% Notation % Supplemental Table: over-occurence p-values % The first value is the empirical p-value, % the second is based on a Gamma distribution. % Both valuies are log10(p-value). Model=Imodel Peak_cutoff=0.50 Fix mode= condition Tchn2: FwdOnOff Tchn2: FwdOffOn Tchn2: BwdOnOff Tchn2: BwdOffOn Gasch sorbitol -log10(p)=1.38, 1.43, n= 90 -log10(p)=0.13, 0.14, n= 85 -log10(p)=1.87, 1.91, n=109 -log10(p)=0.02, 0.02, n= 76 Gasch diamide -log10(p)=1.50, 1.55, n=143 -log10(p)=0.05, 0.05, n= 47 -log10(p)=3.30, 3.02, n=190 -log10(p)=0.12, 0.13, n= 62 Gasch menadione -log10(p)=0.06, 0.07, n= 26 -log10(p)=0.33, 0.33, n=103 -log10(p)=0.15, 0.16, n= 38 -log10(p)=0.04, 0.04, n= 85 Gasch 25C -log10(p)=0.65, 0.67, n= 42 -log10(p)=0.72, 0.74, n=149 -log10(p)=0.28, 0.29, n= 38 -log10(p)=1.28, 1.29, n=181 Gasch 2.5 mM DTT -log10(p)=1.08, 1.12, n= 25 -log10(p)=0.01, 0.01, n= 89 -log10(p)=1.45, 1.51, n= 36 -log10(p)=0.08, 0.08, n=121 Gasch Adenine starvation -log10(p)=0.05, 0.05, n= 94 -log10(p)=0.79, 0.81, n= 50 -log10(p)=0.22, 0.22, n=129 -log10(p)=1.16, 1.20, n= 64 Gasch Hypo-Osmotic -log10(p)=0.57, 0.59, n= 80 -log10(p)=1.28, 1.30, n= 82 -log10(p)=0.23, 0.23, n= 78 -log10(p)=1.82, 1.81, n=103 Gasch N depletion -log10(p)=0.03, 0.03, n= 44 -log10(p)=1.03, 1.06, n= 43 -log10(p)=0.47, 0.49, n= 85 -log10(p)=0.47, 0.49, n= 38 Gasch H2O2 -log10(p)=0.11, 0.12, n= 58 -log10(p)=0.50, 0.52, n=148 -log10(p)=0.30, 0.30, n= 79 -log10(p)=0.40, 0.42, n=153 Gasch dtt -log10(p)=0.56, 0.57, n=114 -log10(p)=0.29, 0.30, n= 71 -log10(p)=1.23, 1.24, n=149 -log10(p)=0.66, 0.68, n= 96 Gasch heat shock -log10(p)=2.28, 2.25, n=218 -log10(p)=0.06, 0.07, n= 39 -log10(p)=1.89, 1.92, n=222 -log10(p)=0.02, 0.02, n= 37 Gasch DES459 MMS -log10(p)=0.09, 0.10, n= 31 -log10(p)=0.27, 0.28, n= 54 -log10(p)=0.75, 0.78, n= 62 -log10(p)=0.07, 0.07, n= 50 Gasch DES460 MMS -log10(p)=0.40, 0.41, n= 41 -log10(p)=0.05, 0.06, n= 17 -log10(p)=0.52, 0.54, n= 53 -log10(p)=0.33, 0.34, n= 34 Gasch mecl+gamma -log10(p)=0.17, 0.18, n= 94 -log10(p)=0.29, 0.30, n= 70 -log10(p)=0.00, 0.00, n= 71 -log10(p)=0.38, 0.39, n= 84 Gasch wt+gamma -log10(p)=0.96, 0.99, n=139 -log10(p)=0.01, 0.01, n= 28 -log10(p)=0.75, 0.78, n=143 -log10(p)=0.04, 0.04, n= 42 Derisi dioxic shift -log10(p)=0.33, 0.34, n= 24 -log10(p)=0.13, 0.13, n= 21 -log10(p)=1.22, 1.25, n= 50 -log10(p)=0.08, 0.09, n= 24 Rando SD -log10(p)=0.04, 0.04, n= 95 -log10(p)=0.72, 0.74, n= 61 -log10(p)=0.38, 0.39, n=143 -log10(p)=0.68, 0.70, n= 70 Rando SD+aa -log10(p)=0.47, 0.48, n= 62 -log10(p)=0.13, 0.13, n= 49 -log10(p)=0.47, 0.48, n= 71 -log10(p)=0.32, 0.33, n= 68 Rando SD+AR+I -log10(p)=0.09, 0.09, n= 72 -log10(p)=0.42, 0.43, n= 60 -log10(p)=0.38, 0.39, n=105 -log10(p)=0.94, 0.96, n= 85 Rando SD+LI+I -log10(p)=0.11, 0.12, n= 92 -log10(p)=0.41, 0.42, n= 38 -log10(p)=0.66, 0.68, n=139 -log10(p)=0.40, 0.42, n= 45 Rando SD+I -log10(p)=0.13, 0.13, n= 99 -log10(p)=0.69, 0.72, n= 51 -log10(p)=0.42, 0.44, n=134 -log10(p)=0.85, 0.87, n= 62 Rando SEtOH -log10(p)=0.72, 0.75, n= 20 -log10(p)=0.02, 0.06, n= 3 -log10(p)=2.44, 2.55, n= 47 -log10(p)=0.63, 0.65, n= 17 Rando SEtOH+aa -log10(p)=0.81, 0.84, n= 22 -log10(p)=0.10, 0.12, n= 14 -log10(p)=5.00, 7.05, n= 90 -log10(p)=0.12, 0.13, n= 19 Rando SEtOH+aa+I -log10(p)=0.75, 0.80, n= 22 -log10(p)=0.09, 0.12, n= 8 -log10(p)=3.15, 3.25, n= 56 -log10(p)=0.09, 0.10, n= 11 Rando SEtOH+I -log10(p)=1.31, 1.38, n= 29 -log10(p)=0.03, 0.06, n= 5 -log10(p)=3.15, 3.34, n= 57 -log10(p)=0.75, 0.77, n= 21 Rando Gal -log10(p)=3.30, 3.58, n= 60 -log10(p)=0.23, 0.30, n= 8 -log10(p)=2.89, 3.14, n= 64 -log10(p)=0.18, 0.21, n= 10 Rando Gal+aa -log10(p)=3.15, 2.56, n= 36 -log10(p)=0.15, 0.17, n= 12 -log10(p)=2.77, 2.66, n= 39 -log10(p)=0.16, 0.18, n= 16 Rando Gal+aa+I -log10(p)=1.46, 1.53, n= 37 -log10(p)=0.43, 0.46, n= 14 -log10(p)=1.78, 1.84, n= 48 -log10(p)=0.10, 0.12, n= 11 Rando Gal+I -log10(p)=0.96, 1.00, n= 32 -log10(p)=0.77, 0.79, n= 21 -log10(p)=1.79, 1.83, n= 51 -log10(p)=0.71, 0.75, n= 26 Causton Acid -log10(p)=0.23, 0.23, n= 72 -log10(p)=0.68, 0.71, n= 74 -log10(p)=0.13, 0.14, n= 76 -log10(p)=0.45, 0.47, n= 75 Causton Alkali -log10(p)=0.11, 0.12, n= 43 -log10(p)=0.40, 0.41, n= 90 -log10(p)=0.88, 0.90, n= 81 -log10(p)=0.27, 0.28, n= 93 Causton Heat -log10(p)=0.37, 0.38, n=135 -log10(p)=0.12, 0.14, n= 17 -log10(p)=1.09, 1.10, n=180 -log10(p)=0.66, 0.68, n= 36 Causton NaCl -log10(p)=0.12, 0.13, n= 35 -log10(p)=0.20, 0.21, n= 67 -log10(p)=0.40, 0.41, n= 55 -log10(p)=0.27, 0.27, n= 81 Causton Peroxide -log10(p)=0.96, 0.99, n= 43 -log10(p)=0.14, 0.15, n=154 -log10(p)=0.40, 0.41, n= 37 -log10(p)=0.02, 0.02, n=140 Causton Sorbitol -log10(p)=0.39, 0.40, n= 56 -log10(p)=0.09, 0.09, n= 93 -log10(p)=2.01, 2.11, n=106 -log10(p)=0.01, 0.01, n= 86 ORourke WT 0.0625MKCl -log10(p)=5.00, 5.15, n=100 -log10(p)=0.01, 0.01, n= 31 -log10(p)=1.51, 1.57, n= 64 -log10(p)=0.04, 0.04, n= 45 ORourke WT 0.125MKCL -log10(p)=0.49, 0.51, n= 29 -log10(p)=0.01, 0.01, n= 65 -log10(p)=1.71, 1.83, n= 58 -log10(p)=0.03, 0.03, n= 84 ORourke WT 0.25MKCL -log10(p)=0.79, 0.84, n= 24 -log10(p)=0.30, 0.30, n=122 -log10(p)=1.02, 1.05, n= 33 -log10(p)=0.11, 0.12, n=123 ORourke WT 0.5MKCl -log10(p)=0.34, 0.35, n= 24 -log10(p)=0.61, 0.63, n=191 -log10(p)=1.18, 1.22, n= 46 -log10(p)=0.05, 0.05, n=154 ORourke WT 1MKCL -log10(p)=0.93, 0.97, n= 43 -log10(p)=0.32, 0.33, n=145 -log10(p)=0.54, 0.55, n= 41 -log10(p)=0.41, 0.42, n=164 ORourke WT 1Msorb -log10(p)=0.16, 0.17, n= 27 -log10(p)=1.28, 1.27, n=200 -log10(p)=0.60, 0.62, n= 47 -log10(p)=0.01, 0.01, n=124 ORourke WT alpha -log10(p)=0.32, 0.34, n= 15 -log10(p)=0.26, 0.27, n= 30 -log10(p)=0.51, 0.53, n= 24 -log10(p)=0.91, 0.94, n= 54 ORourke hog1 0.125MKCl -log10(p)=2.49, 2.71, n= 85 -log10(p)=0.04, 0.04, n= 34 -log10(p)=2.27, 2.24, n= 87 -log10(p)=0.04, 0.04, n= 42 ORourke hog1 0.5MKCl -log10(p)=0.10, 0.11, n= 22 -log10(p)=0.19, 0.20, n=122 -log10(p)=0.20, 0.21, n= 32 -log10(p)=0.09, 0.09, n=122 ORourke pbs2 0.5MKCl -log10(p)=0.87, 0.91, n= 25 -log10(p)=0.41, 0.42, n= 58 -log10(p)=0.67, 0.70, n= 28 -log10(p)=0.12, 0.12, n= 53 ORourke sho1 0.5MKCl -log10(p)=1.63, 1.73, n= 43 -log10(p)=0.10, 0.10, n=128 -log10(p)=1.80, 1.88, n= 53 -log10(p)=0.00, 0.00, n=106 ORourke ssk1 0.0625MKCl -log10(p)=0.47, 0.51, n= 8 -log10(p)=3.30, 3.43, n= 83 -log10(p)=0.31, 0.35, n= 10 -log10(p)=1.74, 1.77, n= 71 ORourke ssk1 0.125MKCl -log10(p)=2.33, 2.48, n= 74 -log10(p)=0.00, 0.01, n= 27 -log10(p)=4.22, 4.20, n=107 -log10(p)=0.06, 0.06, n= 46 ORourke ssk1 0.5MKCl -log10(p)=0.84, 0.85, n= 32 -log10(p)=0.00, 0.00, n= 80 -log10(p)=1.40, 1.45, n= 48 -log10(p)=0.00, 0.00, n= 95 ORourke ssk1sho1 0.5MKCl -log10(p)=0.90, 0.93, n= 32 -log10(p)=0.11, 0.12, n=115 -log10(p)=1.06, 1.08, n= 41 -log10(p)=0.08, 0.08, n=125 ORourke ssk1ste11 0.0625MKCl -log10(p)=0.37, 0.38, n= 27 -log10(p)=0.98, 1.03, n= 22 -log10(p)=0.22, 0.23, n= 30 -log10(p)=1.14, 1.16, n= 30 ORourke ssk1ste11 0.125MKCl -log10(p)=0.25, 0.27, n= 15 -log10(p)=2.34, 2.63, n= 83 -log10(p)=0.23, 0.25, n= 20 -log10(p)=1.17, 1.21, n= 72 ORourke ssk1ste11 0.25MKCL -log10(p)=1.15, 1.22, n= 36 -log10(p)=0.08, 0.09, n= 62 -log10(p)=0.36, 0.37, n= 28 -log10(p)=0.21, 0.22, n= 83 ORourke ssk1ste11 0.5MKCl -log10(p)=0.51, 0.53, n= 32 -log10(p)=0.49, 0.50, n=114 -log10(p)=0.47, 0.48, n= 38 -log10(p)=0.09, 0.10, n= 99 ORourke ssk1ste11 1MKCL -log10(p)=0.97, 1.00, n= 32 -log10(p)=0.12, 0.13, n=129 -log10(p)=1.28, 1.32, n= 43 -log10(p)=0.11, 0.11, n=140 ORourke ste11 0.0625MKCl -log10(p)=1.45, 1.52, n= 67 -log10(p)=0.00, 0.04, n= 1 -log10(p)=1.95, 1.96, n= 84 -log10(p)=0.00, 0.01, n= 2 ORourke ste11 0.125MKCl -log10(p)=0.08, 0.10, n= 12 -log10(p)=0.08, 0.08, n= 92 -log10(p)=0.99, 1.03, n= 36 -log10(p)=0.03, 0.03, n= 95 ORourke ste11 0.5MKCl -log10(p)=1.07, 1.10, n= 31 -log10(p)=0.07, 0.07, n=116 -log10(p)=1.33, 1.37, n= 41 -log10(p)=0.05, 0.05, n=126 Lai WT Gal N2 R1 -log10(p)=2.77, 2.94, n=138 -log10(p)=0.14, 0.15, n= 56 -log10(p)=0.39, 0.40, n= 86 -log10(p)=0.13, 0.14, n= 64 Lai WT Gal N2 R2 -log10(p)=2.60, 2.53, n=125 -log10(p)=0.16, 0.16, n= 62 -log10(p)=1.29, 1.31, n=109 -log10(p)=0.05, 0.05, n= 59 Lai WT Gal N2 R3 -log10(p)=2.68, 2.79, n=133 -log10(p)=0.06, 0.06, n= 43 -log10(p)=1.80, 1.82, n=126 -log10(p)=0.00, 0.00, n= 35 Lai WT Glu N2 R1 -log10(p)=0.61, 0.62, n= 61 -log10(p)=0.32, 0.33, n= 46 -log10(p)=0.33, 0.34, n= 61 -log10(p)=1.05, 1.08, n= 75 Lai WT Glu N2 R2 -log10(p)=0.13, 0.13, n= 57 -log10(p)=0.02, 0.03, n= 27 -log10(p)=0.30, 0.31, n= 76 -log10(p)=0.01, 0.01, n= 31 Lai WT Glu N2 R3 -log10(p)=1.34, 1.34, n= 72 -log10(p)=0.39, 0.40, n= 56 -log10(p)=1.02, 1.05, n= 75 -log10(p)=0.08, 0.09, n= 48 Lai msn2/4 Gal R1 -log10(p)=5.00, 5.55, n=193 -log10(p)=0.08, 0.08, n= 40 -log10(p)=2.98, 2.88, n=158 -log10(p)=0.06, 0.07, n= 45 Lai msn2/4 Gal R2 -log10(p)=4.15, 4.17, n=152 -log10(p)=0.00, 0.01, n= 22 -log10(p)=1.26, 1.28, n=107 -log10(p)=0.02, 0.02, n= 34 Lai msn2/4 Gal R3 -log10(p)=3.65, 4.02, n=106 -log10(p)=0.13, 0.14, n= 49 -log10(p)=1.12, 1.15, n= 71 -log10(p)=0.20, 0.20, n= 62 Lai Mean WT Gal -log10(p)=2.62, 2.64, n=126 -log10(p)=0.08, 0.09, n= 49 -log10(p)=1.08, 1.11, n=105 -log10(p)=0.03, 0.03, n= 49 Lai Mean WT Glu -log10(p)=0.50, 0.51, n= 54 -log10(p)=0.56, 0.58, n= 47 -log10(p)=0.09, 0.09, n= 44 -log10(p)=0.28, 0.29, n= 46 Lai Mean msn2/4 -log10(p)=4.70, 4.59, n=151 -log10(p)=0.03, 0.04, n= 28 -log10(p)=1.23, 1.27, n=101 -log10(p)=0.07, 0.08, n= 39 Zakrzewska -log10(p)=0.36, 0.37, n= 59 -log10(p)=0.09, 0.11, n= 15 -log10(p)=1.25, 1.28, n= 96 -log10(p)=0.25, 0.26, n= 27 Mercier 18733 -log10(p)=0.11, 0.11, n= 42 -log10(p)=0.71, 0.73, n= 66 -log10(p)=0.26, 0.28, n= 59 -log10(p)=0.18, 0.19, n= 55 Mercier 18734 -log10(p)=0.03, 0.03, n= 40 -log10(p)=2.09, 2.15, n=115 -log10(p)=0.16, 0.17, n= 61 -log10(p)=0.56, 0.58, n= 85 Mercier 18735 -log10(p)=0.15, 0.16, n= 54 -log10(p)=0.20, 0.20, n= 42 -log10(p)=0.63, 0.64, n= 84 -log10(p)=0.68, 0.70, n= 67 Mercier 6035 -log10(p)=0.27, 0.27, n= 39 -log10(p)=1.68, 1.70, n=135 -log10(p)=0.38, 0.39, n= 50 -log10(p)=0.23, 0.24, n= 96 Mercier hdf1 -log10(p)=0.02, 0.02, n= 41 -log10(p)=0.75, 0.77, n= 88 -log10(p)=0.08, 0.09, n= 59 -log10(p)=0.30, 0.32, n= 80 total over segments 4.00 0.19 4.00 0.01