Image_1_The Response of Cupriavidus metallidurans CH34 to Cadmium Involves Inhibition of the Initiation of Biofilm Formation, Decrease in Intracellular c-di-GMP Levels, and a Novel... by Pablo Alviz-Gazitua (6930746)

“…We propose to rename the urf2 gene as mrp gene for metal regulated PDE. …”

Image_7_The Response of Cupriavidus metallidurans CH34 to Cadmium Involves Inhibition of the Initiation of Biofilm Formation, Decrease in Intracellular c-di-GMP Levels, and a Novel... by Pablo Alviz-Gazitua (6930746)

“…We propose to rename the urf2 gene as mrp gene for metal regulated PDE. …”

Table_1_The Response of Cupriavidus metallidurans CH34 to Cadmium Involves Inhibition of the Initiation of Biofilm Formation, Decrease in Intracellular c-di-GMP Levels, and a Novel... by Pablo Alviz-Gazitua (6930746)

“…We propose to rename the urf2 gene as mrp gene for metal regulated PDE. …”

Image_1_The Response of Cupriavidus metallidurans CH34 to Cadmium Involves Inhibition of the Initiation of Biofilm Formation, Decrease in Intracellular c-di-GMP Levels, and a Novel... by Pablo Alviz-Gazitua (6930746)

“…We propose to rename the urf2 gene as mrp gene for metal regulated PDE. …”

Image_3_The Response of Cupriavidus metallidurans CH34 to Cadmium Involves Inhibition of the Initiation of Biofilm Formation, Decrease in Intracellular c-di-GMP Levels, and a Novel... by Pablo Alviz-Gazitua (6930746)

“…We propose to rename the urf2 gene as mrp gene for metal regulated PDE. …”

Image_2_The Response of Cupriavidus metallidurans CH34 to Cadmium Involves Inhibition of the Initiation of Biofilm Formation, Decrease in Intracellular c-di-GMP Levels, and a Novel... by Pablo Alviz-Gazitua (6930746)

“…We propose to rename the urf2 gene as mrp gene for metal regulated PDE. …”

Table_1_The Response of Cupriavidus metallidurans CH34 to Cadmium Involves Inhibition of the Initiation of Biofilm Formation, Decrease in Intracellular c-di-GMP Levels, and a Novel... by Pablo Alviz-Gazitua (6930746)

“…We propose to rename the urf2 gene as mrp gene for metal regulated PDE. …”

Image_7_The Response of Cupriavidus metallidurans CH34 to Cadmium Involves Inhibition of the Initiation of Biofilm Formation, Decrease in Intracellular c-di-GMP Levels, and a Novel... by Pablo Alviz-Gazitua (6930746)

“…We propose to rename the urf2 gene as mrp gene for metal regulated PDE. …”

Image_6_The Response of Cupriavidus metallidurans CH34 to Cadmium Involves Inhibition of the Initiation of Biofilm Formation, Decrease in Intracellular c-di-GMP Levels, and a Novel... by Pablo Alviz-Gazitua (6930746)

“…We propose to rename the urf2 gene as mrp gene for metal regulated PDE. …”

Image_4_The Response of Cupriavidus metallidurans CH34 to Cadmium Involves Inhibition of the Initiation of Biofilm Formation, Decrease in Intracellular c-di-GMP Levels, and a Novel... by Pablo Alviz-Gazitua (6930746)

“…We propose to rename the urf2 gene as mrp gene for metal regulated PDE. …”

Image_8_The Response of Cupriavidus metallidurans CH34 to Cadmium Involves Inhibition of the Initiation of Biofilm Formation, Decrease in Intracellular c-di-GMP Levels, and a Novel... by Pablo Alviz-Gazitua (6930746)

“…We propose to rename the urf2 gene as mrp gene for metal regulated PDE. …”

Image_4_The Response of Cupriavidus metallidurans CH34 to Cadmium Involves Inhibition of the Initiation of Biofilm Formation, Decrease in Intracellular c-di-GMP Levels, and a Novel... by Pablo Alviz-Gazitua (6930746)

“…We propose to rename the urf2 gene as mrp gene for metal regulated PDE. …”

Image_2_The Response of Cupriavidus metallidurans CH34 to Cadmium Involves Inhibition of the Initiation of Biofilm Formation, Decrease in Intracellular c-di-GMP Levels, and a Novel... by Pablo Alviz-Gazitua (6930746)

“…We propose to rename the urf2 gene as mrp gene for metal regulated PDE. …”

Image_6_The Response of Cupriavidus metallidurans CH34 to Cadmium Involves Inhibition of the Initiation of Biofilm Formation, Decrease in Intracellular c-di-GMP Levels, and a Novel... by Pablo Alviz-Gazitua (6930746)

“…We propose to rename the urf2 gene as mrp gene for metal regulated PDE. …”

Image_3_The Response of Cupriavidus metallidurans CH34 to Cadmium Involves Inhibition of the Initiation of Biofilm Formation, Decrease in Intracellular c-di-GMP Levels, and a Novel... by Pablo Alviz-Gazitua (6930746)

“…We propose to rename the urf2 gene as mrp gene for metal regulated PDE. …”

Image_8_The Response of Cupriavidus metallidurans CH34 to Cadmium Involves Inhibition of the Initiation of Biofilm Formation, Decrease in Intracellular c-di-GMP Levels, and a Novel... by Pablo Alviz-Gazitua (6930746)

“…We propose to rename the urf2 gene as mrp gene for metal regulated PDE. …”

Room-Temperature Photoferroelectrics Semiconductor Driven by the Interlayer Confinement Effect by Yueyue He (10821234)

Subjects:

Room-Temperature Photoferroelectrics Semiconductor Driven by the Interlayer Confinement Effect by Yueyue He (10821234)

Subjects:

Influence of Thiolate Ligands on Reductive N−O Bond Activation. Probing the O₂⁻ Binding Site of a Biomimetic Superoxide Reductase Analogue and Examining the P... by Gloria Villar-Acevedo (2232583)

“…Like NO-bound <i>trans</i>-cysteinate-ligated SOR (SOR-NO), the rhombic <i>S</i> = 3/2 EPR signal of NO-bound <i>cis</i>-thiolate-ligated [Fe(S^Me₂N₄(tren)(NO)]⁺ (<b>2</b>; <i>g</i> = 4.44, 3.54, 1.97), the isotopically sensitive ν_NO(ν_¹⁵NO) stretching frequency (1685(1640) cm⁻¹), and the 0.05 Å decrease in Fe−S bond length are shown to be consistent with <i>the oxidative addition of NO to Fe(II)</i> to afford an Fe(III)−NO⁻ {FeNO}⁷ species containing high-spin (<i>S</i> = 5/2) Fe(III) antiferromagnetically coupled to NO⁻ (<i>S</i> = 1). …”

Influence of Thiolate Ligands on Reductive N−O Bond Activation. Probing the O₂⁻ Binding Site of a Biomimetic Superoxide Reductase Analogue and Examining the P... by Gloria Villar-Acevedo (2232583)

“…Like NO-bound <i>trans</i>-cysteinate-ligated SOR (SOR-NO), the rhombic <i>S</i> = 3/2 EPR signal of NO-bound <i>cis</i>-thiolate-ligated [Fe(S^Me₂N₄(tren)(NO)]⁺ (<b>2</b>; <i>g</i> = 4.44, 3.54, 1.97), the isotopically sensitive ν_NO(ν_¹⁵NO) stretching frequency (1685(1640) cm⁻¹), and the 0.05 Å decrease in Fe−S bond length are shown to be consistent with <i>the oxidative addition of NO to Fe(II)</i> to afford an Fe(III)−NO⁻ {FeNO}⁷ species containing high-spin (<i>S</i> = 5/2) Fe(III) antiferromagnetically coupled to NO⁻ (<i>S</i> = 1). …”