The present invention is directed generally to eukaryotic cells comprising single-celled organisms that are introduced into the eukaryotic cell through human intervention and which transfer to daughter cells of the eukaryotic cell, and methods of introducing such single-celled organisms into eukaryotic cells. The invention provides single-celled organisms that introduce a phenotype to eukaryotic cells that is maintained in daughter cells. The invention additionally provides eukaryotic cells containing magnetic bacteria. The invention further provides eukaryotic cells engineered with single-celled organisms to allow for multimodal observation of the eukaryotic cells. Each imaging method (or modality) allows the visualization of different aspects of anatomy and physiology, and combining these allows the imager to learn more about the subject being imaged.

This application relates to potent oligonucleotides useful for reducing HBsAg expression and treating HBV infections.

In the present invention, it has been confirmed that, when an RNA interference-inducing nucleic acid including at least one 8-oxoguanine (o.sup.8G) in 1st to 9th nucleotides from the 5′-end of at least one single strand of a double strand of a nucleic acid, and a modified nucleic acid that specifically binds to microRNA and in which at least one guanine (G) from among the 1st to 9th nucleotides from the 5′-end are modified with 8-oxoguanine (o.sup.8G), are produced and administered to cells or mice, various pathophysiological phenomena are induced.

In addition, the positions where G>T modifications occur have been identified in cDNA produced through the reverse transcription of microRNA in which guanine (G) is oxidatively modified with 8-oxoguanine (o.sup.8G) by oxidative stress in a seed region of microRNA, to confirm the positions where oxidative modification to 8-oxoguanine has occurred.

The present document describes compounds, or pharmaceutically acceptable salt thereof, of a core formula (I) where R.sub.1 features an amine group, particularly useful in the formulation of lipid particles including nucleic acid therapeutic agents, or proteins, or both, and for delivery of nucleic acid and protein therapeutics to cells in vivo or ex vivo, including anticancer and vaccine applications.

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Nonsense-mediated mRNA decay (NMD) polypeptides, nucleic acids encoding NMD polypeptides, and methods of using such polypeptides and nucleic acids in the treatment of ALS and in screening for agents for the treatment of ALS are described.

The present invention relates to a preparation method for an animal model with Alzheimer's disease by injecting a human mutant tau (AAV-hTau) vector and adenovirus into an animal. The preparation method for an AD animal model provided by the present invention may contribute to the development of the field of treatment technology for treating AD since the preparation method causes AD pathology to appear as early as 8 months old and facilitates studies on AD target treatment strategies and tau pathology.

The present invention relates to the field of therapeutic use of proteins, genes and cells. More specifically the invention relates to therapy based on the biological function of a secreted therapeutic protein, NsG33, in particular for the treatment of disorders of the nervous system. NsG33 is a nerve survival and growth factor with antiapoptotic effects on a cell line with neuronal potential and with neuroprotective and/or neurogenesis effects on a neural precursor cell line and on primary striatal cultures. The invention also relates to novel bioactive NsG33 polypeptide fragments and the corresponding encoding DNA sequences.

The technology relates to a method for inducing cardiomyogenesis comprising administering a therapeutically effective amount of either or both of KLF1 and KLF2b to increase the level of KLF1 and/or KLF2b in the cardiomyocytes thereby inducing cardiomyogenesis.

Methods and compositions are provided for making non-human animals with reduced tolerance of a foreign antigen of interest and making antigen-binding proteins against that foreign antigen of interest using such animals. The methods and compositions employ CRISPR/Cas9 systems using multiple guide RNAs to reduce or eliminate expression of a self-antigen homologous to or sharing an epitope of interest with the foreign antigen of interest or to reduce or eliminate expression of an epitope on the self-antigen that is shared with the foreign antigen of interest.

The present invention relates to a recombinant HBV cccDNA comprising HBV genome or the fragment or variant thereof and a site-hybrid insert, a method to generate said recombinant HBV cccDNA, a method for establishment of an in vitro or in vivo cccDNA based model for persistently hepatitis B virus replication by using the recombinant HBV cccDNA of the present invention, and a method for anti-HBV drug evaluation.