The recent various applications of phages (bacteriophages) including phage therapy have brought about a revival of phage investigation. The phage titer assay is indispensable for phage experiments. However, the conventional standard method is a plaque counting method which requires a little skill with tedious repeating operation. Furthermore, it is not directly applicable to high...
We have been developing a novel compaction method of plasmid DNA using high pressure technology, and previously found that the size of the plasmid DNA was decreased with increasing the pressurizing-strength and time. In the present study, we investigated the tertiary structural change and the expression behavior of the pressure-compacted plasmid DNA in cell in vitro. When the...
RsgA is a unique GTP hydrolytic protein, in which the GTPase activity is significantly enhanced by the small ribosomal subunit. Depletion of RsgA causes slow cell growth as well as defects in the subunit assembly of the ribosome and the 16S rRNA processing, suggesting its involvement in the maturation of the small subunit. Several antibiotics bound to the decoding center of the...
Incorporation of nonnatural amino acids into proteins is a useful technique to analyze protein structure and function. We have reported that amber suppressor tRNAs suitable for efficient and specific incorporation of nonnatural amino acids into proteins can be obtained by screening a wide variety of naturally occurring tRNAs in an E. coli. cell-free translation system. The amber...
In order to create an ochre suppressor tRNA which exclusively recognizes UAA codon, we replaced the G34 at the first position of yeast tRNATyr[GΨA] anticodon with pseudouridine34 (Ψ34) by using the molecular surgery technique. This tRNATyr[ΨΨA] recognized only the UAA codon as expectedly, but tRNATyr[UΨA] made as a control also behaved similarly. This result may suggest that U34...
1-(3-C-Ethynyl-β-d-ribo-pentofuranosyl)cytosine (3′-Ethynylcytidine; ECyd), a ribonucleoside analog, has a potent cytotoxic activity against cancer cells. We have investigated the cancer-cell death induced by ECyd, focusing on its molecular mechanisms. In ECyd-treated cells, RNase L is activated and involved in c-jun NH2-terminal kinase (JNK) phosphorylation, followed by...
The vascular endothelial growth factor A (VEGF-A) gene is an attractive therapeutic target because both activation and repression of the gene are useful for treatment or cure of many diseases related to abnormal angiogenesis. To up- or downregulate the endogenous gene expression at will, we previously designed a 6-finger AZP to recognize a 19-bp target DNA in the VEGF-A gene, and...
Influenza viruses A and B cause widespread infections of the human respiratory tract; however, existing vaccines and drug therapy are of limited value for their treatment. Here we show that bispecific short hairpin small-interfering RNA constructs containing an eight-nucleotide intervening spacer, targeted against influenza virus A or influenza virus B, can inhibit the production...
Two highly conserved 15 base sequences of influenza A virus genome were identified by CONSERV software, which can detect contiguous conserved sequences of biological sequences. Antiviral effect of phosphorothioate oligonucleotide that target these conserved sequences was evaluated by plaque formation assay and cell viability assay. Pre-treatment of cells with anti-PB2 (RNA...
Here we highlight the unusual substrate specificity of Plasmodium falciparum thymidylate kinase (PfTMK) and the validity of the enzyme as a new drug target. Furthermore, we predict that the Anaplasma marginale enzyme has attractive domain constituents and may be functionally different from other TMPKs. We postulate that thymidylate kinases could have multiple attractive functions...
Previously, we have demonstrated that plant DNA virus replication could be inhibited in Arabidopsis thaliana by using an artificial zinc-finger protein (AZP) and created AZP-based transgenic A. thaliana resistant to DNA virus infection. Here we apply the AZP technology to tomato yellow leaf curl virus (TYLCV) causing serious damage to an important agricultural crop, tomato. An...
To refine zinc-finger nuclease (ZFN) technology, we constructed a sandwiched ZFN, in which a DNA cleavage enzyme was sandwiched with two artificial zinc-finger proteins (AZPs). Because the sandwiched ZFN is designed to cleave the DNA between the two AZP-binding sites, the sandwiched ZFN is expected to bind preferentially to a DNA substrate rather than to cleavage products and...
Recently, in hammerhead ribozymes, newly identified loop-loop interaction was found to be important for their activation. Therefore, we chemically synthesized a hammerhead ribozyme with this extra loop sequences and its mutant ribozymes, as well as their substrate RNA strands in order to clarify their cleavable sequences. After purification with an anion exchange column...
Circular RNA is more stable than linear RNA both in vitro and in vivo because of its inaccessibility to exoribonucleases. Therefore, circularization of functional RNAs is a potentially useful methodology for designing therapeutic RNA reagents. We designed a circular hammerhead ribozyme that can cleave the template region of human telomerase RNA. This circular hammerhead ribozyme...
Polyamines, especially branched polyamines such as tetrakis(3-aminopropyl)ammonium (Taa), stabilize the tertiary structure of RNA molecules.
The HIV Rev protein utilizes a short α-helical arginine-rich RNA-binding domain to bind deeply within the major groove of an internal loop region of the Rev-response element (RRE) RNA. A G48-G71 base-pair which covaries to an isostructural A48-A71 base pair has been shown to play an important structure role in Rev-RRE binding. On the other hand, a high affinity RRE-binding...
A ribonucleopeptide aptamer against ATP was obtained by the in vitro selection method. This ribonucleopeptide aptamer comprises a randomized and selected RNA linked to the Rev-responsive element (RRE) in complex with a peptide derived from an HIV Rev protein. The ribonucleopeptide aptamer selectively binds ATP in the presence of the Rev-derived peptide, exclusively. Here, we...
Development of methods for in vitro selection of peptide aptamers with target binding affinities have been expected to construct biocatalysts, biosensors, and molecular targeted drugs in leading-edge fields of biotechnology and medical therapies. Therefore, a highly stabilized ribosome display method has been devised for efficient selection of various peptide aptamers from an...
I have constructed a novel aptazyme-based biosensor system for detecting cofactors of the aptazymes using a cell-free luciferase synthesis in wheat germ extract. In this system, the activity of the aptazyme that is fused to a 5′-untranslated region of a luciferase gene can be detected as luciferase expression. In translating the aptazyme-fused mRNA as-is using a wheat germ cell...