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1.
J Proteome Res ; 20(10): 4787-4800, 2021 10 01.
Artigo em Inglês | MEDLINE | ID: mdl-34524823

RESUMO

Successful proteome analysis requires reliable sample preparation beginning with protein solubilization and ending with a sample free of contaminants, ready for downstream analysis. Most proteome sample preparation technologies utilize precipitation or filter-based separation, both of which have significant disadvantages. None of the current technologies are able to prepare both intact proteins or digested peptides. Here, we introduce a reversible protein tag, ProMTag, that enables whole proteome capture, cleanup, and release of intact proteins for top-down analysis. Alternatively, the addition of a novel Trypsin derivative to the workflow generates peptides for bottom-up analysis. We show that the ProMTag workflow yields >90% for intact proteins and >85% for proteome digests. For top-down analysis, ProMTag cleanup improves resolution on 2D gels; for bottom-up exploration, this methodology produced reproducible mass spectrometry results, demonstrating that the ProMTag method is a truly universal approach that produces high-quality proteome samples compatible with multiple downstream analytical techniques. Data are available via ProteomeXchange with identifier PXD027799.


Assuntos
Química Click , Proteômica , Química Click/métodos , Espectrometria de Massas , Peptídeos , Proteoma , Proteômica/métodos
2.
Nucleic Acids Res ; 45(8): 4853-4865, 2017 05 05.
Artigo em Inglês | MEDLINE | ID: mdl-28115637

RESUMO

A major gap in our understanding of ribosome assembly is knowing the precise function of each of the ∼200 assembly factors. The steps in subunit assembly in which these factors participate have been examined for the most part by depleting each protein from cells. Depletion of the assembly factor Erb1 prevents stable assembly of seven other interdependent assembly factors with pre-60S subunits, resulting in turnover of early preribosomes, before the ITS1 spacer can be removed from 27SA3 pre-rRNA. To investigate more specific functions of Erb1, we constructed eight internal deletions of 40-60 amino acid residues each, spanning the amino-terminal half of Erb1. The erb1Δ161-200 and erb1Δ201-245 deletion mutations block a later step than depletion of Erb1, namely cleavage of the C2 site that initiates removal of the ITS2 spacer. Two other remodeling events fail to occur in these erb1 mutants: association of twelve different assembly factors with domain V of 25S rRNA, including the neighborhood surrounding the peptidyl transferase center, and stable association of ribosomal proteins with rRNA surrounding the polypeptide exit tunnel. This suggests that successful initiation of construction of these functional centers is a checkpoint for committing to spacer removal.


Assuntos
DNA Espaçador Ribossômico/genética , Precursores de RNA/genética , Proteínas Ribossômicas/genética , Ribossomos/genética , Proteínas de Saccharomyces cerevisiae/genética , Núcleo Celular/genética , Subunidades Ribossômicas Maiores de Eucariotos/genética , Saccharomyces cerevisiae/genética
3.
RNA ; 22(6): 852-66, 2016 06.
Artigo em Inglês | MEDLINE | ID: mdl-27036125

RESUMO

In higher eukaryotes, pre-rRNA processing occurs almost exclusively post-transcriptionally. This is not the case in rapidly dividing yeast, as the majority of nascent pre-rRNAs are processed cotranscriptionally, with cleavage at the A2 site first releasing a pre-40S ribosomal subunit followed by release of a pre-60S ribosomal subunit upon transcription termination. Ribosome assembly is driven in part by hierarchical association of assembly factors and r-proteins. Groups of proteins are thought to associate with pre-ribosomes cotranscriptionally during early assembly steps, whereas others associate later, after transcription is completed. Here we describe a previously uncharacterized phenotype observed upon disruption of ribosome assembly, in which normally late-binding proteins associate earlier, with pre-ribosomes containing 35S pre-rRNA. As previously observed by many other groups, we show that disruption of 60S subunit biogenesis results in increased amounts of 35S pre-rRNA, suggesting that a greater fraction of pre-rRNAs are processed post-transcriptionally. Surprisingly, we found that early pre-ribosomes containing 35S pre-rRNA also contain proteins previously thought to only associate with pre-ribosomes after early pre-rRNA processing steps have separated maturation of the two subunits. We believe the shift to post-transcriptional processing is ultimately due to decreased cellular division upon disruption of ribosome assembly. When cells are grown under stress or to high density, a greater fraction of pre-rRNAs are processed post-transcriptionally and follow an alternative processing pathway. Together, these results affirm the principle that ribosome assembly occurs through different, parallel assembly pathways and suggest that there is a kinetic foot-race between the formation of protein binding sites and pre-rRNA processing events.


Assuntos
Precursores de RNA/metabolismo , Processamento Pós-Transcricional do RNA , RNA Fúngico/metabolismo , Ribossomos/metabolismo , Leveduras/metabolismo , Leveduras/genética
4.
RNA Biol ; 14(10): 1306-1313, 2017 10 03.
Artigo em Inglês | MEDLINE | ID: mdl-28267408

RESUMO

Ribosomes are responsible for translating the genome, in the form of mRNA, into the proteome in all organisms. Biogenesis of ribosomes in eukaryotes is a complex process involving numerous remodeling events driven in part by the concerted actions of hundreds of protein assembly factors. A major challenge in studying eukaryotic ribosome assembly has, until recently, been a lack of structural data to facilitate understanding of the conformational and compositional changes the pre-ribosome undergoes during its construction. Cryo-electron microscopy (cryo-EM) has begun filling these gaps; recent advances in cryo-EM have enabled the determination of several high resolution pre-ribosome structures. This review focuses mainly on lessons learned from the study of pre-60S particles purified from yeast using the assembly factor Nog2 as bait. These Nog2 particles provide insight into many aspects of nuclear stages of 60S subunit assembly, including construction of major 60S subunit functional centers and processing of the ITS2 spacer RNA.


Assuntos
GTP Fosfo-Hidrolases/metabolismo , Subunidades Ribossômicas Maiores de Eucariotos/química , Subunidades Ribossômicas Maiores de Eucariotos/metabolismo , Proteínas de Saccharomyces cerevisiae/metabolismo , Saccharomyces cerevisiae/metabolismo , Microscopia Crioeletrônica , DNA Espaçador Ribossômico , Modelos Moleculares , Biossíntese de Proteínas , Conformação Proteica , Multimerização Proteica , Saccharomyces cerevisiae/química , Proteínas de Saccharomyces cerevisiae/química
5.
Commun Biol ; 7(1): 324, 2024 Mar 14.
Artigo em Inglês | MEDLINE | ID: mdl-38485785

RESUMO

Typical multiomics studies employ separate methods for DNA, RNA, and protein sample preparation, which is labor intensive, costly, and prone to sampling bias. We describe a method for preparing high-quality, sequencing-ready DNA and RNA, and either intact proteins or mass-spectrometry-ready peptides for whole proteome analysis from a single sample. This method utilizes a reversible protein tagging scheme to covalently link all proteins in a lysate to a bead-based matrix and nucleic acid precipitation and selective solubilization to yield separate pools of protein and nucleic acids. We demonstrate the utility of this method to compare the genomes, transcriptomes, and proteomes of four triple-negative breast cancer cell lines with different degrees of malignancy. These data show the involvement of both RNA and associated proteins, and protein-only dependent pathways that distinguish these cell lines. We also demonstrate the utility of this multiomics workflow for tissue analysis using mouse brain, liver, and lung tissue.


Assuntos
Multiômica , RNA , Animais , Camundongos , DNA/genética , Espectrometria de Massas/métodos , Proteoma/metabolismo , RNA/genética
6.
J Cell Biol ; 217(7): 2503-2518, 2018 07 02.
Artigo em Inglês | MEDLINE | ID: mdl-29691304

RESUMO

Ribosome biogenesis involves numerous preribosomal RNA (pre-rRNA) processing events to remove internal and external transcribed spacer sequences, ultimately yielding three mature rRNAs. Removal of the internal transcribed spacer 2 spacer RNA is the final step in large subunit pre-rRNA processing and begins with endonucleolytic cleavage at the C2 site of 27SB pre-rRNA. C2 cleavage requires the hierarchical recruitment of 11 ribosomal proteins and 14 ribosome assembly factors. However, the function of these proteins in C2 cleavage remained unclear. In this study, we have performed a detailed analysis of the effects of depleting proteins required for C2 cleavage and interpreted these results using cryo-electron microscopy structures of assembling 60S subunits. This work revealed that these proteins are required for remodeling of several neighborhoods, including two major functional centers of the 60S subunit, suggesting that these remodeling events form a checkpoint leading to C2 cleavage. Interestingly, when C2 cleavage is directly blocked by depleting or inactivating the C2 endonuclease, assembly progresses through all other subsequent steps.


Assuntos
Precursores de RNA/ultraestrutura , RNA Ribossômico/ultraestrutura , Proteínas Ribossômicas/ultraestrutura , Ribossomos/ultraestrutura , Microscopia Crioeletrônica , Cristalografia por Raios X , DNA Espaçador Ribossômico/genética , DNA Espaçador Ribossômico/ultraestrutura , Precursores de RNA/química , Precursores de RNA/genética , RNA Ribossômico/química , RNA Ribossômico/genética , Proteínas Ribossômicas/biossíntese , Proteínas Ribossômicas/genética , Ribossomos/química , Ribossomos/genética , Saccharomyces cerevisiae/genética , Saccharomyces cerevisiae/ultraestrutura
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