Copyright
©The Author(s) 2019.
World J Clin Cases. Jun 26, 2019; 7(12): 1383-1392
Published online Jun 26, 2019. doi: 10.12998/wjcc.v7.i12.1383
Published online Jun 26, 2019. doi: 10.12998/wjcc.v7.i12.1383
ID | Description | P-value | Count |
GO:0007631 | Feeding behavior | 1.49E-13 | 26 |
GO:0070371 | ERK1 and ERK2 cascade | 2.32E-13 | 46 |
GO:0070372 | Regulation of ERK1 and ERK2 cascade | 5.73E-13 | 44 |
GO:0050878 | Regulation of body fluid levels | 2.12E-12 | 57 |
GO:0097485 | Neuron projection guidance | 2.44E-12 | 38 |
GO:0007411 | Axon guidance | 8.41E-12 | 37 |
GO:0035567 | Non-canonical Wnt signaling pathway | 2.61E-11 | 28 |
GO:0007218 | Neuropeptide signaling pathway | 3.08E-11 | 23 |
GO:2000027 | Regulation of organ morphogenesis | 4.06E-11 | 36 |
GO:0019932 | Second-messenger-mediated signaling | 5.57E-11 | 43 |
GO:0009410 | Response to xenobiotic stimulus | 5.72E-11 | 38 |
GO:0051047 | Positive regulation of secretion | 8.82E-11 | 46 |
GO:1903532 | Positive regulation of secretion by cell | 9.27E-11 | 44 |
GO:0019373 | Epoxygenase P450 pathway | 1.21E-10 | 11 |
GO:1905330 | Regulation of morphogenesis of an epithelium | 2.75E-10 | 29 |
hsa04080 | Neuroactive ligand-receptor interaction | 7.10E-22 | 68 |
hsa00982 | Drug metabolism - cytochrome P450 | 5.57E-09 | 21 |
hsa00980 | Metabolism of xenobiotics by cytochrome P450 | 1.62E-08 | 21 |
hsa04020 | Calcium signaling pathway | 4.82E-08 | 34 |
hsa00830 | Retinol metabolism | 4.97E-08 | 19 |
hsa05204 | Chemical carcinogenesis | 6.96E-08 | 21 |
hsa04630 | JAK-STAT signaling pathway | 9.51E-08 | 31 |
hsa04060 | Cytokine-cytokine receptor interaction | 3.93E-07 | 44 |
hsa04024 | cAMP signaling pathway | 3.95E-07 | 34 |
hsa04913 | Ovarian steroidogenesis | 4.34E-07 | 15 |
hsa04713 | Circadian entrainment | 1.21E-06 | 21 |
hsa04151 | PI3K-Akt signaling pathway | 2.21E-06 | 48 |
hsa00590 | Arachidonic acid metabolism | 2.89E-06 | 16 |
hsa04650 | Natural killer cell mediated cytotoxicity | 6.05E-06 | 24 |
hsa04724 | Glutamatergic synapse | 6.17E-06 | 22 |
- Citation: Ma JJ, Liu HM, Xu XH, Guo LX, Lin Q. Study on gene expression patterns and functional pathways of peripheral blood monocytes reveals potential molecular mechanism of surgical treatment for periodontitis. World J Clin Cases 2019; 7(12): 1383-1392
- URL: https://www.wjgnet.com/2307-8960/full/v7/i12/1383.htm
- DOI: https://dx.doi.org/10.12998/wjcc.v7.i12.1383