The present invention provides compositions and methods relating to protein replacement therapy for the treatment of disorders associated with Methylmalonyl CoA Mutase.

The present invention relates to the preparation of an antibody analogue capable of being activated reversibly, and uses thereof, and provides a fusion protein comprising an inactive first fragment of an antibody analogue is fused to a stimulus-induced dimerization protein.

The present disclosure provides a fusion protein useful for treating a non-nuclear organelle associated disorder, such as a genetic disorder, e.g., Friedrich's Ataxia. The fusion protein may comprise a protein of interest to be delivered to a non-nuclear organelle; an organelle targeting sequence (OTS); a cell penetrating peptide (CPP); and a target enhancing sequence (TES); wherein the CPP is capable of interference with delivery of the protein of interest to the non-nuclear organelle; and wherein the TES prevents said interference by the CPP. The fusion protein may also comprise a protein of interest to be delivered to a non-nuclear organelle; a CPP and a TES. The present disclosure also provides methods for treating a non-nuclear organelle associated disorder by administering the fusion protein to a subject in need thereof.

The present disclosure is generally directed to gene editing in plant chloroplast and plant mitochondrial double-stranded DNA. Disclosed herein are cytosine base editors tailored for chloroplast and mitochondrial genomes in plants using plant-specific chloroplast and mitochondrial targeting peptides, a TALE, and a DNA deaminase. The systems of the present disclosure include DNA vectors and protocols to use them for gene editing in plants.

The present disclosure provides a fusion protein useful for treating a non-nuclear organelle associated disorder, such as a genetic disorder, e.g., Friedrich's Ataxia. The fusion protein may comprise a protein of interest to be delivered to a non-nuclear organelle; an organelle targeting sequence (OTS); a cell penetrating peptide (CPP); and a target enhancing sequence (TES); wherein the CPP is capable of interference with delivery of the protein of interest to the non-nuclear organelle; and wherein the TES prevents said interference by the CPP. The fusion protein may also comprise a protein of interest to be delivered to a non-nuclear organelle; a CPP and a TES. The present disclosure also provides methods for treating a non-nuclear organelle associated disorder by administering the fusion protein to a subject in need thereof.

The present disclosure relates to methods and compositions for detecting mitochondrial dysfunction. In particular, the disclosure relates to reporter molecules that are cleavable by the zinc metalloprotease Metalloendopeptidase OMA1 (OMA1). In each embodiment, the reporter molecules of the invention are particularly useful for drug discovery and detection of diseases associated with mitochondrial dysfunction

Materials and methods for making targeted changes (e.g., deletions) in mitochondrial DNA are described.

The invention encompasses water-forming NADH and NADPH oxidases and the use of these enzymes to treat mammalian diseases or conditions associated with an elevated NADH/NAD+ ratio or NADPH/NADP+ ratio. Such pathologies include disorders caused by one or more defects in the mitochondrial respiratory chain, glucose metabolism disorders, cancers associated with reductive stress, and aging. The invention also provides a research tool for investigating the effect of exogenous water-forming NADH or NADPH oxidases on the metabolism of a mammalian cell, such as a human cell, and for elucidating the role of respiratory chain proteins in mitochondrial disorders.

[Problem] To provide a novel expression vector capable of effectively expressing a target protein in mitochondria and suppressing undesirable expression of the target protein in cell organelles other than mitochondria.

[Solution] The present invention provides a recombinant expression vector for expressing a target protein in mitochondria of animal cells, and a lipid membrane structure having the vector encapsulated therein, wherein the recombinant expression vector has a promoter sequence exhibiting a transcription activity in the nuclei of animal cells, and has, under the control of the promoter sequence, a coding region which codes a target protein and includes one or more TGAs as codons corresponding to tryptophan. The recombinant expression vector according to the present invention can more efficiently and selectively express a target protein in mitochondria, and can be used as a more safe and effective drug for treating mitochondrial diseases.

An expression vector containing appropriate mitochondrion-targeting sequences (MTS) and appropriate 3UTR sequences provides efficient and stable delivery of a mRNA encoding a protein (CDS) to the mitochondrion of a mammalian cell. The MTS and 3UTR sequences guide the CDS mRNA from the nuclear compartment of the cell to mitochondrion-bound polysomes, where the CDS is translated. This provides an efficient translocation of a mature functional protein into the mitochondria. A method of targeting mRNA expressed in the nuclear compartment of a mammalian cell to the mitochondrion is also provided. The vector and methods can be used to treat defects in mitochondrial function.