The present invention relates to compositions and methods for the inhibition of the infectivity of a herpesvirus. In certain embodiments, the compositions and methods provide a CRISPR-associated peptide and a guide nucleic acid, which induce the mutation of herpesvirus genome, thereby inhibiting the infectivity of the herpesvirus. Further disclosed are Cas peptides including Cas9 or a variant thereof comprising one or more point mutations relative to wildtype Streptococcus pyogenes Cas 9 (spCas9), and Cpf1 or a variant thereof.

In an embodiment, the invention provides a method and reagents for detection of γ-herpesvirus circRNA. In another embodiment, the invention provides a method and reagents for detection of EBV circRNA. In still another embodiment, the invention provides a method and reagents for detection of KSHV circRNA. The method can be expanded to other herpesviruses and even non-herpesviruses that generate circRNA upon cellular infection.

The present invention relates to an oligomer conjugate for use in the treatment of a viral disorder. The oligomer conjugate comprises: a) an oligomer capable of modulating a target sequence in HBx and/or HBsAg of Hepatitis B Virus (HBV) to treat said viral disorder; and b) a carrier component capable of delivering the oligomer to the liver which is linked, preferably conjugated, to the oligomer.

A composition for treating a lysogenic virus, including isolated nucleic acid encoding two or more gene editors chosen from gene editors that target viral DNA, gene editors that target viral RNA, and combinations thereof. A composition for treating a lytic virus, including isolated nucleic acid encoding at least one gene editor that targets viral DNA and a viral RNA targeting composition. A composition for treating both lysogenic and lytic viruses, including isolated nucleic acid encoding two or more gene editors that target viral RNA, chosen from CRISPR-associated nucleases, Argonaute endonuclease gDNAs, C2c2, RNase P RNA, and combinations thereof. A composition for treating lytic viruses, including isolated nucleic acid encoding two or more gene editors that target viral RNA and a viral RNA targeting composition. Methods of treating a lysogenic virus or a lytic virus, by administering the above compositions to an individual having a virus and inactivating the virus.

Provided herein are CasX:gNA systems comprising CasX polypeptides, guide nucleic acids (gNA), and optionally donor template nucleic acids useful in the modification of a SOD1 gene. The systems are also useful for introduction into cells, for example eukaryotic cells having mutations in the SOD1 protein or the SOD1 regulatory element. Also provided are methods of using such CasX:gNA systems to modify cells having such mutations and utility in methods of treatment of a subject with a SOD1-related disease.

The present disclosure relates to recombinant viral vectors for the treatment and prevention of cancer. Oncolytic viral vectors incorporate one or more of the following features: viral replication restriction by insertion of tumor-suppressive microRNA (miRNA) target sequences into the viral genome; disruption of oncogenic miRNA function; cancer microenvironment remodeling; and cancer cell targeting by incorporation of protease-activated antibodies into the viral particle.

The present disclosure provides methods of inducing EBV early lytic cycle genes with high specificity. These methods slow or stop cancer cell growth in vitro and in vivo.

Aspects of the application relate to methods and compositions for delivering therapeutic nucleic acids to neural cells or tissue in a subject. Additional aspects of the application relate to therapeutic nucleic acids, for example therapeutic ribozymes, that are useful for inhibiting viral reactivation in a subject.

In an embodiment, the invention provides a method and reagents for detection of γ-herpesvirus circRNA. In another embodiment, the invention provides a method and reagents for detection of EBV circRNA. In still another embodiment, the invention provides a method and reagents for detection of KSHV circRNA. The method can be expanded to other herpesviruses and even non-herpesviruses that generate circRNA upon cellular infection.

A method of forming a tier of an array of memory cells within an array area, the memory cells individually comprising a capacitor and an elevationally-extending transistor, the method comprising using two, and only two, sacrificial masking steps within the array area of the tier in forming the memory cells. Other methods are disclosed, as are structures independent of method of fabrication.