{
"METABOLOMICS WORKBENCH":{"STUDY_ID":"ST001375","ANALYSIS_ID":"AN002295","VERSION":"1","CREATED_ON":"May 12, 2020, 2:06 pm"},

"PROJECT":{"PROJECT_TITLE":"A redox-active switch in Fructosamine-3-kinases expands the regulatory repertoire of the protein kinase super-family","PROJECT_TYPE":"Structural Biology, enzyme characterization","PROJECT_SUMMARY":"Aberrant regulation of metabolic kinases by altered redox homeostasis is a major contributing factor in aging and disease such as diabetes. However, the biochemical mechanisms by which metabolic kinases are regulated under oxidative stress is poorly understood. In this study, we demonstrate that the catalytic activity of a conserved family of Fructosamine-3-kinases (FN3Ks), which are evolutionarily related to eukaryotic protein kinases (ePKs), are regulated by redox-active cysteines in the kinase domain. By solving the crystal structure of FN3K homolog from Arabidopsis thaliana (AtFN3K), we demonstrate that it forms an unexpected strand-exchange dimer in which the ATP binding P-loop and adjoining beta strands are swapped between two chains in the dimer. This dimeric configuration is characterized by strained inter-chain disulfide bonds that stabilize the P-loop in an extended conformation. Mutational analysis and solution studies confirm that the strained disulfides function as redox “switches” to reversibly regulate FN3K activity and dimerization. Consistently, we find that human FN3K, which contains an equivalent P-loop Cys, is also redox-sensitive, whereas ancestral bacterial FN3K homologs, which lack a P-loop Cys, are not. Furthermore, CRISPR knockout of FN3K in human HepG2 cells results in significant upregulation of redox metabolites including glutathione. We propose that redox regulation evolved progressively in FN3Ks in response to changing cellular redox conditions. Our studies provide important new insights into the origin and evolution of redox regulation in the protein kinase superfamily and open new avenues for targeting human FN3K in diabetic complications.","INSTITUTE":"University of Georgia","DEPARTMENT":"Biochemistry and Molecular Biology","LABORATORY":"Kannan","LAST_NAME":"Kannan","FIRST_NAME":"Natarajan","ADDRESS":"B122 Life Sciences Bldg. University of Georgia Athens, GA 30602","EMAIL":"nkannan@uga.edu","PHONE":"706-542-1334","FUNDING_SOURCE":"MCB-1149106; R01GM114409","PUBLICATIONS":"A redox-active switch in Fructosamine-3-kinases expands the regulatory repertoire of the protein kinase super-family","CONTRIBUTORS":"Safal Shrestha, Samiksha Katiyar, Carlos E. Sanz-Rodriquez, Nolan R. Kemppinen, Hyun W. Kim, Renuka Kadirvelraj, Charalampos Panagos, Neda Keyhaninejad, Maxwell Colonna, Pradeep Chopra, Dominic P. Byrne, Geert J. Boons, Esther V. Knaap, Patrick A. Eyers, Arthur S. Edison, Zachary A. Wood"},

"STUDY":{"STUDY_TITLE":"Fructosamine-3-kinase (FN3K) KO in HepG2 liver cancer cells","STUDY_SUMMARY":"Fructosamine-3-kinases (FN3Ks) are a family of metabolic kinases which are evolutionarily related to eukaryotic protein kinases. Aberrant regulation of these kinases by altered redox homeostasis is a major contributing factor in aging and disease. However, the mechanisms of regulation and cellular functions of these kinases are not known. Bioinformatic analyses of cancer cell lines identified significant overexpression of FN3K in liver and eye cancer cells. To assess the functional significance of this increased expression, a CRISPR knockout of FN3K (FN3K-KO) was generated in the HepG2 liver cancer cell line. The metabolome was compared between FN3K-KO and WT HepG2 cells using untargeted 1H NMR metabolomics. This revealed significant differences in several metabolites that suggest a role for FN3K in regulating redox and energy balance in HepG2 cells.","INSTITUTE":"University of Georgia","DEPARTMENT":"Complex Carbohydrate Research Center","LABORATORY":"Edison","LAST_NAME":"Colonna","FIRST_NAME":"Maxwell","ADDRESS":"315 Riverbend Rd, Athens, GA 30602","EMAIL":"maxwellbaca@uga.edu","PHONE":"7065420257","NUM_GROUPS":"2","PUBLICATIONS":"A redox-active switch in Fructosamine-3-kinases expands the regulatory repertoire of the protein kinase super-family"},

"SUBJECT":{"SUBJECT_TYPE":"Cultured cells","SUBJECT_SPECIES":"Homo sapiens","TAXONOMY_ID":"9606","GENOTYPE_STRAIN":"HepG2"},
"SUBJECT_SAMPLE_FACTORS":[
{
"Subject ID":"-",
"Sample ID":"FN3K_1",
"Factors":{"Genotype":"FN3K KO"},
"Additional sample data":{"RAW_FILE_NAME":"15"}
},
{
"Subject ID":"-",
"Sample ID":"FN3K_2",
"Factors":{"Genotype":"FN3K KO"},
"Additional sample data":{"RAW_FILE_NAME":"10"}
},
{
"Subject ID":"-",
"Sample ID":"FN3K_3",
"Factors":{"Genotype":"FN3K KO"},
"Additional sample data":{"RAW_FILE_NAME":"18"}
},
{
"Subject ID":"-",
"Sample ID":"FN3K_4",
"Factors":{"Genotype":"FN3K KO"},
"Additional sample data":{"RAW_FILE_NAME":"22"}
},
{
"Subject ID":"-",
"Sample ID":"FN3K_5",
"Factors":{"Genotype":"FN3K KO"},
"Additional sample data":{"RAW_FILE_NAME":"13"}
},
{
"Subject ID":"-",
"Sample ID":"FN3K_6",
"Factors":{"Genotype":"FN3K KO"},
"Additional sample data":{"RAW_FILE_NAME":"8"}
},
{
"Subject ID":"-",
"Sample ID":"FN3K_7",
"Factors":{"Genotype":"FN3K KO"},
"Additional sample data":{"RAW_FILE_NAME":"7"}
},
{
"Subject ID":"-",
"Sample ID":"FN3K_8",
"Factors":{"Genotype":"FN3K KO"},
"Additional sample data":{"RAW_FILE_NAME":"9"}
},
{
"Subject ID":"-",
"Sample ID":"FN3K_9",
"Factors":{"Genotype":"FN3K KO"},
"Additional sample data":{"RAW_FILE_NAME":"20"}
},
{
"Subject ID":"-",
"Sample ID":"FN3K_10",
"Factors":{"Genotype":"FN3K KO"},
"Additional sample data":{"RAW_FILE_NAME":"23"}
},
{
"Subject ID":"-",
"Sample ID":"WT_1",
"Factors":{"Genotype":"WT"},
"Additional sample data":{"RAW_FILE_NAME":"16"}
},
{
"Subject ID":"-",
"Sample ID":"WT_2",
"Factors":{"Genotype":"WT"},
"Additional sample data":{"RAW_FILE_NAME":"21"}
},
{
"Subject ID":"-",
"Sample ID":"WT_3",
"Factors":{"Genotype":"WT"},
"Additional sample data":{"RAW_FILE_NAME":"3"}
},
{
"Subject ID":"-",
"Sample ID":"WT_4",
"Factors":{"Genotype":"WT"},
"Additional sample data":{"RAW_FILE_NAME":"5"}
},
{
"Subject ID":"-",
"Sample ID":"WT_5",
"Factors":{"Genotype":"WT"},
"Additional sample data":{"RAW_FILE_NAME":"11"}
},
{
"Subject ID":"-",
"Sample ID":"WT_6",
"Factors":{"Genotype":"WT"},
"Additional sample data":{"RAW_FILE_NAME":"4"}
},
{
"Subject ID":"-",
"Sample ID":"WT_7",
"Factors":{"Genotype":"WT"},
"Additional sample data":{"RAW_FILE_NAME":"6"}
},
{
"Subject ID":"-",
"Sample ID":"WT_8",
"Factors":{"Genotype":"WT"},
"Additional sample data":{"RAW_FILE_NAME":"2"}
},
{
"Subject ID":"-",
"Sample ID":"WT_9",
"Factors":{"Genotype":"WT"},
"Additional sample data":{"RAW_FILE_NAME":"19"}
},
{
"Subject ID":"-",
"Sample ID":"WT_10",
"Factors":{"Genotype":"WT"},
"Additional sample data":{"RAW_FILE_NAME":"17"}
}
],
"COLLECTION":{"COLLECTION_SUMMARY":"Cell cultures for both cell lines were grown simultaneously with identical media components. Upon achieving ~80% confluence in 10cm culture dish, culture media was removed and cell monolayer was washed with cold phosphate buffered saline. Cells were then quenched by addition ice-cold 80% methanol extraction solvent, scraped from the culture dish, and flash-frozen in liquid nitrogen.","SAMPLE_TYPE":"HepG2 cells","STORAGE_CONDITIONS":"-80℃"},

"TREATMENT":{"TREATMENT_SUMMARY":"None"},

"SAMPLEPREP":{"SAMPLEPREP_SUMMARY":"Aqueous metabolites were extracted by vortexing cell pellets in the extraction solvent, pelleting cell debris and collecting the supernatant. Approximately 10% of the supernatant volume was taken from each sample to form an internal pooled sample. The solvent was then evaporated to produce dried extracts.","SAMPLEPREP_PROTOCOL_FILENAME":"cell_protocol.pdf","PROCESSING_STORAGE_CONDITIONS":"On ice","EXTRACTION_METHOD":"Vortex","EXTRACT_ENRICHMENT":"Polar","EXTRACT_STORAGE":"-80℃","SAMPLE_RESUSPENSION":"Deuterium oxide phosphate buffer"},

"ANALYSIS":{"DATA_FORMAT":"Bruker"},

"NM":{"INSTRUMENT_NAME":"Bruker Avance","INSTRUMENT_TYPE":"FT-NMR","NMR_EXPERIMENT_TYPE":"1D-1H","FIELD_FREQUENCY_LOCK":"Deuterium","SPECTROMETER_FREQUENCY":"800 MHz","NMR_PROBE":"3mm Cryoprobe","NMR_SOLVENT":"D2O Phosphate buffer","NMR_TUBE_SIZE":"3mm SampleJet","SHIMMING_METHOD":"Topshim","PULSE_SEQUENCE":"noesypr1d","WATER_SUPPRESSION":"Presaturation","PULSE_WIDTH":"8.22 us","POWER_LEVEL":"11.117 W","OFFSET_FREQUENCY":"3762.64","PRESATURATION_POWER_LEVEL":"3.00E-05","CHEMICAL_SHIFT_REF_CPD":"DSS","TEMPERATURE":"27","NUMBER_OF_SCANS":"128","DUMMY_SCANS":"4","ACQUISITION_TIME":"1.24 s","RELAXATION_DELAY":"2 s","SPECTRAL_WIDTH":"16.4533 ppm","NUM_DATA_POINTS_ACQUIRED":"32768","LINE_BROADENING":"0.3 Hz","BASELINE_CORRECTION_METHOD":"Polynomial order 5"},

"NMR_METABOLITE_DATA":{
"Units":"AU",

"Data":[{"Metabolite":"Alanine","WT_8":"2.981692718","WT_3":"2.768456234","WT_6":"2.787890084","WT_4":"2.104360804","WT_7":"2.760569382","FN3K_6":"3.430702819","FN3K_8":"2.944202058","FN3K_2":"2.451538459","WT_5":"2.694996376","FN3K_5":"2.99539357","FN3K_1":"2.422030109","WT_1":"2.832610263","WT_10":"3.016495971","FN3K_3":"2.746218282","WT_9":"3.097994958","FN3K_9":"2.706942717","WT_2":"2.838631282","FN3K_4":"2.626320142","FN3K_10":"2.81141936"},{"Metabolite":"Aspartate","WT_8":"0.410103271","WT_3":"0.419811832","WT_6":"0.390989953","WT_4":"0.345777216","WT_7":"0.447692155","FN3K_6":"0.392297335","FN3K_8":"0.3296134","FN3K_2":"0.319563458","WT_5":"0.486959561","FN3K_5":"0.345030529","FN3K_1":"0.293318016","WT_1":"0.387924805","WT_10":"0.437946295","FN3K_3":"0.301772002","WT_9":"0.417404579","FN3K_9":"0.327331264","WT_2":"0.428020283","FN3K_4":"0.336385623","FN3K_10":"0.352964773"},{"Metabolite":"Citrate","WT_8":"0.218516589","WT_3":"0.222852825","WT_6":"0.237023037","WT_4":"0.187869171","WT_7":"0.23652832","FN3K_6":"0.222839469","FN3K_8":"0.219180411","FN3K_2":"0.239702845","WT_5":"0.233953437","FN3K_5":"0.229290629","FN3K_1":"0.198724986","WT_1":"0.20905269","WT_10":"0.22845993","FN3K_3":"0.224264692","WT_9":"0.240465576","FN3K_9":"0.217706484","WT_2":"0.234894309","FN3K_4":"0.21467564","FN3K_10":"0.242730767"},{"Metabolite":"Creatine","WT_8":"0.633841122","WT_3":"0.634097324","WT_6":"0.605043951","WT_4":"0.473109288","WT_7":"0.660891785","FN3K_6":"0.862394439","FN3K_8":"0.748985086","FN3K_2":"0.653872995","WT_5":"0.621831468","FN3K_5":"0.696168237","FN3K_1":"0.619083529","WT_1":"0.600151643","WT_10":"0.640506923","FN3K_3":"0.653782785","WT_9":"0.607636916","FN3K_9":"0.71917648","WT_2":"0.602528957","FN3K_4":"0.784082434","FN3K_10":"0.785590151"},{"Metabolite":"Phosphocreatine","WT_8":"0.701835784","WT_3":"0.667349853","WT_6":"0.68979943","WT_4":"0.512793746","WT_7":"0.70877833","FN3K_6":"0.72505216","FN3K_8":"0.606449289","FN3K_2":"0.509757617","WT_5":"0.69368232","FN3K_5":"0.600978665","FN3K_1":"0.490033455","WT_1":"0.634703237","WT_10":"0.708475553","FN3K_3":"0.515178043","WT_9":"0.691097963","FN3K_9":"0.572225799","WT_2":"0.692281985","FN3K_4":"0.613442065","FN3K_10":"0.611796665"},{"Metabolite":"Glutamine","WT_8":"0.249427243","WT_3":"0.263731105","WT_6":"0.25985169","WT_4":"0.261571873","WT_7":"0.27288102","FN3K_6":"0.332971962","FN3K_8":"0.296007726","FN3K_2":"0.278137281","WT_5":"0.280854832","FN3K_5":"0.317007234","FN3K_1":"0.259245155","WT_1":"0.243959723","WT_10":"0.267587569","FN3K_3":"0.261752489","WT_9":"0.271462959","FN3K_9":"0.276801311","WT_2":"0.27850131","FN3K_4":"0.262131291","FN3K_10":"0.290289459"},{"Metabolite":"Glutathione","WT_8":"0.381607933","WT_3":"0.481386015","WT_6":"0.403171579","WT_4":"0.317016532","WT_7":"0.519547869","FN3K_6":"0.68433292","FN3K_8":"0.550460555","FN3K_2":"0.569221371","WT_5":"0.494780783","FN3K_5":"0.497492975","FN3K_1":"0.494030409","WT_1":"0.385662945","WT_10":"0.417793574","FN3K_3":"0.539639893","WT_9":"0.41716552","FN3K_9":"0.552103174","WT_2":"0.40542356","FN3K_4":"0.535918241","FN3K_10":"0.665265906"},{"Metabolite":"Glycine","WT_8":"1.742839829","WT_3":"1.520637771","WT_6":"1.691530605","WT_4":"1.528318035","WT_7":"1.556575656","FN3K_6":"1.413275116","FN3K_8":"1.235137688","FN3K_2":"1.028618768","WT_5":"1.75158038","FN3K_5":"1.199425902","FN3K_1":"1.010392359","WT_1":"1.617028346","WT_10":"1.721441497","FN3K_3":"1.038183581","WT_9":"1.669551019","FN3K_9":"1.150143413","WT_2":"1.747919361","FN3K_4":"1.086614542","FN3K_10":"1.202101621"},{"Metabolite":"Glucose","WT_8":"0.043303334","WT_3":"0.066684205","WT_6":"0.112892954","WT_4":"0.238827233","WT_7":"0.034090993","FN3K_6":"0.002395077","FN3K_8":"0.027418423","FN3K_2":"0.148611841","WT_5":"7.67606E-05","FN3K_5":"0.191738896","FN3K_1":"0.103412902","WT_1":"0.095009364","WT_10":"0.062973641","FN3K_3":"0.047357505","WT_9":"0.060140254","FN3K_9":"0.055020737","WT_2":"0.093690537","FN3K_4":"0.044208166","FN3K_10":"0.045891113"},{"Metabolite":"Glutamate","WT_8":"1.12817836","WT_3":"1.080825559","WT_6":"1.12578975","WT_4":"0.942676484","WT_7":"1.152561114","FN3K_6":"1.317046974","FN3K_8":"1.15229046","FN3K_2":"1.003791147","WT_5":"1.210828148","FN3K_5":"1.070359296","FN3K_1":"0.94776317","WT_1":"1.079400546","WT_10":"1.164317148","FN3K_3":"0.999546457","WT_9":"1.137602185","FN3K_9":"1.1270242","WT_2":"1.13889067","FN3K_4":"1.070337646","FN3K_10":"1.177678519"},{"Metabolite":"Lactate","WT_8":"2.014032088","WT_3":"1.524100726","WT_6":"1.775239579","WT_4":"2.300661444","WT_7":"1.089702057","FN3K_6":"2.127918025","FN3K_8":"2.389833894","FN3K_2":"2.076188196","WT_5":"1.145279886","FN3K_5":"2.454374163","FN3K_1":"2.130961185","WT_1":"1.63219384","WT_10":"1.338346724","FN3K_3":"2.39645173","WT_9":"1.69790277","FN3K_9":"1.756506653","WT_2":"1.467111425","FN3K_4":"1.919993693","FN3K_10":"1.753430679"},{"Metabolite":"Leucine","WT_8":"0.898291863","WT_3":"0.827762928","WT_6":"0.951359532","WT_4":"1.108863296","WT_7":"0.7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GlcNAc","WT_8":"0.045871676","WT_3":"0.057238406","WT_6":"0.040964902","WT_4":"0.04706478","WT_7":"0.058775464","FN3K_6":"0.049685544","FN3K_8":"0.034007968","FN3K_2":"0.02719107","WT_5":"0.063103679","FN3K_5":"0.027285423","FN3K_1":"0.029051853","WT_1":"0.04252343","WT_10":"0.052938655","FN3K_3":"0.028571398","WT_9":"0.046170022","FN3K_9":"0.031228182","WT_2":"0.043499819","FN3K_4":"0.037663177","FN3K_10":"0.05416819"},{"Metabolite":"Valine","WT_8":"0.541326839","WT_3":"0.508692502","WT_6":"0.557433012","WT_4":"0.636414949","WT_7":"0.470176174","FN3K_6":"0.484861012","FN3K_8":"0.509485953","FN3K_2":"0.558073237","WT_5":"0.457301834","FN3K_5":"0.622489546","FN3K_1":"0.520780699","WT_1":"0.543918074","WT_10":"0.538618139","FN3K_3":"0.536646642","WT_9":"0.552233614","FN3K_9":"0.497280117","WT_2":"0.562558758","FN3K_4":"0.471065452","FN3K_10":"0.458084753"},{"Metabolite":"Glycerophosphocholine","WT_8":"0.628261817","WT_3":"0.574657757","WT_6":"0.618999813","WT_4":"0.574007035","WT_7":"0.599897473","FN3K_6":"0.657523364","FN3K_8":"0.574596795","FN3K_2":"0.472066415","WT_5":"0.687751141","FN3K_5":"0.545834501","FN3K_1":"0.443930722","WT_1":"0.566088014","WT_10":"0.623288069","FN3K_3":"0.482758171","WT_9":"0.628226889","FN3K_9":"0.5319513","WT_2":"0.647571939","FN3K_4":"0.535340266","FN3K_10":"0.571656638"},{"Metabolite":"Keto-methylvalerate","WT_8":"0.127141849","WT_3":"0.114632093","WT_6":"0.125355326","WT_4":"0.145173765","WT_7":"0.100777374","FN3K_6":"0.130530876","FN3K_8":"0.130677771","FN3K_2":"0.13129391","WT_5":"0.081262155","FN3K_5":"0.138397834","FN3K_1":"0.147673117","WT_1":"0.12194558","WT_10":"0.114802915","FN3K_3":"0.150500092","WT_9":"0.121111169","FN3K_9":"0.122636028","WT_2":"0.116796573","FN3K_4":"0.133706926","FN3K_10":"0.123795741"},{"Metabolite":"Formate","WT_8":"0.092440939","WT_3":"0.074102962","WT_6":"0.086742249","WT_4":"0.083943437","WT_7":"0.067955656","FN3K_6":"0.065851987","FN3K_8":"0.062009736","FN3K_2":"0.053435833","WT_5":"0.07743505","FN3K_5":"0.07160005","FN3K_1":"0.060380588","WT_1":"0.086044389","WT_10":"0.075678487","FN3K_3":"0.058525585","WT_9":"0.079190186","FN3K_9":"0.05173717","WT_2":"0.080462658","FN3K_4":"0.053242894","FN3K_10":"0.053795383"}],

"Metabolites":[{"Metabolite":"Alanine","HMDB":"HMDB0000161","PubChem":"5950","ChEBI":"16977","KEGG":"C00041","METLIN":"-","SMILES":"C[C@H](N)C(O)=O","Quantified feature ppm":"1.47"},{"Metabolite":"Aspartate","HMDB":"HMDB0000191","PubChem":"5960","ChEBI":"17053","KEGG":"C00049","METLIN":"5206","SMILES":"N[C@@H](CC(O)=O)C(O)=O","Quantified feature ppm":"2.79"},{"Metabolite":"Citrate","HMDB":"HMDB0000094","PubChem":"311","ChEBI":"30769","KEGG":"C00158","METLIN":"124","SMILES":"OC(=O)CC(O)(CC(O)=O)C(O)=O","Quantified feature ppm":"2.65"},{"Metabolite":"Creatine","HMDB":"HMDB0000064","PubChem":"586","ChEBI":"16919","KEGG":"C00300","METLIN":"7","SMILES":"CN(CC(O)=O)C(N)=N","Quantified feature ppm":"3.92"},{"Metabolite":"Phosphocreatine","HMDB":"HMDB0001511","PubChem":"587","ChEBI":"17287","KEGG":"C02305","METLIN":"6288","SMILES":"CN(CC(=O)O)C(=NP(=O)(O)O)N","Quantified feature ppm":"3.94"},{"Metabolite":"Glutamine","HMDB":"HMDB0000641","PubChem":"5961","ChEBI":"18050","KEGG":"C00064","METLIN":"5614","SMILES":"N[C@@H](CCC(N)=O)C(O)=O","Quantified feature ppm":"2.45"},{"Metabolite":"Glutathione","HMDB":"HMDB0000125","PubChem":"3353","ChEBI":"16856","KEGG":"C00051","METLIN":"-","SMILES":"","Quantified feature ppm":"4.56"},{"Metabolite":"Glycine","HMDB":"HMDB0000123","PubChem":"750","ChEBI":"15428","KEGG":"C00037","METLIN":"20","SMILES":"NCC(O)=O","Quantified feature ppm":"3.55"},{"Metabolite":"Glucose","HMDB":"HMDB0000122","PubChem":"5793","ChEBI":"4167","KEGG":"C00031","METLIN":"133","SMILES":"OC[C@H]1OC(O)[C@H](O)[C@@H](O)[C@@H]1O","Quantified feature ppm":"5.23"},{"Metabolite":"Glutamate","HMDB":"HMDB0000148","PubChem":"33032","ChEBI":"16015","KEGG":"C00025","METLIN":"5174","SMILES":"N[C@@H](CCC(O)=O)C(O)=O","Quantified feature ppm":"2.05"},{"Metabolite":"Lactate","HMDB":"HMDB0000190","PubChem":"107689","ChEBI":"422","KEGG":"C00256","METLIN":"6150","SMILES":"C[C@@H](C(=O)O)O","Quantified feature ppm":"1.32"},{"Metabolite":"Leucine","HMDB":"HMDB0000687","PubChem":"6106","ChEBI":"15603","KEGG":"C00123","METLIN":"24","SMILES":"CC(C)C[C@H](N)C(O)=O","Quantified feature ppm":"0.95"},{"Metabolite":"Lysine","HMDB":"HMDB0000182","PubChem":"5962","ChEBI":"18019","KEGG":"C00047","METLIN":"5200","SMILES":"NCCCC[C@H](N)C(O)=O","Quantified feature ppm":"1.89"},{"Metabolite":"Pantothenate","HMDB":"HMDB0000210","PubChem":"6613","ChEBI":"46905","KEGG":"C00864","METLIN":"-","SMILES":"CC(C)(CO)[C@@H](O)C(=O)NCCC(O)=O","Quantified feature ppm":"0.89"},{"Metabolite":"Putrescine","HMDB":"HMDB0001414","PubChem":"3434","ChEBI":"17148","KEGG":"C00134","METLIN":"-","SMILES":"","Quantified feature ppm":"1.79"},{"Metabolite":"Proline","HMDB":"HMDB0000162","PubChem":"145742","ChEBI":"17203","KEGG":"C00148","METLIN":"29","SMILES":"OC(=O)[C@@H]1CCCN1","Quantified feature ppm":"3.33"},{"Metabolite":"Serine","HMDB":"HMDB0000187","PubChem":"3982","ChEBI":"17822","KEGG":"C00716","METLIN":"-","SMILES":"","Quantified feature ppm":"3.97"},{"Metabolite":"Thioacetamide","HMDB":"-","PubChem":"2723949","ChEBI":"32497","KEGG":"C19302","METLIN":"-","SMILES":"CC(=S)N","Quantified feature ppm":"2.52"},{"Metabolite":"Threonine","HMDB":"HMDB0000167","PubChem":"6288","ChEBI":"16857","KEGG":"C00188","METLIN":"32","SMILES":"C[C@@H](O)[C@H](N)C(O)=O","Quantified feature ppm":"1.32"},{"Metabolite":"UDP GlcNAc","HMDB":"HMDB0000290","PubChem":"445675","ChEBI":"16264","KEGG":"C00043","METLIN":"5281","SMILES":"CC(=O)N[C@@H]1[C@@H](O)[C@H](O)[C@@H](CO)O[C@@H]1OP(O)(=O)OP(O)(=O)OC[C@H]1O[C@H]([C@H](O)[C@@H]1O)N1C=CC(=O)NC1=O","Quantified feature ppm":"5.51"},{"Metabolite":"Valine","HMDB":"HMDB0000883","PubChem":"6287","ChEBI":"16414","KEGG":"C00183","METLIN":"5842","SMILES":"CC(C)[C@H](N)C(O)=O","Quantified feature ppm":"0.98"},{"Metabolite":"Glycerophosphocholine","HMDB":"HMDB0000086","PubChem":"71920","ChEBI":"16870","KEGG":"C00670","METLIN":"370","SMILES":"C[N+](C)(C)CCOP([O-])(=O)OC[C@@H](O)CO","Quantified feature ppm":"3.22"},{"Metabolite":"Keto-methylvalerate","HMDB":"HMDB0000491","PubChem":"47","ChEBI":"35932","KEGG":"C03465","METLIN":"5478","SMILES":"CCC(C)C(=O)C(O)=O","Quantified feature ppm":"1.09"},{"Metabolite":"Formate","HMDB":"HMDB0000142","PubChem":"284","ChEBI":"30751","KEGG":"C00058","METLIN":"3202","SMILES":"OC=O","Quantified feature ppm":"8.45"}]
}

}