A Cell System in Which Rate and Amount of Protein Synthesis Are Separately Controlled

Identifying all the molecular components within a living cell is the first step into understanding how it functions. To further understand how a cell functions requires identifying the interactions that occur between these components. This fact is especially relevant for proteins. No protein within a human cell functions on its own without interacting with another biomolecule - usually another protein. While Protein-Protein Interactions (PPI) have historically been determined by examining a single protein per study, novel technologies developed over the past couple of decades are enabling high-throughput methods that aim to describe entire protein networks within cells. In this review, some of the technologies that have led to these developments are described along with applications of these techniques. Ultimately the goal of these technologies is to map out the entire circuitry of PPI within human cells to be able to predict the global consequences of perturbations to the cell system. This predictive capability will have major impacts on the future of both disease diagnosis and treatment.

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Use of an in Vitro Protein Synthesizing System to Test the Mode of Action of Chloracetamides

Weed Science ◽

10.1017/s0043174500055417 ◽

1980 ◽

Vol 28 (3) ◽

pp. 334-340 ◽

Cited By ~ 26

Author(s):

Luanne M. Deal ◽

J. T. Reeves ◽

B. A. Larkins ◽

F. D. Hess

Keyword(s):

Protein Synthesis ◽

Sand Culture ◽

Leucine Incorporation ◽

Insoluble Protein ◽

In Vitro System ◽

A Cell ◽

Protein Incorporation ◽

Vitro Protein

The effects of chloracetamides on protein synthesis were studied both in vivo and in vitro. Four chloracetamide herbicides, alachlor [2-chloro-2′,6′-diethyl-N-(methoxymethyl)acetanilide], metolachlor [2-chloro-N-(2-ethyl-6-methylphenyl)-N-(2-methoxy-1-methylethyl)acetamide], CDAA (N–N-diallyl-2-chloroacetamide), and propachlor (2-chloro-N-isopropylacetanilide) were tested for inhibition of [3H]-leucine incorporation into protein. Incorporation of3H-leucine into trichloroacetic acid (TCA)-insoluble protein was inhibited in oat (Avena sativaL. ‘Victory’) seedlings grown in sand culture and treated 12 h at 1 × 10−4M with these chloracetamides. The herbicides were also tested in a cell-free protein synthesizing system containing polyribosomes purified from oat root cytoplasm. These herbicides had no effect on the rates of polypeptide elongation nor on the synthesis of specific polypeptides when herbicides (1 × 10−4M) were added directly to the system. Polypeptide formation was inhibited 89% when 1 × 10−4M cycloheximide was added during translation. Cytoplasmic polyribosomes were isolated from oat roots treated 12 h with 1 × 10−4M herbicide. Translation rates and products were not altered when these polyribosomes were added to the in vitro system. Protein synthesis is inhibited when tested in an in vivo system; however, the inhibition does not occur during the translation of mRNA into protein.

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Initiation in einem Polyribosomen-abhängigen Protein-synthetisierenden zellfreien System aus Saccharomyces / Initiation in a Polyribosome-Dependent Protein-Synthesizing Cell-Free System from Saccharomyces

Zeitschrift für Naturforschung C ◽

10.1515/znc-1976-3-414 ◽

1976 ◽

Vol 31 (3-4) ◽

pp. 169-173 ◽

Cited By ~ 5

Author(s):

Bernd Schulz-Harder ◽

Ernst-Randolf Lochmann

Keyword(s):

Protein Synthesis ◽

Free System ◽

Cell Free System ◽

Aurintricarboxylic Acid ◽

Dependent Protein ◽

A Cell

Abstract A method to prepare polyribosomes from yeasts by using the french-press is described. The highest yield of polyribosomes was derived from late log-phase cells. These polyribosomes, incubated in a cell-free system, were able to reinitiate protein synthesis, which was shown by inhibiting aminoacid incorporation by aurintricarboxylic acid, edeine and sodiumfluoride. We developed the translational system in order to look for the optimal ion-conditions of a DNA-dependent protein-synthesizing system. We found out that at the optimal MgCL2-concentration (6 mᴍ) protein synthesis was strongly inhibited by Mangan ions which are required for transcription in yeast. If protein-synthesis was carried out with 2 mᴍ and 3 mᴍ MgCl2 maximal aminoacid incorporation was observed at 2 mᴍ and 1.5 mᴍ MnCl2.

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Cell-Free Protein Synthesis by Diversifying Bacterial Transcription Machinery

BioTech ◽

10.3390/biotech10040024 ◽

2021 ◽

Vol 10 (4) ◽

pp. 24

Author(s):

Marina Snapyan ◽

Sylvain Robin ◽

Garabet Yeretssian ◽

Michèle Lecocq ◽

Frédéric Marc ◽

...

Keyword(s):

Protein Synthesis ◽

Genomic Sequence ◽

Synthetic Activity ◽

Translation System ◽

Free System ◽

Transcription Terminator ◽

Cell Free System ◽

E Coli ◽

Bacterial Transcription ◽

A Cell

We have evaluated several approaches to increase protein synthesis in a cell-free coupled bacterial transcription and translation system. A strong pargC promoter, originally isolated from a moderate thermophilic bacterium Geobacillus stearothermophilus, was used to improve the performance of a cell-free system in extracts of Escherichia coli BL21 (DE3). A stimulating effect on protein synthesis was detected with extracts prepared from recombinant cells, in which the E. coli RNA polymerase subunits α, β, β’ and ω are simultaneously coexpressed. Appending a 3′ UTR genomic sequence and a T7 transcription terminator to the protein-coding region also improves the synthetic activity of some genes from linear DNA. The E. coli BL21 (DE3) rna::Tn10 mutant deficient in a periplasmic RNase I was constructed. The mutant cell-free extract increases by up to four-fold the expression of bacterial and human genes mediated from both bacterial pargC and phage pT7 promoters. By contrast, the RNase E deficiency does not affect the cell-free expression of the same genes. The regulatory proteins of the extremophilic bacterium Thermotoga, synthesized in a cell-free system, can provide the binding capacity to target DNA regions. The advantageous characteristics of cell-free systems described open attractive opportunities for high-throughput screening assays.

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The Capacity of Polyadenylated RNA from Myogenic Cells Treated with Actinomycin D to Direct Protein Synthesis in a Cell-Free System

European Journal of Biochemistry ◽

10.1111/j.1432-1033.1978.tb12462.x ◽

1978 ◽

Vol 88 (2) ◽

pp. 403-410 ◽

Cited By ~ 6

Author(s):

Gania KESSLER-ICEKSON ◽

Robert H. SINGER ◽

David YAFFE

Keyword(s):

Protein Synthesis ◽

Actinomycin D ◽

Myogenic Cells ◽

Free System ◽

Cell Free System ◽

Polyadenylated Rna ◽

A Cell

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Studies on the Incorporation of Amino Acids by a Cell-Free System Obtained from Beef Retina

Canadian Journal of Biochemistry ◽

10.1139/o72-080 ◽

1972 ◽

Vol 50 (5) ◽

pp. 581-587 ◽

Cited By ~ 2

Author(s):

Y. Matuk

Keyword(s):

Amino Acids ◽

Protein Synthesis ◽

Incubation Medium ◽

Optimum Concentration ◽

Free System ◽

Cell Free System ◽

A Cell

The incorporation of 14C-leucine into proteins by a cell-free system from beef retina was studied. It was found that the optimum concentration of ATP depended on the concentration of ribosomes in the incubation medium. Very little incorporation of 14C-leucine was observed in the absence of K+. The optimum concentration of phosphocreatine required for incorporation of radioactive leucine depended on the concentration of Mg2+ in the incubation medium, and the optimum concentration of K+ appears to be independent of the concentrations of Mg2+ and phosphocreatine used.Retinol and retinal had no effect, but ethanol markedly inhibited protein synthesis at concentrations higher than 2%.Puromycin (10−4 M) inhibited incorporation of 14C-leucine by about 80%. The degree of inhibition by cycloheximide depended on the concentration of pH 5 fraction in the incubation medium.

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