An important current issue of modern molecular medicine and biotechnology is the search for new approaches to early diagnostic assays and adequate therapy of infectious diseases. One of the promising solutions to this problem might be a development of nucleic acid aptamers capable of interacting specifically with bacteria, protozoa, and viruses. Such aptamers can be used for the specific recognition of infectious agents as well as for blocking of their functions. The present review summarizes various modern SELEX techniques used in this field, and of several currently identified aptamers against viral particles and unicellular organisms, and their applications. The prospects of applying nucleic acid aptamers for the development of novel detection systems and antibacterial and antiviral drugs are discussed.
Replication stress is one of the main sources of genome instability. Although the replication stress response in eukaryotic cells has been extensively studied, almost nothing is known about the replication stress response in nucleoli. Here, we demonstrate that initial replication stress–response factors, such as RPA, TOPBP1, and ATR, are recruited inside the nucleolus in response to drug-induced replication stress. The role of TOPBP1 goes beyond the typical replication stress response; it interacts with the low-complexity nucleolar protein Treacle (also referred to as TCOF1) and forms large Treacle–TOPBP1 foci inside the nucleolus. In response to replication stress, Treacle and TOPBP1 facilitate ATR signaling at stalled replication forks, reinforce ATR-mediated checkpoint activation inside the nucleolus, and promote the recruitment of downstream replication stress response proteins inside the nucleolus without forming nucleolar caps. Characterization of the Treacle–TOPBP1 interaction mode leads us to propose that these factors can form a molecular platform for efficient stress response in the nucleolus.
Site-directed spin labeling (SDSL) is widely applied for structural studies of biopolymers by electron paramagnetic resonance (EPR). However, SDSL of long RNA sequences still remains a challenging task. Here, we propose a novel SDSL approach potentially suitable for long natural RNAs, which is based on the attachment of a linker containing an aliphatic amino group to the target nucleotide residue followed by selective coupling of a spin label to this amino group. Such a linker can be attached to the desired RNA residue via a sequence-specific reaction with the derivatives of oligodeoxyribonucleotides. To verify this approach, we applied it to model RNA duplex with known structure and expected distance between corresponding residues. A new 2,5-bis(spirocyclohexane)-substituted spin label with advanced stability and relaxation properties has been used, and the distance distribution measured using Q-band (34 GHz) pulsed double electron-electron resonance corresponds well to the expected one. We have additionally validated the obtained results by studying a similar RNA duplex, where the linker with the aliphatic amino group was introduced via solid-phase synthesis. Although this novel SDSL approach does not provide an advantage in precision of molecular distance measurements, we believe that its applicability to long RNAs is a crucial benefit for future structural studies using pulse EPR.
Nowadays, there are no specific laboratory tests for establishing the diagnosis of multiple sclerosis (MS). The presence of proteolytic autoantibodies against myelin basic protein is now considered as a characteristic feature of MS. New 2'-F-containing RNA aptamer of high affinity and specificity to these antibodies was selected. Covalent conjugate of this aptamer and Ca(2+)-regulated photoprotein obelin was obtained for the first time and applied as a label in bioluminescent microplate assay to detect target antibodies. The developed model solid-phase microassay is simple, fast, and highly sensitive.
Escort aptamers are DNA or RNA sequences with high affinity to certain
cell-surface proteins, which can be used for targeted delivery of various agents
into cells of a definite type. The peculiarities of the selection of escort
aptamers are discussed in this review. The methods used in selection of escort
aptamers via the SELEX technique are considered, including selection against
isolated cell-surface proteins, cell fragments, living eukaryotic cells, and
bacteria. Particular attention is given to the design and chemical modification
of escort aptamers. The different fields of application of escort aptamers are
described, including the targeted delivery of siRNAs, nanoparticles, toxins, and
photoagents, as well as the identification of specific cell markers and the
detection or isolation of cells of a definite type. The potential for the
application of escort aptamers in the development of new therapeutic agents and
diagnostic systems is also discussed.
A new design of binary hammerhead ribozymes displaying high catalytic activity and nucleolytic stability is described. These catalytic structures consist of two partially complementary oligoribonucleotides, capable of assembling into the hammerhead-like structure without tetraloop II on binding to the RNA target. A series of these binary ribozymes targeting the translation initiation region of multiple drug resistance gene mdr1 mRNA was synthesized and assessed in terms of catalytic activity under single and multiple reaction turnover conditions. Enhanced nuclease resistance of the binary ribozymes was achieved by incorporation of 2'-modified nucleotides at selected positions, along with addition of a 3'-3'-linked thymidine cap. The new binary ribozymes exhibit higher RNA cleavage activity than their full-length analogs because of faster dissociation of cleavage products. Furthermore, an excess of one of the ribozyme strands provides the possibility to unfold structured regions of the target RNA and facilitate productive complex formation.
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