Overexpression of <em>AtDREB1A</em> Causes a Severe Dwarf Phenotype by Decreasing Endogenous Gibberellin Levels in Soybean [<em>Glycine max</em> (L.) Merr.] by Haicui Suo (135265)

“…Previous studies have demonstrated that three key enzymes of GA20ox, GA3ox, and GA2ox are involved in GA biosynthesis. In this study, the <em>Arabidopsis DREB1A</em> gene driven by the CaMV 35S promoter was introduced into soybean plants by <em>Agrobacterium</em>- mediated transformation. …”

Knocking down of TRIM59 decreased the expression of cell cycle proteins. by Weihua Zhan (830500)

Ifit2 deficiency results in decreased neuroinflammation upon RSA59 infection. by Jayasri Das Sarma (652473)

Gap Δ versus <em>U</em> at <em>T</em> = 0 for different values of the interpolating parameter <em>a</em> and at half-filling (<em>n</em> = 1) by G Mazzucchi (557358)

“…The reason for such a choice is that the π-flux cubic lattice displays Dirac points and that decreasing the hopping coefficient in a spatial direction (say, <em>t_z</em>), these Dirac points are unaltered: it is then possible to study the 3D–2D interpolation towards the π-flux square lattice. …”

Critical value <em>U_c</em> versus the interpolating parameter <em>a</em> at <em>T</em> = 0 and half-filling (as in figure 5) by G Mazzucchi (557358)

“…The reason for such a choice is that the π-flux cubic lattice displays Dirac points and that decreasing the hopping coefficient in a spatial direction (say, <em>t_z</em>), these Dirac points are unaltered: it is then possible to study the 3D–2D interpolation towards the π-flux square lattice. …”

Critical temperature <em>T_c</em> (in units of <em>t</em>) for different values of the interpolating parameter <em>a</em> at half-filling (from top to bottom, <em>a</em>... by G Mazzucchi (557358)

“…The reason for such a choice is that the π-flux cubic lattice displays Dirac points and that decreasing the hopping coefficient in a spatial direction (say, <em>t_z</em>), these Dirac points are unaltered: it is then possible to study the 3D–2D interpolation towards the π-flux square lattice. …”

Urinary Copper Elevation in a Mouse Model of Wilson's Disease Is a Regulated Process to Specifically Decrease the Hepatic Copper Load by Lawrence W. Gray (156186)

“…PET-CT and atomic absorption spectroscopy directly demonstrate an age-dependent decrease in the capacity of <em>Atp7b^−/−</em> livers to accumulate copper, concomitant with an increase in urinary copper. …”

Critical interaction <em>U_c</em> for different values of the anisotropy parameter <em>a</em> for the π-flux cubic lattice model at half-filling by G Mazzucchi (557358)

“…The reason for such a choice is that the π-flux cubic lattice displays Dirac points and that decreasing the hopping coefficient in a spatial direction (say, <em>t_z</em>), these Dirac points are unaltered: it is then possible to study the 3D–2D interpolation towards the π-flux square lattice. …”

Metformin/rifampicin combination decreases <i>S</i>. <i>aureus</i> load and persisters in Mice. by Xiao-Qi Lin (9548375)

Gap Δ versus <em>U</em> for different values of the anisotropy parameter <em>a</em> for the π-flux cubic lattice model at half-filling (from top to bottom, <em>a</em> = 0, 0.05, 0.... by G Mazzucchi (557358)

“…The reason for such a choice is that the π-flux cubic lattice displays Dirac points and that decreasing the hopping coefficient in a spatial direction (say, <em>t_z</em>), these Dirac points are unaltered: it is then possible to study the 3D–2D interpolation towards the π-flux square lattice. …”

Critical temperature <em>T_c</em> for different values of the anisotropy parameter <em>a</em> for the π-flux cubic lattice model at half-filling (from top to bottom, <em>... by G Mazzucchi (557358)

“…The reason for such a choice is that the π-flux cubic lattice displays Dirac points and that decreasing the hopping coefficient in a spatial direction (say, <em>t_z</em>), these Dirac points are unaltered: it is then possible to study the 3D–2D interpolation towards the π-flux square lattice. …”

Density of states for the Hamiltonian on the π-flux cubic lattice model for different values of the anisotropy parameter <em>a</em> (from top to bottom, <em>a</em> = 0, 0.5, 1) by G Mazzucchi (557358)

“…The reason for such a choice is that the π-flux cubic lattice displays Dirac points and that decreasing the hopping coefficient in a spatial direction (say, <em>t_z</em>), these Dirac points are unaltered: it is then possible to study the 3D–2D interpolation towards the π-flux square lattice. …”

Dispersion relation for the Hamiltonian hat{mathcal {H}}_0 of the π-flux cubic lattice model for different values of the parameter <em>a</em> (from top to bottom, <em>a</em> = 0, 0... by G Mazzucchi (557358)

“…The reason for such a choice is that the π-flux cubic lattice displays Dirac points and that decreasing the hopping coefficient in a spatial direction (say, <em>t_z</em>), these Dirac points are unaltered: it is then possible to study the 3D–2D interpolation towards the π-flux square lattice. …”

Layered π-flux cubic lattice model—different phases of the hopping amplitudes are represented with different colours: 0 mod(2π) (black bonds along the <em>x</em>-direction and bond... by G Mazzucchi (557358)

“…The reason for such a choice is that the π-flux cubic lattice displays Dirac points and that decreasing the hopping coefficient in a spatial direction (say, <em>t_z</em>), these Dirac points are unaltered: it is then possible to study the 3D–2D interpolation towards the π-flux square lattice. …”

Whole brain volume change over 5 years using the SIENA pipeline. by Renxin Chu (5169857)

Normalized whole brain volume change over 5 years using an SPM pipeline. by Renxin Chu (5169857)

Cerebral deep gray matter volume change over 5 years with the FreeSurfer pipeline. by Renxin Chu (5169857)

Cerebral deep gray matter volume change over 5 years with the FSL-FIRST pipeline. by Renxin Chu (5169857)

The S178A mutation in Paxillin decreases adhesion size and axial ratio. by Mathew E. Berginski (214153)

Exercise induces a temporary decrease in DNA methylation. by Albert Nguyen (2580886)