The embodiments of the present disclosure relate to decreasing the bioavailability of one or more target biomolecules by providing a composition that comprises a recombinant plasmid with one or more sequences of micro interfering ribonucleic acid (miRNA). When the recombinant plasmid interacts with a target cell, it causes the target cell to upregulate production of the miRNA, which then decreases the bioavailability of the target biomolecule. In some embodiments of the present disclosure, the target biomolecule is a kinase.

The embodiments of the present disclosure relate to decreasing the bioavailability of one or more target biomolecules by providing a composition that comprises a recombinant plasmid with one or more sequences of micro interfering ribonucleic acid (miRNA). When the recombinant plasmid interacts with a target cell, it causes the target cell to upregulate production of the miRNA, which then decreases the bioavailability of the target biomolecule. In some embodiments of the present disclosure, the target biomolecule is a kinase.

The embodiments of the present disclosure relate to decreasing the bioavailability of one or more target biomolecules by providing a composition that comprises a recombinant plasmid with one or more sequences of micro interfering ribonucleic acid (miRNA). When the recombinant plasmid interacts with a target cell, it causes the target cell to upregulate production of the miRNA, which then decreases the bioavailability of the target biomolecule. In some embodiments of the present disclosure, the target biomolecule is a kinase.

The embodiments of the present disclosure relate to decreasing the bioavailability of one or more target biomolecules by providing a composition that comprises a recombinant plasmid with one or more sequences of micro interfering ribonucleic acid (miRNA). When the recombinant plasmid interacts with a target cell, it causes the target cell to upregulate production of the miRNA, which then decreases the bioavailability of the target biomolecule. In some embodiments of the present disclosure, the target biomolecule is a kinase.

The embodiments of the present disclosure relate to decreasing the bioavailability of one or more target biomolecules by providing a composition that comprises a recombinant plasmid with one or more sequences of micro interfering ribonucleic acid (miRNA). When the recombinant plasmid interacts with a target cell, it causes the target cell to upregulate production of the miRNA, which then decreases the bioavailability of the target biomolecule. In some embodiments of the present disclosure, the target biomolecule is a kinase.

The embodiments of the present disclosure relate to decreasing the bioavailability of one or more target biomolecules by providing a composition that comprises a recombinant plasmid with one or more sequences of micro interfering ribonucleic acid (miRNA). When the recombinant plasmid interacts with a target cell, it causes the target cell to upregulate production of the miRNA, which then decreases the bioavailability of the target biomolecule. In some embodiments of the present disclosure, the target biomolecule is a kinase.

The present disclosure discloses a method for efficient catalytic synthesis of PAPS based on constructing an ATP regeneration system, and belongs to the technical field of bioengineering. Efficient production of PAPS is realized through microbial recombination expression and artificial construction of PAPS bifunctional synthetase. On the basis, an ATP regeneration system coupling with polyphosphate kinase from Corynebacterium glutamicum and Mycobacterium tuberculosis can be used for recovering two byproducts: pyrophosphoric acid and ADP at the same time, the equivalent conversion of a substrate and a product is realized, the PAPS generated in a catalysis system has high purity, and the sulfonic acid group donation in most sulfonic acid transfer reactions can be realized.

The embodiments of the present disclosure relate to decreasing the bioavailability of one or more target biomolecules by providing a composition that comprises a recombinant plasmid with one or more sequences of micro interfering ribonucleic acid (miRNA). When the recombinant plasmid interacts with a target cell, it causes the target cell to upregulate production of the miRNA, which then decreases the bioavailability of the target biomolecule. In some embodiments of the present disclosure, the target biomolecule is a kinase.

The embodiments of the present disclosure relate to decreasing the bioavailability of one or more target biomolecules by providing a composition that comprises a recombinant plasmid with one or more sequences of micro interfering ribonucleic acid (miRNA). When the recombinant plasmid interacts with a target cell, it causes the target cell to upregulate production of the miRNA, which then decreases the bioavailability of the target biomolecule. In some embodiments of the present disclosure, the target biomolecule is a kinase.

The embodiments of the present disclosure relate to decreasing the bioavailability of one or more target biomolecules by providing a composition that comprises a recombinant plasmid with one or more sequences of micro interfering ribonucleic acid (miRNA). When the recombinant plasmid interacts with a target cell, it causes the target cell to upregulate production of the miRNA, which then decreases the bioavailability of the target biomolecule. In some embodiments of the present disclosure, the target biomolecule is a kinase.