#METABOLOMICS WORKBENCH hmdawson_20230327_153557 DATATRACK_ID:3822 STUDY_ID:ST002539 ANALYSIS_ID:AN004182 PROJECT_ID:PR001635 VERSION 1 CREATED_ON April 4, 2023, 3:19 pm #PROJECT PR:PROJECT_TITLE Microbial metabolomic responses to changes in temperature and salinity along the PR:PROJECT_TITLE western Antarctic Peninsula. PR:PROJECT_TYPE Marine Metabolomics PR:PROJECT_SUMMARY Seasonal cycles within the marginal ice zones in polar regions include large PR:PROJECT_SUMMARY shifts in temperature and salinity that strongly influence microbial abundance PR:PROJECT_SUMMARY and physiology. However, the combined effects of concurrent temperature and PR:PROJECT_SUMMARY salinity change on microbial community structure and biochemical composition PR:PROJECT_SUMMARY during transitions between seawater and sea ice are not well understood. Coastal PR:PROJECT_SUMMARY marine communities along the western Antarctic Peninsula were sampled and PR:PROJECT_SUMMARY surface seawater was incubated at combinations of temperature and salinity PR:PROJECT_SUMMARY mimicking the formation (cold, salty) and melting (warm, fresh) of sea ice to PR:PROJECT_SUMMARY evaluate how these factors may shape community composition and particulate PR:PROJECT_SUMMARY metabolite pools during seasonal transitions. Bacterial and algal community PR:PROJECT_SUMMARY structures were tightly coupled to each other and distinct across sea-ice, PR:PROJECT_SUMMARY seawater, and sea-ice-meltwater field samples, with unique metabolite profiles PR:PROJECT_SUMMARY in each habitat. During short-term (approximately 10-day) incubations of PR:PROJECT_SUMMARY seawater microbial communities under different temperature and salinity PR:PROJECT_SUMMARY conditions, community compositions changed minimally while metabolite pools PR:PROJECT_SUMMARY shifted greatly, strongly accumulating compatible solutes like proline and PR:PROJECT_SUMMARY glycine betaine under cold and salty conditions. Lower salinities reduced total PR:PROJECT_SUMMARY metabolite concentrations in particulate matter, which may indicate a release of PR:PROJECT_SUMMARY metabolites into the labile dissolved organic matter pool. Low salinity also PR:PROJECT_SUMMARY increased acylcarnitine concentrations in particulate matter, suggesting a PR:PROJECT_SUMMARY potential for fatty acid degradation and reduced nutritional value at the base PR:PROJECT_SUMMARY of the food web during freshening. Our findings have consequences for food web PR:PROJECT_SUMMARY dynamics, microbial interactions, and carbon cycling as polar regions undergo PR:PROJECT_SUMMARY rapid climate change. PR:INSTITUTE University of Washington, School of Oceanography PR:DEPARTMENT School of Oceanography PR:LABORATORY Young Lab PR:LAST_NAME Dawson PR:FIRST_NAME Hannah PR:ADDRESS 1501 NE Boat St, Seattle, WA, 98195, USA PR:EMAIL hmdawson@uw.edu PR:PHONE 5404547754 PR:FUNDING_SOURCE National Science Foundation PR:PUBLICATIONS Dawson et al., in review ISME Journal 2023 #STUDY ST:STUDY_TITLE Microbial metabolomic responses to changes in temperature and salinity along the ST:STUDY_TITLE western Antarctic Peninsula. ST:STUDY_TYPE Study of particulate metabolites in phytoplankton and sea-ice algae along the ST:STUDY_TYPE Western Antarctic Peninsula ST:STUDY_SUMMARY Seasonal cycles within the marginal ice zones in polar regions include large ST:STUDY_SUMMARY shifts in temperature and salinity that strongly influence microbial abundance ST:STUDY_SUMMARY and physiology. However, the combined effects of concurrent temperature and ST:STUDY_SUMMARY salinity change on microbial community structure and biochemical composition ST:STUDY_SUMMARY during transitions between seawater and sea ice are not well understood. Coastal ST:STUDY_SUMMARY marine communities along the western Antarctic Peninsula were sampled and ST:STUDY_SUMMARY surface seawater was incubated at combinations of temperature and salinity ST:STUDY_SUMMARY mimicking the formation (cold, salty) and melting (warm, fresh) of sea ice to ST:STUDY_SUMMARY evaluate how these factors may shape community composition and particulate ST:STUDY_SUMMARY metabolite pools during seasonal transitions. Bacterial and algal community ST:STUDY_SUMMARY structures were tightly coupled to each other and distinct across sea-ice, ST:STUDY_SUMMARY seawater, and sea-ice-meltwater field samples, with unique metabolite profiles ST:STUDY_SUMMARY in each habitat. During short-term (approximately 10-day) incubations of ST:STUDY_SUMMARY seawater microbial communities under different temperature and salinity ST:STUDY_SUMMARY conditions, community compositions changed minimally while metabolite pools ST:STUDY_SUMMARY shifted greatly, strongly accumulating compatible solutes like proline and ST:STUDY_SUMMARY glycine betaine under cold and salty conditions. Lower salinities reduced total ST:STUDY_SUMMARY metabolite concentrations in particulate matter, which may indicate a release of ST:STUDY_SUMMARY metabolites into the labile dissolved organic matter pool. Low salinity also ST:STUDY_SUMMARY increased acylcarnitine concentrations in particulate matter, suggesting a ST:STUDY_SUMMARY potential for fatty acid degradation and reduced nutritional value at the base ST:STUDY_SUMMARY of the food web during freshening. Our findings have consequences for food web ST:STUDY_SUMMARY dynamics, microbial interactions, and carbon cycling as polar regions undergo ST:STUDY_SUMMARY rapid climate change. ST:INSTITUTE University of Washington, School of Oceanography ST:DEPARTMENT School of Oceanography ST:LABORATORY Young Lab ST:LAST_NAME Dawson ST:FIRST_NAME Hannah ST:ADDRESS 1501 NE Boat St, Seattle, WA, 98195, USA ST:EMAIL hmdawson@uw.edu ST:PHONE 5404547754 #SUBJECT SU:SUBJECT_TYPE Water sample #SUBJECT_SAMPLE_FACTORS: SUBJECT(optional)[tab]SAMPLE[tab]FACTORS(NAME:VALUE pairs separated by |)[tab]Raw file names and additional sample data SUBJECT_SAMPLE_FACTORS - Blk_FilterBlk20_A Sampling_Date:NA | Latitude:NA | Longitude:NA | sample_vol_filtered_L:0.45 RAW_FILE_NAME=200821_Smp_FilterBlk20_A 200821_Smp_FilterBlk20_A 200825_Smp_FilterBlk20_A 200827_Smp_FilterBlk20-neg_A SUBJECT_SAMPLE_FACTORS - Blk_FilterBlk35_A Sampling_Date:NA | Latitude:NA | Longitude:NA | sample_vol_filtered_L:0.46 RAW_FILE_NAME=200821_Smp_FilterBlk35_A 200821_Smp_FilterBlk35_A 200825_Smp_FilterBlk35_A 200827_Smp_FilterBlk35-neg_A SUBJECT_SAMPLE_FACTORS - Blk_FilterBlk50_A Sampling_Date:NA | Latitude:NA | Longitude:NA | sample_vol_filtered_L:0.44 RAW_FILE_NAME=200821_Smp_FilterBlk50_A 200821_Smp_FilterBlk50_A 200825_Smp_FilterBlk50_A 200827_Smp_FilterBlk50-neg_A SUBJECT_SAMPLE_FACTORS - Blk_FilterBlkFSWB2_A Sampling_Date:NA | Latitude:NA | Longitude:NA | sample_vol_filtered_L:0.96 RAW_FILE_NAME=200821_Smp_FilterBlkFSWB2_A 200821_Smp_FilterBlkFSWB2_A 200825_Smp_FilterBlkFSWB2_A 200827_Smp_FilterBlkFSWB2-neg_A SUBJECT_SAMPLE_FACTORS - Blk_FilterBlkFSWB2_B Sampling_Date:NA | Latitude:NA | Longitude:NA | sample_vol_filtered_L:1.055 RAW_FILE_NAME=200821_Smp_FilterBlkFSWB2_B 200821_Smp_FilterBlkFSWB2_B 200825_Smp_FilterBlkFSWB2_B 200827_Smp_FilterBlkFSWB2-neg_B SUBJECT_SAMPLE_FACTORS - Blk_FilterBlkFSWB2_C Sampling_Date:NA | Latitude:NA | Longitude:NA | sample_vol_filtered_L:0.81 RAW_FILE_NAME=200821_Smp_FilterBlkFSWB2_C 200821_Smp_FilterBlkFSWB2_C 200825_Smp_FilterBlkFSWB2_C 200827_Smp_FilterBlkFSWB2-neg_C SUBJECT_SAMPLE_FACTORS - Blk_FilterBlkFSWB3_A Sampling_Date:NA | Latitude:NA | Longitude:NA | sample_vol_filtered_L:0.775 RAW_FILE_NAME=200821_Smp_FilterBlkFSWB3_A 200821_Smp_FilterBlkFSWB3_A 200825_Smp_FilterBlkFSWB3_A 200827_Smp_FilterBlkFSWB3-neg_A SUBJECT_SAMPLE_FACTORS - Blk_FilterBlkFSWB3_B Sampling_Date:NA | Latitude:NA | Longitude:NA | sample_vol_filtered_L:0.91 RAW_FILE_NAME=200821_Smp_FilterBlkFSWB3_B 200821_Smp_FilterBlkFSWB3_B 200825_Smp_FilterBlkFSWB3_B 200827_Smp_FilterBlkFSWB3-neg_B SUBJECT_SAMPLE_FACTORS - Blk_FilterBlkFSWB3_C Sampling_Date:NA | Latitude:NA | Longitude:NA | sample_vol_filtered_L:0.895 RAW_FILE_NAME=200821_Smp_FilterBlkFSWB3_C 200821_Smp_FilterBlkFSWB3_C 200825_Smp_FilterBlkFSWB3_C 200827_Smp_FilterBlkFSWB3-neg_C SUBJECT_SAMPLE_FACTORS - Blk_FilterBlkFSWB5_A Sampling_Date:NA | Latitude:NA | Longitude:NA | sample_vol_filtered_L:0.975 RAW_FILE_NAME=200821_Smp_FilterBlkFSWB5_A 200821_Smp_FilterBlkFSWB5_A 200825_Smp_FilterBlkFSWB5_A 200827_Smp_FilterBlkFSWB5-neg_A SUBJECT_SAMPLE_FACTORS - Blk_FilterBlkFSWB5_B Sampling_Date:NA | Latitude:NA | Longitude:NA | sample_vol_filtered_L:1.15 RAW_FILE_NAME=200821_Smp_FilterBlkFSWB5_B 200821_Smp_FilterBlkFSWB5_B 200825_Smp_FilterBlkFSWB5_B 200827_Smp_FilterBlkFSWB5-neg_B SUBJECT_SAMPLE_FACTORS - Blk_FilterBlkFSWB5_C Sampling_Date:NA | Latitude:NA | Longitude:NA | sample_vol_filtered_L:1.42 RAW_FILE_NAME=200821_Smp_FilterBlkFSWB5_C 200821_Smp_FilterBlkFSWB5_C 200825_Smp_FilterBlkFSWB5_C 200827_Smp_FilterBlkFSWB5-neg_C SUBJECT_SAMPLE_FACTORS - Blk_FilterBlkFSWEvX_A Sampling_Date:NA | Latitude:NA | Longitude:NA | sample_vol_filtered_L:1 RAW_FILE_NAME=200821_Smp_FilterBlkFSWEvX_A 200821_Smp_FilterBlkFSWEvX_A 200825_Smp_FilterBlkFSWEvX_A 200827_Smp_FilterBlkFSWEvX-neg_A SUBJECT_SAMPLE_FACTORS - Poo_TruePooAnt18_Full1 Sampling_Date:NA | Latitude:NA | Longitude:NA | sample_vol_filtered_L:NA RAW_FILE_NAME=200821_Poo_TruePooAnt18_Full1 200821_Poo_TruePooAnt18_Full1 200825_Poo_TruePooAnt18_Full1 200827_Poo_TruePooAnt18_Full-neg1 SUBJECT_SAMPLE_FACTORS - Poo_TruePooAnt18_Full2 Sampling_Date:NA | Latitude:NA | Longitude:NA | sample_vol_filtered_L:NA RAW_FILE_NAME=200821_Poo_TruePooAnt18_Full2 200821_Poo_TruePooAnt18_Full2 200825_Poo_TruePooAnt18_Full2 200827_Poo_TruePooAnt18_Full-neg2 SUBJECT_SAMPLE_FACTORS - Poo_TruePooAnt18_Full3 Sampling_Date:NA | Latitude:NA | Longitude:NA | sample_vol_filtered_L:NA RAW_FILE_NAME=200821_Poo_TruePooAnt18_Full3 200821_Poo_TruePooAnt18_Full3 200825_Poo_TruePooAnt18_Full3 200827_Poo_TruePooAnt18_Full-neg3 SUBJECT_SAMPLE_FACTORS - Poo_TruePooAnt18_Full3a Sampling_Date:NA | Latitude:NA | Longitude:NA | sample_vol_filtered_L:NA RAW_FILE_NAME=200821_Poo_TruePooAnt18_Full3a 200821_Poo_TruePooAnt18_Full3a SUBJECT_SAMPLE_FACTORS - Poo_TruePooAnt18_Full4 Sampling_Date:NA | Latitude:NA | Longitude:NA | sample_vol_filtered_L:NA RAW_FILE_NAME=200821_Poo_TruePooAnt18_Full4 200821_Poo_TruePooAnt18_Full4 200825_Poo_TruePooAnt18_Full4 200827_Poo_TruePooAnt18_Full-neg4 SUBJECT_SAMPLE_FACTORS - Poo_TruePooAnt18_Half1 Sampling_Date:NA | Latitude:NA | Longitude:NA | sample_vol_filtered_L:NA RAW_FILE_NAME=200821_Poo_TruePooAnt18_Half1 200821_Poo_TruePooAnt18_Half1 200825_Poo_TruePooAnt18_Half1 200827_Poo_TruePooAnt18_Half-neg1 SUBJECT_SAMPLE_FACTORS - Poo_TruePooAnt18_Half2 Sampling_Date:NA | Latitude:NA | Longitude:NA | sample_vol_filtered_L:NA RAW_FILE_NAME=200821_Poo_TruePooAnt18_Half2 200821_Poo_TruePooAnt18_Half2 200825_Poo_TruePooAnt18_Half2 200827_Poo_TruePooAnt18_Half-neg2 SUBJECT_SAMPLE_FACTORS - Poo_TruePooAnt18_Half3 Sampling_Date:NA | Latitude:NA | Longitude:NA | sample_vol_filtered_L:NA RAW_FILE_NAME=200821_Poo_TruePooAnt18_Half3 200821_Poo_TruePooAnt18_Half3 200825_Poo_TruePooAnt18_Half3 200827_Poo_TruePooAnt18_Half-neg3 SUBJECT_SAMPLE_FACTORS - Poo_TruePooAnt18_Half3a Sampling_Date:NA | Latitude:NA | Longitude:NA | sample_vol_filtered_L:NA RAW_FILE_NAME=200821_Poo_TruePooAnt18_Half3a 200821_Poo_TruePooAnt18_Half3a SUBJECT_SAMPLE_FACTORS - Poo_TruePooAnt18_Half4 Sampling_Date:NA | Latitude:NA | Longitude:NA | sample_vol_filtered_L:NA RAW_FILE_NAME=200821_Poo_TruePooAnt18_Half4 200821_Poo_TruePooAnt18_Half4 200825_Poo_TruePooAnt18_Half4 200827_Poo_TruePooAnt18_Half-neg4 SUBJECT_SAMPLE_FACTORS - Meltwater_T-S_A Sampling_Date:11/20/2018 | Latitude:64.78 | Longitude:64.07 | sample_vol_filtered_L:0.6 RAW_FILE_NAME=200821_Smp_20ppt3C_A 200821_Smp_20ppt3C_A 200825_Smp_20ppt3C_A 200827_Smp_20ppt3C-neg_A SUBJECT_SAMPLE_FACTORS - Meltwater_T-S_B Sampling_Date:11/20/2018 | Latitude:64.78 | Longitude:64.07 | sample_vol_filtered_L:0.62 RAW_FILE_NAME=200821_Smp_20ppt3C_B 200821_Smp_20ppt3C_B 200825_Smp_20ppt3C_B 200827_Smp_20ppt3C-neg_B SUBJECT_SAMPLE_FACTORS - Meltwater_T-S_C Sampling_Date:11/20/2018 | Latitude:64.78 | Longitude:64.07 | sample_vol_filtered_L:0.6 RAW_FILE_NAME=200821_Smp_20ppt3C_C 200821_Smp_20ppt3C_C 200825_Smp_20ppt3C_C 200827_Smp_20ppt3C-neg_C SUBJECT_SAMPLE_FACTORS - SW_T-S_A Sampling_Date:11/20/2018 | Latitude:64.78 | Longitude:64.07 | sample_vol_filtered_L:0.62 RAW_FILE_NAME=200821_Smp_35ppt0C_A 200821_Smp_35ppt0C_A 200825_Smp_35ppt0C_A 200827_Smp_35ppt0C-neg_A SUBJECT_SAMPLE_FACTORS - SW_T-S_B Sampling_Date:11/20/2018 | Latitude:64.78 | Longitude:64.07 | sample_vol_filtered_L:0.62 RAW_FILE_NAME=200821_Smp_35ppt0C_B 200821_Smp_35ppt0C_B 200825_Smp_35ppt0C_B 200827_Smp_35ppt0C-neg_B SUBJECT_SAMPLE_FACTORS - SW_T-S_C Sampling_Date:11/20/2018 | Latitude:64.78 | Longitude:64.07 | sample_vol_filtered_L:0.78 RAW_FILE_NAME=200821_Smp_35ppt0C_C 200821_Smp_35ppt0C_C 200825_Smp_35ppt0C_C 200827_Smp_35ppt0C-neg_C SUBJECT_SAMPLE_FACTORS - Sea ice_T-S_A Sampling_Date:11/21/2018 | Latitude:64.78 | Longitude:64.07 | sample_vol_filtered_L:0.44 RAW_FILE_NAME=200821_Smp_50ppt-3C_A 200821_Smp_50ppt-3C_A 200825_Smp_50ppt-3C_A 200827_Smp_50ppt-3C-neg_A SUBJECT_SAMPLE_FACTORS - Sea ice_T-S_B Sampling_Date:11/21/2018 | Latitude:64.78 | Longitude:64.07 | sample_vol_filtered_L:0.58 RAW_FILE_NAME=200821_Smp_50ppt-3C_B 200821_Smp_50ppt-3C_B 200825_Smp_50ppt-3C_B 200827_Smp_50ppt-3C-neg_B SUBJECT_SAMPLE_FACTORS - Sea ice_T-S_C Sampling_Date:11/21/2018 | Latitude:64.78 | Longitude:64.07 | sample_vol_filtered_L:0.5 RAW_FILE_NAME=200821_Smp_50ppt-3C_C 200821_Smp_50ppt-3C_C 200825_Smp_50ppt-3C_C 200827_Smp_50ppt-3C-neg_C SUBJECT_SAMPLE_FACTORS - Smp_Ev15SW_A Sampling_Date:NA | Latitude:NA | Longitude:NA | sample_vol_filtered_L:3.6 RAW_FILE_NAME=200821_Smp_Ev15SW_A 200821_Smp_Ev15SW_A 200825_Smp_Ev15SW_A 200827_Smp_Ev15SW-neg_A SUBJECT_SAMPLE_FACTORS - Sea ice_1_A Sampling_Date:11/19/2018 | Latitude:NA | Longitude:NA | sample_vol_filtered_L:0.25 RAW_FILE_NAME=200821_Smp_Ev32Core_A 200821_Smp_Ev32Core_A 200825_Smp_Ev32Core_A 200827_Smp_Ev32Core-neg_A SUBJECT_SAMPLE_FACTORS - Sea ice_1_B Sampling_Date:11/19/2018 | Latitude:NA | Longitude:NA | sample_vol_filtered_L:0.5 RAW_FILE_NAME=200821_Smp_Ev32Core_B 200821_Smp_Ev32Core_B 200825_Smp_Ev32Core_B 200827_Smp_Ev32Core-neg_B SUBJECT_SAMPLE_FACTORS - Sea ice_1_C Sampling_Date:11/19/2018 | Latitude:NA | Longitude:NA | sample_vol_filtered_L:0.5 RAW_FILE_NAME=200821_Smp_Ev32Core_C 200821_Smp_Ev32Core_C 200825_Smp_Ev32Core_C 200827_Smp_Ev32Core-neg_C SUBJECT_SAMPLE_FACTORS - Sea ice_3 Sampling_Date:11/14/2018 | Latitude:NA | Longitude:NA | sample_vol_filtered_L:NA RAW_FILE_NAME=200821_Smp_Ev37Core_A 200821_Smp_Ev37Core_A 200825_Smp_Ev37Core_A 200827_Smp_Ev37Core-neg_A SUBJECT_SAMPLE_FACTORS - Smp_Ev51Slush_A Sampling_Date:NA | Latitude:NA | Longitude:NA | sample_vol_filtered_L:0.2 RAW_FILE_NAME=200821_Smp_Ev51Slush_A 200821_Smp_Ev51Slush_A 200825_Smp_Ev51Slush_A 200827_Smp_Ev51Slush-neg_A SUBJECT_SAMPLE_FACTORS - Smp_Ev60SW_A Sampling_Date:NA | Latitude:NA | Longitude:NA | sample_vol_filtered_L:3 RAW_FILE_NAME=200821_Smp_Ev60SW_A 200821_Smp_Ev60SW_A 200825_Smp_Ev60SW_A 200827_Smp_Ev60SW-neg_A SUBJECT_SAMPLE_FACTORS - Sea ice_2 Sampling_Date:11/20/2018 | Latitude:NA | Longitude:NA | sample_vol_filtered_L:0.62 RAW_FILE_NAME=200821_Smp_EvXCore_A 200821_Smp_EvXCore_A 200825_Smp_EvXCore_A 200827_Smp_EvXCore-neg_A SUBJECT_SAMPLE_FACTORS - Smp_EvXSW_A Sampling_Date:NA | Latitude:NA | Longitude:NA | sample_vol_filtered_L:1.99 RAW_FILE_NAME=200821_Smp_EvXSW_A 200821_Smp_EvXSW_A 200825_Smp_EvXSW_A 200827_Smp_EvXSW-neg_A SUBJECT_SAMPLE_FACTORS - Meltwater_A Sampling_Date:11/5/2018 | Latitude:64.78 | Longitude:64.05 | sample_vol_filtered_L:0.725 RAW_FILE_NAME=200821_Smp_Hero1_A 200821_Smp_Hero1_A 200825_Smp_Hero1_A 200827_Smp_Hero1-neg_A SUBJECT_SAMPLE_FACTORS - Meltwater_B Sampling_Date:11/5/2018 | Latitude:64.78 | Longitude:64.05 | sample_vol_filtered_L:1.105 RAW_FILE_NAME=200821_Smp_Hero1_B 200821_Smp_Hero1_B 200825_Smp_Hero1_B 200827_Smp_Hero1-neg_B SUBJECT_SAMPLE_FACTORS - Meltwater_C Sampling_Date:11/5/2018 | Latitude:64.78 | Longitude:64.05 | sample_vol_filtered_L:1.02 RAW_FILE_NAME=200821_Smp_Hero1_C 200821_Smp_Hero1_C 200825_Smp_Hero1_C 200827_Smp_Hero1-neg_C SUBJECT_SAMPLE_FACTORS - SW_08_A Sampling_Date:11/8/2018 | Latitude:64.78 | Longitude:64.07 | sample_vol_filtered_L:3.1 RAW_FILE_NAME=200821_Smp_StaB1_A 200821_Smp_StaB1_A 200825_Smp_StaB1_A 200827_Smp_StaB1-neg_A SUBJECT_SAMPLE_FACTORS - SW_08_B Sampling_Date:11/8/2018 | Latitude:64.78 | Longitude:64.07 | sample_vol_filtered_L:3.3 RAW_FILE_NAME=200821_Smp_StaB1_B 200821_Smp_StaB1_B 200825_Smp_StaB1_B 200827_Smp_StaB1-neg_B SUBJECT_SAMPLE_FACTORS - SW_08_C Sampling_Date:11/8/2018 | Latitude:64.78 | Longitude:64.07 | sample_vol_filtered_L:3 RAW_FILE_NAME=200821_Smp_StaB1_C 200821_Smp_StaB1_C 200825_Smp_StaB1_C 200827_Smp_StaB1-neg_C SUBJECT_SAMPLE_FACTORS - SW_08_D Sampling_Date:11/8/2018 | Latitude:64.78 | Longitude:64.07 | sample_vol_filtered_L:2.205 RAW_FILE_NAME=200821_Smp_StaB1.D 200821_Smp_StaB1.D 200825_Smp_StaB1.D 200827_Smp_StaB1-neg_D SUBJECT_SAMPLE_FACTORS - SW_08_E Sampling_Date:11/8/2018 | Latitude:64.78 | Longitude:64.07 | sample_vol_filtered_L:2.54 RAW_FILE_NAME=200821_Smp_StaB1_E 200821_Smp_StaB1_E 200825_Smp_StaB1_E 200827_Smp_StaB1-neg_E SUBJECT_SAMPLE_FACTORS - SW_12_A Sampling_Date:11/12/2018 | Latitude:64.78 | Longitude:64.07 | sample_vol_filtered_L:2.25 RAW_FILE_NAME=200821_Smp_StaB2_A 200821_Smp_StaB2_A 200825_Smp_StaB2_A 200827_Smp_StaB2-neg_A SUBJECT_SAMPLE_FACTORS - SW_12_B Sampling_Date:11/12/2018 | Latitude:64.78 | Longitude:64.07 | sample_vol_filtered_L:2.75 RAW_FILE_NAME=200821_Smp_StaB2_B 200821_Smp_StaB2_B 200825_Smp_StaB2_B 200827_Smp_StaB2-neg_B SUBJECT_SAMPLE_FACTORS - SW_12_C Sampling_Date:11/12/2018 | Latitude:64.78 | Longitude:64.07 | sample_vol_filtered_L:1.9 RAW_FILE_NAME=200821_Smp_StaB2_C 200821_Smp_StaB2_C 200825_Smp_StaB2_C 200827_Smp_StaB2-neg_C SUBJECT_SAMPLE_FACTORS - SW_15_A Sampling_Date:11/15/2018 | Latitude:64.78 | Longitude:64.07 | sample_vol_filtered_L:2.2 RAW_FILE_NAME=200821_Smp_StaB3_A 200821_Smp_StaB3_A 200825_Smp_StaB3_A 200827_Smp_StaB3-neg_A SUBJECT_SAMPLE_FACTORS - SW_15_B Sampling_Date:11/15/2018 | Latitude:64.78 | Longitude:64.07 | sample_vol_filtered_L:2.04 RAW_FILE_NAME=200821_Smp_StaB3_B 200821_Smp_StaB3_B 200825_Smp_StaB3_B 200827_Smp_StaB3-neg_B SUBJECT_SAMPLE_FACTORS - SW_15_C Sampling_Date:11/15/2018 | Latitude:64.78 | Longitude:64.07 | sample_vol_filtered_L:2.095 RAW_FILE_NAME=200821_Smp_StaB3_C 200821_Smp_StaB3_C 200825_Smp_StaB3_C 200827_Smp_StaB3-neg_C SUBJECT_SAMPLE_FACTORS - SW_17_A Sampling_Date:11/17/2018 | Latitude:64.78 | Longitude:64.07 | sample_vol_filtered_L:1.325 RAW_FILE_NAME=200821_Smp_StaB4_A 200821_Smp_StaB4_A 200825_Smp_StaB4_A 200827_Smp_StaB4-neg_A SUBJECT_SAMPLE_FACTORS - SW_17_B Sampling_Date:11/17/2018 | Latitude:64.78 | Longitude:64.07 | sample_vol_filtered_L:1.325 RAW_FILE_NAME=200821_Smp_StaB4_B 200821_Smp_StaB4_B 200825_Smp_StaB4_B 200827_Smp_StaB4-neg_B SUBJECT_SAMPLE_FACTORS - SW_17_C Sampling_Date:11/17/2018 | Latitude:64.78 | Longitude:64.07 | sample_vol_filtered_L:1.64 RAW_FILE_NAME=200821_Smp_StaB4_C 200821_Smp_StaB4_C 200825_Smp_StaB4_C 200827_Smp_StaB4-neg_C SUBJECT_SAMPLE_FACTORS - SW_19_A Sampling_Date:11/19/2018 | Latitude:64.78 | Longitude:64.07 | sample_vol_filtered_L:1.04 RAW_FILE_NAME=200821_Smp_StaB5_A 200821_Smp_StaB5_A 200825_Smp_StaB5_A 200827_Smp_StaB5-neg_A SUBJECT_SAMPLE_FACTORS - SW_19_B Sampling_Date:11/19/2018 | Latitude:64.78 | Longitude:64.07 | sample_vol_filtered_L:1.15 RAW_FILE_NAME=200821_Smp_StaB5_B 200821_Smp_StaB5_B 200825_Smp_StaB5_B 200827_Smp_StaB5-neg_B SUBJECT_SAMPLE_FACTORS - SW_19_C Sampling_Date:11/19/2018 | Latitude:64.78 | Longitude:64.07 | sample_vol_filtered_L:1.5 RAW_FILE_NAME=200821_Smp_StaB5_C 200821_Smp_StaB5_C 200825_Smp_StaB5_C 200827_Smp_StaB5-neg_C SUBJECT_SAMPLE_FACTORS - Std_4uMStdsMix1InH2O_1 Sampling_Date:NA | Latitude:NA | Longitude:NA | sample_vol_filtered_L:NA RAW_FILE_NAME=200821_Std_4uMStdsMix1InH2O_1 200821_Std_4uMStdsMix1InH2O_1 200825_Std_4uMStdsMix1InH2O_1 200827_Std_OrganicStdsInSolvent_neg1 SUBJECT_SAMPLE_FACTORS - Std_4uMStdsMix1InH2O_2 Sampling_Date:NA | Latitude:NA | Longitude:NA | sample_vol_filtered_L:NA RAW_FILE_NAME=200821_Std_4uMStdsMix1InH2O_2 200821_Std_4uMStdsMix1InH2O_2 200825_Std_4uMStdsMix1InH2O_2 200827_Std_OrganicStdsInSolvent_neg2 SUBJECT_SAMPLE_FACTORS - Std_4uMStdsMix1InMatrix_1 Sampling_Date:NA | Latitude:NA | Longitude:NA | sample_vol_filtered_L:NA RAW_FILE_NAME=200821_Std_4uMStdsMix1InMatrix_1 200821_Std_4uMStdsMix1InMatrix_1 200825_Std_4uMStdsMix1InMatrix_1 200827_Std_OrganicStdsInMatrix_neg1 SUBJECT_SAMPLE_FACTORS - Std_4uMStdsMix1InMatrix_2 Sampling_Date:NA | Latitude:NA | Longitude:NA | sample_vol_filtered_L:NA RAW_FILE_NAME=200821_Std_4uMStdsMix1InMatrix_2 200821_Std_4uMStdsMix1InMatrix_2 200825_Std_4uMStdsMix1InMatrix_2 200827_Std_OrganicStdsInMatrix_neg2 SUBJECT_SAMPLE_FACTORS - Std_4uMStdsMix2InH2O_1 Sampling_Date:NA | Latitude:NA | Longitude:NA | sample_vol_filtered_L:NA RAW_FILE_NAME=200821_Std_4uMStdsMix2InH2O_1 200821_Std_4uMStdsMix2InH2O_1 200825_Std_4uMStdsMix2InH2O_1 SUBJECT_SAMPLE_FACTORS - Std_4uMStdsMix2InH2O_2 Sampling_Date:NA | Latitude:NA | Longitude:NA | sample_vol_filtered_L:NA RAW_FILE_NAME=200821_Std_4uMStdsMix2InH2O_2 200821_Std_4uMStdsMix2InH2O_2 200825_Std_4uMStdsMix2InH2O_2 SUBJECT_SAMPLE_FACTORS - Std_4uMStdsMix2InMatrix_1 Sampling_Date:NA | Latitude:NA | Longitude:NA | sample_vol_filtered_L:NA RAW_FILE_NAME=200821_Std_4uMStdsMix2InMatrix_1 200821_Std_4uMStdsMix2InMatrix_1 200825_Std_4uMStdsMix2InMatrix_1 SUBJECT_SAMPLE_FACTORS - Std_4uMStdsMix2InMatrix_2 Sampling_Date:NA | Latitude:NA | Longitude:NA | sample_vol_filtered_L:NA RAW_FILE_NAME=200821_Std_4uMStdsMix2InMatrix_2 200821_Std_4uMStdsMix2InMatrix_2 200825_Std_4uMStdsMix2InMatrix_2 SUBJECT_SAMPLE_FACTORS - Std_H2OinMatrix_1 Sampling_Date:NA | Latitude:NA | Longitude:NA | sample_vol_filtered_L:NA RAW_FILE_NAME=200821_Std_H2OinMatrix_1 200821_Std_H2OinMatrix_1 200825_Std_H2OinMatrix_1 200827_Std_SolventInMatrix_1 SUBJECT_SAMPLE_FACTORS - Std_H2OinMatrix_2 Sampling_Date:NA | Latitude:NA | Longitude:NA | sample_vol_filtered_L:NA RAW_FILE_NAME=200821_Std_H2OinMatrix_2 200821_Std_H2OinMatrix_2 200825_Std_H2OinMatrix_2 200827_Std_SolventInMatrix_2 #COLLECTION CO:COLLECTION_SUMMARY Samples for particulate metabolites from cruise B234P were collected from Palmer CO:COLLECTION_SUMMARY Station from November 5 to November 21 2018, all at <1 m. At each sampling date, CO:COLLECTION_SUMMARY triplicate filters were collected using polycarbonate carboys. For sea-ice CO:COLLECTION_SUMMARY cores, the bottom 5-cm sections were placed in polycarbonate tubs and allowed to CO:COLLECTION_SUMMARY melt at 4°C into filtered seawater before collection. Samples (~0.2-3L) were CO:COLLECTION_SUMMARY collected into polycarbonate carboys, filtered onto 147 mm 0.2 μm PTFE filters CO:COLLECTION_SUMMARY using peristaltic pumps, polycarbonate filter holders, and Masterflex PharMed CO:COLLECTION_SUMMARY BPT tubing (Cole-Parmer). Filters were flash frozen in liquid nitrogen and CO:COLLECTION_SUMMARY stored at -80°C until extraction. Blank PTFE filters were extracted alongside CO:COLLECTION_SUMMARY samples as methodological blanks. CO:SAMPLE_TYPE Suspended Marine Particulate Matter CO:STORAGE_CONDITIONS Described in summary #TREATMENT TR:TREATMENT_SUMMARY On 12th November 2018 (sample SW_12), additional seawater was collected for TR:TREATMENT_SUMMARY incubation experiments that simulated temperature(T)-salinity(S) conditions of TR:TREATMENT_SUMMARY sea-ice meltwater (3˚C and salinity 21, designated Meltwater_T-S), ambient TR:TREATMENT_SUMMARY seawater (0˚C and salinity 35, SW_T-S), and sea ice (3˚C and salinity 52, Sea TR:TREATMENT_SUMMARY ice_T-S) in triplicate. All other samples received no treatment and were samples TR:TREATMENT_SUMMARY of the natural marine microbial population in the surface ocean and sea ice TR:TREATMENT_SUMMARY along the western Antarctic Peninsula. #SAMPLEPREP SP:SAMPLEPREP_SUMMARY Each sample was extracted using a modified Bligh-Dyer extraction. Briefly, SP:SAMPLEPREP_SUMMARY filters were put into 15 mL teflon centrifuge tubes containing a mixture of 100 SP:SAMPLEPREP_SUMMARY µm and 400 µm silica beads. Heavy isotope-labeled internal standards were SP:SAMPLEPREP_SUMMARY added along with ~2 mL of cold aqueous solvent (50:50 methanol:water) and ~3 mL SP:SAMPLEPREP_SUMMARY of cold organic solvent (dichloromethane). The samples were shaken on a SP:SAMPLEPREP_SUMMARY FastPrep-24 Homogenizer for 30 seconds and chilled in a -20 °C freezer SP:SAMPLEPREP_SUMMARY repeatedly for three cycles of bead-beating and a total of 30 minutes of SP:SAMPLEPREP_SUMMARY chilling. The organic and aqueous layers were separated by spinning samples in a SP:SAMPLEPREP_SUMMARY centrifuge at 4,300 rpm for 2 minutes at 4 °C. The aqueous layer was removed to SP:SAMPLEPREP_SUMMARY a new glass centrifuge tube. The remaining organic fraction was rinsed three SP:SAMPLEPREP_SUMMARY more times with additions of 1 to 2 mL of 50:50 methanol:water. All aqueous SP:SAMPLEPREP_SUMMARY rinses were combined for each sample and dried down under N2 gas. The remaining SP:SAMPLEPREP_SUMMARY organic layer was transferred into a clean glass centrifuge tube and the SP:SAMPLEPREP_SUMMARY remaining bead beating tube was rinsed two more times with cold organic solvent. SP:SAMPLEPREP_SUMMARY The combined organic rinses were centrifuged, transferred to a new tube, and SP:SAMPLEPREP_SUMMARY dried under N2 gas. Dried aqueous fractions were re-dissolved in 380 µL of SP:SAMPLEPREP_SUMMARY water. Dried organic fractions were re-dissolved in 380 µL of 1:1 SP:SAMPLEPREP_SUMMARY water:acetonitrile. 20 µL of isotope-labeled injection standards in water were SP:SAMPLEPREP_SUMMARY added to both fractions. Blank filters were extracted alongside samples as SP:SAMPLEPREP_SUMMARY methodological blanks. SP:PROCESSING_STORAGE_CONDITIONS On ice SP:EXTRACTION_METHOD Bligh-Dyer SP:EXTRACT_STORAGE -80℃ #CHROMATOGRAPHY CH:CHROMATOGRAPHY_SUMMARY See attached summary. CH:CHROMATOGRAPHY_TYPE HILIC CH:INSTRUMENT_NAME Waters Acquity I-Class CH:COLUMN_NAME SeQuant ZIC- pHILIC (150 x 2.1mm,5um) CH:SOLVENT_A 10mM ammonium carbonate;85% water/15% acetonitrile CH:SOLVENT_B 10mM ammonium carbonate;85% acetonitrile/15% water CH:FLOW_GRADIENT 100% B for 2 minutes, ramped to 64% A over 18 minutes, ramped up to 100% A over CH:FLOW_GRADIENT 1 minute, held at 100% A for 7 minutes, and equilibrated at 100% B for 22 CH:FLOW_GRADIENT minutes (total time is 50 minutes) CH:FLOW_RATE 0.15 mL/min CH:COLUMN_TEMPERATURE 30 #ANALYSIS AN:ANALYSIS_TYPE MS AN:ANALYSIS_PROTOCOL_FILE Ingalls_Metabolomics_MS_PalmerStation.txt #MS MS:INSTRUMENT_NAME Thermo Q Exactive HF hybrid Orbitrap MS:INSTRUMENT_TYPE Orbitrap MS:MS_TYPE ESI MS:ION_MODE NEGATIVE MS:MS_COMMENTS See protocol. #MS_METABOLITE_DATA MS_METABOLITE_DATA:UNITS Estimated metabolite carbon concentration (nmol C per L) MS_METABOLITE_DATA_START Samples Meltwater_A Meltwater_B Meltwater_C Meltwater_T-S_A Meltwater_T-S_B Meltwater_T-S_C Sea ice_1_A Sea ice_1_B Sea ice_1_C Sea ice_2 Sea ice_T-S_A Sea ice_T-S_B Sea ice_T-S_C SW_08_A SW_08_B SW_08_C SW_12_A SW_12_B SW_12_C SW_15_A SW_15_B SW_15_C SW_17_A SW_17_B SW_17_C SW_19_A SW_19_B SW_19_C SW_T-S_A SW_T-S_B SW_T-S_C Factors Sampling_Date:11/5/2018 | Latitude:64.78 | Longitude:64.05 | sample_vol_filtered_L:0.725 Sampling_Date:11/5/2018 | Latitude:64.78 | Longitude:64.05 | sample_vol_filtered_L:1.105 Sampling_Date:11/5/2018 | Latitude:64.78 | Longitude:64.05 | sample_vol_filtered_L:1.02 Sampling_Date:11/20/2018 | Latitude:64.78 | Longitude:64.07 | sample_vol_filtered_L:0.6 Sampling_Date:11/20/2018 | Latitude:64.78 | Longitude:64.07 | sample_vol_filtered_L:0.62 Sampling_Date:11/20/2018 | Latitude:64.78 | Longitude:64.07 | sample_vol_filtered_L:0.6 Sampling_Date:11/19/2018 | Latitude:NA | Longitude:NA | sample_vol_filtered_L:0.25 Sampling_Date:11/19/2018 | Latitude:NA | Longitude:NA | sample_vol_filtered_L:0.5 Sampling_Date:11/19/2018 | Latitude:NA | Longitude:NA | sample_vol_filtered_L:0.5 Sampling_Date:11/20/2018 | Latitude:NA | Longitude:NA | sample_vol_filtered_L:0.62 Sampling_Date:11/21/2018 | Latitude:64.78 | Longitude:64.07 | sample_vol_filtered_L:0.44 Sampling_Date:11/21/2018 | Latitude:64.78 | Longitude:64.07 | sample_vol_filtered_L:0.58 Sampling_Date:11/21/2018 | Latitude:64.78 | Longitude:64.07 | sample_vol_filtered_L:0.5 Sampling_Date:11/8/2018 | Latitude:64.78 | Longitude:64.07 | sample_vol_filtered_L:3.1 Sampling_Date:11/8/2018 | Latitude:64.78 | Longitude:64.07 | sample_vol_filtered_L:3.3 Sampling_Date:11/8/2018 | Latitude:64.78 | Longitude:64.07 | sample_vol_filtered_L:3 Sampling_Date:11/12/2018 | Latitude:64.78 | Longitude:64.07 | sample_vol_filtered_L:2.25 Sampling_Date:11/12/2018 | Latitude:64.78 | Longitude:64.07 | sample_vol_filtered_L:2.75 Sampling_Date:11/12/2018 | Latitude:64.78 | Longitude:64.07 | sample_vol_filtered_L:1.9 Sampling_Date:11/15/2018 | Latitude:64.78 | Longitude:64.07 | sample_vol_filtered_L:2.2 Sampling_Date:11/15/2018 | Latitude:64.78 | Longitude:64.07 | sample_vol_filtered_L:2.04 Sampling_Date:11/15/2018 | Latitude:64.78 | Longitude:64.07 | sample_vol_filtered_L:2.095 Sampling_Date:11/17/2018 | Latitude:64.78 | Longitude:64.07 | sample_vol_filtered_L:1.325 Sampling_Date:11/17/2018 | Latitude:64.78 | Longitude:64.07 | sample_vol_filtered_L:1.325 Sampling_Date:11/17/2018 | Latitude:64.78 | Longitude:64.07 | sample_vol_filtered_L:1.64 Sampling_Date:11/19/2018 | Latitude:64.78 | Longitude:64.07 | sample_vol_filtered_L:1.04 Sampling_Date:11/19/2018 | Latitude:64.78 | Longitude:64.07 | sample_vol_filtered_L:1.15 Sampling_Date:11/19/2018 | Latitude:64.78 | Longitude:64.07 | sample_vol_filtered_L:1.5 Sampling_Date:11/20/2018 | Latitude:64.78 | Longitude:64.07 | sample_vol_filtered_L:0.62 Sampling_Date:11/20/2018 | Latitude:64.78 | Longitude:64.07 | sample_vol_filtered_L:0.62 Sampling_Date:11/20/2018 | Latitude:64.78 | Longitude:64.07 | sample_vol_filtered_L:0.78 Acetylglutamic acid 0.140956935 0.075504812 0.064222266 0.05148774 0.061926737 0.080787972 0.282950746 0.127845175 0.119482648 0.690710676 0.097243661 0.085333378 0.079172996 0.120026157 0.098166536 0.183624406 0.280293431 0.148105249 0.246713322 0.249212515 0.305162372 0.361539561 0.446235019 0.41889275 0.516851845 0.370084709 0.339545783 0.407250114 0.908413571 0.955428271 1.351403478 Aconitic Acid 0.026116082 0.017134986 0.018562901 0.129406874 0.229699329 0.056782311 0.49970538 0.148031352 0.11869357 0.171283273 0.04246589 0.065877097 0.062464834 0.032025836 0.005737624 0.013267053 0.008415182 0.006885149 0.009965347 0.050011695 0.018438982 0.032028309 0.019364835 0.019364835 0.01564537 0.024671544 0.022311658 0.017105604 0.311841796 0.109231301 0.186900591 ADP 0.000317579 0.000208366 0.00022573 0.503571482 2.364900201 0.000383741 0.582518468 1.059608 0.291259234 0.234886479 0.975849254 5.833040777 2.844992567 0.048448632 6.98E-05 7.67E-05 0.000102331 8.37E-05 0.000121181 0.000104657 0.000112865 0.000109902 0.20920793 0.20920793 0.1690247 0.26653895 0.24104392 0.184800338 0.000371362 0.000371362 0.000295185 Amino Propanesulfonic Acid 0.005128587 0.00336491 0.003645319 1.97E-05 1.90E-05 1.97E-05 4.72E-05 2.36E-05 2.36E-05 1.90E-05 2.68E-05 2.04E-05 2.36E-05 0.001199428 0.001126735 0.001239408 0.001652545 0.001352082 0.001956961 5.37E-06 5.79E-06 5.64E-06 8.91E-06 8.91E-06 7.20E-06 1.14E-05 1.03E-05 7.87E-06 0.063463071 0.074440046 0.11628201 AMP 0.804536763 0.853375987 0.980493421 21.42341489 26.47775497 36.08083814 295.3145403 29.43468665 25.82154597 41.31105182 7.330309549 8.873511733 9.831508154 1.849517199 2.017454579 2.778567418 9.298739874 4.63026967 8.502919534 7.294154596 5.248115507 7.41599437 15.13377769 16.43848296 12.90642915 8.466758211 6.3811058 8.808255461 70.96487209 43.54081234 41.59770995 cAMP 9.25E-06 6.07E-06 6.57E-06 1.932901626 1.598791995 0.218211155 0.282193399 1.34E-05 1.34E-05 0.116085232 1.52E-05 1.16E-05 1.34E-05 0.015786738 0.044130119 2.23E-06 0.012844555 0.052719606 0.016429685 0.035040813 0.092313943 0.085614338 0.123153561 0.028939854 0.056613514 0.147156973 0.33443395 0.186027171 0.159835845 0.640818081 0.890862768 cGMP 0.0337587 0.022149373 0.023995154 1.223401708 0.980632981 0.225780959 0.476618216 7.00E-05 7.00E-05 0.114348461 7.95E-05 6.03E-05 7.00E-05 0.01555947 0.032410235 0.008158353 0.010877803 0.008900021 0.012881609 0.029621448 0.031944699 0.031106055 0.02553574 0.02553574 0.02063101 0.032533515 0.09345007 0.056989 0.137313219 0.297942329 0.444808014 Citric Acid 7.367161743 4.833658157 5.236463004 18.72648823 31.59165097 9.662002638 50.57949283 11.28040641 16.41508328 11.62089058 3.456188567 2.621936154 3.041445939 1.722965246 1.61854311 1.780397421 2.373863228 1.942251732 2.811153823 9.720461241 1.595548066 3.799976538 1.781240148 11.8945259 1.9513133 1.660809209 1.593011814 14.42303578 62.88313179 9.922996632 22.29911346 Cysteic Acid 0.752599754 1.455253097 1.625133792 1.490591468 1.491851153 1.040915347 21.15529629 7.543713142 2.806197386 10.17706699 0.219042399 0.17781218 0.234252327 0.116974015 0.107315095 0.117804088 0.156085197 0.106900163 0.158694065 0.21980396 0.259269669 0.261957045 0.417614843 0.364751686 0.367233793 0.446622666 0.484431215 0.447894635 0.667442252 0.589706011 0.576027351 Cysteinesulfinic acid 2.31E-05 1.52E-05 1.65E-05 0.133917452 0.046101313 2.80E-05 0.423075391 0.248910819 0.275241976 0.106139641 3.81E-05 0.09028784 0.0467738 0.013552325 0.00676279 0.018125591 0.034169603 0.003192021 0.023046276 0.016251811 0.006450424 0.014376234 0.039576434 0.033856832 0.030578262 1.61E-05 1.46E-05 1.12E-05 0.091258767 0.075805135 0.157079196 DHAP 0.061650948 0.040449717 0.043820526 4.822411328 4.729272133 0.71064938 0.863602895 0.356629045 0.448840031 0.757413647 0.605392591 0.4743821 0.6222382 0.413069568 0.117454164 0.047021466 0.237859231 0.226762217 0.613699854 0.542246268 0.490431338 0.63772082 0.744134325 1.257445464 1.149992889 0.363104696 1.152437212 1.419685098 6.862249785 3.91809701 7.243452567 DHPS 2.480984371 5.623863173 5.921575864 67.64336813 60.31414606 46.37719555 162.9403992 60.51937296 16.89226378 65.97924124 20.79913872 16.22770126 49.41745404 4.333529217 3.579380101 4.003494065 17.15620011 7.095042971 14.33648422 15.55748876 17.27875258 18.06495126 33.43106185 26.82604543 36.19051774 34.55341316 35.22151366 29.60275203 83.61909226 73.65361013 115.5334059 Ethyl Dihydroxybenzoate 0.054895033 0.036017103 0.039018528 0.122155108 0.11821462 0.122155108 0.135708634 0.123862122 0.190768294 0.111188385 0.110183605 0.083587563 0.096961573 0.012838355 0.012060272 0.02752072 0.0176884 0.014472327 0.020946789 0.077642885 0.083732523 0.081534295 0.059864411 0.059864411 0.048366064 0.076269562 0.068974213 0.05288023 0.200753311 0.16571324 0.14111342 FAD 0.000318589 0.000209029 0.000226448 2.250775767 2.104484671 1.040051463 0.696497638 0.000461954 0.000461954 0.490278735 0.290569213 0.24474415 0.000461954 7.45E-05 7.00E-05 7.70E-05 0.163173528 0.203419447 0.304336665 0.354228607 0.495945235 0.403440399 0.638656087 0.541433025 0.547093245 0.481269696 0.485226685 0.846189288 1.934261986 1.129224773 2.130500355 Fructose 6 phosphate 0.405595535 1.250774029 1.306584213 89.79152393 79.15648079 10.26628577 42.16423516 11.22241684 5.994975388 13.25413086 9.924286885 10.782686 17.3953864 5.285306899 4.55228417 3.931488499 5.725366783 4.081609358 7.391945175 7.13802357 9.733669221 11.26617374 12.11841532 10.26709485 12.81240837 6.432169681 16.91004172 14.34240726 46.17155814 38.65246364 84.54533356 Gluconic Acid 0.312590297 0.562636607 0.496142081 10.09811734 7.446639954 6.659820649 29.24457348 6.089723124 6.523746597 4.726165239 0.66776685 0.705668204 1.011037671 0.398237615 0.381746232 0.354148513 0.583882243 0.342529485 0.561299351 0.565316248 0.812145526 0.857514096 0.99378249 0.979502638 1.322179541 0.935091224 1.459970762 1.589515836 6.958740624 4.66926956 11.09906704 Glucose 1 phosphate 0.249657947 0.757867286 0.804247537 56.13194824 48.41877936 6.318866542 26.80378435 7.047703296 3.77230486 8.381155761 6.338183323 6.419582323 10.59578539 3.349637637 2.880421419 2.419818783 3.325389504 2.608960062 4.549718963 4.393431015 5.939081137 6.690113433 7.413370432 6.250888154 7.788834293 4.126019856 10.21416383 9.001231206 27.95236431 23.79046958 51.83442838 Glucose 6 phosphate 0.471147385 1.344909029 0.964334314 83.43975169 47.04813457 11.19799535 37.29112139 8.318397584 4.843216883 12.63245272 9.922242762 10.29228732 13.73658083 3.323028788 0.013060383 3.618543515 7.325784714 4.18732097 8.019579138 0.22866482 10.29959773 9.572450431 14.00166394 15.70771998 0.019031647 8.265484408 0.021082649 17.15656036 51.70693028 0.494986891 124.1068408 glycerol 3 phosphate 0.802222368 1.069469175 0.922423397 7.407145456 3.880935504 0.218093155 19.02429352 9.420940381 6.195979192 11.93920551 25.67108493 24.26783391 35.95925039 5.627674586 7.013924178 5.438668307 9.161684459 9.809295129 9.530867347 0.122294577 24.96743256 15.01317837 30.65642214 0.326067591 19.1486647 0.366766394 24.09157448 25.30367388 18.42123346 26.90790107 36.55675164 GMP 0.652142661 0.454320886 0.697560412 8.369984785 6.811369098 0.012202302 366.7273999 26.58580469 22.17100167 32.61749398 3.726047643 4.636928563 4.701890378 1.028962272 1.185532965 1.198800802 2.071943534 1.548337014 2.182007139 1.789451186 2.506682304 2.66351651 3.283219142 3.310653654 3.274557501 2.645632761 2.828591672 3.141202436 16.59114409 17.26944688 15.78299593 Inosine 0.098154019 0.241847563 0.195332886 12.05319901 8.073762776 3.808267767 31.78027631 3.696857032 1.325224476 13.39598882 7.13179569 4.629159717 10.68101379 1.678594333 1.479159382 1.465362171 1.983314352 2.425799401 2.20079495 3.653170496 5.394995153 5.862102358 6.882690259 3.621770334 7.80980443 9.010068658 13.26155604 11.53392559 3.887434283 9.83410153 14.20462085 Isethionic Acid 0.346881999 0.903653455 1.002973691 126.3931013 122.2972685 93.64303234 123.9586429 60.40586748 41.56116231 57.32264166 62.26163081 61.28083839 70.47402984 11.57641887 10.24281548 11.88645437 12.40550402 9.467120186 12.472261 12.2404942 12.47760076 11.7785933 17.51368973 16.6629626 17.43490035 17.71728786 17.68086936 18.9021663 157.1788206 105.5443989 100.9198776 Ketoglutaric Acid 0.27487817 0.277760394 0.286536395 2.638490567 6.780842228 2.311844255 13.19545072 2.782336663 1.583665916 5.474444209 1.305530139 1.051274234 1.685943028 0.836532482 0.8463305 1.187450089 1.242186782 1.326166507 2.385433654 1.530727019 1.89945547 2.252587547 4.089111169 3.845023999 3.324135264 2.253185664 1.350308616 2.915183611 2.742874261 1.687192909 2.680164883 L-Pyroglutamic acid 1.251323505 1.588721504 2.059635479 21.22874293 8.46955829 8.745076911 50.13696717 7.438480656 5.454231355 34.61221012 6.217035945 2.240922839 9.096380118 5.801768151 3.73284018 3.462657856 2.371373077 1.745445599 2.272955803 3.069881042 3.805624059 3.69533964 6.059869206 3.033368482 6.442168414 4.430859418 8.268970965 6.533404011 8.997415703 10.20277224 14.9487989 N-acetyltaurine 0.000647834 0.000414986 0.000460951 0.016354235 0.011504754 0.007809878 0.238009907 0.161258436 0.04406988 0.066926256 0.066467006 0.054190717 0.10050216 0.018143877 0.019970429 0.023166846 0.040312437 0.018842338 0.027587507 0.029706079 0.036207049 0.029472339 0.054995867 0.040897057 0.049593464 0.051588027 0.057628012 0.044657389 0.121735721 0.101851395 0.11491005 NAD 0.000375625 0.000246451 0.000266988 0.00045388 0.000439239 0.00045388 0.001089313 0.000544657 0.000544657 0.000439239 0.454522066 0.807758505 0.686724743 8.78E-05 8.25E-05 9.08E-05 0.000121035 9.90E-05 0.000143331 0.051786933 0.055848654 0.05438246 0.000205531 0.000205531 0.000166054 0.000261854 0.000236807 0.000181552 0.000439239 0.000439239 0.000349139 Orotic Acid 0.006789997 0.003790858 0.003048392 0.151528496 0.080951439 0.085213711 0.277336557 0.085869302 0.033048508 0.122475853 0.029188951 0.023633537 0.054908007 0.014383715 0.016687956 0.015791656 0.043338907 0.027409704 0.051378128 0.040511245 0.061533604 0.05902369 0.104888785 0.084148905 0.090971203 0.067806646 0.081647591 0.103357485 0.15501236 0.109914122 0.290918994 PEP 5.28E-05 3.46E-05 3.75E-05 0.287037671 0.593213739 6.38E-05 0.313898971 0.071466415 0.384978841 0.12358635 8.70E-05 0.27967957 0.167794941 0.095189311 1.16E-05 0.025015963 0.028259028 0.024695871 0.230078024 0.181985767 0.036096287 0.3366884 0.04896563 0.332980324 0.091340957 0.073636366 0.091132417 0.719698933 1.27070316 0.471334187 1.02301042 Phosphoglyceric Acid 0.047070998 0.030883686 0.033457327 0.909845223 1.559239638 6.86E-05 1.957349221 0.544294662 0.722451623 0.14909018 0.034975107 0.430509909 0.333131193 0.051684074 0.019392255 0.021056906 0.118937351 0.100457052 0.229922074 0.237125842 0.133421891 0.405522811 0.310794932 0.416594991 0.240332373 0.088346591 0.378571786 0.810101413 1.911501763 1.316090696 1.85995535 Propionylglycine 0.049066726 0.032193101 0.034875859 0.02580969 0.02497712 0.02580969 0.075643051 0.037821525 0.037821525 0.03050123 0.040214441 0.030507507 0.035388708 0.011475283 0.010779811 0.011857792 0.015810389 0.012935773 0.01872283 0.054657039 0.058943865 0.057396413 0.028521929 0.028521929 0.023043632 0.036338035 0.032862223 0.025194371 0.180815485 0.174106843 0.356172262 Resorcylic Acid 0.002401204 0.001575451 0.001706738 0.00590932 0.010355003 0.019426479 0.324536889 0.072728659 0.039115601 0.007144135 0.008759151 0.006644873 0.007708053 0.017766972 0.000527537 0.00432218 0.004199867 0.002272537 0.012319517 0.021602378 0.001953056 0.023797572 0.010787953 0.027628788 0.059935666 4.65E-06 0.028767513 0.05533887 0.049709151 0.019221407 0.063328109 Ribose 5 phosphate 0.000103066 0.037175636 0.061774108 5.982078964 5.661739368 0.493627674 11.35847908 3.531443754 2.824971782 3.941389585 0.925540214 1.036066775 1.523302636 0.568866503 0.308678135 0.463281836 0.958619593 0.842374993 1.31322324 1.378748299 1.66550097 1.890774764 2.644807017 3.024305557 2.331025708 2.290349371 2.71952026 3.43303928 6.138027444 4.285065678 6.818992866 Taurine 0.262498413 0.655807532 0.755983802 17.91134576 20.84486862 16.93029311 69.31530089 23.74323947 22.47171079 39.40520386 55.99364486 51.82709425 63.99162601 15.59487202 13.84941634 17.61220374 28.29511883 19.87198718 26.52015958 29.63852925 30.03029008 27.31966018 48.9754337 46.56818176 43.26482739 50.33338258 46.44329629 49.33227567 101.0503345 79.98123702 86.42079088 Threonic acid 0.370463253 0.937802838 0.90649717 41.55551575 30.96722974 24.12665772 47.4134046 13.30912676 12.48656747 12.54256251 13.20080959 13.87786271 15.68825876 6.457624186 3.9263113 4.794509085 13.41755097 7.873391287 12.78052561 17.77099919 13.54061973 18.88117549 38.61277015 37.40423997 38.61500853 24.59739824 27.15497089 34.17766016 69.79845343 44.27960018 58.56824648 UDP-glucosamine 0.000174031 0.211650859 0.37466611 8.669844079 8.798149755 7.3403163 40.76131254 5.771304281 4.191826692 8.077526955 1.778283579 1.750200952 3.078376512 0.641865249 0.457213166 0.776329625 1.695765532 1.108485416 1.843425482 2.173928305 2.059229325 2.391942157 3.940829748 3.88066414 3.836210461 3.377291017 3.867285697 3.977020069 8.3758084 5.919978939 9.324594095 UDP-glucose 0.000148167 0.170170449 0.060318526 5.564987093 6.838935309 6.896239418 13.52679325 3.797478365 3.784762968 4.389321018 1.755168414 1.238119503 1.519418164 0.346954495 0.21351488 0.170455958 0.753303175 0.867442328 1.554798103 1.425515132 1.577477365 1.590438085 1.961983964 3.318798537 2.565155973 2.136675551 2.023346436 3.246619213 13.63771691 5.845591231 15.48038868 Uridine 0.894472886 1.266557319 1.605964859 23.07392377 15.11363725 10.1898406 122.2448149 14.02018716 9.081859822 23.23019692 6.526515523 4.988239605 8.224335793 0.84472713 0.927604259 0.51641164 0.787679814 0.559327435 0.886917622 0.932468854 1.38647046 1.561482966 1.67749324 1.19498083 2.371895412 2.962510532 5.55468822 2.600838981 6.06591857 8.147251591 9.690155903 MS_METABOLITE_DATA_END #METABOLITES METABOLITES_START metabolite_name mz RT_minute Empirical_Formula PubChem_Formula PubChem_Code KEGG_Code DHPS 155.001422 10.67 C3H8O5S NA NA cpd:C19675 Resorcylic Acid 153.018785 4.08 C7H6O4 C7H6O4 3469 cpd:C00628 Ketoglutaric Acid 145.0137 10.845 C5H6O5 NA NA cpd:C00026 cAMP 328.044698 4.06 C10H12N5O6P NA NA cpd:C00575 cGMP 344.039613 8.8 C10H12N5O7P NA NA cpd:C00942 Amino Propanesulfonic Acid 138.022491 11.49 C3H9NO3S NA NA cpd:C03349 Phosphoglyceric Acid 184.985118 14.755 C3H7O7P C3H7O7P 724 cpd:C00597 L-Pyroglutamic acid 128.034768 7.97 C5H7NO3 NA NA cpd:C01879 ADP 426.021596 12.09 C10H15N5O10P2 NA NA cpd:C00008 AMP 346.055262 11.585 C10H14N5O7P C10H14N5O7P 6083 cpd:C00020 Aconitic Acid 173.008615 14.21 C6H6O6 C6H6O6 643757 cpd:C00417 Citric Acid 191.01918 15.65 C6H8O7 C6H8O7 311 cpd:C00158 Fructose 6 phosphate 259.021897 13.51 C6H13O9P NA NA cpd:C00085 Gluconic Acid 195.05048 10.79 C6H12O7 NA NA cpd:C00257 Glucose 1 phosphate 259.021897 13.45 C6H13O9P NA NA cpd:C00103 Glucose 6 phosphate 259.021897 14.12 C6H13O9P C6H13O9P 99058 cpd:C00092 DHAP 168.990203 12.86 C3H7O6P C3H7O6P 668 cpd:C00111 Ribose 5 phosphate 229.011333 13.29 C5H11O8P NA NA cpd:C00117 Ethyl Dihydroxybenzoate 181.050085 2.08 C9H10O4 NA NA NA FAD 784.149317 7.585 C27H33N9O15P2 C27H33N9O15P2 643975 cpd:C00016 glycerol 3 phosphate 171.005853 13.065 C3H9O6P C3H9O6P 754 cpd:C00093 GMP 362.050178 13.85 C10H14N5O8P NA NA cpd:C00144 Inosine 267.072946 7.57 C10H12N4O5 C10H12N4O5 135398641 cpd:C00294 Isethionic Acid 124.990857 7.2 C2H6O4S NA NA cpd:C05123 Cysteic Acid 167.996671 12.15 C3H7NO5S C3H7NO5S 72886 cpd:C00506 Cysteinesulfinic acid 152.001756 10.74 C3H7NO4S C3H7NO4S 1549098 cpd:C00606 Acetylglutamic acid 188.055899 11.84 C7H11NO5 C7H11NO5 70914 cpd:C00624 N-acetyltaurine 166.017406 3.74 C4H9NO4S NA NA NA NAD 662.101304 10.6 C21H27N7O14P2 NA NA cpd:C00003 Orotic Acid 155.009283 4.195 C5H4N2O4 C5H4N2O4 967 cpd:C00295 PEP 166.974553 13.865 C3H5O6P NA NA cpd:C00074 Propionylglycine 130.050419 5.52 C5H9NO3 NA NA NA Taurine 124.006841 11.13 C2H7NO3S C2H7NO3S 1123 cpd:C00245 Threonic acid 135.02935 10.37 C4H8O5 C4H8O5 151152 cpd:C01620 UDP-glucose 565.047204 13.59 C15H24N2O17P2 NA NA cpd:C00029 UDP-glucosamine 606.073753 12.75 C17H27N3O17P2 NA NA cpd:C00043 Uridine 243.061713 6.02 C9H12N2O6 C9H12N2O6 6029 cpd:C00299 METABOLITES_END #END