.4445
SM 40:2; [M]+@7.32 0.3886 1.5167 0.3032 1.5099 0.3081 0.9402 0.3226 1.3738 0.4018 1.6736 0.3335 1.9076
SM 40:2; [M+Na]+@7.41 0.7471 0.9538 0.3839 1.3001 0.6096 0.6448 1.0335 1.4849 0.9229 1.3973 0.9432 1.2591
SM 41:1; [M]+@8.08 1.0424 1.3914 0.6409 0.8899 0.7140 0.8182 1.0904 1.1253 1.2706 0.8562 0.9550 1.0489
SM 41:1; [M+Na]+@8.11 1.1173 1.1679 0.6859 0.8259 0.8876 0.8633 1.0062 1.0595 1.3719 0.8213 1.1359 0.9712
SM 41:2; [M]+@7.71 0.8255 1.5075 0.5020 1.1107 0.6197 1.0678 0.6413 1.1586 0.8326 1.2045 0.6983 1.2523
SM 41:2; [M+Na]+@7.69 0.9585 1.0492 0.8397 1.0267 1.1736 1.0080 1.1251 0.9942 0.9819 1.0256 1.0075 0.7960
SM 41:4; [M]+@6.74 1.0916 0.8973 0.4003 1.2534 0.6502 1.1479 1.1223 1.2735 0.8670 1.0006 0.7291 1.1928
SM 42:1; [M]+@8.34 0.8648 1.4687 0.5712 0.9534 0.6788 0.9427 0.8688 1.1739 1.0589 1.0180 0.7502 1.2456
SM 42:1; [M+Na]+@8.33 0.9503 1.2721 0.5762 0.9518 0.7933 0.9377 1.0451 1.2072 1.0535 0.9366 0.9232 1.1252
SM 42:2; [M]+@7.83 0.8126 1.3154 0.5788 1.0655 0.7669 1.0695 0.8223 1.2227 0.9221 1.0659 0.7346 1.1914
SM 42:2; [M+Na]+@7.89 1.0193 1.0066 0.9499 1.1335 1.0369 1.1028 1.0465 1.0073 0.9438 0.8307 0.7816 1.0300
SM 42:4; [M]+@6.94 1.2081 0.8525 1.0228 1.1319 1.2996 1.2770 0.5707 0.8914 1.2085 0.4325 1.2033 0.8001
SM 42:5; [M]+@6.65 1.8941 0.8873 0.6343 0.4751 1.1421 0.3826 1.0531 0.7932 2.0104 0.7341 1.4668 0.6039
SM 42:5; [M]+@7.38 0.8306 1.0938 0.8242 1.2689 0.9636 1.0144 0.5671 1.0360 1.0215 0.8082 0.6025 1.4662
SM 43:1; [M]+@8.48 1.4032 1.1281 0.7054 0.7449 0.9736 0.7178 1.0523 0.9597 1.5514 0.6756 1.0788 0.9274
SM 43:1; [M+Na]+@8.62 1.2489 1.1134 0.6033 0.6207 0.8304 1.0704 0.9541 0.9338 1.5341 0.7719 1.3896 0.9030
SM 43:2; [M]+@8.18 1.0729 1.3598 0.6567 0.8653 0.8687 0.9319 0.8882 1.1175 1.1125 0.8173 0.9184 1.1224
SM 43:5; [M]+@7.73 1.0880 1.0338 0.7455 0.9164 1.4896 0.9740 0.7072 1.0502 0.8093 0.9161 1.0274 0.9825
SM 44:1; [M]+@8.91 1.1150 1.1473 0.6528 0.7252 1.0046 0.9224 0.9800 1.0471 1.2723 0.9264 1.2744 0.8860
SM 44:2; [M]+@8.35 1.0169 1.2300 0.5818 0.8732 0.9847 0.9078 1.0981 0.9706 1.3497 0.8346 0.8707 1.0573
SM(d34:0)[M+H]+ 0.9707 1.1181 0.7374 0.9014 0.6887 0.8574 0.6443 1.3816 1.0713 1.1371 0.7328 1.3165
SM(d40:0)[M+H]+ 0.9223 0.6746 1.1451 0.8606 1.0365 1.6511 0.6692 0.7144 0.9694 0.4253 1.1391 1.7692
SM(t36:0)[M+H]+ 0.7039 1.2857 1.3449 1.0362 1.1714 1.9008 0.3265 0.9323 0.7697 0.5707 0.9334 0.8270
SM(t42:2)[M+H]+ 0.8380 1.1748 0.3995 1.0678 0.4427 1.1286 0.7596 1.2272 0.8506 1.4216 0.9229 1.3077
SM(t45:1)[M+H]+ 0.7003 1.7438 0.5435 0.9162 0.5067 2.6547 0.5641 0.8768 0.6629 0.5310 0.8721 0.9177
TG 40:0; [M+NH4]+@9.52 0.7487 0.4230 0.3973 0.6420 0.3232 0.5831 0.6470 0.3744 3.3489 2.7288 0.5163 0.5477
TG 40:1; [M+NH4]+@9.22 0.6643 1.0197 0.4506 1.0744 1.1182 0.9735 0.5036 1.0130 0.7252 1.8303 0.4583 1.3752
TG 42:0; [M+Na]+@9.83 0.5418 0.6049 0.5759 1.0354 0.8663 0.6762 0.8371 0.7462 2.5688 1.5755 0.5002 0.9282
TG 42:0; [M+NH4]+@9.82 0.3784 0.6482 0.2624 0.7265 0.2888 0.7195 0.3586 0.8726 2.2376 3.2174 0.2918 0.9546
TG 42:1; [M+NH4]+@9.59 0.6707 1.0497 0.6035 1.4974 0.7676 0.7044 0.7781 1.4049 0.7743 1.4290 0.7271 1.1475
TG(44:0)[M+NH4]+ 0.9909 1.0948 0.2411 1.3645 0.5227 0.8514 1.0220 0.8347 1.4224 1.6333 0.9116 0.6979
TG 44:1; [M+NH4]+@9.87 0.3502 1.1997 0.2541 2.0111 0.2846 0.5465 0.5079 1.8889 0.4751 1.7972 0.3362 1.3976
TG 44:2; [M+NH4]+@9.62 0.5819 1.2154 0.4101 1.5928 0.4989 0.8367 0.7750 1.5104 0.6033 1.4194 0.4823 1.4074
TG 46:0; [M+NH4]+@10.39 0.4526 1.4505 0.1984 1.8177 0.4682 0.6865 0.6324 1.8175 0.5094 1.6588 0.3939 1.0265
TG 46:1; [M+NH4]+@10.12 0.5859 1.1620 0.3238 1.9513 0.6653 0.7190 0.9133 1.4200 0.6265 1.3078 0.8312 1.0280
TG 46:2; [M+NH4]+@9.89 0.7156 1.0503 0.3522 1.8386 0.5871 0.7322 0.9601 1.3011 0.5805 1.6277 0.6802 1.0706
TG 46:3; [M+NH4]+@9.67 0.4120 1.2526 0.2436 1.8148 0.2287 0.6827 0.4440 1.8585 0.4061 1.7783 0.2649 1.5900
TG 48:0; [M+NH4]+@10.61 0.7329 0.8535 0.7385 1.5566 1.0463 0.6562 1.2835 1.3317 0.7610 1.2687 0.5166 1.0239
TG 48:1; [M+Na]+@9.04 0.6002 0.9795 1.0939 0.9909 0.6400 0.9479 0.9424 0.8128 0.9582 1.5505 2.5302 0.7366
TG 48:1; [M+NH4]+@10.39 0.6726 1.0744 0.4119 1.7431 0.6374 0.6656 1.1187 1.2679 0.7192 1.5148 0.7320 1.0737
TG 48:2; [M+NH4]+@10.16 0.6245 1.0246 0.3351 1.9699 0.6434 0.6642 0.9087 1.2703 0.6230 1.5965 0.7832 1.0701
TG 48:3; [M+NH4]+@9.94 0.6009 1.1272 0.2944 1.9985 0.4604 0.8013 0.8323 1.2199 0.6099 1.6139 0.9391 1.0350
TG 49:0; [M+NH4]+@10.74 0.6811 1.2963 1.2649 1.1787 0.9942 1.0351 0.6577 1.4148 0.8503 1.0250 0.6853 0.7204
TG 49:1; [M+NH4]+@10.54 1.0087 1.1021 0.2761 1.2345 0.3830 0.7848 0.9864 1.3409 0.7110 1.7815 1.2155 0.9144
TG 49:2; [M+NH4]+@10.32 0.3514 1.2325 0.2251 1.6712 0.3378 0.6789 0.4693 1.7618 0.4581 1.9826 0.3844 1.4863
TG 49:3; [M+NH4]+@10.11 0.4230 1.3155 0.1588 1.7333 0.2331 0.9314 0.4351 1.6857 0.3192 1.9541 0.3986 1.4084
TG 49:4; [M+NH4]+@9.91 0.5914 1.3329 0.4295 1.8534 0.3547 1.0254 0.7325 1.1928 0.4811 1.4425 0.5556 1.3671
TG 50:0; [M+NH4]+@10.87 0.6249 1.0830 0.3937 1.7043 0.4794 0.6617 0.6128 1.5069 0.4997 1.9100 0.3107 1.3714
TG 50:1; [M+Na]+@9.36 0.4639 1.3695 0.1880 1.6838 0.3062 0.9472 0.5631 1.2410 0.4562 2.0962 0.4322 1.3443
TG 50:1; [M+NH4]+@10.62 0.8661 0.8767 0.5915 1.6072 0.8062 0.7478 1.1051 1.2603 0.7455 1.3369 0.6120 1.0991
TG 50:2; [M+Na]+@9.10 0.6888 1.3240 0.7850 1.6513 0.4713 1.0987 1.2834 0.8025 0.6788 1.4407 0.9067 0.8562
TG 50:2; [M+NH4]+@10.41 0.8819 1.1635 0.7949 1.0801 0.8665 1.0444 0.7198 0.9925 0.9237 1.0651 1.0019 1.2240
TG 50:3; [M+NH4]+@10.19 0.7429 0.9061 0.3566 1.7612 0.6184 0.7580 0.9863 1.0770 0.7789 1.7291 0.9079 1.0029
TG 50:4; [M+NH4]+@9.99 0.5389 1.1931 0.1901 1.9715 0.2388 0.6718 0.4895 1.4553 0.4482 2.1021 0.5432 1.2690
TG 50:5; [M+NH4]+@9.80 0.8121 1.1028 0.3328 1.9219 0.4297 0.7284 0.8238 1.0646 0.6763 1.6871 1.0017 0.9980
TG 51:0; [M+NH4]+@11.11 1.0004 1.0012 0.9990 0.9990 0.9991 0.9995 1.0016 1.0006 1.0011 0.9996 0.9973 1.0005
TG 51:1; [M+NH4]+@10.16 0.5400 1.4881 0.4916 1.5117 0.6623 0.7030 1.1771 1.5312 0.6570 1.5035 0.5219 0.8079
TG 51:1; [M+NH4]+@10.77 1.2699 1.1253 1.1093 0.9022 1.1292 1.0647 0.8901 0.7757 0.8939 0.9569 0.8483 0.9583
TG 51:2; [M+NH4]+@10.58 1.0238 1.0980 1.0168 1.0278 0.9314 0.9134 0.9101 0.8488 0.9234 1.0623 1.1657 1.1249
TG 51:2; [M+NH4]+@9.95 0.7286 1.0472 0.2989 2.2122 0.4200 0.8911 0.8914 1.2433 0.7221 1.4760 0.3729 0.9779
TG 51:3; [M+NH4]+@10.37 0.8603 1.0863 0.4415 1.5821 0.4396 0.7460 1.0355 1.0395 0.7482 1.6268 0.7966 1.2344
TG 51:4; [M+NH4]+@10.19 0.8406 1.0378 0.4336 1.3985 0.4162 0.8946 1.0337 1.0734 0.7616 1.7457 0.8144 1.1907
TG 51:5; [M+NH4]+@9.98 0.7670 1.2802 0.5327 1.5000 0.5175 0.9985 0.6727 1.1792 0.5529 1.4852 0.6405 1.2965
TG 52:0; [M+NH4]+@11.10 0.7710 0.9669 0.4787 1.4284 0.6836 0.5987 1.6290 1.3161 0.7539 1.5689 0.6386 1.0392
TG(52:1)[M+NH4]+ 0.9015 0.8934 0.4483 1.3775 0.6565 0.7470 1.6055 1.1745 0.7897 1.5099 0.7685 1.0388
TG 52:1; [M+NH4]+@10.89 0.9023 0.8945 0.4481 1.3765 0.6568 0.7448 1.6066 1.1759 0.7890 1.5096 0.7675 1.0397
TG 52:2; [M+NH4]+@10.64 0.9020 0.7884 0.5330 1.3771 0.7493 0.8701 1.4706 0.9269 0.9033 1.4543 1.1099 0.9720
TG 52:2 [M+NH4]+@9.97/unknown 0.7316 0.3003 0.6493 0.9892 1.0693 1.3865 1.2674 0.6131 0.8561 1.1517 1.5608 1.6634
TG 52:2; [M+NH4]+@9.97/unknown NA NA NA NA NA NA NA NA NA 1.0000 NA NA
TG 52:3; [M+NH4]+@10.47 1.1102 1.0719 0.8051 0.8916 0.8791 0.9163 0.7318 0.7988 1.1734 1.1368 1.2188 1.1441
TG 52:3 [M+NH4]+@11.45/unknown 1.0605 1.4926 0.2789 1.6338 0.1166 0.4629 1.7369 0.9586 1.0975 1.4963 0.6380 0.8541
TG 52:4; [M+NH4]+@10.26 1.1850 1.1840 0.8778 0.9110 0.8628 0.9484 0.6097 0.8384 1.1903 1.0024 1.2002 1.0339
TG 52:5; [M+NH4]+@10.06 0.7085 1.2202 0.2166 1.6807 0.3308 0.7104 0.5517 1.4099 0.6138 1.9375 0.5912 1.2085
TG 52:6; [M+NH4]+@9.87 1.0791 1.1774 0.6815 1.0225 0.7114 0.8828 0.6076 0.8883 1.0101 1.2988 1.3217 1.1242
TG 52:7; [M+NH4]+@9.69 0.9303 1.0639 0.4563 1.4596 0.6190 0.7565 0.8381 1.0154 0.8541 1.6638 0.9481 1.0161
TG 53:0; [M+NH4]+@11.25 1.3715 1.2087 0.6089 0.9473 0.8745 0.8962 1.1302 0.9173 0.9342 0.8750 1.1786 1.0165
TG 53:1; [M+NH4]+@11.01 0.7070 1.3468 1.5064 0.9594 0.8038 1.6078 0.7356 0.9005 0.8304 0.7456 1.0616 0.9470
TG 53:2; [M+NH4]+@10.82 0.8397 0.6981 0.5796 1.1575 0.7540 0.8390 1.4826 0.9492 1.0686 1.7164 1.0053 0.9437
TG 53:3; [M+NH4]+@10.62 0.9685 0.8693 0.7168 1.0872 0.8182 0.9163 1.7316 0.8468 0.9793 1.1893 1.2461 0.9777
TG 53:4; [M+NH4]+@10.42 1.0614 0.9578 0.7031 1.1284 0.5873 0.7352 1.1900 0.9853 1.0036 1.4008 0.9142 1.2367
TG 53:5; [M+NH4]+@10.24 1.1514 1.2880 0.9635 0.9463 0.8120 0.9888 0.5896 1.0219 1.0597 0.9628 0.8907 1.0473
TG 53:6; [M+NH4]+@10.03 0.6441 1.4454 0.2101 1.5038 0.3035 0.7143 0.4467 1.6702 0.4815 1.9319 0.4400 1.2568
TG 53:7; [M+Li]+@9.32 0.6669 1.1250 0.2601 1.6590 0.2046 0.7070 1.3150 0.9449 0.8773 1.8103 0.8941 1.2705
TG 53:7; [M+NH4]+@9.83 0.7064 1.3715 1.0773 1.0396 1.0056 1.7304 0.4232 1.0864 0.7147 0.6653 0.5853 1.1374
TG 54:0; [M+NH4]+@11.38 0.3852 1.0372 0.3435 1.7831 0.5703 1.1653 0.4401 1.4308 0.5533 1.7273 0.4270 1.2422
TG 54:1; [M+NH4]+@11.14 0.7767 1.0240 0.4491 1.4663 0.5574 0.6858 1.4668 1.3133 0.7106 1.5966 0.6684 1.0772
TG 54:2; [M+NH4]+@10.92 0.8424 0.8027 0.6203 1.2766 0.7870 0.8219 1.7689 0.9927 0.9230 1.4032 1.0655 0.9231
TG 54:3; [M+NH4]+@10.72 1.2380 0.8116 1.3146 0.7426 1.2190 0.9044 1.3126 0.6789 1.3414 0.6738 1.5756 0.7889
TG 54:3 [M+NH4]+@9.98/unknown 0.6388 1.9751 0.1756 1.1857 1.0398 1.0247 0.4912 1.0745 1.2872 0.0090 1.4069 1.2284
TG 54:3; [M+NH4]+@9.98/unknown NA NA NA NA NA NA NA NA 1.0000 NA NA NA
TG 54:4; [M+NH4]+@10.51 1.0924 0.9394 0.6880 1.0026 0.7705 0.8083 1.4368 0.9907 1.1409 1.0819 1.3479 0.9371
TG 54:5; [M+NH4]+@10.31 1.0911 1.4076 1.0441 0.7576 0.9170 1.0890 0.6687 0.9636 1.0494 0.7783 0.9639 1.1080
TG 54:6; [M+NH4]+@10.10 0.9849 1.1147 0.5684 1.1927 0.6459 0.8919 1.1524 1.2528 0.8084 1.2755 0.6711 1.1372
TG 54:7; [M+Na]+@9.91 0.9343 1.1241 0.6421 1.1676 0.6735 0.8986 1.1496 1.1993 0.8010 1.2070 0.7866 1.2053
TG 54:7; [M+NH4]+@9.94 0.8644 1.2173 0.4580 1.4513 0.4756 0.8429 0.8925 1.1701 0.7516 1.4097 0.8631 1.2102
TG 54:8; [M+NH4]+@9.75 0.8342 1.0739 0.5586 1.4091 0.5969 0.7911 0.8261 1.0499 0.8237 1.6810 0.8811 1.1074
TG 55:1; [M+NH4]+@11.27 0.8101 1.2719 0.8402 1.1975 0.9846 1.1554 0.3996 1.2385 0.9634 0.6564 0.7912 1.2068
TG 55:2; [M+NH4]+@11.02 0.7365 1.0754 0.6329 2.1954 0.5801 0.7082 1.0131 1.3148 0.5591 1.1938 0.8649 0.8811
TG 55:3; [M+NH4]+@10.86 1.2824 1.0062 0.6194 1.0912 0.8289 0.8036 1.8594 0.8505 0.9548 1.0226 1.2060 0.8175
TG 55:4; [M+NH4]+@10.61 1.1681 0.8083 0.6065 1.1892 0.6476 1.1892 1.1890 0.8845 1.2600 1.0798 0.9671 0.8922
TG 55:6; [M+NH4]+@10.29 0.9609 1.0574 0.4668 1.5581 0.6825 0.9345 0.7744 1.1294 0.7202 1.4613 0.7073 1.0215
TG 56:10; [M+NH4]+@9.73 0.8553 1.1921 0.5301 1.3677 0.5375 0.7954 0.6800 1.0905 0.7747 1.6730 0.7522 1.2326
TG 56:1; [M+NH4]+@11.40 0.7424 1.2608 0.4129 1.7503 0.3480 0.7948 0.5597 1.8080 0.4495 1.6321 0.2305 1.1128
TG 56:2; [M+NH4]+@11.18 0.7236 1.5423 0.9355 1.2147 0.6983 1.1600 0.5659 0.9658 0.6295 1.2102 0.5957 1.3071
TG 56:3; [M+NH4]+@10.96 0.7651 1.0784 0.5579 1.4406 0.5599 0.9701 1.2960 1.0659 0.7131 1.4071 0.9361 1.1047
TG 56:4; [M+NH4]+@10.81 1.1296 1.0912 1.6734 1.0555 1.0018 1.2748 0.7485 0.7449 0.9038 0.7333 0.9732 0.8676
TG 56:5; [M+NH4]+@10.63 1.1022 1.0733 1.2806 1.0246 0.9903 1.2686 0.6921 0.8549 0.9594 0.8277 1.1094 0.8579
TG 56:6; [M+NH4]+@10.46 0.9754 1.0348 0.7443 1.1679 0.7486 0.8770 1.0356 1.0167 0.8972 1.3786 0.9509 1.0386
TG 56:7; [M+NH4]+@10.29 1.0203 1.0198 0.7416 1.1335 0.7618 0.8540 0.9180 1.0113 0.9849 1.3927 0.9937 0.9948
TG 56:8; [M+NH4]+@10.08 1.0971 1.0001 0.6737 1.0561 0.8262 0.8923 0.8850 1.0523 1.0390 1.3445 0.9516 0.9374
TG 56:9; [M+NH4]+@9.90 1.0889 1.1607 0.9701 0.7367 1.0333 1.0762 0.3854 0.9838 0.9938 0.9868 1.2444 1.1399
TG 57:1; [M+NH4]+@11.55 0.7312 1.3166 0.4526 2.1417 0.4832 0.8804 0.7386 1.2082 0.6973 1.1561 0.4817 1.0490
TG(57:2)[M+NH4]+ 0.9050 0.9014 0.6785 1.2395 0.8936 0.7524 1.3776 1.0294 0.8971 1.2929 1.0561 1.0325
TG 57:2; [M+NH4]+@11.25 0.9358 1.1555 0.5615 1.5993 0.5771 0.7892 0.7073 1.1344 0.6898 1.5775 0.5240 1.1451
TG(57:3)[M+NH4]+ 1.1969 1.0291 1.1017 0.8143 1.0747 1.1227 0.6698 0.7508 1.2310 0.8058 1.2049 0.9867
TG 57:3; [M+NH4]+@11.04 1.2787 1.4772 0.5052 1.5028 0.2585 0.8471 0.8669 0.8328 0.9103 1.3894 0.7031 0.9656
TG 58:0; [M+NH4]+@11.91 1.1950 1.0149 0.4479 2.4074 0.7919 0.8708 0.9053 0.7590 0.6271 1.1799 0.1984 0.8783
TG 58:10; [M+NH4]+@10.00 0.9565 1.2167 0.7439 0.9313 0.7510 0.8630 0.5146 1.0222 0.8652 1.4234 0.9316 1.3756
TG 58:11; [M+NH4]+@9.85 1.0217 1.1716 0.9586 0.7677 1.0859 1.1045 0.2947 0.9655 0.9325 1.0087 1.0287 1.3009
TG 58:1; [M+NH4]+@11.68 0.7176 1.3923 0.3704 1.7454 0.2552 0.7004 0.4282 1.6493 0.2678 2.0814 0.2772 1.1526
TG 58:2; [M+NH4]+@11.43 0.7977 1.2922 0.4196 1.9423 0.3076 1.0637 0.6858 0.9755 0.4499 1.4942 0.4572 1.3957
TG 58:3; [M+NH4]+@11.22 0.6319 1.5602 0.3515 1.9009 0.3302 1.0638 0.4845 1.2876 0.4279 1.5199 0.4000 1.1596
TG 58:4; [M+NH4]+@11.00 0.7066 1.2617 0.5924 2.0040 0.4704 0.9126 0.7108 1.1077 0.4384 1.5126 0.4321 1.2182
TG 58:5; [M+NH4]+@10.88 0.9189 1.0959 0.8782 1.2562 0.7668 1.0441 1.1652 0.9890 0.6695 1.3742 0.6773 1.0251
TG 58:6; [M+NH4]+@10.66 1.0580 0.9824 0.9451 1.2023 0.8790 1.0345 1.0708 1.0375 0.7441 1.1846 0.8971 0.9212
TG 58:7; [M+NH4]+@10.52 1.0577 1.0539 1.5765 0.9859 0.9507 1.4585 0.5443 0.9747 0.8530 0.7327 1.0544 0.8454
TG 58:8; [M+NH4]+@10.40 1.0602 1.0533 1.3712 0.9438 1.0469 1.3400 0.4783 0.8548 0.9733 0.7796 1.0863 0.9802
TG 58:9; [M+NH4]+@10.18 1.0445 1.0690 0.9326 0.9226 0.9155 0.8812 0.7273 0.9975 0.9216 1.2733 0.8504 1.2196
TG 60:10; [M+NH4]+@10.26 0.8249 1.2449 1.0344 1.0159 0.7530 0.9914 0.4912 1.1847 0.7285 1.3212 0.7073 1.3191
TG 60:11; [M+NH4]+@10.14 0.9830 1.2398 1.0205 1.0398 0.7913 0.9390 0.5314 1.0793 0.7557 1.2950 0.8255 1.1883
TG 60:12; [M+NH4]+@9.98 1.0595 1.1647 0.7885 0.8776 0.8093 0.8158 0.5726 1.0413 1.0463 1.2645 1.1202 1.1805
TG(60:1)[M+NH4]+ 0.9998 1.5591 0.8192 0.8989 1.0702 0.9895 0.8897 1.0282 0.8993 0.5988 0.7464 1.2286
TG 60:8; [M+NH4]+@10.60 0.8916 1.1831 0.9918 1.1860 0.6954 1.1333 0.7832 1.3253 0.6210 1.0831 0.8031 1.0921
TG 60:9; [M+NH4]+@10.43 0.8641 1.2005 1.0579 1.0524 0.7513 1.1674 0.6080 1.2533 0.6991 1.1970 0.6297 1.1671
TG 62:1; [M+NH4]+@12.37 1.3391 2.1282 0.9805 1.3892 1.0593 0.7968 0.3645 0.7026 0.9271 0.5029 0.4813 0.7415
TG(62:2)[M+NH4]+ 0.4957 1.2388 0.5711 1.5487 0.3483 0.9662 1.0296 1.1105 0.5521 2.1389 0.2504 1.1752
TG 62:2; [M+NH4]+@12.00 1.0154 1.3667 0.3191 2.1255 0.4093 0.7074 1.7761 0.9171 0.7084 0.6779 0.8163 1.1167
TG(O-50:0)[M+NH4]+ 0.9346 0.9684 2.2150 1.1831 0.9977 1.0270 0.4879 1.0622 0.8218 0.7418 0.7350 1.0444
Run Hierarchial cluster analysis on this study | Run Heatmap cluster analysis on this study

Factors:

F1Diet:Control + BPA Chow | Sex:F
F2Diet:Control + BPA Chow | Sex:M
F3Diet:Control Chow | Sex:F
F4Diet:Control Chow | Sex:M
F5Diet:Mediterranean + BPA Chow | Sex:F
F6Diet:Mediterranean + BPA Chow | Sex:M
F7Diet:Mediterranean HFD Chow | Sex:F
F8Diet:Mediterranean HFD Chow | Sex:M
F9Diet:Western + BPA Chow | Sex:F
F10Diet:Western + BPA Chow | Sex:M
F11Diet:Western HFD Chow | Sex:F
F12Diet:Western HFD Chow | Sex:M
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