Table 1

Statistical tests used to analyze data

Circuit location	Comparison	Data structure	Test	Sample size (# KC fields or Western lysates)	Mean	Statistics	p value
α’1	0 dpe; 7 dpe	Not normal	Mann–Whitney test	38; 34	0.1; 32.5	U = 0	p < 0.0001
β’1	0 dpe; 7 dpe	Not normal	Mann–Whitney test	37; 38	0.1; 66.8	U = 0	p < 0.0001
α’1	Female 7 dpe; male 7 dpe	normal	Unpaired two-tailed t test	18; 16	50.1; 26.9	t = 6.51 df = 26.96	p < 0.0001
β’1	Female 7 dpe; male 7 dpe	Not normal	Mann–Whitney test	18; 16	83.2; 64.5	U = 31	p < 0.0001
N/A	Female 0 dpe; male 0 dpe	Normal	Brown–Forsythe, Welch ANOVA test	9; 9	1.0; 1.104	t = 2.028 DF = 15.75	p = 0.2846
N/A	Female 0 dpe; female 7 dpe	Normal	Brown–Forsythe, Welch ANOVA test	9; 9	1.0; 1.088	t = 0.8219 DF = 10.31	p = 0.9482
N/A	Female 0 dpe; male 7 dpe	Normal	Brown–Forsythe, Welch ANOVA test	9; 9	1.0; 0.9298	t = 0.7746 DF = 11.32	p = 0.9608
N/A	Male 0 dpe; female 7 dpe	Normal	Brown–Forsythe, Welch ANOVA test	9; 9	1.104; 1.088	t = 0.1493 DF = 9.809	p > 0.9999
N/A	Male 0 dpe; male 7 dpe	Normal	Brown–Forsythe, Welch ANOVA test	9; 9	1.104; 0.9298	t = 1.956 DF = 10.63	p = 0.3383
N/A	Female 7 dpe; male 7 dpe	Normal	Brown–Forsythe, Welch ANOVA test	9; 9	1.088; 0.9298	t = 1.223 DF = 15.43	p = 0.7724
α’1	Control 7dpe; dfmr1 7dpe	Normal	Unpaired two-tailed t test	34; 21	43.5; 26.1	t = 3.77 df = 41.34	p = 0.0005
β’1	Control 7dpe; dfmr1 7dpe	Normal	Unpaired two-tailed t test	34; 21	75.5; 43.9	t = 3.88 df = 34.73	p = 0.0004
α’1	Control 7dpe; rg 7 dpe	Not normal	Mann–Whitney test	24; 18	27.4; 15.2	U = 70.50	p = 0.0001
β’1	Control 7dpe; rg 7 dpe	Normal	Unpaired two-tailed t test	24; 18	58.9; 20.8	t = 8.40 df = 31.59	p < 0.0001
α’1	Control 0 dpe; control 7 dpe	Not normal	Mann–Whitney test	14; 12	0.1; 35.7	U = 0	p < 0.0001
α’1	dFMRP OE 0 dpe; dFMRP OE 7 dpe	Not normal	Mann–Whitney test	16; 18	5.2; 31.6	U = 11.50	p < 0.0001
α’1	hFMRP OE 0 dpe; hFMRP OE 7 dpe	Not normal	Mann–Whitney test	18; 11	0.2; 39.8	U = 0	p < 0.0001
α’1	ΔRGG-hFMRP OE 0 dpe; ΔRGG-hFMRP OE 7 dpe	Not normal	Mann–Whitney test	8; 18	0.1; 5.3	U = 9.50	p = 0.0001
α’1	Rg OE 0 dpe; Rg OE 7 dpe	Normal	Unpaired two-tailed t test	14; 16	0.3; 31.6	t = 8.94 df = 15.04	p < 0.0001
α’1	Meng-Po OE 0 dpe; Meng-Po OE 7dpe	Normal	Unpaired two-tailed t test	16; 16	67.1; 196.4	t = 7.88 df = 16.78	p < 0.0001
α’1	Control 0 dpe; dFMRP OE 0 dpe	Not normal	Kruskal–Wallis test	14; 16	0.1; 5.2	Mean rank diff = −22.9	p = 0.0272
α’1	Control 0 dpe; hFMRP OE 0 dpe	Not normal	Kruskal–Wallis test	14; 18	0.1; 0.2	Mean rank diff = −0.7143	p > 0.9999
α’1	Control 0 dpe; ΔRGG-hFMRP OE 0 dpe	Not normal	Kruskal–Wallis test	14; 8	0.1; 0.1	Mean rank diff = 0.5357	p > 0.9999
α’1	Control 0 dpe; Rg OE 0 dpe	Not normal	Kruskal–Wallis test	14; 14	0.1; 0.3	Mean rank diff = −4.286	p > 0.9999
α’1	Control 0 dpe; Meng-Po OE 0 dpe	Not normal	Kruskal–Wallis test	14; 16	0.1; 67.1	Mean rank diff = −49.21	p < 0.0001
α’1	Control 7 dpe; dFMRP OE 7 dpe	Normal	Brown–Forsythe, Welch ANOVA test	12; 18	35.7; 31.6	t = 0.74 DF = 23.56	p = 0.9505
α’1	Control 7 dpe; hFMRP OE 7 dpe	Normal	Brown–Forsythe, Welch ANOVA test	12; 11	35.7; 39.8	t = 0.62 DF = 20.17	p = 0.9751
α’1	Control 7 dpe; ΔRGG-hFMRP OE 7 dpe	Normal	Brown–Forsythe, Welch ANOVA test	12; 18	35.7; 5.3	t = 6.81 DF = 12.48	p < 0.0001
α’1	Control 7 dpe; Rg OE 7 dpe	Normal	Brown–Forsythe, Welch ANOVA test	12; 16	35.7; 31.6	t = 0.74 DF = 22.91	p = 0.9508
α’1	Control 7 dpe; Meng-Po OE 7 dpe	Normal	Brown–Forsythe, Welch ANOVA test	12; 16	35.7;196.4	t = 9.74 DF = 17.16	p < 0.0001
β’1	Control 0 dpe; control 7 dpe	Not normal	Mann–Whitney test	14; 12	0.1; 53.6	U = 0	p < 0.0001
β’1	dFMRP OE 0 dpe; dFMRP OE 7 dpe	Not normal	Mann–Whitney test	16; 18	3.4; 19.6	U = 48.50	p = 0.0005
β’1	hFMRP OE 0 dpe; hFMRP OE 7 dpe	Not normal	Mann–Whitney test	18; 11	1.0; 60.5	U = 1	p < 0.0001
β’1	ΔRGG-hFMRP OE 0 dpe; ΔRGG-hFMRP OE 7 dpe	Not normal	Mann–Whitney test	8; 18	0.1; 7.1	U = 0	p < 0.0001
β’1	Rg OE 0 dpe; Rg OE 7 dpe	Normal	Unpaired two-tailed t test	14; 16	0.4; 25.7	t = 9.12 df = 15.12	p < 0.0001
β’1	Meng-Po OE 0 dpe; Meng-Po OE 7dpe	Normal	Unpaired two-tailed t test	16; 22	138.9; 251.9	t = 7.49 df = 26.44	p < 0.0001
β’1	Control 0 dpe; dFMRP OE 0 dpe	Not normal	Kruskal–Wallis test	14; 16	0.1; 3.4	Mean rank diff = −18.48	p = 0.1195
β’1	Control 0 dpe; hFMRP OE 0 dpe	Not normal	Kruskal–Wallis test	14; 18	0.1; 1.0	Mean rank diff = −6.127	p > 0.9999
β’1	Control 0 dpe; ΔRGG-hFMRP OE 0 dpe	Not normal	Kruskal–Wallis test	14; 8	0.1; 0.1	Mean rank diff = −1.634	p > 0.9999
β’1	Control 0 dpe; Rg OE 0 dpe	Not normal	Kruskal–Wallis test	14; 14	0.1; 0.4	Mean rank diff = −9.179	p > 0.9999
β’1	Control 0 dpe; Meng-Po OE 0 dpe	Not normal	Kruskal–Wallis test	14; 16	0.1; 138.9	Mean rank diff = −50.82	p < 0.0001
β’1	Control 7 dpe; dFMRP OE 7 dpe	Normal	Brown–Forsythe, Welch ANOVA test	12; 18	53.6; 19.6	t = 5.13 DF = 20.78	p = 0.0002
β’1	Control 7 dpe; hFMRP OE 7 dpe	Normal	Brown–Forsythe, Welch ANOVA test	12; 11	53.6; 60.5	t = 0.76 DF = 19.17	p = 0.9426
β’1	Control 7 dpe; ΔRGG-hFMRP OE 7 dpe	Normal	Brown–Forsythe, Welch ANOVA test	12; 18	53.6; 7.1	t = 8.31 DF = 12.07	p < 0.0001
β’1	Control 7 dpe; Rg OE 7 dpe	Normal	Brown–Forsythe, Welch ANOVA test	12; 16	53.6; 25.7	t = 4.55 DF = 16.56	p = 0.0014
β’1	Control 7 dpe; Meng-Po OE 7 dpe	Normal	Brown–Forsythe, Welch ANOVA test	12; 22	53.6; 251.9	t = 13.07 DF = 26.60	p <0.0001
γ3	Control 0 dpe; Meng-Po OE 0 dpe	Not normal	Mann–Whitney test	14; 16	0.0; 99.3	U = 14	p <0.0001
γ3	Control 7 dpe; Meng-Po OE 7 dpe	Not normal	Mann–Whitney test	12; 16	0.4; 291.8	U = 0	p <0.0001
α’1	Control 0 dpe; meng-po RNAi 0 dpe	Not normal	Kruskal–Wallis test	10; 13	1.0; 0.5	Mean rank diff = 2.212	p > 0.9999
α’1	Control 0 dpe; control 7 dpe	Not normal	Kruskal–Wallis test	10; 17	1.0; 31.7	Mean rank diff = −24.75	p = 0.0004
α’1	Control 0 dpe; meng-po RNAi 7 dpe	Not normal	Kruskal–Wallis test	10 ; 16	1.0; 0.3	Mean rank diff = 6.125	p > 0.9999
α’1	meng-po RNAi 0 dpe; control 7 dpe	Not normal	Kruskal–Wallis test	13; 17	0.5; 31.7	Mean rank diff = −26.96	p < 0.0001
α’1	meng-po RNAi 0 dpe; meng-po RNAi 7 dpe	Not normal	Kruskal–Wallis test	13; 16	0.5; 0.3	Mean rank diff = 3.913	p > 0.9999
α’1	Control 7 dpe; meng-po RNAi 7 dpe	Not normal	Kruskal–Wallis test	17; 16	31.7; 0.3	Mean rank diff = 30.88	p < 0.0001
β’1	Control 0 dpe; meng-po RNAi 0 dpe	Not normal	Kruskal–Wallis test	10; 13	0.8; 0.3	Mean rank diff = 7.138	p > 0.9999
β’1	Control 0 dpe; control 7 dpe	Not normal	Kruskal–Wallis test	10; 17	0.8; 41.7	Mean rank diff = −23.90	p = 0.0007
β’1	Control 0 dpe; meng-po RNAi 7 dpe	Not normal	Kruskal–Wallis test	10 ; 16	0.8; 0.6	Mean rank diff = 4.194	p > 0.9999
β’1	meng-po RNAi 0 dpe; control 7 dpe	Not normal	Kruskal–Wallis test	13; 17	0.3; 41.7	Mean rank diff = −31.04	p < 0.0001
β’1	meng-po RNAi 0 dpe; meng-po RNAi 7 dpe	Not normal	Kruskal–Wallis test	13; 16	0.3; 0.6	Mean rank diff = −2.945	p > 0.9999
β’1	Control 7 dpe; meng-po RNAi 7 dpe	Not normal	Kruskal–Wallis test	17; 16	41.7; 0.6	Mean rank diff = 28.09	p < 0.0001
α’1	shibire^ts 7 dpe 20°C; 25°C	Normal	Brown–Forsythe, Welch ANOVA test	15; 14	7.5; 25.5	t = 3.74 DF = 16.00	p = 0.0053
α’1	shibire^ts 7 dpe 20°C; 33°C	Normal	Brown–Forsythe, Welch ANOVA test	15; 17	7.5; 62.2	t = 11.90 DF =20.01	p < 0.0001
α’1	shibire^ts 7 dpe 25°C; 33°C	Normal	Brown–Forsythe, Welch ANOVA test	14; 17	25.5; 62.2	t = 5.844 DF = 28.31	p < 0.0001
β’1	shibire^ts 7 dpe 20°C; 25°C	Not normal	Kruskal–Wallis test	16; 14	18.8; 25.6	Mean rank diff = −3.808	p > 0.9999
β’1	shibire^ts 7 dpe 20°C; 33°C	Not normal	Kruskal–Wallis test	16; 17	18.8; 66.9	Mean rank diff = −24.08	p < 0.0001
β’1	shibire^ts 7 dpe 25°C; 33°C	Not normal	Kruskal–Wallis test	14; 17	25.6; 66.9	Mean rank diff = −20.27	p = 0.0001
α2	shibire^ts 7 dpe 20°C; 25°C	Normal	Brown–Forsythe, Welch ANOVA test	16; 13	11.1; 53.8	t = 9.33 DF = 16.03	p <0.0001
α2	shibire^ts 7 dpe 20°C; 33°C	Normal	Brown–Forsythe, Welch ANOVA test	16; 17	11.1; 9.3	t = 0.67 DF = 30.76	p = 0.8747
α2	shibire^ts 7 dpe 25°C; 33°C	Normal	Brown–Forsythe, Welch ANOVA test	13; 17	53.8; 9.3	t = 9.53 DF = 17.13	p < 0.0001
γ1	shibire^ts 7 dpe 20°C; 25°C	Not normal	Kruskal–Wallis test	16; 14	1.9; 0.9	Mean rank diff = 4.353	p > 0.9999
γ1	shibire^ts 7 dpe 20°C; 33°C	Not normal	Kruskal–Wallis test	16; 17	1.9; 101.8	Mean rank diff = −21.47	p < 0.0001
γ1	shibire^ts 7 dpe 25°C; 33°C	Not normal	Kruskal–Wallis test	14; 17	0.9; 101.8	Mean rank diff = −25.82	p < 0.0001
α2	shibire^ts 7 dpe 20°C; 7 dpe 20°C, 3 h 33°C	Not normal	Mann–Whitney test	30; 26	3.6; 26.6	U = 82.50	p <0.0001
α’1	UAS-TNT 0 dpe; UAS-TNT 7 dpe	Not normal	Mann–Whitney test	32; 57	1.2; 72.4	U = 0	p <0.0001
β’1	UAS-TNT 0 dpe; UAS-TNT 7 dpe	Not normal	Mann–Whitney test	32; 57	0.5; 75.2	U = 3.50	p < 0.0001
γ1	UAS-TNT 0 dpe; UAS-TNT 7 dpe	Not normal	Mann–Whitney test	31; 57	0.6; 18.5	U = 165.50	p < 0.0001
α'3	UAS-TNT 0 dpe; UAS-TNT 7 dpe	Not normal	Mann–Whitney test	29; 54	0.3; 30.1	U = 154	p < 0.0001
α3	UAS-TNT 0 dpe; UAS-TNT 7 dpe	Not normal	Mann–Whitney test	20; 49	0.2; 66.8	U = 0	p < 0.0001
β’2m	UAS-TNT 0 dpe; UAS-TNT 7 dpe	Not normal	Mann–Whitney test	31; 57	0.6; 44.1	U = 0	p < 0.0001
β2	UAS-TNT 0 dpe; UAS-TNT 7 dpe	Not normal	Mann–Whitney test	32; 58	0.2; 85.1	U = 0	p < 0.0001
α’1	Control; UAS-TNT 7 dpe	Not normal	Mann–Whitney test	68; 57	35.9; 72.4	U = 451.50	p < 0.0001
β’1	Control; UAS-TNT 7 dpe	Normal	Unpaired two-tailed t test	72; 57	70.4; 75.2	t = 0.83 df = 75.77	p = 0.41
α’1 and β’1	α’1 UAS-TNT 7 dpe; β’1 UAS-TNT 7 dpe	Normal	Unpaired two-tailed t test	57; 57	72.4; 75.2	t =0.43 df = 101.59	p = 0.67