A Dynamic Load Modulation Power Amplifier with Ferroelectric-Based Tunable Matching Network.

Power amplifiers are crucial components that significantly influence the linearity and energy efficiency of next-generation communication system radio units. A key challenge in designing power amplifiers is managing high peak-to-average power ratio (PAPR) in order to achieve both high linearity and energy efficiency during back-off conditions. This paper presents simulation and measurement results for a dynamic load modulation power amplifier based on a ferroelectric tunable matching network to operate at 2.

Improving the Technology of Primary Purification of the Safflower Oil Using Secondary Products of Processing on a Biological Basis.

Safflower oil is a very valuable product for the body and human health. It is rich in macro- and microelements, vitamins and minerals, and also has antioxidant properties. The primary purification of safflower oil is an important stage of its production and directly affects the quality of the final product and its storage ability.

Glyphosate treatment mediates the accumulation of small discrete 5'- and 3'-terminal fragments of 18S rRNA in plant cells.

Under many kinds of stress, eukaryotic cells rapidly decrease the overall translation level of the majority of mRNAs. However, some molecular mechanisms of protein synthesis inhibition like phosphorylation of eukaryotic elongation factor 2 (eEF2), which are known to be functional in animals and yeast, are not implemented in plants. We suggest that there is an alternative mechanism for the inhibition of protein synthesis in plant cells and possibly, in other eukaryotes, which is based on the discrete fragmentation of 18S rRNA molecules within small ribosomal subunits.

Virus Elimination from Naturally Infected Field Cultivars of Potato () by Transgenic RNA Interference.

Tissue culture methods enable virus elimination from vegetatively propagated crop plants but cannot prevent new infections. Here we used a tissue culture transgenic approach for curing field cultivars of through the stimulation of RNA interference (RNAi)-based antiviral defenses. Expression cassettes carrying inverted repeats of potato virus S (PVS, genus ) movement or coat protein sequences were used for the transformation of potato cultivars naturally infected with PVS and/or a related carlavirus potato virus M (PVM), without or with potato virus Y (PVY, genus ).

Phosphorylation of the alpha-subunit of plant eukaryotic initiation factor 2 prevents its association with polysomes but does not considerably suppress protein synthesis.

Phosphorylation of the α-subunit of eukaryotic initiation factor 2 (eIF2α) and subsequent inhibition of protein synthesis is a major survival response to different stresses in animal and yeast cells. However, the role of this regulatory mechanism in plants is not unambiguously established to date. Here we describe a slight reduction of polysome abundance in Nicotiana benthamiana after the transient expression of a cDNA, AteIF2α(S56D), encoding a phosphomimetic form of Arabidopsis thaliana eIF2α.

Production of the sheep pox virus structural protein SPPV117 in tobacco chloroplasts.

Objective: A chloroplast transgenic approach was assessed in order to produce a structural protein SPPV117 of sheep pox virus in Nicotiana tabacum for the future development of a plant-based subunit vaccine against sheep pox.

Results: Two DNA constructs containing SPPV117 coding sequence under the control of chloroplast promoter and terminator of psbA gene or rrn promoter and rbcL terminator were designed and inserted into the chloroplast genome by a biolistic method. The transgenic plants were selected via PCR analysis.

Constructing the constitutively active ribosomal protein S6 kinase 2 from Arabidopsis thaliana (AtRPS6K2) and testing its activity in vitro.

Ribosomal protein S6 (RPS6) is the only phosphorylatable protein of the eukaryotic 40S ribosomal subunit. Ribosomes with phosphorylated RPS6 can selectively translate 5'TOP-(5'-terminal oligopyrimidine)-containing mRNAs that encode most proteins of the translation apparatus. The study of translational control of 5'TOP-mRNAs, which are preferentially translated when RPS6 is phosphorylated and cease to be translated when RPS6 is de-phosphorylated, is particularly important.

Тransplastomic tobacco plants producing the hydrophilic domain of the sheep pox virus coat protein L1R.

Sheep pox has a wide geographical range of distribution and poses a threat to sheep breeding worldwide, as the disease is highly contagious and is accompanied by large economic losses. Vaccines based on live attenuated virus strains are currently being used for prevention of this disease. Such vaccines are effective, but potentially dangerous because of the possible virus reversion to a pathogenic state.

Evidence That Phosphorylation of the -Subunit of eIF2 Does Not Essentially Inhibit mRNA Translation in Wheat Germ Cell-Free System.

A mechanism based on reversible phosphorylation of the -subunit of eukaryotic initiation factor 2 (eIF2) has been confirmed as an important regulatory pathway for the inhibition of protein synthesis in mammalian and yeast cells, while plants constitute the significant exception. We studied the induction of eIF2 phosphorylation in germinated wheat () embryos subjected to different adverse conditions. Data confirmed that formation of eIF2(P) was not a general response, as no phosphorylation was observed under salt, oxidative, or heat stress.

The Effect of Translation Promoting Site (TPS) on Protein Expression in E. coli Cells.

The study of translation initiation in prokaryotes assumes that there should be a mechanism different from the canonical model, which postulates the formation of the pre-initiation complex through the interaction of the Shine-Dalgarno sequence (SD) at the 5'-end of mRNA and the anti-Shine-Dalgarno site at the 3'-end of 16S rRNA. In this paper we've studied the effect of TPS (Translation-initiation Promoting Site) on β-glucuronidase expression in E. coli cells at different cultivation temperatures.

Recombinant Sheep Pox Virus Proteins Elicit Neutralizing Antibodies.

The aim of this work was to evaluate the immunogenicity and neutralizing activity of sheep pox virus (SPPV; genus Capripoxvirus, family Poxviridae) structural proteins as candidate subunit vaccines to control sheep pox disease. SPPV structural proteins were identified by sequence homology with proteins of vaccinia virus (VACV) strain Copenhagen. Four SPPV proteins (SPPV-ORF 060, SPPV-ORF 095, SPPV-ORF 117, and SPPV-ORF 122), orthologs of immunodominant L1, A4, A27, and A33 VACV proteins, respectively, were produced in Escherichia coli.

[Fragment of mRNA coding part that is complementary to region 1638-1650 of wheat 18S rRNA functions as a translational enhancer].

Possible involvement of 18S rRNA fragment 1638-1650 including basements of the helices h44 and h28 and nucleotides of the ribosomal decoding site in the cap-independent translation initiation on plant ribosomes is studied. This rRNA fragment is shown to be accessible for complementary interactions within the 40S ribosomal subunit. It is found that the sequence complementary to the 18S rRNA fragment 1638-1650 is able to enhance efficiency of a reporter mRNA translation when placed just after the initiation codon.

2'-OH of mRNA are critical for the binding of its codons at the 40S ribosomal P site but not at the mRNA entry site.

The roles of 2'-OH groups in the binding of mRNA to human ribosomes were studied using site-directed cross-linking. We found that both mRNA and mDNA analogues bearing a cross-linker can modify ribosomal proteins (rps) S3e and S2e at the mRNA entry site independently on tRNA presence, but only mRNA analogues were capable of a tRNA(Phe)-dependent binding to human ribosomes and cross-linking to rpS26e in the mRNA binding centre. Thus, 2'-OH groups of mRNA are unimportant for binding at the entry site but they are crucial for codon-anticodon interactions at the P site, implying the existence of mRNA-ribosome contacts that do not occur in bacteria.

[Probable involvement of 3'-terminal segment of 18S rRNA in translation initiation of uncapped mRNAs in plants].

A possibility of involvement of 3'-terminal 18S rRNA segment in the cap-independent initiation of translation on plant ribosomes was studied. It was shown that 3-terminal segment (nucleotides 1777-1811) of 18S rRNA including the last hairpin 45 is accessible for complementary interactions in 40S ribosomal subunits. Oligonucleotides complementary to this segment of rRNA when added to wheat germ cell-free protein synthesizing system were found to specifically inhibit translation of uncapped reporter mRNA coding for beta-glucuronidase, which bears in the 5'-untranslated region (UTR) a leader sequence of potato virus Y (PVY) genomic RNA possessing fragments complementary to the region 1777-1811.

[Region 1112-1123 in the central domain of 18S rRNA in 40S subunits of plant ribosomes: accessibility for complementary interactions and the functional role].

The binding of the 18S RNA of the 40S subunits of wheat germ ribosomes to an oligodeoxyribonucleotide complementary to the 1112-1123 region of the central domain of this RNA molecule has been studied. The selective binding of this oligomer to the complementary RNA fragment and the inhibition of the translation of uncapped chimeric RNA containing enhancer sequences in the 5'-untranslated region upstream of the reporter sequence coding for beta-glucuronidase has been shown in a cell-free protein-synthesizing system. The use of a derivative of the aforementioned oligomer containing an alkylating group at the 5' end allowed for the demonstration that the 1112-1123 region of 18S RNA can form a heteroduplex with the complementary sequence of the oligomer.

ARC-1, a sequence element complementary to an internal 18S rRNA segment, enhances translation efficiency in plants when present in the leader or intercistronic region of mRNAs.

The sequences of different plant viral leaders with known translation enhancer ability show partial complementarity to the central region of 18S rRNA. Such complementarity might serve as a means to attract 40S ribosomal subunits and explain in part the translation-enhancing property of these sequences. To verify this notion, we designed beta-glucuronidase (GUS) mRNAs differing only in the nature of 10 nt inserts in the center of their 41 base leaders.

[Detection of a new small RNA, induced by heat shock, in wheat seed ribosomes].

Changes in the small cytoplasmic RNA (scRNA) composition have been examined in wheat embryos exposed to heat shock conditions. A novel scRNA of about 135 nucleotides in length termed as 5.3S RNA, has been detected for the first time.

Study of phosphorylation of translation elongation factor 2 (EF-2) from wheat germ.

Phosphorylation of elongation factor 2 (EF-2) by specific Ca2+/calmodulin-dependent kinase is considered as a possible mechanism of regulation of protein biosynthesis in animal cells at the level of polypeptide chain elongation. In this report we show that wheat germ EF-2 can be intensively phosphorylated by the rabbit reticulocyte EF-2 kinase. Phosphorylation results in inhibition of the activity of plant EF-2 in poly(U)-dependent cell-free translation system.

[Affinity modification of the 40S subparticle from human placenta with derivatives of pAUG and pAUGU3].

Affinity labeling of 40S subunits from human placenta with 4-(N-2-chloroethyl-N-methylamino)benzylmethyl-[32P]phosphoamide s of oligoribonucleotides pAUG and pAUGU3 was studied. Covalent attachment of these derivatives to 40S subunits within the complexes with 40S subunits, formed in the presence of Met-tRNAf.eIF-2.

Interaction of wheat germ translation initiation factor 2 with GDP and GTP.

The wheat germ translation initiation factor 2 (WGeIF-2) was isolated in a homogeneous state by an efficient procedure and characterized. Its molecular mass, as determined by a gel-filtration method is approximately 150,000 Da. According to SDS-PAGE WGeIF-2 consists of four subunits with M(r) 37,000 (alpha), 40,000 (beta), 42,000 (gamma) and 52,000 (delta).

[Clinical value of measuring the activity of serum cholinesterase and its isoenzyme in chronic hepatitis and liver cirrhosis].

Examination was performed of 48 chronic sufferers with persistent hepatitis (PH), 70 with active hepatitis (AH) and 179 with hepatic cirrhosis (HC) by activity of cholinesterase (CE). Lowering of total CE activity proportional to hepatic cellular insufficiency was seen in decompensated HC and chronic AN. CE isoforms (7 in healthy subjects) furnished additional information about its activity.

Eukaryotic protein synthesis initiation factor 2. A target for inactivation by proanthocyanidin.

Polyproanthocyanidin (PPA), a phenolic polymer isolated from the plant Alhagi kirgisorum S. was found to interact strongly with eukaryotic initiation factor 2 (eIF-2), thereby inhibiting reactions involving this protein. When added to a rabbit reticulocyte lysate system, PPA blocks in vitro translation and it appears to selectively bind and precipitate a relatively small number of proteins including eIF-2 and regulin.

An inhibitor of protein synthesis initiation from Alhagi kirgisorum S.

Polyproanthocyanidin--a plant phenolic compound from Alhagi kirgisorum S. effectively inhibited protein synthesis in rabbit reticulocyte and wheat germ cell-free systems. Poly-proanthocyanidin inhibited translation only at the level of initiation and not at the elongation level and aminoacylation of tRNA.

[Proteins of polyribosome-bound informosome of germinating wheat embryos].

Proteins of polyribosome-bound informosomes of germinating wheat embryos were studied by electrophoresis in polyacrylamide gel in presence of sodium dodecyl sulfate. liberation of informosomal proteins was achieved by mild ribonuclease treatment of polyribosomes. It was shown, that proteins of informosomes associated with polyribosomes contain polypeptides with molecular weights of 86 000, 75 000, 72 000, 66 000, 52 000 and 34 000.