The present invention features compositions and methods for editing deleterious mutations associated with hemoglobinopathies, such as sickle cell disease (SCD). In particular embodiments, the invention provides methods for correcting mutations in a beta globin polynucleotide using modified adenosine base editors termed “ABE8” having unprecedented levels (e.g., >60-70%) of efficiency.

Methods of producing and manufacturing retroviral particles. Such methods may involve the use of an ion-exchange column with an elution buffer comprising one or more salts, wherein the elution buffer has a low total salt concentration (e.g., 400 mM to 800 mM) relative to conventional practice. In some embodiments, the retroviral particles can be generated by host cells transfected with retroviral vectors using polyethylenimine (PEI).

Methods of producing and manufacturing retroviral particles. Such methods may involve the use of an ion-exchange column with an elution buffer comprising one or more salts, wherein the elution buffer has a low total salt concentration (e.g., 400 mM to 800 mM) relative to conventional practice. In some embodiments, the retroviral particles can be generated by host cells transfected with retroviral vectors using polyethylenimine (PEI).

The disclosure discloses a genetically engineered strain for producing porcine myoglobin and fermentation and purification thereof, and belongs to the technical field of genetic engineering. The disclosure realizes efficient secretion and expression of porcine myoglobin by integrating the gene of porcine myoglobin in P. pastoris. On this basis, optimization of the medium and culture conditions of recombinant P. pastoris can significantly increase the titer of porcine myoglobin, so that the titer can reach 285.42 mg/L under fermenter conditions. In addition, by creatively adding different concentrations of ammonium sulfate to fermentation broth step by step, the purity of myoglobin obtained by final concentration is up to 88.0%, and the purification rate is up to 66.1%. The disclosure realizes efficient expression and high purification of porcine myoglobin from various steps such as synthesis, fermentation and purification of porcine myoglobin, and provides broad prospects for industrial production of porcine myoglobin.

The disclosure discloses a genetically engineered strain for producing porcine myoglobin and fermentation and purification thereof, and belongs to the technical field of genetic engineering. The disclosure realizes efficient secretion and expression of porcine myoglobin by integrating the gene of porcine myoglobin in P. pastoris. On this basis, optimization of the medium and culture conditions of recombinant P. pastoris can significantly increase the titer of porcine myoglobin, so that the titer can reach 285.42 mg/L under fermenter conditions. In addition, by creatively adding different concentrations of ammonium sulfate to fermentation broth step by step, the purity of myoglobin obtained by final concentration is up to 88.0%, and the purification rate is up to 66.1%. The disclosure realizes efficient expression and high purification of porcine myoglobin from various steps such as synthesis, fermentation and purification of porcine myoglobin, and provides broad prospects for industrial production of porcine myoglobin.

The present invention relates to an mRNA construct, comprising a target protein or peptide coding region and an IRES region downstream of the target protein or peptide coding region, wherein the mRNA construct of the present invention can stably maintain the expression of a target protein for a long time while being stably present in the cell.

The present invention relates to an mRNA construct, comprising a target protein or peptide coding region and an IRES region downstream of the target protein or peptide coding region, wherein the mRNA construct of the present invention can stably maintain the expression of a target protein for a long time while being stably present in the cell.

The present invention provides compositions and methods for transducing cells (e.g. T cells or immune cells). Also provided herein are methods of treating a disease in a subject in need thereof.

This document relates to ground meat replicas, and more particularly to plant-based products that mimic ground meat, including the fibrousness, heterogeneity in texture, beefy flavor, and red-to-brown color transition during cooking of ground meat.

The disclosure concerns a class of hemoglobin based oxygen carriers (HBOCs) comprising a first hemoglobin protein cross-linked by a chemical reaction that is followed by a strain-promoted alkyne-azide cycloaddition (SPAAC) reaction or by a strain-promoted alkyne-nitrone cycloaddition (SPANC) in the absence of added copper salts to a second modified cross-linked hemoglobin protein. The resulting construct is an HBOC that is capable of binding oxygen and releasing same in a useful manner upon addition in an appropriate solution to the circulatory system of a patient. The disclosure also concerns a method of production of the HBOC where a first and second hemoglobin protein are produced by covalently linking hemoglobin to an angle strained cycloalkyne moiety. A compound comprising at least 2 azide or nitrone moieties is then added for reacting under conditions conducive to SPAAC or SPANC in reaction in absence of copper ions with the first and second hemoglobin protein for causing covalent linkage of the first and second hemoglobin protein to the compound comprising said at least 2 azide or nitrone moieties, resulting in said HBOC. The HBOC can be used for transfusion, perfusion or for increasing oxygen transport.