Supplemental Table 2 Literature Verification of the Gene Sets Obtained from the Cent-Stat
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Supplemental Table 2 Literature verification of the gene sets obtained from the cent-stat method in AD
GO term GO term
ACTIN BINDING[1] NEGATIVE REGULATION OF PROGRAMMED
CELL DEATH[2] ACTIN CYTOSKELETON ORGANIZATION AND NEGATIVE REGULATION OF RNA METABOLIC
BIOGENESIS[3] PROCESS ACTIN FILAMENT BASED PROCESS NEGATIVE REGULATION OF
TRANSCRIPTION[4] ACTIN FILAMENT BINDING[1] NEGATIVE REGULATION OF TRANSCRIPTION
DNA DEPENDENT ACTIN FILAMENT BUNDLE FORMATION NERVOUS SYSTEM DEVELOPMENT[5]
ACTIN FILAMENT ORGANIZATION[6] NEUROPEPTIDE HORMONE ACTIVITY[4]
ACTIVATION OF NF KAPPAB TRANSCRIPTION NUCLEAR CHROMOSOME PART
FACTOR[7] AEROBIC RESPIRATION[8] NUCLEAR IMPORT[9] ANTI APOPTOSIS[10] NUCLEAR LUMEN APOPTOSIS GO NUCLEAR TRANSPORT[11] CELLULAR LOCALIZATION[12] NUCLEOBASE NUCLEOSIDE NUCLEOTIDE
KINASE ACTIVITY[13] CELLULAR RESPIRATION[14, 15] NUCLEOCYTOPLASMIC TRANSPORT[16]
CENTRAL NERVOUS SYSTEM NUCLEOSIDE TRIPHOSPHATASE
DEVELOPMENT[17] ACTIVITY[18] CHROMATIN MODIFICATION[19] ORGANELLE ENVELOPE[20] CHROMOSOME ORGANIZATION AND ORGANELLE INNER MEMBRANE[4]
BIOGENESIS[21] CLATHRIN COATED VESICLE[22] ORGANELLE LUMEN COATED VESICLE[23] ORGANELLE MEMBRANE[24]
COFACTOR CATABOLIC PROCESS[25] ORGANELLE ORGANIZATION AND
BIOGENESIS COVALENT CHROMATIN MODIFICATION PEPTIDE METABOLIC PROCESS CYTOPLASMIC MEMBRANE BOUND VESICLE PHOSPHOTRANSFERASE ACTIVITY
PHOSPHATE GROUP AS ACCEPTOR CYTOPLASMIC VESICLE[26] POSITIVE REGULATION OF BINDING
CYTOSKELETAL PROTEIN BINDING POSITIVE REGULATION OF DNA BINDING
CYTOSKELETON[27] POSITIVE REGULATION OF I KAPPAB KINASE
NF KAPPAB CASCADE CYTOSKELETON ORGANIZATION AND POSITIVE REGULATION OF SIGNAL
BIOGENESIS[28] TRANSDUCTION ENERGY DERIVATION BY OXIDATION OF POSITIVE REGULATION OF TRANSCRIPTION
ORGANIC COMPOUNDS[29, 30] FACTOR ACTIVITY ENVELOPE[31] POST TRANSLATIONAL PROTEIN
MODIFICATION[32] ESTABLISHMENT AND OR MAINTENANCE OF PROGRAMMED CELL DEATH[33]
CHROMATIN ARCHITECTURE ESTABLISHMENT OF CELLULAR PROTEIN IMPORT
LOCALIZATION[34] ESTABLISHMENT OF PROTEIN PROTEIN KINASE CASCADE[36]
LOCALIZATION[35] GTP BINDING[37] PROTEIN LOCALIZATION[35] GTPASE ACTIVITY[38] PROTEIN SERINE THREONINE KINASE
ACTIVITY[39] HISTONE MODIFICATION[40] PROTEIN TARGETING HYDROLASE ACTIVITY ACTING ON ACID PROTON TRANSPORTING TWO SECTOR
ANHYDRIDES ATPASE COMPLEX[41] I KAPPAB KINASE NF KAPPAB CASCADE[42] PYROPHOSPHATASE ACTIVITY[43] IDENTICAL PROTEIN BINDING[44] REGULATION OF APOPTOSIS[45]
INTRACELLULAR TRANSPORT[46] REGULATION OF BINDING[24] KINASE ACTIVITY[47] REGULATION OF DEVELOPMENTAL PROCESS
MACROMOLECULE LOCALIZATION REGULATIO N OF DNA BINDING[48] MAP KINASE KINASE KINASE ACTIVITY[49] REGULATION OF ENDOTHELIAL CELL
PROLIFERATION MEMBRANE BOUND VESICLE REGULATION OF I KAPPAB KINASE NF KAPPAB CASCADE
MEMBRANE ENCLOSED LUMEN REGULATION OF MOLECULAR
FUNCTION[50] MEMBRANE ORGANIZATION AND REGULATION OF PROGRAMMED CELL
BIOGENESIS[51] DEATH MITOCHONDRIAL ENVELOPE REGULATION OF RNA METABOLIC PROCESS
MITOCHONDRIAL INNER MEMBRANE[52] REGULATION OF TRANSCRIPTION DNA
DEPENDENT MITOCHONDRIAL MEMBRANE[53] REGULATION OF TRANSCRIPTION FACTOR
ACTIVITY[54] MITOCHONDRIAL MEMBRANE REGULATION OF TRANSCRIPTION FROM
ORGANIZATION AND BIOGENESIS RNA POLYMERASE II PROMOTER
MITOCHONDRIAL MEMBRANE PART[53] RIBONUCLEOPROTEIN COMPLEX[55]
MITOCHONDRIAL OUTER MEMBRANE[56] RNA PROCESSING[57] MITOCHONDRIAL PART[58] SMALL CONJUGATING PROTEIN BINDING
MITOCHONDRIAL TRANSPORT[59] SYNAPTIC VESICLE[60] MITOCHONDRION[61] TRANSCRIPTION FACTOR BINDING
MITOCHONDRION ORGANIZATION AND TRANSCRIPTION FROM RNA POLYMERASE II
BIOGENESIS PROMOTER NEGATIVE REGULATION OF APOPTOSIS TRANSCRIPTION REPRESSOR ACTIVITY[62]
NEGATIVE REGULATION OF CELLULAR TRANSFERASE ACTIVITY TRANSFERRING
COMPONENT ORGANIZATION AND PHOSPHORUS CONTAINING GROUPS
BIOGENESIS NEGATIVE REGULATION OF CELLULAR TRANSPORT VESICLE[63]
METABOLIC PROCESS NEGATIVE REGULATION OF DEVELOPMENTAL TRICARBOXYLIC ACID CYCLE INTERMEDIATE
PROCESS METABOLIC PROCESS NEGATIVE REGULATION OF METABOLIC TRNA PROCESSING
PROCESS NEGATIVE REGULATION OF NUCLEOBASE UBIQUITIN BINDING[64, 65]
NUCLEOSIDE NUCLEOTIDE AND NUCLEIC ACID
METABOLIC PROCESS
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