MassIVE MSV000084959

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Multiplexed fractionated proteomics reveals synaptic factors associated with cognitive resilience in Alzheimers Disease

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Description

Proteome maps of biochemically enriched synaptic tissue from human Alzheimers Disease (AD) and control angular gyrus samples to highlight the synapse as a site of integration for pathophysiological processes active in AD. The samples were combined into eleven TMTpools (01 to 11). Samples pools were fractionated using basic pH reversed-phase chromatography (bRPLC) and at least 12 fractions were analyzed by LC-MS2/MS3 per pool. The RAW files are: Carlyle_TMTpool_01_fraction_01 to Carlyle_TMTpool_01_fraction_12 Carlyle_TMTpool_02_fraction_01 to Carlyle_TMTpool_02_fraction_12 Carlyle_TMTpool_03_fraction_01 to Carlyle_TMTpool_03_fraction_12 Carlyle_TMTpool_04_fraction_01 to Carlyle_TMTpool_04_fraction_12 Carlyle_TMTpool_05_fraction_01 to Carlyle_TMTpool_05_fraction_12 Carlyle_TMTpool_06_fraction_01 to Carlyle_TMTpool_06_fraction_12 Carlyle_TMTpool_07_fraction_01 to Carlyle_TMTpool_07_fraction_12 Carlyle_TMTpool_08_fraction_01 to Carlyle_TMTpool_08_fraction_08, Carlyle_TMTpool_08_fraction_09A, Carlyle_TMTpool_08_fraction_09B, Carlyle_TMTpool_08_fraction_10 to Carlyle_TMTpool_08_fraction_12 Carlyle_TMTpool_09_fraction_01 to Carlyle_TMTpool_09_fraction_12 Carlyle_TMTpool_10_fraction_01 to Carlyle_TMTpool_10_fraction_12 Carlyle_TMTpool_11_fraction_01 to Carlyle_TMTpool_11_fraction_12 The labeling scheme is: TMTpool_01: RUSH_0592 (126), RUSH_0034 (127n), RUSH_0755 (127c), RUSH_0143 (128n), RUSH_1442 (128c), RUSH_0570 (129n), Pooled_sample (129c), Pooled_sample (130n), RUSH_0992 (130c), RUSH_0857 (131n), bridge (131c). TMTpool_02: RUSH_0974 (126), RUSH_1440 (127n), RUSH_0240 (127c), RUSH_0032 (128n), RUSH_0406 (128c), RUSH_0065 (129n), RUSH_1376 (129c), RUSH_0684 (130n), RUSH_0269 (130c), RUSH_1159 (131n), bridge (131c). TMTpool_03: RUSH_0136 (126), Pooled_sample (127n), RUSH_0537 (127c), RUSH_1250 (128n), RUSH_0795 (128c), RUSH_0001 (129n), RUSH_0404 (129c), RUSH_0606 (130n), RUSH_0229 (130c), RUSH_0465 (131n), bridge (131c). TMTpool_04: RUSH_0734 (126), RUSH_0873 (127n), RUSH_0743 (127c), Pooled_sample (128n), RUSH_0712 (128c), RUSH_0751 (129n), RUSH_0302 (129c), RUSH_0499 (130n), RUSH_1218 (130c), RUSH_1421 (131n), bridge (131c). TMTpool_05: RUSH_1392 (126), RUSH_0890 (127n), RUSH_1006 (127c), RUSH_1063 (128n), RUSH_0128 (128c), RUSH_0590 (129n), RUSH_0674 (129c), RUSH_0572 (130n), RUSH_0413 (130c), RUSH_1288 (131n), bridge (131c). TMTpool_06: RUSH_1487 (126), RUSH_1348 (127n), RUSH_0007 (127c), RUSH_1323 (128n), RUSH_1498 (128c), RUSH_0976 (129n), RUSH_0859 (129c), RUSH_0544 (130n), RUSH_0067 (130c), RUSH_1384 (131n), bridge (131c). TMTpool_07: RUSH_0212 (126), RUSH_1474 (127n), Pooled_sample (127c), RUSH_0010 (128n), RUSH_0931 (128c), RUSH_1205 (129n), RUSH_1200 (129c), RUSH_0206 (130n), RUSH_0376 (130c), RUSH_0460 (131n), bridge (131c). TMTpool_08: RUSH_0927 (126), RUSH_0963 (127n), RUSH_0055 (127c), RUSH_0085 (128n), RUSH_0780 (128c), RUSH_0327 (129n), RUSH_0354 (129c), RUSH_0123 (130n), RUSH_1358 (130c), RUSH_1424 (131n), bridge (131c). TMTpool_09: RUSH_1334 (126), RUSH_0921 (127n), Pooled_sample (127c), RUSH_1093 (128n), RUSH_1499 (128c), RUSH_1419 (129n), Pooled_sample (129c), RUSH_0555 (130n), RUSH_0618 (130c), RUSH_0732 (131n), bridge (131c). TMTpool_10: RUSH_1176 (126), Pooled_sample (127n), RUSH_0958 (127c), RUSH_0447 (128n), RUSH_1485 (128c), RUSH_0158 (129n), RUSH_0252 (129c), RUSH_0078 (130n), RUSH_0415 (130c), Pooled_sample (131n), bridge (131c). TMTpool_11: RUSH_1313 (126), RUSH_0989 (127n), RUSH_0295 (127c), RUSH_0177 (128n), RUSH_0064 (128c), RUSH_0919 (129n), RUSH_0847 (129c), RUSH_0266 (130n), RUSH_0933 (130c), Pooled_sample (131n), bridge (131c). [doi:10.25345/C5VX0K] [dataset license: CC0 1.0 Universal (CC0 1.0)]

Keywords: Alzheimers disease, synaptic tissue, quantitative proteomics, TMT11

Contact

Principal Investigators:
(in alphabetical order) 		Becky Carlyle, Massachusetts General Hospital and Harvard Medical School, United States
Submitting User: whaas
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