P00445 y-mtPTM: Yeast Mitochondrial PTM Database

Basic Information

Name	Superoxide dismutase [Cu-Zn] (EC 1.15.1.1)
Uniprot ID	P00445
Systematic gene name	YJR104C
Standard gene name	SOD1
Gene names	SOD1 YJR104C J1968
Description from SGD	YJR104C SOD1 SGDID:S000003865, Chr X from 623014-622550, Genome Release 64-3-1, reverse complement, Verified ORF, "Cytosolic copper-zinc superoxide dismutase; detoxifies superoxide; stabilizes Yck1p and Yck2p kinases in glucose to repress respiration; phosphorylated by Dun1p, enters nucleus under oxidative stress to promote transcription of stress response genes; human ortholog SOD1 implicated in ALS complements a null allele; abundance increases under DNA replication stress and during exposure to boric acid; localization to mitochondrial intermembrane space is modulated by MICOS complex"
Protein length	154
Download	sequence (fasta, from Uniprot), modifications (csv format)
Database links	Uniprot, SGD, TheCellVision.org, FungiDB

Sequence

MVQAVAVLKG DAGVSGVVKF EQASESEPT T VS YEIAGNSP NAERGFHIHE
FGDATNGCVS AGPHFNPFKK THGAPTDEVR HVGDMGNV K T DENGVA KGSF
KDSLI KLIGP T SVVGRSVVI HAGQDDLG KG DTEESL K TGN AGPRPACGVI
GLTN

Legend

X Phoshorylation
X SUMOylation
X Multiple modifications

Structure

Structure visualized

Loading structure by GLmol written by biochem_fan. The structure was downloaded from the AlphaFold Protein Structure Database. id="glmol01_src" style="display: none;"> -17.188 14.422 8.598 1.00 91.98 N -16.155 13.372 8.580 1.00 91.98 C -16.413 12.500 7.372 1.00 91.98 C -17.544 12.076 7.189 1.00 91.98 O -16.168 12.553 9.878 1.00 91.98 C -15.065 11.489 9.923 1.00 91.98 C -15.016 10.571 11.482 1.00 91.98 S -14.237 11.776 12.590 1.00 91.98 C -15.401 12.310 6.536 1.00 97.15 N -15.426 11.392 5.397 1.00 97.15 C -14.628 10.158 5.783 1.00 97.15 C -13.573 10.276 6.411 1.00 97.15 O -14.873 12.068 4.128 1.00 97.15 C -14.805 11.109 2.935 1.00 97.15 C -15.791 13.233 3.736 1.00 97.15 C -15.145 8.992 5.420 1.00 98.53 N -14.494 7.712 5.641 1.00 98.53 C -14.353 6.974 4.310 1.00 98.53 C -15.180 7.114 3.403 1.00 98.53 O -15.269 6.896 6.682 1.00 98.53 C -15.259 7.517 8.086 1.00 98.53 C -16.041 6.660 9.077 1.00 98.53 C -15.541 6.377 10.259 1.00 98.53 N -17.143 6.223 8.813 1.00 98.53 O -13.268 6.222 4.181 1.00 98.80 N -13.007 5.381 3.027 1.00 98.80 C -12.300 4.090 3.445 1.00 98.80 C -11.699 3.996 4.518 1.00 98.80 O -12.217 6.178 1.978 1.00 98.80 C -12.359 3.084 2.581 1.00 98.82 N -11.750 1.776 2.803 1.00 98.82 C -11.128 1.251 1.515 1.00 98.82 C -11.683 1.423 0.433 1.00 98.82 O -12.781 0.799 3.402 1.00 98.82 C -13.872 0.374 2.411 1.00 98.82 C -12.122 -0.462 3.965 1.00 98.82 C -9.992 0.575 1.640 1.00 98.84 N -9.428 -0.278 0.607 1.00 98.84 C -9.305 -1.702 1.158 1.00 98.84 C -8.709 -1.926 2.214 1.00 98.84 O -8.084 0.290 0.141 1.00 98.84 C -9.874 -2.669 0.441 1.00 98.61 N -9.691 -4.096 0.731 1.00 98.61 C -8.573 -4.602 -0.166 1.00 98.61 C -8.740 -4.657 -1.383 1.00 98.61 O -10.993 -4.891 0.532 1.00 98.61 C -10.782 -6.380 0.840 1.00 98.61 C -12.102 -4.365 1.454 1.00 98.61 C -7.434 -4.948 0.430 1.00 98.57 N -6.268 -5.433 -0.295 1.00 98.57 C -6.400 -6.924 -0.571 1.00 98.57 C -6.649 -7.711 0.347 1.00 98.57 O -4.963 -5.143 0.463 1.00 98.57 C -4.759 -3.680 0.871 1.00 98.57 C -3.382 -3.522 1.508 1.00 98.57 C -4.839 -2.712 -0.299 1.00 98.57 C -6.186 -7.309 -1.827 1.00 97.28 N -6.079 -8.703 -2.262 1.00 97.28 C -5.015 -8.843 -3.344 1.00 97.28 C -4.760 -7.902 -4.095 1.00 97.28 O -7.438 -9.202 -2.783 1.00 97.28 C -8.460 -9.415 -1.657 1.00 97.28 C -9.753 -10.023 -2.206 1.00 97.28 C -10.713 -10.312 -1.050 1.00 97.28 C -11.969 -10.930 -1.541 1.00 97.28 N1+ -4.438 -10.032 -3.437 1.00 90.70 N -3.626 -10.461 -4.567 1.00 90.70 C -3.286 -11.947 -4.483 1.00 90.70 C -3.651 -12.630 -3.523 1.00 90.70 O -2.596 -12.451 -5.503 1.00 82.99 N -2.429 -13.896 -5.726 1.00 82.99 C -1.386 -14.549 -4.803 1.00 82.99 C -1.304 -15.770 -4.710 1.00 82.99 O -2.093 -14.137 -7.205 1.00 82.99 C -3.153 -13.571 -8.157 1.00 82.99 C -4.345 -13.563 -7.775 1.00 82.99 O -2.746 -13.101 -9.239 1.00 82.99 O1- -0.603 -13.744 -4.078 1.00 86.01 N 0.433 -14.211 -3.155 1.00 86.01 C -0.103 -14.617 -1.764 1.00 86.01 C 0.683 -14.889 -0.862 1.00 86.01 O 1.507 -13.119 -3.065 1.00 86.01 C -1.424 -14.593 -1.553 1.00 93.52 N -2.049 -14.822 -0.243 1.00 93.52 C -2.022 -13.606 0.694 1.00 93.52 C -2.648 -13.640 1.754 1.00 93.52 O -1.361 -12.513 0.293 1.00 97.87 N -1.406 -11.236 1.015 1.00 97.87 C -2.802 -10.633 0.888 1.00 97.87 C -3.335 -10.465 -0.212 1.00 97.87 O -0.328 -10.241 0.541 1.00 97.87 C -0.390 -8.919 1.321 1.00 97.87 C 1.081 -10.802 0.754 1.00 97.87 C -3.406 -10.289 2.021 1.00 98.38 N -4.708 -9.625 2.051 1.00 98.38 C -4.893 -8.810 3.321 1.00 98.38 C -4.232 -9.042 4.331 1.00 98.38 O -5.845 -10.639 1.886 1.00 98.38 C -5.850 -11.584 2.936 1.00 98.38 O -5.780 -7.823 3.274 1.00 98.51 N -5.992 -6.946 4.415 1.00 98.51 C -7.015 -5.860 4.166 1.00 98.51 C -7.626 -5.778 3.100 1.00 98.51 O -7.184 -5.002 5.162 1.00 98.81 N -8.067 -3.841 5.086 1.00 98.81 C -7.303 -2.608 5.531 1.00 98.81 C -6.600 -2.628 6.540 1.00 98.81 O -9.349 -4.044 5.913 1.00 98.81 C -10.287 -2.835 5.800 1.00 98.81 C -10.133 -5.273 5.428 1.00 98.81 C -7.481 -1.527 4.781 1.00 98.89 N -6.952 -0.201 5.084 1.00 98.89 C -8.132 0.753 5.174 1.00 98.89 C -8.944 0.821 4.255 1.00 98.89 O -5.940 0.255 4.021 1.00 98.89 C -5.253 1.556 4.452 1.00 98.89 C -4.873 -0.823 3.787 1.00 98.89 C -8.255 1.459 6.292 1.00 98.81 N -9.312 2.433 6.566 1.00 98.81 C -8.723 3.831 6.606 1.00 98.81 C -7.630 4.025 7.135 1.00 98.81 O -10.013 2.119 7.891 1.00 98.81 C -10.726 0.761 7.871 1.00 98.81 C -11.453 0.546 9.200 1.00 98.81 C -12.148 -0.816 9.208 1.00 98.81 C -12.869 -1.028 10.486 1.00 98.81 N1+ -9.483 4.784 6.093 1.00 98.80 N -9.134 6.192 6.044 1.00 98.80 C -10.244 7.005 6.694 1.00 98.80 C -11.418 6.786 6.401 1.00 98.80 O -8.949 6.640 4.594 1.00 98.80 C -7.914 5.866 3.812 1.00 98.80 C -6.621 6.395 3.671 1.00 98.80 C -8.235 4.622 3.233 1.00 98.80 C -5.634 5.666 2.992 1.00 98.80 C -7.250 3.895 2.545 1.00 98.80 C -5.948 4.418 2.436 1.00 98.80 C -9.876 7.969 7.528 1.00 98.60 N -10.826 8.864 8.186 1.00 98.60 C -10.303 10.296 8.156 1.00 98.60 C -9.177 10.563 8.579 1.00 98.60 O -11.078 8.429 9.637 1.00 98.60 C -11.476 6.953 9.769 1.00 98.60 C -11.879 6.607 11.201 1.00 98.60 C -12.946 5.969 11.350 1.00 98.60 O -11.123 6.979 12.127 1.00 98.60 O1- -11.125 11.230 7.680 1.00 98.31 N -10.775 12.645 7.612 1.00 98.31 C -11.940 13.512 8.105 1.00 98.31 C -13.060 13.430 7.595 1.00 98.31 O -10.357 12.995 6.176 1.00 98.31 C -9.595 14.322 6.176 1.00 98.31 C -9.288 14.876 4.793 1.00 98.31 C -8.428 15.860 4.730 1.00 98.31 N -9.830 14.495 3.763 1.00 98.31 O -11.706 14.357 9.112 1.00 97.54 N -12.769 15.170 9.709 1.00 97.54 C -13.276 16.272 8.756 1.00 97.54 C -14.491 16.390 8.558 1.00 97.54 O -12.269 15.728 11.044 1.00 97.54 C -12.350 17.013 8.142 1.00 97.04 N -12.559 18.066 7.138 1.00 97.04 C -11.335 18.163 6.211 1.00 97.04 C -10.302 17.559 6.490 1.00 97.04 O -12.782 19.419 7.829 1.00 97.04 C -11.594 19.814 8.477 1.00 97.04 O -11.420 18.928 5.118 1.00 96.12 N -10.325 19.058 4.137 1.00 96.12 C -9.012 19.585 4.751 1.00 96.12 C -7.923 19.131 4.384 1.00 96.12 O -10.815 19.970 3.000 1.00 96.12 C -9.831 20.057 1.820 1.00 96.12 C -10.400 20.816 0.608 1.00 96.12 C -9.648 20.969 -0.380 1.00 96.12 O -11.588 21.210 0.659 1.00 96.12 O1- -9.101 20.486 5.735 1.00 95.99 N -7.943 21.056 6.438 1.00 95.99 C -7.281 20.086 7.417 1.00 95.99 C -6.104 20.247 7.726 1.00 95.99 O -8.364 22.328 7.183 1.00 95.99 C -9.415 22.068 8.099 1.00 95.99 O -8.002 19.070 7.888 1.00 97.79 N -7.493 18.125 8.879 1.00 97.79 C -6.644 17.013 8.230 1.00 97.79 C -6.843 16.676 7.050 1.00 97.79 O -8.652 17.549 9.709 1.00 97.79 C -9.296 18.604 10.627 1.00 97.79 C -8.350 19.135 11.709 1.00 97.79 C -8.421 20.355 11.970 1.00 97.79 O -7.566 18.321 12.250 1.00 97.79 O1- -5.689 16.423 8.974 1.00 97.98 N -4.980 15.219 8.549 1.00 97.98 C -5.925 14.027 8.370 1.00 97.98 C -6.946 13.915 9.055 1.00 97.98 O -3.937 14.932 9.638 1.00 97.98 C -3.773 16.273 10.351 1.00 97.98 C -5.166 16.885 10.253 1.00 97.98 C -5.546 13.101 7.493 1.00 98.67 N -6.234 11.815 7.344 1.00 98.67 C -5.598 10.795 8.281 1.00 98.67 C -4.382 10.609 8.269 1.00 98.67 O -6.201 11.330 5.888 1.00 98.67 C -6.964 10.022 5.679 1.00 98.67 C -6.822 12.287 5.060 1.00 98.67 O -6.410 10.116 9.089 1.00 98.76 N -5.980 8.935 9.846 1.00 98.76 C -6.064 7.720 8.932 1.00 98.76 C -7.128 7.438 8.385 1.00 98.76 O -6.846 8.711 11.093 1.00 98.76 C -6.364 7.532 11.938 1.00 98.76 C -6.832 9.848 11.936 1.00 98.76 O -4.961 6.991 8.786 1.00 98.84 N -4.873 5.738 8.032 1.00 98.84 C -4.644 4.608 9.023 1.00 98.84 C -3.710 4.665 9.815 1.00 98.84 O -3.743 5.777 6.986 1.00 98.84 C -3.780 4.519 6.105 1.00 98.84 C -3.855 7.010 6.082 1.00 98.84 C -5.486 3.580 8.994 1.00 98.86 N -5.365 2.402 9.862 1.00 98.86 C -5.399 1.138 9.023 1.00 98.86 C -6.215 1.038 8.112 1.00 98.86 O -6.476 2.366 10.911 1.00 98.86 C -6.524 3.588 11.622 1.00 98.86 O -4.538 0.172 9.315 1.00 98.89 N -4.382 -1.018 8.487 1.00 98.89 C -4.203 -2.285 9.318 1.00 98.89 C -3.650 -2.262 10.417 1.00 98.89 O -3.222 -0.818 7.501 1.00 98.89 C -1.886 -0.525 8.156 1.00 98.89 C -1.467 0.809 8.332 1.00 98.89 C -1.072 -1.583 8.606 1.00 98.89 C -0.232 1.083 8.947 1.00 98.89 C 0.153 -1.309 9.241 1.00 98.89 C 0.580 0.024 9.403 1.00 98.89 C 1.781 0.280 9.983 1.00 98.89 O -4.658 -3.395 8.748 1.00 98.84 N -4.345 -4.753 9.182 1.00 98.84 C -4.212 -5.629 7.932 1.00 98.84 C -5.171 -5.779 7.169 1.00 98.84 O -5.418 -5.252 10.160 1.00 98.84 C -5.039 -6.599 10.794 1.00 98.84 C -5.926 -6.967 11.998 1.00 98.84 C -5.974 -8.155 12.366 1.00 98.84 O -6.480 -6.059 12.669 1.00 98.84 O1- -3.003 -6.128 7.672 1.00 98.69 N -2.631 -6.820 6.433 1.00 98.69 C -1.828 -8.069 6.788 1.00 98.69 C -0.748 -7.970 7.361 1.00 98.69 O -1.827 -5.899 5.479 1.00 98.69 C -2.472 -4.503 5.285 1.00 98.69 C -1.679 -6.608 4.117 1.00 98.69 C -1.568 -3.488 4.573 1.00 98.69 C -2.335 -9.241 6.425 1.00 98.44 N -1.735 -10.538 6.713 1.00 98.44 C -1.157 -11.195 5.450 1.00 98.44 C -1.400 -10.744 4.328 1.00 98.44 O -2.801 -11.410 7.389 1.00 98.44 C -0.406 -12.282 5.644 1.00 97.67 N 0.191 -13.076 4.564 1.00 97.67 C 1.511 -12.518 4.027 1.00 97.67 C 2.022 -13.013 3.026 1.00 97.67 O 2.068 -11.486 4.665 1.00 97.64 N 3.374 -10.947 4.302 1.00 97.64 C 4.507 -11.832 4.838 1.00 97.64 C 4.299 -12.712 5.671 1.00 97.64 O 3.501 -9.513 4.827 1.00 97.64 C 2.496 -8.573 4.204 1.00 97.64 C 1.449 -8.222 4.916 1.00 97.64 N 2.654 -8.155 3.068 1.00 97.64 O 5.737 -11.562 4.401 1.00 96.54 N 6.917 -12.153 5.035 1.00 96.54 C 6.987 -11.735 6.516 1.00 96.54 C 6.796 -10.547 6.799 1.00 96.54 O 8.193 -11.722 4.310 1.00 96.54 C 8.105 -12.053 2.930 1.00 96.54 O 7.251 -12.664 7.452 1.00 97.95 N 7.412 -12.345 8.870 1.00 97.95 C 8.566 -11.383 9.165 1.00 97.95 C 9.586 -11.432 8.477 1.00 97.95 O 7.666 -13.685 9.559 1.00 97.95 C 6.944 -14.685 8.664 1.00 97.95 C 7.204 -14.110 7.275 1.00 97.95 C 8.435 -10.585 10.230 1.00 98.30 N 9.486 -9.716 10.782 1.00 98.30 C 10.183 -8.828 9.731 1.00 98.30 C 11.409 -8.707 9.715 1.00 98.30 O 10.472 -10.561 11.610 1.00 98.30 C 9.809 -11.252 12.782 1.00 98.30 C 10.004 -12.541 12.936 1.00 98.30 N 9.121 -10.647 13.583 1.00 98.30 O 9.403 -8.232 8.833 1.00 97.97 N 9.885 -7.474 7.686 1.00 97.97 C 9.273 -6.067 7.630 1.00 97.97 C 8.238 -5.783 8.234 1.00 97.97 O 9.589 -8.280 6.413 1.00 97.97 C 9.901 -5.192 6.847 1.00 98.60 N 9.314 -3.926 6.406 1.00 98.60 C 8.825 -4.057 4.966 1.00 98.60 C 9.505 -4.652 4.128 1.00 98.60 O 10.314 -2.772 6.544 1.00 98.60 C 10.540 -2.418 8.020 1.00 98.60 C 11.224 -1.062 8.263 1.00 98.60 C 11.440 -0.754 9.463 1.00 98.60 O 11.456 -0.304 7.294 1.00 98.60 O1- 7.629 -3.531 4.690 1.00 98.34 N 6.980 -3.599 3.377 1.00 98.34 C 6.593 -2.208 2.919 1.00 98.34 C 5.820 -1.550 3.617 1.00 98.34 O 5.740 -4.510 3.435 1.00 98.34 C 6.011 -5.893 4.042 1.00 98.34 C 7.092 -6.671 3.289 1.00 98.34 C 6.571 -7.201 2.029 1.00 98.34 N 6.795 -8.417 1.595 1.00 98.34 C 7.828 -9.102 1.989 1.00 98.34 N1+ 5.932 -8.985 0.810 1.00 98.34 N 7.072 -1.814 1.740 1.00 98.71 N 6.681 -0.557 1.113 1.00 98.71 C 5.165 -0.483 0.949 1.00 98.71 C 4.507 -1.481 0.636 1.00 98.71 O 4.592 0.681 1.206 1.00 98.76 N 3.157 0.861 1.324 1.00 98.76 C 2.771 2.205 0.723 1.00 98.76 C 3.149 3.260 1.227 1.00 98.76 O 2.776 0.737 2.805 1.00 98.76 C 1.287 0.720 3.074 1.00 98.76 C 0.723 1.631 3.986 1.00 98.76 C 0.471 -0.237 2.442 1.00 98.76 C -0.657 1.603 4.246 1.00 98.76 C -0.904 -0.278 2.718 1.00 98.76 C -1.467 0.648 3.614 1.00 98.76 C 2.026 2.176 -0.380 1.00 98.89 N 1.810 3.368 -1.194 1.00 98.89 C 0.381 3.472 -1.711 1.00 98.89 C -0.313 2.472 -1.903 1.00 98.89 O 2.797 3.394 -2.370 1.00 98.89 C 4.231 3.159 -1.981 1.00 98.89 C 4.974 3.889 -1.098 1.00 98.89 C 5.026 2.127 -2.423 1.00 98.89 N 6.226 2.246 -1.834 1.00 98.89 C 6.228 3.301 -1.015 1.00 98.89 N -0.048 4.701 -1.986 1.00 98.93 N -1.207 4.980 -2.830 1.00 98.93 C -0.699 5.213 -4.250 1.00 98.93 C 0.117 6.099 -4.500 1.00 98.93 O -2.059 6.148 -2.296 1.00 98.93 C -2.560 5.810 -0.875 1.00 98.93 C -3.231 6.444 -3.251 1.00 98.93 C -3.363 6.912 -0.186 1.00 98.93 C -1.202 4.421 -5.181 1.00 98.84 N -0.900 4.480 -6.600 1.00 98.84 C -1.955 5.269 -7.363 1.00 98.84 C -3.097 5.383 -6.931 1.00 98.84 O -0.756 3.062 -7.135 1.00 98.84 C 0.566 2.457 -6.781 1.00 98.84 C 1.015 2.132 -5.534 1.00 98.84 C 1.580 2.190 -7.664 1.00 98.84 N 2.613 1.694 -6.969 1.00 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References

[15, Phos]	Lanz MC, Yugandhar K, Gupta S, Sanford EJ, Faça VM, Vega S, Joiner AMN, Fromme JC, Yu H, Smolka MB (2021). In-depth and 3-dimensional exploration of the budding yeast phosphoproteome. EMBO Reports, e51121. (Publication) (All modifications)
[15, Phos]	Bai Y, Chen B, Li M, et al (2017) FPD: A comprehensive phosphorylation database in fungi. Fungal Biology 121:869–875. (Publication) (All modifications)
[15, Phos]	Zhou, X., Li, W., Liu, Y., Amon, A. (2021. Cross-compartment signal propagation in the mitotic exit network. Elife 10:e63645. (Publication) (All modifications)
[15, Phos]	Holt, L.J., Tuch, B.B., Villén, J., Johnson, A.D., Gygi, S.P., Morgan, D.O. (2009). Global analysis of Cdk1 substrate phosphorylation sites provides insights into evolution. Science 325(5948): 1682-1686. (Publication) (All modifications)
[15, Phos]	Albuquerque, C.P., Smolka, M.B., Payne, S.H., Bafna, V., Eng, J., Zhou, H. (2008). A multidimensional chromatography technology for in-depth phosphoproteome analysis. Molecular and Cellular Proteomics 7(7):1389-1396. (Publication) (All modifications)
[15, Phos]	Frankovsky, J., Vozáriková, V., Nosek, J., Tomáška, Ľ. (2021a). Mitochondrial protein phosphorylation in yeast revisited.Mitochondrion 57:148-162. (Publication) (All modifications)
[24, Phos]	Lanz MC, Yugandhar K, Gupta S, Sanford EJ, Faça VM, Vega S, Joiner AMN, Fromme JC, Yu H, Smolka MB (2021). In-depth and 3-dimensional exploration of the budding yeast phosphoproteome. EMBO Reports, e51121. (Publication) (All modifications)
[24, Phos]	Vlastaridis P, Kyriakidou P, Chaliotis A, et al (2017) Estimating the total number of phosphoproteins and phosphorylation sites in eukaryotic proteomes. GigaScience 6:1–11. (Publication) (All modifications)
[24, Phos]	Studer RA, Rodriguez-Mias RA, Haas KM, et al (2016) Evolution of protein phosphorylation across 18 fungal species. Science 354:229–232. (Publication) (All modifications)
[24, Phos]	Bai Y, Chen B, Li M, et al (2017) FPD: A comprehensive phosphorylation database in fungi. Fungal Biology 121:869–875. (Publication) (All modifications)
[24, Phos]	Zhou, X., Li, W., Liu, Y., Amon, A. (2021. Cross-compartment signal propagation in the mitotic exit network. Elife 10:e63645. (Publication) (All modifications)
[24, Phos]	Holt, L.J., Tuch, B.B., Villén, J., Johnson, A.D., Gygi, S.P., Morgan, D.O. (2009). Global analysis of Cdk1 substrate phosphorylation sites provides insights into evolution. Science 325(5948): 1682-1686. (Publication) (All modifications)
[24, Phos]	Albuquerque, C.P., Smolka, M.B., Payne, S.H., Bafna, V., Eng, J., Zhou, H. (2008). A multidimensional chromatography technology for in-depth phosphoproteome analysis. Molecular and Cellular Proteomics 7(7):1389-1396. (Publication) (All modifications)
[24, Phos]	Pultz, D., Bennetzen, M.V., Rødkær, S.V., Zimmermann, C., Enserink, J.M., Andersen, J.S., Færgeman, N.J. (2012). Global mapping of protein phosphorylation events identifies Ste20, Sch9 and the cell-cycle regulatory kinases Cdc28/Pho85 as mediators of fatty acid starvation responses in Saccharomyces cerevisiae. Mol Biosyst 8: 796-803. (Publication) (All modifications)
[24, Phos]	Swaney, D.L., Beltrao, P., Starita, L., Guo, A., Rush, J., Fields, S., Krogan, N.J., Villén, J. (2013). Global analysis of phosphorylation and ubiquitylation cross-talk in protein degradation. Nature Methods 10(7): 676-682. (Publication) (All modifications)
[24, Phos]	Rødkær, S.V., Pultz, D., Brusch, M., Bennetzen, M.V., Falkenby, L.G., Andersen, J.S., Færgeman, N.J. (2014). Quantitative proteomics identifies unanticipated regulators of nitrogen- and glucose starvation. Mol Biosyst 10: 2176-2188. (Publication) (All modifications)
[24, Phos]	Frankovsky, J., Vozáriková, V., Nosek, J., Tomáška, Ľ. (2021a). Mitochondrial protein phosphorylation in yeast revisited.Mitochondrion 57:148-162. (Publication) (All modifications)
[26, Phos]	Lanz MC, Yugandhar K, Gupta S, Sanford EJ, Faça VM, Vega S, Joiner AMN, Fromme JC, Yu H, Smolka MB (2021). In-depth and 3-dimensional exploration of the budding yeast phosphoproteome. EMBO Reports, e51121. (Publication) (All modifications)
[26, Phos]	Vlastaridis P, Kyriakidou P, Chaliotis A, et al (2017) Estimating the total number of phosphoproteins and phosphorylation sites in eukaryotic proteomes. GigaScience 6:1–11. (Publication) (All modifications)
[26, Phos]	Renvoisé M, Bonhomme L, Davanture M, et al (2014) Quantitative variations of the mitochondrial proteome and phosphoproteome during fermentative and respiratory growth in Saccharomyces cerevisiae. Journal of Proteomics 106:140–150. (Publication) (All modifications)
[26, Phos]	Bai Y, Chen B, Li M, et al (2017) FPD: A comprehensive phosphorylation database in fungi. Fungal Biology 121:869–875. (Publication) (All modifications)
[26, Phos]	Zhou, X., Li, W., Liu, Y., Amon, A. (2021. Cross-compartment signal propagation in the mitotic exit network. Elife 10:e63645. (Publication) (All modifications)
[26, Phos]	Albuquerque, C.P., Smolka, M.B., Payne, S.H., Bafna, V., Eng, J., Zhou, H. (2008). A multidimensional chromatography technology for in-depth phosphoproteome analysis. Molecular and Cellular Proteomics 7(7):1389-1396. (Publication) (All modifications)
[26, Phos]	Rødkær, S.V., Pultz, D., Brusch, M., Bennetzen, M.V., Falkenby, L.G., Andersen, J.S., Færgeman, N.J. (2014). Quantitative proteomics identifies unanticipated regulators of nitrogen- and glucose starvation. Mol Biosyst 10: 2176-2188. (Publication) (All modifications)
[26, Phos]	Frankovsky, J., Vozáriková, V., Nosek, J., Tomáška, Ľ. (2021a). Mitochondrial protein phosphorylation in yeast revisited.Mitochondrion 57:148-162. (Publication) (All modifications)
[29, Phos]	Lanz MC, Yugandhar K, Gupta S, Sanford EJ, Faça VM, Vega S, Joiner AMN, Fromme JC, Yu H, Smolka MB (2021). In-depth and 3-dimensional exploration of the budding yeast phosphoproteome. EMBO Reports, e51121. (Publication) (All modifications)
[29, Phos]	Renvoisé M, Bonhomme L, Davanture M, et al (2014) Quantitative variations of the mitochondrial proteome and phosphoproteome during fermentative and respiratory growth in Saccharomyces cerevisiae. Journal of Proteomics 106:140–150. (Publication) (All modifications)
[29, Phos]	Bai Y, Chen B, Li M, et al (2017) FPD: A comprehensive phosphorylation database in fungi. Fungal Biology 121:869–875. (Publication) (All modifications)
[29, Phos]	Frankovsky, J., Vozáriková, V., Nosek, J., Tomáška, Ľ. (2021a). Mitochondrial protein phosphorylation in yeast revisited.Mitochondrion 57:148-162. (Publication) (All modifications)
[30, Phos]	Lanz MC, Yugandhar K, Gupta S, Sanford EJ, Faça VM, Vega S, Joiner AMN, Fromme JC, Yu H, Smolka MB (2021). In-depth and 3-dimensional exploration of the budding yeast phosphoproteome. EMBO Reports, e51121. (Publication) (All modifications)
[30, Phos]	Studer RA, Rodriguez-Mias RA, Haas KM, et al (2016) Evolution of protein phosphorylation across 18 fungal species. Science 354:229–232. (Publication) (All modifications)
[30, Phos]	Bai Y, Chen B, Li M, et al (2017) FPD: A comprehensive phosphorylation database in fungi. Fungal Biology 121:869–875. (Publication) (All modifications)
[30, Phos]	Zhou, X., Li, W., Liu, Y., Amon, A. (2021. Cross-compartment signal propagation in the mitotic exit network. Elife 10:e63645. (Publication) (All modifications)
[30, Phos]	Rødkær, S.V., Pultz, D., Brusch, M., Bennetzen, M.V., Falkenby, L.G., Andersen, J.S., Færgeman, N.J. (2014). Quantitative proteomics identifies unanticipated regulators of nitrogen- and glucose starvation. Mol Biosyst 10: 2176-2188. (Publication) (All modifications)
[30, Phos]	Frankovsky, J., Vozáriková, V., Nosek, J., Tomáška, Ľ. (2021a). Mitochondrial protein phosphorylation in yeast revisited.Mitochondrion 57:148-162. (Publication) (All modifications)
[32, Phos]	Lanz MC, Yugandhar K, Gupta S, Sanford EJ, Faça VM, Vega S, Joiner AMN, Fromme JC, Yu H, Smolka MB (2021). In-depth and 3-dimensional exploration of the budding yeast phosphoproteome. EMBO Reports, e51121. (Publication) (All modifications)
[32, Phos]	Bai Y, Chen B, Li M, et al (2017) FPD: A comprehensive phosphorylation database in fungi. Fungal Biology 121:869–875. (Publication) (All modifications)
[32, Phos]	Rødkær, S.V., Pultz, D., Brusch, M., Bennetzen, M.V., Falkenby, L.G., Andersen, J.S., Færgeman, N.J. (2014). Quantitative proteomics identifies unanticipated regulators of nitrogen- and glucose starvation. Mol Biosyst 10: 2176-2188. (Publication) (All modifications)
[32, Phos]	Frankovsky, J., Vozáriková, V., Nosek, J., Tomáška, Ľ. (2021a). Mitochondrial protein phosphorylation in yeast revisited.Mitochondrion 57:148-162. (Publication) (All modifications)
[33, Phos]	Lanz MC, Yugandhar K, Gupta S, Sanford EJ, Faça VM, Vega S, Joiner AMN, Fromme JC, Yu H, Smolka MB (2021). In-depth and 3-dimensional exploration of the budding yeast phosphoproteome. EMBO Reports, e51121. (Publication) (All modifications)
[33, Phos]	Bai Y, Chen B, Li M, et al (2017) FPD: A comprehensive phosphorylation database in fungi. Fungal Biology 121:869–875. (Publication) (All modifications)
[33, Phos]	Zhou, X., Li, W., Liu, Y., Amon, A. (2021. Cross-compartment signal propagation in the mitotic exit network. Elife 10:e63645. (Publication) (All modifications)
[33, Phos]	MacGilvray, M.E., Shishkova, E., Place, M., Wagner, E.R., Coon, J.J., Gasch, A.P. (2020). Phosphoproteome response to dithiothreitol reveals unique versus shared features of Saccharomyces cerevisiae stress responses. Journal of Proteome Research 19(8): 3405-3417. (Publication) (All modifications)
[33, Phos]	Frankovsky, J., Vozáriková, V., Nosek, J., Tomáška, Ľ. (2021a). Mitochondrial protein phosphorylation in yeast revisited.Mitochondrion 57:148-162. (Publication) (All modifications)
[39, Phos]	Lanz MC, Yugandhar K, Gupta S, Sanford EJ, Faça VM, Vega S, Joiner AMN, Fromme JC, Yu H, Smolka MB (2021). In-depth and 3-dimensional exploration of the budding yeast phosphoproteome. EMBO Reports, e51121. (Publication) (All modifications)
[39, Phos]	Vlastaridis P, Kyriakidou P, Chaliotis A, et al (2017) Estimating the total number of phosphoproteins and phosphorylation sites in eukaryotic proteomes. GigaScience 6:1–11. (Publication) (All modifications)
[39, Phos]	Renvoisé M, Bonhomme L, Davanture M, et al (2014) Quantitative variations of the mitochondrial proteome and phosphoproteome during fermentative and respiratory growth in Saccharomyces cerevisiae. Journal of Proteomics 106:140–150. (Publication) (All modifications)
[39, Phos]	Studer RA, Rodriguez-Mias RA, Haas KM, et al (2016) Evolution of protein phosphorylation across 18 fungal species. Science 354:229–232. (Publication) (All modifications)
[39, Phos]	Bai Y, Chen B, Li M, et al (2017) FPD: A comprehensive phosphorylation database in fungi. Fungal Biology 121:869–875. (Publication) (All modifications)
[39, Phos]	Zhou, X., Li, W., Liu, Y., Amon, A. (2021. Cross-compartment signal propagation in the mitotic exit network. Elife 10:e63645. (Publication) (All modifications)
[39, Phos]	MacGilvray, M.E., Shishkova, E., Place, M., Wagner, E.R., Coon, J.J., Gasch, A.P. (2020). Phosphoproteome response to dithiothreitol reveals unique versus shared features of Saccharomyces cerevisiae stress responses. Journal of Proteome Research 19(8): 3405-3417. (Publication) (All modifications)
[39, Phos]	Holt, L.J., Tuch, B.B., Villén, J., Johnson, A.D., Gygi, S.P., Morgan, D.O. (2009). Global analysis of Cdk1 substrate phosphorylation sites provides insights into evolution. Science 325(5948): 1682-1686. (Publication) (All modifications)
[39, Phos]	Albuquerque, C.P., Smolka, M.B., Payne, S.H., Bafna, V., Eng, J., Zhou, H. (2008). A multidimensional chromatography technology for in-depth phosphoproteome analysis. Molecular and Cellular Proteomics 7(7):1389-1396. (Publication) (All modifications)
[39, Phos]	Pultz, D., Bennetzen, M.V., Rødkær, S.V., Zimmermann, C., Enserink, J.M., Andersen, J.S., Færgeman, N.J. (2012). Global mapping of protein phosphorylation events identifies Ste20, Sch9 and the cell-cycle regulatory kinases Cdc28/Pho85 as mediators of fatty acid starvation responses in Saccharomyces cerevisiae. Mol Biosyst 8: 796-803. (Publication) (All modifications)
[39, Phos]	Soulard, A., Cremonesi, A., Moes, S., Schütz, F., Jenö, P., Hall, M.N. (2010). The rapamycin-sensitive phosphoproteome reveals that TOR controls protein kinase A toward some but not all substrates. Molecular Biology of the Cell 21(19): 3475-3486. (Publication) (All modifications)
[39, Phos]	Swaney, D.L., Beltrao, P., Starita, L., Guo, A., Rush, J., Fields, S., Krogan, N.J., Villén, J. (2013). Global analysis of phosphorylation and ubiquitylation cross-talk in protein degradation. Nature Methods 10(7): 676-682. (Publication) (All modifications)
[39, Phos]	Schmitt, K., Smolinski, N., Neumann, P., Schmaul, S., Hofer-Pretz, V., Braus, G.H., Valerius, O. (2017). Asc1p/RACK1 connects ribosomes to eukaryotic phosphosignaling. Mol Cell Biol 37: e00279-16. (Publication) (All modifications)
[39, Phos]	Huber, A., Bodenmiller, B., Uotila, A., Stahl, M., Wanka, S., Gerrits, B., Aebersold, R., Loewith, R. (2009). Characterization of the rapamycin-sensitive phosphoproteome reveals that Sch9 is a central coordinator of protein synthesis. Genes Dev 23: 1929-1943. (Publication) (All modifications)
[39, Phos]	Gruhler, A., Olsen, J.V., Mohammed, S., Mortensen, P., Faergeman, N.J., Mann, M., Jensen, O.N. (2005). Quantitative phosphoproteomics applied to the yeast pheromone signaling pathway. Mol Cell Proteomics 4: 310-327. (Publication) (All modifications)
[39, Phos]	Rødkær, S.V., Pultz, D., Brusch, M., Bennetzen, M.V., Falkenby, L.G., Andersen, J.S., Færgeman, N.J. (2014). Quantitative proteomics identifies unanticipated regulators of nitrogen- and glucose starvation. Mol Biosyst 10: 2176-2188. (Publication) (All modifications)
[39, Phos]	Tsang, C.K., Liu, Y., Thomas, J., Zhang, Y., Zheng, X.F. (2014). Superoxide dismutase 1 acts as a nuclear transcription factor to regulate oxidative stress resistance. Nat Commun 5: 3446. (Publication) (All modifications)
[39, Phos]	Frankovsky, J., Vozáriková, V., Nosek, J., Tomáška, Ľ. (2021a). Mitochondrial protein phosphorylation in yeast revisited.Mitochondrion 57:148-162. (Publication) (All modifications)
[70, SUMO]	Bhagwat, N.R., Owens, S.N., Ito, M., Boinapalli, J.V,, Poa, P., Ditzel, A., Kopparapu, S., Mahalawat, M., Davies, O.R., Collins, S.R., Johnson, J.R., Krogan, N.J., Hunter, N. (2021). SUMO is a pervasive regulator of meiosis. Elife 10:e57720. (Publication) (All modifications)
[70, SUMO]	Paasch, F., den Brave, F., Psakhye, I., Pfander, B., Jentsch, S. (2018). Failed mitochondrial import and impaired proteostasis trigger SUMOylation of mitochondrial proteins. J Biol Chem 293: 599-609. (Publication) (All modifications)
[71, Phos]	Vlastaridis P, Kyriakidou P, Chaliotis A, et al (2017) Estimating the total number of phosphoproteins and phosphorylation sites in eukaryotic proteomes. GigaScience 6:1–11. (Publication) (All modifications)
[71, Phos]	Bai Y, Chen B, Li M, et al (2017) FPD: A comprehensive phosphorylation database in fungi. Fungal Biology 121:869–875. (Publication) (All modifications)
[71, Phos]	Zhou, X., Li, W., Liu, Y., Amon, A. (2021. Cross-compartment signal propagation in the mitotic exit network. Elife 10:e63645. (Publication) (All modifications)
[71, Phos]	Frankovsky, J., Vozáriková, V., Nosek, J., Tomáška, Ľ. (2021a). Mitochondrial protein phosphorylation in yeast revisited.Mitochondrion 57:148-162. (Publication) (All modifications)
[76, Phos]	Lanz MC, Yugandhar K, Gupta S, Sanford EJ, Faça VM, Vega S, Joiner AMN, Fromme JC, Yu H, Smolka MB (2021). In-depth and 3-dimensional exploration of the budding yeast phosphoproteome. EMBO Reports, e51121. (Publication) (All modifications)
[76, Phos]	Renvoisé M, Bonhomme L, Davanture M, et al (2014) Quantitative variations of the mitochondrial proteome and phosphoproteome during fermentative and respiratory growth in Saccharomyces cerevisiae. Journal of Proteomics 106:140–150. (Publication) (All modifications)
[76, Phos]	Guo X, Niemi NM, Coon JJ, Pagliarini DJ (2017a) Integrative proteomics and biochemical analyses define Ptc6p as the Saccharomyces cerevisiae pyruvate dehydrogenase phosphatase. J Biol Chem 292:11751–11759. (Publication) (All modifications)
[76, Phos]	Guo X, Niemi NM, Hutchins PD, et al (2017b) Ptc7p dephosphorylates select mitochondrial proteins to enhance metabolic function. Cell Reports 18:307–313. (Publication) (All modifications)
[76, Phos]	Bai Y, Chen B, Li M, et al (2017) FPD: A comprehensive phosphorylation database in fungi. Fungal Biology 121:869–875. (Publication) (All modifications)
[76, Phos]	Zhou, X., Li, W., Liu, Y., Amon, A. (2021. Cross-compartment signal propagation in the mitotic exit network. Elife 10:e63645. (Publication) (All modifications)
[76, Phos]	Swaney, D.L., Beltrao, P., Starita, L., Guo, A., Rush, J., Fields, S., Krogan, N.J., Villén, J. (2013). Global analysis of phosphorylation and ubiquitylation cross-talk in protein degradation. Nature Methods 10(7): 676-682. (Publication) (All modifications)
[76, Phos]	Frankovsky, J., Vozáriková, V., Nosek, J., Tomáška, Ľ. (2021a). Mitochondrial protein phosphorylation in yeast revisited.Mitochondrion 57:148-162. (Publication) (All modifications)
[89, K-succ]	Weinert, B.T., Schölz, C., Wagner, S.A., et al. (2013). Lysine succinylation is a frequently occurring modification in prokaryotes and eukaryotes and extensively overlaps with acetylation. Cell Reports, 4(4), 842-851. (Publication) (All modifications)
[89, K-acetyl]	Henriksen, P., Wagner, S. A., Weinert, B. T., et al. (2012). Proteome-wide analysis of lysine acetylation suggests its broad regulatory scope in Saccharomyces cerevisiae. Molecular & Cellular Proteomics, 11(11), 1510-1522. (Publication) (All modifications)
[90, Phos]	Bai Y, Chen B, Li M, et al (2017) FPD: A comprehensive phosphorylation database in fungi. Fungal Biology 121:869–875. (Publication) (All modifications)
[90, Phos]	Frankovsky, J., Vozáriková, V., Nosek, J., Tomáška, Ľ. (2021a). Mitochondrial protein phosphorylation in yeast revisited.Mitochondrion 57:148-162. (Publication) (All modifications)
[97, K-succ]	Weinert, B.T., Schölz, C., Wagner, S.A., et al. (2013). Lysine succinylation is a frequently occurring modification in prokaryotes and eukaryotes and extensively overlaps with acetylation. Cell Reports, 4(4), 842-851. (Publication) (All modifications)
[97, K-acetyl]	Henriksen, P., Wagner, S. A., Weinert, B. T., et al. (2012). Proteome-wide analysis of lysine acetylation suggests its broad regulatory scope in Saccharomyces cerevisiae. Molecular & Cellular Proteomics, 11(11), 1510-1522. (Publication) (All modifications)
[99, Phos]	Lanz MC, Yugandhar K, Gupta S, Sanford EJ, Faça VM, Vega S, Joiner AMN, Fromme JC, Yu H, Smolka MB (2021). In-depth and 3-dimensional exploration of the budding yeast phosphoproteome. EMBO Reports, e51121. (Publication) (All modifications)
[99, Phos]	Vlastaridis P, Kyriakidou P, Chaliotis A, et al (2017) Estimating the total number of phosphoproteins and phosphorylation sites in eukaryotic proteomes. GigaScience 6:1–11. (Publication) (All modifications)
[99, Phos]	Renvoisé M, Bonhomme L, Davanture M, et al (2014) Quantitative variations of the mitochondrial proteome and phosphoproteome during fermentative and respiratory growth in Saccharomyces cerevisiae. Journal of Proteomics 106:140–150. (Publication) (All modifications)
[99, Phos]	Guo X, Niemi NM, Coon JJ, Pagliarini DJ (2017a) Integrative proteomics and biochemical analyses define Ptc6p as the Saccharomyces cerevisiae pyruvate dehydrogenase phosphatase. J Biol Chem 292:11751–11759. (Publication) (All modifications)
[99, Phos]	Studer RA, Rodriguez-Mias RA, Haas KM, et al (2016) Evolution of protein phosphorylation across 18 fungal species. Science 354:229–232. (Publication) (All modifications)
[99, Phos]	Bai Y, Chen B, Li M, et al (2017) FPD: A comprehensive phosphorylation database in fungi. Fungal Biology 121:869–875. (Publication) (All modifications)
[99, Phos]	MacGilvray, M.E., Shishkova, E., Place, M., Wagner, E.R., Coon, J.J., Gasch, A.P. (2020). Phosphoproteome response to dithiothreitol reveals unique versus shared features of Saccharomyces cerevisiae stress responses. Journal of Proteome Research 19(8): 3405-3417. (Publication) (All modifications)
[99, Phos]	Holt, L.J., Tuch, B.B., Villén, J., Johnson, A.D., Gygi, S.P., Morgan, D.O. (2009). Global analysis of Cdk1 substrate phosphorylation sites provides insights into evolution. Science 325(5948): 1682-1686. (Publication) (All modifications)
[99, Phos]	Albuquerque, C.P., Smolka, M.B., Payne, S.H., Bafna, V., Eng, J., Zhou, H. (2008). A multidimensional chromatography technology for in-depth phosphoproteome analysis. Molecular and Cellular Proteomics 7(7):1389-1396. (Publication) (All modifications)
[99, Phos]	Swaney, D.L., Beltrao, P., Starita, L., Guo, A., Rush, J., Fields, S., Krogan, N.J., Villén, J. (2013). Global analysis of phosphorylation and ubiquitylation cross-talk in protein degradation. Nature Methods 10(7): 676-682. (Publication) (All modifications)
[99, Phos]	Tsang, C.K., Liu, Y., Thomas, J., Zhang, Y., Zheng, X.F. (2014). Superoxide dismutase 1 acts as a nuclear transcription factor to regulate oxidative stress resistance. Nat Commun 5: 3446. (Publication) (All modifications)
[99, Phos]	Frankovsky, J., Vozáriková, V., Nosek, J., Tomáška, Ľ. (2021a). Mitochondrial protein phosphorylation in yeast revisited.Mitochondrion 57:148-162. (Publication) (All modifications)
[101, K-succ]	Weinert, B.T., Schölz, C., Wagner, S.A., et al. (2013). Lysine succinylation is a frequently occurring modification in prokaryotes and eukaryotes and extensively overlaps with acetylation. Cell Reports, 4(4), 842-851. (Publication) (All modifications)
[101, Ubi]	Swaney, D.L., Beltrao, P., Starita, L., Guo, A., Rush, J., Fields, S., Krogan, N.J., Villén, J. (2013). Global analysis of phosphorylation and ubiquitylation cross-talk in protein degradation. Nature Methods 10(7): 676-682. (Publication) (All modifications)
[103, Phos]	Lanz MC, Yugandhar K, Gupta S, Sanford EJ, Faça VM, Vega S, Joiner AMN, Fromme JC, Yu H, Smolka MB (2021). In-depth and 3-dimensional exploration of the budding yeast phosphoproteome. EMBO Reports, e51121. (Publication) (All modifications)
[103, Phos]	Vlastaridis P, Kyriakidou P, Chaliotis A, et al (2017) Estimating the total number of phosphoproteins and phosphorylation sites in eukaryotic proteomes. GigaScience 6:1–11. (Publication) (All modifications)
[103, Phos]	Renvoisé M, Bonhomme L, Davanture M, et al (2014) Quantitative variations of the mitochondrial proteome and phosphoproteome during fermentative and respiratory growth in Saccharomyces cerevisiae. Journal of Proteomics 106:140–150. (Publication) (All modifications)
[103, Phos]	Guo X, Niemi NM, Coon JJ, Pagliarini DJ (2017a) Integrative proteomics and biochemical analyses define Ptc6p as the Saccharomyces cerevisiae pyruvate dehydrogenase phosphatase. J Biol Chem 292:11751–11759. (Publication) (All modifications)
[103, Phos]	Bai Y, Chen B, Li M, et al (2017) FPD: A comprehensive phosphorylation database in fungi. Fungal Biology 121:869–875. (Publication) (All modifications)
[103, Phos]	Zhou, X., Li, W., Liu, Y., Amon, A. (2021. Cross-compartment signal propagation in the mitotic exit network. Elife 10:e63645. (Publication) (All modifications)
[103, Phos]	Holt, L.J., Tuch, B.B., Villén, J., Johnson, A.D., Gygi, S.P., Morgan, D.O. (2009). Global analysis of Cdk1 substrate phosphorylation sites provides insights into evolution. Science 325(5948): 1682-1686. (Publication) (All modifications)
[103, Phos]	Albuquerque, C.P., Smolka, M.B., Payne, S.H., Bafna, V., Eng, J., Zhou, H. (2008). A multidimensional chromatography technology for in-depth phosphoproteome analysis. Molecular and Cellular Proteomics 7(7):1389-1396. (Publication) (All modifications)
[103, Phos]	Swaney, D.L., Beltrao, P., Starita, L., Guo, A., Rush, J., Fields, S., Krogan, N.J., Villén, J. (2013). Global analysis of phosphorylation and ubiquitylation cross-talk in protein degradation. Nature Methods 10(7): 676-682. (Publication) (All modifications)
[103, Phos]	Frankovsky, J., Vozáriková, V., Nosek, J., Tomáška, Ľ. (2021a). Mitochondrial protein phosphorylation in yeast revisited.Mitochondrion 57:148-162. (Publication) (All modifications)
[106, K-succ]	Weinert, B.T., Schölz, C., Wagner, S.A., et al. (2013). Lysine succinylation is a frequently occurring modification in prokaryotes and eukaryotes and extensively overlaps with acetylation. Cell Reports, 4(4), 842-851. (Publication) (All modifications)
[106, K-succ]	Frankovsky, J., Keresztesová, B., Bellová, J., et al. (2021). The yeast mitochondrial succinylome: Implications for regulation of mitochondrial nucleoids. Journal of Biological Chemistry, 297(4): 101155. (Publication) (All modifications)
[106, K-acetyl]	Henriksen, P., Wagner, S. A., Weinert, B. T., et al. (2012). Proteome-wide analysis of lysine acetylation suggests its broad regulatory scope in Saccharomyces cerevisiae. Molecular & Cellular Proteomics, 11(11), 1510-1522. (Publication) (All modifications)
[111, Phos]	Guo X, Niemi NM, Coon JJ, Pagliarini DJ (2017a) Integrative proteomics and biochemical analyses define Ptc6p as the Saccharomyces cerevisiae pyruvate dehydrogenase phosphatase. J Biol Chem 292:11751–11759. (Publication) (All modifications)
[111, Phos]	Bai Y, Chen B, Li M, et al (2017) FPD: A comprehensive phosphorylation database in fungi. Fungal Biology 121:869–875. (Publication) (All modifications)
[111, Phos]	Frankovsky, J., Vozáriková, V., Nosek, J., Tomáška, Ľ. (2021a). Mitochondrial protein phosphorylation in yeast revisited.Mitochondrion 57:148-162. (Publication) (All modifications)
[112, Phos]	Vlastaridis P, Kyriakidou P, Chaliotis A, et al (2017) Estimating the total number of phosphoproteins and phosphorylation sites in eukaryotic proteomes. GigaScience 6:1–11. (Publication) (All modifications)
[112, Phos]	Guo X, Niemi NM, Coon JJ, Pagliarini DJ (2017a) Integrative proteomics and biochemical analyses define Ptc6p as the Saccharomyces cerevisiae pyruvate dehydrogenase phosphatase. J Biol Chem 292:11751–11759. (Publication) (All modifications)
[112, Phos]	Bai Y, Chen B, Li M, et al (2017) FPD: A comprehensive phosphorylation database in fungi. Fungal Biology 121:869–875. (Publication) (All modifications)
[112, Phos]	Zhou, X., Li, W., Liu, Y., Amon, A. (2021. Cross-compartment signal propagation in the mitotic exit network. Elife 10:e63645. (Publication) (All modifications)
[112, Phos]	Holt, L.J., Tuch, B.B., Villén, J., Johnson, A.D., Gygi, S.P., Morgan, D.O. (2009). Global analysis of Cdk1 substrate phosphorylation sites provides insights into evolution. Science 325(5948): 1682-1686. (Publication) (All modifications)
[112, Phos]	Frankovsky, J., Vozáriková, V., Nosek, J., Tomáška, Ľ. (2021a). Mitochondrial protein phosphorylation in yeast revisited.Mitochondrion 57:148-162. (Publication) (All modifications)
[117, Phos]	Vlastaridis P, Kyriakidou P, Chaliotis A, et al (2017) Estimating the total number of phosphoproteins and phosphorylation sites in eukaryotic proteomes. GigaScience 6:1–11. (Publication) (All modifications)
[117, Phos]	Guo X, Niemi NM, Coon JJ, Pagliarini DJ (2017a) Integrative proteomics and biochemical analyses define Ptc6p as the Saccharomyces cerevisiae pyruvate dehydrogenase phosphatase. J Biol Chem 292:11751–11759. (Publication) (All modifications)
[117, Phos]	Bai Y, Chen B, Li M, et al (2017) FPD: A comprehensive phosphorylation database in fungi. Fungal Biology 121:869–875. (Publication) (All modifications)
[117, Phos]	Zhou, X., Li, W., Liu, Y., Amon, A. (2021. Cross-compartment signal propagation in the mitotic exit network. Elife 10:e63645. (Publication) (All modifications)
[117, Phos]	Holt, L.J., Tuch, B.B., Villén, J., Johnson, A.D., Gygi, S.P., Morgan, D.O. (2009). Global analysis of Cdk1 substrate phosphorylation sites provides insights into evolution. Science 325(5948): 1682-1686. (Publication) (All modifications)
[117, Phos]	Frankovsky, J., Vozáriková, V., Nosek, J., Tomáška, Ľ. (2021a). Mitochondrial protein phosphorylation in yeast revisited.Mitochondrion 57:148-162. (Publication) (All modifications)
[129, K-succ]	Weinert, B.T., Schölz, C., Wagner, S.A., et al. (2013). Lysine succinylation is a frequently occurring modification in prokaryotes and eukaryotes and extensively overlaps with acetylation. Cell Reports, 4(4), 842-851. (Publication) (All modifications)
[129, K-acetyl]	Henriksen, P., Wagner, S. A., Weinert, B. T., et al. (2012). Proteome-wide analysis of lysine acetylation suggests its broad regulatory scope in Saccharomyces cerevisiae. Molecular & Cellular Proteomics, 11(11), 1510-1522. (Publication) (All modifications)
[129, Ubi]	Swaney, D.L., Beltrao, P., Starita, L., Guo, A., Rush, J., Fields, S., Krogan, N.J., Villén, J. (2013). Global analysis of phosphorylation and ubiquitylation cross-talk in protein degradation. Nature Methods 10(7): 676-682. (Publication) (All modifications)
[132, Phos]	Lanz MC, Yugandhar K, Gupta S, Sanford EJ, Faça VM, Vega S, Joiner AMN, Fromme JC, Yu H, Smolka MB (2021). In-depth and 3-dimensional exploration of the budding yeast phosphoproteome. EMBO Reports, e51121. (Publication) (All modifications)
[132, Phos]	Vlastaridis P, Kyriakidou P, Chaliotis A, et al (2017) Estimating the total number of phosphoproteins and phosphorylation sites in eukaryotic proteomes. GigaScience 6:1–11. (Publication) (All modifications)
[132, Phos]	Bai Y, Chen B, Li M, et al (2017) FPD: A comprehensive phosphorylation database in fungi. Fungal Biology 121:869–875. (Publication) (All modifications)
[132, Phos]	Holt, L.J., Tuch, B.B., Villén, J., Johnson, A.D., Gygi, S.P., Morgan, D.O. (2009). Global analysis of Cdk1 substrate phosphorylation sites provides insights into evolution. Science 325(5948): 1682-1686. (Publication) (All modifications)
[132, Phos]	Frankovsky, J., Vozáriková, V., Nosek, J., Tomáška, Ľ. (2021a). Mitochondrial protein phosphorylation in yeast revisited.Mitochondrion 57:148-162. (Publication) (All modifications)
[135, Phos]	Bai Y, Chen B, Li M, et al (2017) FPD: A comprehensive phosphorylation database in fungi. Fungal Biology 121:869–875. (Publication) (All modifications)
[135, Phos]	Frankovsky, J., Vozáriková, V., Nosek, J., Tomáška, Ľ. (2021a). Mitochondrial protein phosphorylation in yeast revisited.Mitochondrion 57:148-162. (Publication) (All modifications)
[137, K-acetyl]	Henriksen, P., Wagner, S. A., Weinert, B. T., et al. (2012). Proteome-wide analysis of lysine acetylation suggests its broad regulatory scope in Saccharomyces cerevisiae. Molecular & Cellular Proteomics, 11(11), 1510-1522. (Publication) (All modifications)
[137, Ubi]	Swaney, D.L., Beltrao, P., Starita, L., Guo, A., Rush, J., Fields, S., Krogan, N.J., Villén, J. (2013). Global analysis of phosphorylation and ubiquitylation cross-talk in protein degradation. Nature Methods 10(7): 676-682. (Publication) (All modifications)
[137, SUMO]	Bhagwat, N.R., Owens, S.N., Ito, M., Boinapalli, J.V,, Poa, P., Ditzel, A., Kopparapu, S., Mahalawat, M., Davies, O.R., Collins, S.R., Johnson, J.R., Krogan, N.J., Hunter, N. (2021). SUMO is a pervasive regulator of meiosis. Elife 10:e57720. (Publication) (All modifications)
[138, Phos]	Vlastaridis P, Kyriakidou P, Chaliotis A, et al (2017) Estimating the total number of phosphoproteins and phosphorylation sites in eukaryotic proteomes. GigaScience 6:1–11. (Publication) (All modifications)
[138, Phos]	Bai Y, Chen B, Li M, et al (2017) FPD: A comprehensive phosphorylation database in fungi. Fungal Biology 121:869–875. (Publication) (All modifications)
[138, Phos]	Holt, L.J., Tuch, B.B., Villén, J., Johnson, A.D., Gygi, S.P., Morgan, D.O. (2009). Global analysis of Cdk1 substrate phosphorylation sites provides insights into evolution. Science 325(5948): 1682-1686. (Publication) (All modifications)
[138, Phos]	Swaney, D.L., Beltrao, P., Starita, L., Guo, A., Rush, J., Fields, S., Krogan, N.J., Villén, J. (2013). Global analysis of phosphorylation and ubiquitylation cross-talk in protein degradation. Nature Methods 10(7): 676-682. (Publication) (All modifications)
[138, Phos]	Frankovsky, J., Vozáriková, V., Nosek, J., Tomáška, Ľ. (2021a). Mitochondrial protein phosphorylation in yeast revisited.Mitochondrion 57:148-162. (Publication) (All modifications)
[153, Phos]	Bai Y, Chen B, Li M, et al (2017) FPD: A comprehensive phosphorylation database in fungi. Fungal Biology 121:869–875. (Publication) (All modifications)
[153, Phos]	Frankovsky, J., Vozáriková, V., Nosek, J., Tomáška, Ľ. (2021a). Mitochondrial protein phosphorylation in yeast revisited.Mitochondrion 57:148-162. (Publication) (All modifications)