A leitura mediada como estratégia de cuidado lúdico: contribuição ao campo da enfermagem fundamental

Most eukaryotic proteins are N-terminally acetylated, but the functional impact on a global scale has remained obscure. Using genome-wide CRISPR knockout screens in human cells, we reveal a strong genetic dependency between a major N-terminal acetyltransferase and specific ubiquitin ligases. Biochemical analyses uncover that both the ubiquitin ligase complex UBR4-KCMF1 and the acetyltransferase NatC recognize proteins bearing an unacetylated N-terminal methionine followed by a hydrophobic residue. NatC KO-induced protein degradation and phenotypes are reversed by UBR knockdown, demonstrating the central cellular role of this interplay. We reveal that loss of Drosophila NatC is associated with male sterility, reduced longevity, and age-dependent loss of motility due to developmental muscle defects. Remarkably, muscle-specific overexpression of UbcE2M, one of the proteins targeted for NatC KO-mediated degradation, suppresses defects of NatC deletion. In conclusion, NatC-mediated N-terminal acetylation acts as a protective mechanism against protein degradation, which is relevant for increased longevity and motility.

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Protein amino-termini and how to identify them

Bogaert

Gevaert

2020

Expert Review of Proteomics

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N-terminal proteoforms may engage in different protein complexes

et al. 2023

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Alternative translation initiation and alternative splicing may give rise to N-terminal proteoforms, proteins that differ at their N-terminus compared with their canonical counterparts. Such proteoforms can have altered localizations, stabilities, and functions. Although proteoforms generated from splice variants can be engaged in different protein complexes, it remained to be studied to what extent this applies to N-terminal proteoforms. To address this, we mapped the interactomes of several pairs of N-terminal proteoforms and their canonical counterparts. First, we generated a catalogue of N-terminal proteoforms found in the HEK293T cellular cytosol from which 22 pairs were selected for interactome profiling. In addition, we provide evidence for the expression of several N-terminal proteoforms, identified in our catalogue, across different human tissues, as well as tissue-specific expression, highlighting their biological relevance. Protein–protein interaction profiling revealed that the overlap of the interactomes for both proteoforms is generally high, showing their functional relation. We also showed that N-terminal proteoforms can be engaged in new interactions and/or lose several interactions compared with their canonical counterparts, thus further expanding the functional diversity of proteomes.

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A Strong Cation Exchange Chromatography Protocol for Examining N-Terminal Proteoforms

Fernández

Bogaert

Timmerman

et al. 2022

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Annelies Bogaert

N-Terminal Proteoforms in Human Disease

Isolation and characterization of the rat glutamine synthetase-encoding gene

Limited Evidence for Protein Products of Noncoding Transcripts in the HEK293T Cellular Cytosol

Regulation of mRNA levels of rat liver carbamoylphosphate synthetase by glucocorticosteroids and cyclic AMP as estimated with a specific cDNA

N-terminal acetylation shields proteins from degradation and promotes age-dependent motility and longevity

Protein amino-termini and how to identify them

N-terminal proteoforms may engage in different protein complexes

A Strong Cation Exchange Chromatography Protocol for Examining N-Terminal Proteoforms

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