Research Article

Determination of Electroacupuncture Effects on circRNAs in Plasma Exosomes in Diabetic Mice: An RNA-Sequencing Approach

Table 4

The top 10 GO annotations enrichment of upregulated differentially expressed host linear transcripts affected by EA intervention.

Gene functionNumber of genesFalse discovery rateDifferentially expressed genes

Cellular macromolecule metabolic process73<0.05<0.05CNPT1, ARID1A, STRN3, DKC1, GAB1, EZH2, MBD2, NCOA2, SOX6, ZEB1, etc.
Positive regulation of biological process59<0.05<0.05GAB1, EIF4G3, TGFBR2, PDE5A, ADCY9, ASPH, SULF1, CNOT1, CTCF, DNMT1, etc.
Macromolecule metabolic process74<0.05<0.05BRD4, CTCF, DNMT1, ETV6, EZH1, EZH2, HECTD1, UBE3A, KLHL7, KIF16B, etc.
Single-organism cellular process93<0.05<0.05CTCF, ZFP207, BRD4, ANP32B, GAB1, IARS, HECTD1, CNOT1, CLIC4, SULF1, etc.
Cellular metabolic process78<0.05<0.05MED13L, ACAACA, SDHC, ADCY9, ASCC3, STK39, RABGEF1, EIF4G3, ELF1, PLAGL1, etc.
Positive regulation of cellular process53<0.05<0.05GAB1, EIF4G3, TGFBR2, ADCY9, Adam10, ADNP, UBE3A, CTCELF1, SOX6, etc.
Single-organism process98<0.05<0.05OPTN, CTCF, ZFP207, BRD4, ANP32B, CIGALT1, UBE3A, TGFBR2, ST6GALNAC3, ST3GAL5, etc.
Regulation of cellular metabolic process57<0.05<0.05EIF4G3, RABGEF1, STK39, OPTN, KIF16B, RERE, ELF2, MLLT3, ATAD2, GPBP1, etc.
Regulation of macromolecule metabolic process57<0.05<0.05AGO2L, ELF1, ADNP, ARID4B, EIF4G3, TGFBR2, PLAGL1, CD46, PIK3CB, UBE2K, etc.
Regulation of metabolic process60<0.05<0.05BRD41, CTCF, DNMT1, ETV6, EZH1, EZH2, ATAD2B, PDGFD, ERBB2IP, DKC1, etc.