Depth of coverage and heterogeneity of the mutation loci. x-axis, mutation loci in sample set one or two; y-axis, depth of coverage after UMI consolidation. by Lizhi Yu (12476136)

Muscle activities during walking and running at energetically optimal transition speed under normobaric hypoxia on gradient slopes by Daijiro Abe (797293)

“…<div><p>Energy cost of transport per unit distance (CoT; J·kg^-1·km^-1) displays a U-shaped fashion in walking and a linear fashion in running as a function of gait speed (<i>v</i>; km·h^-1). There exists an intersection between U-shaped and linear CoT-<i>v</i> relationships, being termed energetically optimal transition speed (EOTS; km·h^-1). …”

S1 Data - by Jan Willem Koten (17743224)

“…We estimated connectivity from a working memory task. The grand mean connectivity of the connectome equaled r = 0.41 (95% CI 0.31–0.50) for the test run and r = 0.40 (95% CI 0.29–0.49) for the retest run. …”

Connectivity statistics. by Jan Willem Koten (17743224)

“…We estimated connectivity from a working memory task. The grand mean connectivity of the connectome equaled r = 0.41 (95% CI 0.31–0.50) for the test run and r = 0.40 (95% CI 0.29–0.49) for the retest run. …”

OPJ: Origin data for Fig 9a. by Nacer Badi (14046883)

“…According to the computational results, the tilt angle and modified Rayleigh number increase the mass flow rate and mean Nusselt number. The overheating zone with maximum temperatures is located in the upper part of the photovoltaic panel. …”

OPJ: Origin data for Fig 7a. by Nacer Badi (14046883)

“…According to the computational results, the tilt angle and modified Rayleigh number increase the mass flow rate and mean Nusselt number. The overheating zone with maximum temperatures is located in the upper part of the photovoltaic panel. …”

OPJ: Origin data for Fig 3a. by Nacer Badi (14046883)

“…According to the computational results, the tilt angle and modified Rayleigh number increase the mass flow rate and mean Nusselt number. The overheating zone with maximum temperatures is located in the upper part of the photovoltaic panel. …”

OPJ: Origin data for Fig 4b. by Nacer Badi (14046883)

“…According to the computational results, the tilt angle and modified Rayleigh number increase the mass flow rate and mean Nusselt number. The overheating zone with maximum temperatures is located in the upper part of the photovoltaic panel. …”

OPJ: Origin data for Fig 8b. by Nacer Badi (14046883)

“…According to the computational results, the tilt angle and modified Rayleigh number increase the mass flow rate and mean Nusselt number. The overheating zone with maximum temperatures is located in the upper part of the photovoltaic panel. …”

OPJ: Origin data for Fig 6a. by Nacer Badi (14046883)

“…According to the computational results, the tilt angle and modified Rayleigh number increase the mass flow rate and mean Nusselt number. The overheating zone with maximum temperatures is located in the upper part of the photovoltaic panel. …”

OPJ: Origin data for Fig 7b. by Nacer Badi (14046883)

“…According to the computational results, the tilt angle and modified Rayleigh number increase the mass flow rate and mean Nusselt number. The overheating zone with maximum temperatures is located in the upper part of the photovoltaic panel. …”

OPJ: Origin data for Fig 3b. by Nacer Badi (14046883)

“…According to the computational results, the tilt angle and modified Rayleigh number increase the mass flow rate and mean Nusselt number. The overheating zone with maximum temperatures is located in the upper part of the photovoltaic panel. …”

OPJ: Origin data for Fig 6b. by Nacer Badi (14046883)

“…According to the computational results, the tilt angle and modified Rayleigh number increase the mass flow rate and mean Nusselt number. The overheating zone with maximum temperatures is located in the upper part of the photovoltaic panel. …”

OPJ: Origin data for Fig 9b. by Nacer Badi (14046883)

“…According to the computational results, the tilt angle and modified Rayleigh number increase the mass flow rate and mean Nusselt number. The overheating zone with maximum temperatures is located in the upper part of the photovoltaic panel. …”

OPJ: Origin data for Fig 8a. by Nacer Badi (14046883)

“…According to the computational results, the tilt angle and modified Rayleigh number increase the mass flow rate and mean Nusselt number. The overheating zone with maximum temperatures is located in the upper part of the photovoltaic panel. …”

OPJ: Origin data for Fig 2b. by Nacer Badi (14046883)

“…According to the computational results, the tilt angle and modified Rayleigh number increase the mass flow rate and mean Nusselt number. The overheating zone with maximum temperatures is located in the upper part of the photovoltaic panel. …”

OPJ: Origin data for Fig 2a. by Nacer Badi (14046883)

“…According to the computational results, the tilt angle and modified Rayleigh number increase the mass flow rate and mean Nusselt number. The overheating zone with maximum temperatures is located in the upper part of the photovoltaic panel. …”

OPJ: Origin data for Fig 4a. by Nacer Badi (14046883)

“…According to the computational results, the tilt angle and modified Rayleigh number increase the mass flow rate and mean Nusselt number. The overheating zone with maximum temperatures is located in the upper part of the photovoltaic panel. …”

<i>hlh-26</i> is required for probiotic <i>E</i>. <i>faecium</i>–mediated protection against <i>S</i>. <i>enterica</i> infection. by Yu Sang (2551267)

Random forest analysis of the plasma metabolome. by Satoshi Kume (534079)