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1.
Biochimie ; 203: 93-105, 2022 Dec.
Artigo em Inglês | MEDLINE | ID: mdl-36184002

RESUMO

The objective of the present review is to provide an insight into modifications of microbial cell walls and membrane constituents by using the aminoacyl-tRNA as amino acid donor. In bacteria, phospholipids are modified by Multiple peptide resistance Factor enzymes and peptidoglycan precursors by so called fem ligases. Although these modifications were thought to be restricted to procaryotes, we discovered enzymes that modify ergosterol (the main component of fungal membrane) with glycine and aspartate. The focus of this review is to present the molecular mechanisms underlying all these processes together with the structure of the enzymes and their substrates. This article also reviews how substrates are recognized and modified and how the products are subsequently exported in various organisms. Finally, the physiological outcome and the discoveries of each family of enzymes is also discussed.


Assuntos
Aminoácidos , Aminoacil-tRNA Sintetases , Aminoácidos/metabolismo , RNA de Transferência/metabolismo , Parede Celular/metabolismo , Aminoacil-RNA de Transferência/metabolismo , Peptidoglicano/metabolismo , Aminoacil-tRNA Sintetases/química
2.
Methods Mol Biol ; 2497: 255-267, 2022.
Artigo em Inglês | MEDLINE | ID: mdl-35771447

RESUMO

Proving with certainty that a GFP-tagged protein is imported inside mitochondria by visualizing its fluorescence emission with an epifluorescence microscope is currently impossible using regular GFP-tagging. This is particularly true for proteins dual localized in the cytosol and mitochondria, which have been estimated to represent up to one third of the established mitoproteomes. These proteins are usually composed of a surpassingly abundant pool of the cytosolic isoform compared to the mitochondrial isoform. As a consequence, when tagged with a regular GFP, the fluorescence emission of the cytosolic isoform will inevitably eclipse that of the mitochondrial one and prevent the detection of the mitochondrial echoform. To overcome this technical limit, we engineered a yeast strain expressing a new type of GFP called Bi-Genomic Mitochondrial-Split-GFP (BiG Mito-Split-GFP). In this strain, one moiety of the GFP is encoded by the mitochondrial DNA while the second moiety of the GFP can be tagged to any nuclear-encoded protein (suspected to be dual localized or bona fide mitochondrial). By doing so, only mitochondrial proteins or echoforms of dual localized proteins, regardless of their organismal origin, trigger GFP reconstitution that can be visualized by regular fluorescence microscopy. The strength of the BiG Mito-Split-GFP system is that proof of the mitochondrial localization of a given protein rests on a simple and effortless microscopy observation.


Assuntos
Mitocôndrias , Saccharomyces cerevisiae , Genômica , Proteínas de Fluorescência Verde/genética , Proteínas de Fluorescência Verde/metabolismo , Microscopia de Fluorescência , Mitocôndrias/genética , Mitocôndrias/metabolismo , Saccharomyces cerevisiae/genética , Saccharomyces cerevisiae/metabolismo
3.
Enzymes ; 48: 117-147, 2020.
Artigo em Inglês | MEDLINE | ID: mdl-33837702

RESUMO

The aminoacylation reaction is one of most extensively studied cellular processes. The so-called "canonical" reaction is carried out by direct charging of an amino acid (aa) onto its corresponding transfer RNA (tRNA) by the cognate aminoacyl-tRNA synthetase (aaRS), and the canonical usage of the aminoacylated tRNA (aa-tRNA) is to translate a messenger RNA codon in a translating ribosome. However, four out of the 22 genetically-encoded aa are made "noncanonically" through a two-step or indirect route that usually compensate for a missing aaRS. Additionally, from the 22 proteinogenic aa, 13 are noncanonically used, by serving as substrates for the tRNA- or aa-tRNA-dependent synthesis of other cellular components. These nontranslational processes range from lipid aminoacylation, and heme, aa, antibiotic and peptidoglycan synthesis to protein degradation. This chapter focuses on these noncanonical usages of aa-tRNAs and the ways of generating them, and also highlights the strategies that cells have evolved to balance the use of aa-tRNAs between protein synthesis and synthesis of other cellular components.


Assuntos
Aminoacil-tRNA Sintetases , Aminoacilação de RNA de Transferência , Aminoácidos , Aminoacil-tRNA Sintetases/genética , Aminoacil-tRNA Sintetases/metabolismo , Aminoacilação , RNA de Transferência/genética , RNA de Transferência/metabolismo
4.
Elife ; 92020 07 13.
Artigo em Inglês | MEDLINE | ID: mdl-32657755

RESUMO

A single nuclear gene can be translated into a dual localized protein that distributes between the cytosol and mitochondria. Accumulating evidences show that mitoproteomes contain lots of these dual localized proteins termed echoforms. Unraveling the existence of mitochondrial echoforms using current GFP (Green Fluorescent Protein) fusion microscopy approaches is extremely difficult because the GFP signal of the cytosolic echoform will almost inevitably mask that of the mitochondrial echoform. We therefore engineered a yeast strain expressing a new type of Split-GFP that we termed Bi-Genomic Mitochondrial-Split-GFP (BiG Mito-Split-GFP). Because one moiety of the GFP is translated from the mitochondrial machinery while the other is fused to the nuclear-encoded protein of interest translated in the cytosol, the self-reassembly of this Bi-Genomic-encoded Split-GFP is confined to mitochondria. We could authenticate the mitochondrial importability of any protein or echoform from yeast, but also from other organisms such as the human Argonaute 2 mitochondrial echoform.


Assuntos
Proteínas Fúngicas/metabolismo , Proteínas Mitocondriais/metabolismo , Saccharomyces cerevisiae/fisiologia , Citosol/metabolismo , Proteínas de Fluorescência Verde/metabolismo , Mitocôndrias/fisiologia , Transporte Proteico
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