Table 1.

Statistical analysis

FigureTestSample size (n)Test statisticspPower α = 0.050
1BTwo-way ANOVAWT: P1 = 5, P6 = 8, P14 = 15; KO: P1 = 5, P6 = 10, P14 = 16Age F = 74.469; genotype F = 2.714; age × genotype F = 1.251Age p < 0.001; genotype p = 0.105; age × genotype p = 0.294Age α = 1.000; genotype α = 0.236; age × genotype α = 0.085
2BTwo-way ANOVAWT: P1 = 7, P6 = 8, P14 = 10; KO: P1 = 5, P6 = 9, P14 = 10Age F = 234.948; genotype F = 56.277; age × genotype F = 3.471Age p < 0.001; genotype p < 0.001; age × genotype p = 0.040Age α = 1.000; genotype α = 1.000; age × genotype α = 0.460
3DTwo-way ANOVAWT: P1 = 5, P6 = 8, P14 = 15; KO: P1 = 5, P6 = 10, P14 = 16Location F = 10.762; genotype F = 240.432; location × genotype F = 11.572Location p < 0.001; genotype p < 0.001; location × genotype p = 0.040Location α = 0.859; genotype α = 1.000; location × genotype α = 0.887
3ETwo-way ANOVAWT: P1 = 5, P6 = 8, P14 = 15; KO: P1 = 5, P6 = 10, P14 = 16Location F = 14.142; genotype F = 39.594; location × genotype F = 5.922Location p < 0.001; genotype p < 0.001; location × genotype p = 0.020Location α = 0.958; genotype α = 1.000; location × genotype α = 0.577
3FTwo-way ANOVAWT: P1 = 5, P6 = 8, P14 = 15; KO: P1 = 5, P6 = 10, P14 = 16Location F = 144.012; genotype F = 36.820; location × genotype F = 1.056Location p < 0.001; genotype p < 0.001; location × genotype p = 0.308Location α = 1.000; genotype α = 1.000; location × genotype α = 0.053
4BTwo-way ANOVAWT: P1 = 7, P6 = 8, P14 = 10; KO: P1 = 5, P6 = 9, P14 = 10Age F = 30.240; genotype F = 48.714; age × genotype F = 2.404Age p < 0.001; genotype p < 0.001; age × genotype p = 0.100Age α = 1.000; genotype α = 1.000; age × genotype α = 0.278
5BTwo-way ANOVAWT: P1 = 5, P6 = 8, P14 = 15; KO: P1 = 5, P6 = 10, P14 = 16Age F = 74.602; genotype F = 1.300; age × genotype F = 0.839Age p < 0.001; genotype p = 0.259; age × genotype p = 0.438Age α = 1.000; genotype α = 0.0789; age × genotype α = 0.050
5CTwo-way ANOVAWT: P1 = 5, P6 = 8, P14 = 15; KO: P1 = 5, P6 = 10, P14 = 16Age F = 6.544; genotype F = 0.049; age × genotype F = 0.730Age p = 0.003; genotype p = 0.824; age × genotype p = 0.487Age α = 0.844; genotype α = 0.050; age × genotype α = 0.050
5ETwo-way ANOVAWT: P1 = 5, P6 = 8, P14 = 15; KO: P1 = 5, P6 = 10, P14 = 16Age F = 188.708; genotype F = 1.683; age × genotype F = 0.860Age p < 0.001; genotype p = 0.200; age × genotype p = 0.428Age α = 1.000; genotype α = 0.120; age × genotype α = 0.050
5FTwo-way ANOVAWT: P1 = 5, P6 = 8, P14 = 15; KO: P1 = 5, P6 = 10, P14 = 16Age F = 28.024; genotype F = 0.009; age × genotype F = 0.473Age p < 0.001; genotype p = 0.925; age × genotype p = 0.626Age α = 1.000; genotype α = 0.050; age × genotype α = 0.050
5HTwo-way ANOVAWT: P1 = 5, P6 = 8, P14 = 15; KO: P1 = 5, P6 = 10, P14 = 16Age F = 60.344; genotype F = 0.792; age × genotype F = 0.155Age p < 0.001; genotype p = 0.377; age × genotype p = 0.857Age α = 1.000; genotype α = 0.050; age × genotype α = 0.050
5ITwo-way ANOVAWT: P1 = 5, P6 = 8, P14 = 15; KO: P1 = 5, P6 = 10, P14 = 16Age F = 35.620; genotype F = 0.724; age × genotype F = 0.620Age p < 0.001; genotype p = 0.398; age × genotype p = 0.541Age α = 1.000; genotype α = 0.050; age × genotype α = 0.050
6DTwo-way ANOVAWT: P6 = 7, P14 = 10; KO:P6 = 13, P14 = 16Age F = 30.666; genotype F = 0.009; age × genotype F = 0.002Age p < 0.001; genotype p = 0.926; age × genotype p = 0.967Age α = 1.000; genotype α = 0.050; age × genotype α = 0.050
6ETwo-way ANOVAWT: P6 = 7, P14 = 10; KO: P6 = 13, P14 = 16Age F = 10.846; genotype F = 0.098; age × genotype F = 0.078Age p = 0.002; genotype p = 0.756; age × genotype p = 0.782Age α = 0.883; genotype α = 0.050; age × genotype α = 0.050
6FTwo-way ANOVAWT: P6 = 7, P14 = 10; KO: P6 = 13, P14 = 16Age F = 1.350; genotype F = 3.178; age × genotype F = 0.008Age p = 0.255; genotype p = 0.085; age × genotype p = 0.927Age α = 0.083; genotype α = 0.282; age × genotype α = 0.050
6GTwo-way ANOVAWT: P6 = 7, P14 = 10; KO: P6 = 13, P14 = 16Age F = 15.330; genotype F = 0.195; age × genotype F = 0.094Age p < 0.001; genotype p = 0.661; age × genotype p = 0.760Age α = 0.972; genotype α = 0.050; age × genotype α = 0.050
7DTwo-way ANOVAWT: P6 = 8, P14 = 10; KO: P6 = 13, P14 = 16Age F = 0.283; genotype F = 0.417; age × genotype F = 1.336Age p = 0.600; genotype p = 0.525; age × genotype p = 0.260Age α = 0.050; genotype α = 0.050; age × genotype α = 0.081
7ETwo-way ANOVAWT: P6 = 8, P14 = 10; KO: P6 = 13, P14 = 16Age F = 0.804; genotype F = 66.730; age × genotype F = 0.017Age p = 0.379; genotype p < 0.001; age × genotype p = 0.896Age α = 0.050; genotype α = 1.000; age × genotype α = 0.050
7FTwo-way ANOVAWT: P6 = 8, P14 = 10; KO:P6 = 13, P14 = 16Age F = 1.785; genotype F = 4.347; age × genotype F = 0.037Age p = 0.194; genotype p = 0.047; age × genotype p = 0.849Age α = 0.128; genotype α = 0.408; age × genotype α = 0.050
7GTwo-way ANOVAWT: P6 = 8, P14 = 10; KO: P6 = 13, P14 = 16Age F = 1.291; genotype F = 23.979; age × genotype F = 0.719Age p = 0.268; genotype p < 0.001; age × genotype p = 0.406Age α = 0.077; genotype α = 0.998; age × genotype α = 0.050
8DTwo-way ANOVAWT: P6 = 8, P14 = 10; KO: P6 = 13, P14 = 16Age F = 16.857; genotype F = 0.210; age × genotype F = 0.169Age p < 0.001; genotype p = 0.649; age × genotype p = 0.683Age α = 0.984; genotype α = 0.050; age × genotype α = 0.050
8ETwo-way ANOVAWT: P6 = 8, P14 = 10; KO: P6 = 13, P14 = 16Age F = 13.242; genotype F = 0.991; age × genotype F = 0.078Age p < 0.001; genotype p = 0.325; age × genotype p = 0.782Age α = 0.944; genotype α = 0.050; age × genotype α = 0.050
8FTwo-way ANOVAWT: P6 = 8, P14 = 10; KO: P6 = 13, P14 = 16Age F = 5.388; genotype F = 40.622; age × genotype F = 0.008Age p < 0.001; genotype p = 0.027; age × genotype p = 0.929Age α = 1.000; genotype α = 0.519; age × genotype α = 0.050
8GTwo-way ANOVAWT: P6 = 8, P14 = 10; KO: P6 = 13, P14 = 16Age F = 62.677; genotype F = 4.302; age × genotype F = 1.233Age p < 0.001; genotype p = 0.044; age × genotype p = 0.273Age α = 1.000; genotype α = 0.414; age × genotype α = 0.072
9DTwo-way ANOVAWT: P1 = 7, P6 = 8, P14 = 15; KO: P1 = 5, P6 = 14, P14 = 16Age F = 24.955; genotype F = 1.250; age × genotype F = 0.125Age p < 0.001; genotype p = 0.269; age × genotype p = 0.882Age α = 1.000; genotype α = 0.074; age × genotype α = 0.050
9HTwo-way ANOVAWT: P1 = 7, P6 = 8, P14 = 15; KO: P1 = 5, P6 = 14, P14 = 16Age F = 52.928; genotype F = 0.219; age × genotype F = 0.428Age p < 0.001; genotype p = 0.642; age × genotype p = 0.654Age α = 1.000; genotype α = 0.050; age × genotype α = 0.050
9LTwo-way ANOVAWT: P1 = 7, P6 = 8, P14 = 15; KO: P1 = 5, P6 = 14, P14 = 16Age F = 50.641; genotype F = 0.783; age × genotype F = 1.917Age p < 0.001; genotype p = 0.380; age × genotype p = 0.156Age α = 1.000; genotype α = 0.050; age × genotype α = 0.193
10BTwo-way ANOVAWT: P6 = 8, P14 = 13; KO: P6 = 10, P14 = 11Age F = 21.766; genotype F = 5.393; age × genotype F = 1.687Age p < 0.001; genotype p = 0.026; age × genotype p = 0.203Age α = 0.997; genotype α = 0.524; age × genotype α = 0.119
10DTwo-way ANOVAWT: P6 = 8, P14 = 13; KO: P6 = 10, P14 = 11Age F = 19.654; genotype F = 1.462; age × genotype F = 0.256Age p < 0.001; genotype p = 0.234; age × genotype p = 0.616Age α = 0.994; genotype α = 0.095; age × genotype α = 0.050
10FTwo-way ANOVAWT: P6 = 8, P14 = 13; KO: P6 = 10, P14 = 11Age F = 27.231; genotype F = 5.368; age × genotype F = 2.468Age p < 0.001; genotype p = 0.026; age × genotype p = 0.125Age α = 1.000; genotype α = 0.523; age × genotype α = 0.205