PNGaseF-Generated N‑Glycans Adduct onto Peptides in the Gas Phase by Valentina Rangel-Angarita (16972992)

“…To overcome this limitation, we demonstrated that released N-glycans can be removed using a molecular weight cut off filter prior to (glyco)protease digestion, which improves O-glycoproteomic coverage.…”

Impact of CD200-CD200R signaling on the growth of subcutaneous B16F10 melanoma. by Zofia Pilch (6240017)

PNGaseF-Generated N‑Glycans Adduct onto Peptides in the Gas Phase by Valentina Rangel-Angarita (16972992)

“…To overcome this limitation, we demonstrated that released N-glycans can be removed using a molecular weight cut off filter prior to (glyco)protease digestion, which improves O-glycoproteomic coverage.…”

PNGaseF-Generated N‑Glycans Adduct onto Peptides in the Gas Phase by Valentina Rangel-Angarita (16972992)

“…To overcome this limitation, we demonstrated that released N-glycans can be removed using a molecular weight cut off filter prior to (glyco)protease digestion, which improves O-glycoproteomic coverage.…”

PNGaseF-Generated N‑Glycans Adduct onto Peptides in the Gas Phase by Valentina Rangel-Angarita (16972992)

“…To overcome this limitation, we demonstrated that released N-glycans can be removed using a molecular weight cut off filter prior to (glyco)protease digestion, which improves O-glycoproteomic coverage.…”

PNGaseF-Generated N‑Glycans Adduct onto Peptides in the Gas Phase by Valentina Rangel-Angarita (16972992)

“…To overcome this limitation, we demonstrated that released N-glycans can be removed using a molecular weight cut off filter prior to (glyco)protease digestion, which improves O-glycoproteomic coverage.…”

Densely Packed Chemical Synthesis Equipment by 3D Spatial Design and Additive Manufacturing: Acetylene Generation Cartridge by Kirill S. Erokhin (16061904)

“…To demonstrate this, we have optimized the size of one of the most cumbersome processes in the lab, the generation of gases from solid sources. We have developed a ready-to-use acetylene generation cartridge with a high degree of functional filling of the internal space, which significantly compacts its dimensions. …”

PNGaseF-Generated N‑Glycans Adduct onto Peptides in the Gas Phase by Valentina Rangel-Angarita (16972992)

“…To overcome this limitation, we demonstrated that released N-glycans can be removed using a molecular weight cut off filter prior to (glyco)protease digestion, which improves O-glycoproteomic coverage.…”

PNGaseF-Generated N‑Glycans Adduct onto Peptides in the Gas Phase by Valentina Rangel-Angarita (16972992)

“…To overcome this limitation, we demonstrated that released N-glycans can be removed using a molecular weight cut off filter prior to (glyco)protease digestion, which improves O-glycoproteomic coverage.…”

PNGaseF-Generated N‑Glycans Adduct onto Peptides in the Gas Phase by Valentina Rangel-Angarita (16972992)

“…To overcome this limitation, we demonstrated that released N-glycans can be removed using a molecular weight cut off filter prior to (glyco)protease digestion, which improves O-glycoproteomic coverage.…”

PNGaseF-Generated N‑Glycans Adduct onto Peptides in the Gas Phase by Valentina Rangel-Angarita (16972992)

“…To overcome this limitation, we demonstrated that released N-glycans can be removed using a molecular weight cut off filter prior to (glyco)protease digestion, which improves O-glycoproteomic coverage.…”

PNGaseF-Generated N‑Glycans Adduct onto Peptides in the Gas Phase by Valentina Rangel-Angarita (16972992)

“…To overcome this limitation, we demonstrated that released N-glycans can be removed using a molecular weight cut off filter prior to (glyco)protease digestion, which improves O-glycoproteomic coverage.…”

PNGaseF-Generated N‑Glycans Adduct onto Peptides in the Gas Phase by Valentina Rangel-Angarita (16972992)

“…To overcome this limitation, we demonstrated that released N-glycans can be removed using a molecular weight cut off filter prior to (glyco)protease digestion, which improves O-glycoproteomic coverage.…”

Explicit, color association report task results. by Talia L. Retter (16520742)

ACE expression in lung cancer. by Sergei M. Danilov (7924736)

Global Characterization of DNA Methylation during Rice Leaf Angle Development by Chao Zhou (471522)

“…The addition of exogenous DNA methylation inhibitor 5-azacytidine increased the leaf angle, which confirmed that DNA methylation is crucial for leaf angle development. This study revealed a gradual decrease in 24-nucleotide siRNA levels during leaf angle development, particularly in relation to the enrichment of 24-nucleotide siRNAs at different hypomethylated regions that induce leaf angle inclination. …”

Global Characterization of DNA Methylation during Rice Leaf Angle Development by Chao Zhou (471522)

“…The addition of exogenous DNA methylation inhibitor 5-azacytidine increased the leaf angle, which confirmed that DNA methylation is crucial for leaf angle development. This study revealed a gradual decrease in 24-nucleotide siRNA levels during leaf angle development, particularly in relation to the enrichment of 24-nucleotide siRNAs at different hypomethylated regions that induce leaf angle inclination. …”

Global Characterization of DNA Methylation during Rice Leaf Angle Development by Chao Zhou (471522)

“…The addition of exogenous DNA methylation inhibitor 5-azacytidine increased the leaf angle, which confirmed that DNA methylation is crucial for leaf angle development. This study revealed a gradual decrease in 24-nucleotide siRNA levels during leaf angle development, particularly in relation to the enrichment of 24-nucleotide siRNAs at different hypomethylated regions that induce leaf angle inclination. …”

Global Characterization of DNA Methylation during Rice Leaf Angle Development by Chao Zhou (471522)

“…The addition of exogenous DNA methylation inhibitor 5-azacytidine increased the leaf angle, which confirmed that DNA methylation is crucial for leaf angle development. This study revealed a gradual decrease in 24-nucleotide siRNA levels during leaf angle development, particularly in relation to the enrichment of 24-nucleotide siRNAs at different hypomethylated regions that induce leaf angle inclination. …”

Global Characterization of DNA Methylation during Rice Leaf Angle Development by Chao Zhou (471522)

“…The addition of exogenous DNA methylation inhibitor 5-azacytidine increased the leaf angle, which confirmed that DNA methylation is crucial for leaf angle development. This study revealed a gradual decrease in 24-nucleotide siRNA levels during leaf angle development, particularly in relation to the enrichment of 24-nucleotide siRNAs at different hypomethylated regions that induce leaf angle inclination. …”