Table 2.
Gene ontology breakdown of significant phosphorylation changes by biological process
| Aged/young (145) | Aged/aged ELAM (90) | Both (38) | |
|---|---|---|---|
| 1 | Cellular process (124) | Cellular process (74) | Cellular process (34) |
| 2 | Single-organism process (113) | Single-organism process (73) | Single-organism process (32) |
| 3 | Single-organism cellular process (110) | Single-organism cellular process (65) | Single-organism cellular process (30) |
| 4 | Biological regulation (102) | Biological regulation (62) | Biological regulation (28) |
| 5 | Regulation of biological process (100) | Multicellular organismal process (60) | Regulation of biological process (27) |
| 6 | Regulation of cellular process (98) | Regulation of biological process (60) | Regulation of cellular process (27) |
| 7 | Multicellular organismal process (92) | Single-multicellular organism process (56) | Multicellular organism process (26) |
| 8 | Response to stimulus (88) | Regulation of cellular process (55) | Single-multicellular organism process (25) |
| 9 | Cellular component organization (84) | Developmental process (53) | Response to stimulus (24) |
| 10 | Cellular component organization or biogenesis (83) | Anatomical structure development (53) | Developmental process (22) |
| Muscle contraction | 63 | 29 | 19 |
| Metabolic process | 75 | 45 | 20 |
| Response to oxidative stress | 7 | 2 | 1 |
| Oxidative phosphorylation | 5 | 2 | 2 |
Ten most frequent biological processes and a selection of processes hypothesized to be affected by ELAM are shown. Number of residues significantly altered are shown in parentheses and for selected processes. One-way ANOVA p < 0.05