Novel antibodies detect nucleocytoplasmic O-fucose in protist pathogens, cellular slime molds, and plants
M Tiwari, E Gas-Pascual, M Goyal, M Popov… - mSphere, 2025 - journals.asm.org
Cellular adaptations to change often involve post-translational modifications of nuclear and
cytoplasmic proteins. An example found in protists and plants is the modification of serine …
cytoplasmic proteins. An example found in protists and plants is the modification of serine …
Glycosylation of Skp1 promotes formation of Skp1–cullin-1–F-box protein complexes in Dictyostelium
O 2 sensing in diverse protozoa depends on the prolyl 4 hydroxylation of Skp1 and
modification of the resulting hydroxyproline with a series of five sugars. In yeast, plants, and …
modification of the resulting hydroxyproline with a series of five sugars. In yeast, plants, and …
Skp1 isoforms are differentially modified by a dual function prolyl 4-hydroxylase/N-acety lglucosaminyltransferase in a plant pathogen
H van der Wel, E Gas-Pascual, CM West - Glycobiology, 2019 - academic.oup.com
Skp1 is hydroxylated by an O2-dependent prolyl hydroxylase (PhyA) that contributes to O2-
sensing in the social amoeba Dictyostelium and the mammalian pathogen Toxoplasma …
sensing in the social amoeba Dictyostelium and the mammalian pathogen Toxoplasma …