Table 6_Comparative genomics and metabolomics reveal phytohormone production, nutrient acquisition, and osmotic stress tolerance in Azotobacter chroococcum W5.docx by M. Elakkya (21760439)

“…Under salt and osmotic stress, A. chroococcum W5 metabolomic profiling revealed adaptive responses, including elevated levels of osmoprotectants (proline, glycerol) and oxidative stress markers such as 2-hydroxyglutarate, while putrescine and glycine decreased.…”

Table 2_Comparative genomics and metabolomics reveal phytohormone production, nutrient acquisition, and osmotic stress tolerance in Azotobacter chroococcum W5.docx by M. Elakkya (21760439)

“…Under salt and osmotic stress, A. chroococcum W5 metabolomic profiling revealed adaptive responses, including elevated levels of osmoprotectants (proline, glycerol) and oxidative stress markers such as 2-hydroxyglutarate, while putrescine and glycine decreased.…”

Image 2_Comparative genomics and metabolomics reveal phytohormone production, nutrient acquisition, and osmotic stress tolerance in Azotobacter chroococcum W5.tif by M. Elakkya (21760439)

“…Under salt and osmotic stress, A. chroococcum W5 metabolomic profiling revealed adaptive responses, including elevated levels of osmoprotectants (proline, glycerol) and oxidative stress markers such as 2-hydroxyglutarate, while putrescine and glycine decreased.…”

Table 1_Comparative genomics and metabolomics reveal phytohormone production, nutrient acquisition, and osmotic stress tolerance in Azotobacter chroococcum W5.xlsx by M. Elakkya (21760439)

“…Under salt and osmotic stress, A. chroococcum W5 metabolomic profiling revealed adaptive responses, including elevated levels of osmoprotectants (proline, glycerol) and oxidative stress markers such as 2-hydroxyglutarate, while putrescine and glycine decreased.…”

Image 1_Comparative genomics and metabolomics reveal phytohormone production, nutrient acquisition, and osmotic stress tolerance in Azotobacter chroococcum W5.jpeg by M. Elakkya (21760439)

“…Under salt and osmotic stress, A. chroococcum W5 metabolomic profiling revealed adaptive responses, including elevated levels of osmoprotectants (proline, glycerol) and oxidative stress markers such as 2-hydroxyglutarate, while putrescine and glycine decreased.…”

Table 7_Comparative genomics and metabolomics reveal phytohormone production, nutrient acquisition, and osmotic stress tolerance in Azotobacter chroococcum W5.xlsx by M. Elakkya (21760439)

“…Under salt and osmotic stress, A. chroococcum W5 metabolomic profiling revealed adaptive responses, including elevated levels of osmoprotectants (proline, glycerol) and oxidative stress markers such as 2-hydroxyglutarate, while putrescine and glycine decreased.…”

Quantitative analysis confirms decreased and delayed accrual of peak bone volume in fracture callus of HFD-fed mice. by Matthew L. Brown (431187)

Treatment of primary sensory neurons with morphine or DAMGO, not herkinorin, decreases TRPV1 association with β-arrestin2. by Matthew P. Rowan (546205)

Image_1_TRAPS mutations in Tnfrsf1a decrease the responsiveness to TNFα via reduced cell surface expression of TNFR1.tif by Takahiko Akagi (13138338)

“…T79M is a known mutation responsible for TRAPS, whereas G87V is a TRAPS mutation that we have reported, and T90I is a variant of unknown significance. …”

Image_4_TRAPS mutations in Tnfrsf1a decrease the responsiveness to TNFα via reduced cell surface expression of TNFR1.tif by Takahiko Akagi (13138338)

“…T79M is a known mutation responsible for TRAPS, whereas G87V is a TRAPS mutation that we have reported, and T90I is a variant of unknown significance. …”

Image_7_TRAPS mutations in Tnfrsf1a decrease the responsiveness to TNFα via reduced cell surface expression of TNFR1.tif by Takahiko Akagi (13138338)

“…T79M is a known mutation responsible for TRAPS, whereas G87V is a TRAPS mutation that we have reported, and T90I is a variant of unknown significance. …”

Image_3_TRAPS mutations in Tnfrsf1a decrease the responsiveness to TNFα via reduced cell surface expression of TNFR1.tif by Takahiko Akagi (13138338)

“…T79M is a known mutation responsible for TRAPS, whereas G87V is a TRAPS mutation that we have reported, and T90I is a variant of unknown significance. …”

Image_6_TRAPS mutations in Tnfrsf1a decrease the responsiveness to TNFα via reduced cell surface expression of TNFR1.tif by Takahiko Akagi (13138338)

“…T79M is a known mutation responsible for TRAPS, whereas G87V is a TRAPS mutation that we have reported, and T90I is a variant of unknown significance. …”

Image_2_TRAPS mutations in Tnfrsf1a decrease the responsiveness to TNFα via reduced cell surface expression of TNFR1.tif by Takahiko Akagi (13138338)

“…T79M is a known mutation responsible for TRAPS, whereas G87V is a TRAPS mutation that we have reported, and T90I is a variant of unknown significance. …”

Residual species differences, spatial locations and physiographic classes have decreasing influence on variation in snag fall rates. by Brad Oberle (3257685)

LIR1 expressed in <i>Arabidopsis thaliana</i> is targeted to the plasma membrane and decreases the iron content of leaves. by Maria Fernanda Laranjeira-Silva (843978)

Ligand-Controlled Magnetic Interactions in Mn₄ Clusters by Erik Kampert (2330428)

“…Experimentally measured magnetic moments in high magnetic fields show that, upon electron density withdrawal, the main antiferromagnetic exchange constant <i>J</i>₁ decreases from −2.2 K for the [Mn₄(OAc)₄] cluster to −1.9 K for the [Mn₄(H₅C₆COO)₄] cluster and −0.6 K for the [Mn₄(F₃CCOO)₄] cluster, while <i>J</i>₂ decreases from −1.1 K to nearly 0 K and <i>J</i>₃ changes to a small ferromagnetic coupling. …”

Ligand-Controlled Magnetic Interactions in Mn₄ Clusters by Erik Kampert (2330428)

“…Experimentally measured magnetic moments in high magnetic fields show that, upon electron density withdrawal, the main antiferromagnetic exchange constant <i>J</i>₁ decreases from −2.2 K for the [Mn₄(OAc)₄] cluster to −1.9 K for the [Mn₄(H₅C₆COO)₄] cluster and −0.6 K for the [Mn₄(F₃CCOO)₄] cluster, while <i>J</i>₂ decreases from −1.1 K to nearly 0 K and <i>J</i>₃ changes to a small ferromagnetic coupling. …”

H2-K^b overexpression decreases NSPC proliferation and impairs adult hippocampal neurogenesis. by Karin Lin (11037548)

Rac1 activity decreases in the presence of DECMA-1 and E-cadherin:Fc in 3-D cell aggregates. by Khameeka N. Kitt (227731)

“…<p>3-D MDCK cell aggregates were incubated with 10 µg/ml of DECMA-1 monovalent Fab' fragments (A), or 10 µg/ml of purified E-cadherin:Fc extracellular domain (E), or 10 µg/ml of Fc protein (I) for the indicated times. …”