MassIVEapplication/xmlftp://massive.ucsd.edu/v04/MSV000090442/primaryOK200Benjamin Nigjehhttps://massive.ucsd.edu/ProteoSAFe/dataset.jsp?task=8350b71f3b944297affe6be55b44e37dbenjamin.nigjeh@gmail.comMassIVE41M [16]ProteomicsQEHumanUWPlasma, Fresh, Frozen Plasmas, Fresh Frozen Plasmas, Fresh Frozen, data, blood plasm, portion of blood plasma, Blood Plasma, Frozen Plasma, Fresh Frozen Plasma, Blood Plasmas, Blood, portion of plasma, Plasmas, plasma.Fresh, Bru, data, advanced, Frozen Plasma, Raw, Fresh Frozen Plasma, Data Set, Blood, developmental stage, Proteins, Learning, Gene, Plasmas, Client, Fs(3)Sz11, Frozen Plasmas, Deep, Protein, precocious, Gene Products, Del(8)44H, DmF2, Fs(3)Hor, lod, Hierarchical, Svc, Plasma, Fresh Frozen Plasmas, Fresh Frozen, portion of blood plasma, Blood Plasma, DmelCG2684, Col4a-1, Algorithm., portion of plasma, proteins, NTef2, Lds, early, Protein Gene Products, Gene Proteins, blood plasm, Patient, Horka, Clients, Blood Plasmas, CG2684, Fs(3)Horka, stage, plasma, Hierarchical LearningPXD037127falseData Independent Acquisition from plasma samplesThe Raw QE files are recorded from 38 clinical plasma samples from early stage pancreatic patients versus healthy controls. The abundant plasma proteins are depleted, and QE was operated under data independent acquisition mode. The quantification result was used for generating a proteomic dataset for deep learning purposes using neural network algorithms. Sat Oct 01 09:30:00 BST 2022MSV0000904429606