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Post-translational modifications are modifications that occur on a protein, catalysed by enzymes, after its translation by ribosomes is complete. Post-translational modification generally refers to the addition of a functional group covalently to a protein as in phosphorylation and neddylation, but also refers to proteolytic processing and folding processes necessary for a protein to mature functionally.
Ferroptosis, a cell death mechanism induced by lipid peroxidation, is pivotal in tumor suppression. A recent study shows that tumor repopulating cells evade ferroptosis and develop resistance to therapy via subverting a lipid metabolism enzyme.
ADP-ribosylation regulates the activity of numerous proteins involved in the DNA damage response and repair. A new study shows that telomeric DNA can be ADP-ribosylated by PARP1, and prompt removal of the ADP-ribose by TARG1 is essential to preserve telomere integrity, unveiling DNA–ADP-ribosylation as a novel player in telomere stability.
Understanding the role of pyrophosphorylation requires specific analytical strategies to discriminate it from protein phosphorylation. A custom workflow reveals that nucleolar protein pyrophosphorylation in human cells regulates the transcription of ribosomal DNA.
Here the authors show that the human transcription elongation factor AF9, part of Super Elongation Complex (SEC), undergoes oligomerization which can be reverted by post-translational modification in regulation of global transcription.
MAPK-driven tumorigenesis is often related to epithelial dedifferentiation but the regulatory mechanism is less clear. Here, the authors show that MAPK activation upregulates USP15 to promote deubiquitylation and stability of TBX3, a transcription factor implicated in thyroid development and differentiation, driving tumorigenesis in a BRAFV600E thyroid tumor model.
Methylation of CHMP2B regulates abscission timing by modulating ESCRT-III dynamics during cytokinesis. This methylation also plays a role in HIV-1 budding, highlighting the broader significance of ESCRT-III methylation.
Shigella, an important human pathogen, can secrete effector proteins to invade host cells and evade mechanisms of cell-autonomous immunity. In a new manuscript published in Nature Communications, Xian et al. report that the Shigella kinase effector OspG promotes the ubiquitination of septin cytoskeletal proteins to evade cage entrapment.
Ferroptosis, a cell death mechanism induced by lipid peroxidation, is pivotal in tumor suppression. A recent study shows that tumor repopulating cells evade ferroptosis and develop resistance to therapy via subverting a lipid metabolism enzyme.
ADP-ribosylation regulates the activity of numerous proteins involved in the DNA damage response and repair. A new study shows that telomeric DNA can be ADP-ribosylated by PARP1, and prompt removal of the ADP-ribose by TARG1 is essential to preserve telomere integrity, unveiling DNA–ADP-ribosylation as a novel player in telomere stability.
Understanding the role of pyrophosphorylation requires specific analytical strategies to discriminate it from protein phosphorylation. A custom workflow reveals that nucleolar protein pyrophosphorylation in human cells regulates the transcription of ribosomal DNA.
Reversible S-palmitoylation regulates gasdermin D cleavage, membrane translocation and pore formation to control pyroptosis following bacterial infection.