The present disclosure provides engineered proline hydroxylase polypeptides for the production of hydroxylated compounds, polynucleotides encoding the engineered proline hydroxylases, host cells capable of expressing the engineered proline hydroxylases, and methods of using the engineered proline hydroxylases to prepare compounds useful in the production of active pharmaceutical agents.

The present disclosure provides engineered proline hydroxylase polypeptides for the production of hydroxylated compounds, polynucleotides encoding the engineered proline hydroxylases, host cells capable of expressing the engineered proline hydroxylases, and methods of using the engineered proline hydroxylases to prepare compounds useful in the production of active pharmaceutical agents.

Provided are a proline hydroxylase and uses thereof. The proline hydroxylase comprises having the amino acid sequence of SEQ ID NO: 2 with the exception of a mutation of one or more amino acids; wherein the mutation of one or more amino acids must comprises E27K, and the mutation of one or more amino acids selected from the group consisting of: H14R, L16N, T25R, F26L, E27K, D30S, S33N, E34N, E34G, E34L, E34S, E34D, Y35W, Y35K, S37W, S37F, S37E, S37N, S37T, S37C, W40F, K41E, D54G, H55Q, S57L, I58T, I58Y, I58A, I58R, I58V, I58S, I58C, K86P, T91A, F95Y, C97Y, I98V, K106V, K106T, K106Q, F111S, K112E, K112R, S154A, K162E, L166M, I118F, I118V, I118R, H119R, H119F, I120V, K123D, K123N, K123Q, K123S, K123I, K123T, T130N, D134G, V135K, N165H, D173G, K209R, I223V and S225A, and having proline hydroxylase activity.

Provided are a proline hydroxylase and uses thereof. The proline hydroxylase comprises (a) a protein having the amino acid sequence as shown in SEQ ID NO: 2; (b) a protein having an amino acid sequence of SEQ HD NO: 2 with a mutation of one or more amino acids and having a proline hydroxylase activity; or (c) a protein retaining the mutation of one or more amino acids as in (b), and having the proline hydroxylase activity and having at least 78% homology with the amino acid sequence of the protein in (b). Protein having the amino acid sequence as shown in SEQ HD NO: 2 and mutants obtained by genetically engineering have higher catalytic specificity or significantly increased catalytic activity when compared to proline hydroxylases in prior art.

The invention relates to reagents and methods that allow the expression of an active NifB protein in yeast and plants under aerobic conditions. The active NifB protein allows the in vitro synthesis of the FeMo cofactor (FeMo-co) which leads to the subsequent apo-NifDK activation and generation of active nitrogenase.

The invention relates to reagents and methods that allow the expression of an active NifB protein in yeast and plants under aerobic conditions. The active NifB protein allows the in vitro synthesis of the FeMo cofactor (FeMo-co) which leads to the subsequent apo-NifDK activation and generation of active nitrogenase.

A method of producing jellyfish collagen extract by combining hard water, frozen jellyfish, protease enzymes, and sodium bisulfate to form a mixture. Heating the mixture for a period of time to permit the mixture to react. The filter, concentrate, and dry the mixture.

A method of producing jellyfish collagen extract by combining hard water, frozen jellyfish, protease enzymes, and sodium bisulfate to form a mixture. Heating the mixture for a period of time to permit the mixture to react. The filter, concentrate, and dry the mixture.

The invention relates to a recombinant, L-amino acid-secreting microorganism of the Enterobacteriaceae family, comprising an DNA fragment having promoter activity that is functionally linked to a polynucleotide coding for a membrane protein, characterized in that the DNA fragment having promoter activity comprises the SEQ ID NO: 8.

The invention relates to a recombinant, L-amino acid-secreting microorganism of the Enterobacteriaceae family, comprising an DNA fragment having promoter activity that is functionally linked to a polynucleotide coding for a membrane protein, characterized in that the DNA fragment having promoter activity comprises the SEQ ID NO: 8.