Abstract: An expression vehicle comprising an isolated nucleic acid as shown in Seq ID No. 1 comprising of a synthetic hybrid promoter wherein the hybrid promoter comprises of an inducible arabinose promoter derived from E. coli and a synthetic stretch of 8-35 nucleotides from pHO regulon introduced in the region between ?55 to ?10 and ribosome binding site from the transcription initiation site.

Abstract: A low cell density fermentation process for the production of heterologous proteins in microorganisms. The cell culture obtained by cultivating host microorganisms transformed with a vector carrying genetic material for the said proteins and an inducible promoter under batch fermentation conditions is fed with a feed medium after an OD600 of 0.16 to 8 has been achieved or after 0 to 4 hrs from the start of the fermentation process. The feed medium comprises 5 to 30% of carbon source and 1 to 30% of nitrogen source and 0 mg to 400 mg antibiotics and 2.5 to 4.25% inorganic phosphates and trace elements. The concentration of the carbon source in the feed medium is 10 to 30 and the amino acid content in nitrogen source is 45 to 95%. The initial feed rate is in the range of 0 ml/hr to 12 ml/hr and is raised exponentially by an exponent in the range of 0.1 to 0.4 and/or linearly with the slope of the curve in the range of 0.5 to 3. The production of the heterologous proteins is induced with 0.

Abstract: A way to increase the production of recombinant polypeptides by combining pieces of several different isoforms of a given gene to make a chimeric isoform of the gene (using a chimeric gene can increase the production of polypeptide over 25%), or by inserting several copies of the coding region in tandem into a transformation vector (e.g., plasmids carrying multiple copies of the chimera of SEQ ID NO: 3 increased production 107%).

Abstract: A low cell density fermentation process for the production of heterologous proteins in microorganisms. The cell culture obtained by cultivating host microorganisms transformed with a vector carrying genetic material for the said proteins and an inducible promoter under batch fermentation conditions is fed with a feed medium after an OD600 of 0.16 to 8 has been achieved or after 0 to 4 hrs from the start of the fermentation process. The feed medium comprises 5 to 30% of carbon source and 1 to 30% of nitrogen source and 0 mg to 400 mg antibiotics and 2.5 to 4.25% inorganic phosphates and trace elements. The concentration of the carbon source in the feed medium is 10 to 30 and the amino acid content in nitrogen source is 45 to 95%. The initial feed rate is in the range of 0 ml/hr to 12 ml/hr and is raised exponentially by an exponent in the range of 0.1 to 0.4 and/or linearly with the slope of the curve in the range of 0.5 to 3. The production of the heterologous proteins is induced with 0.

Abstract: The present disclosure provides an affinity polypeptide for the purification of a recombinant biologically active protein or polypeptide. Further, the present disclosure provides a fusion recombinant protein or polypeptide wherein the fusion recombinant protein comprises of at least two components, a biologically active polypeptide or protein or protein of interest and the affinity polypeptide. The biologically active polypeptide may be linked directly or indirectly to the affinity polypeptide by covalent binding. The present disclosure provides a recombinant expression vector for the producing said fusion recombinant protein in host cells. Further, the present disclosure provides an improved method of purification of recombinant protein from the host cells. Further, the disclosure provides a method of purification of the recombinant biologically active polypeptide or protein by immobilized metal ion chelating chromatography.

Abstract: A novel nesiritide synthetic cDNA chimera encoding human b-type natriuretic peptide (hBNP) or nesiritide and a process for the preparation of the said novel chimera. Further, the inventors disclose the use of nesiritide synthetic cDNA chimera to obtain an expressible construct to produce mature nesiritide. Particularly, the inventors disclose an application of recombinant cloning method to prepare an ORF of a nesiritide chimeric construct, which is simultaneously codon optimized for E. coli and has optimal RNA stability. The inventors also provide a process for large scale purification of nesiritide by pH precipitation and chromatography.

Abstract: Adding enough organic solvent to hydrophobic interactive chromatography elution buffer eliminates the need to also add detergent to the buffer when separating poly-peptides. For example, adding about 50% acetonitrile to detergent-free elution buffer enaibls one to separate full-length human growth hormone from its various truncated forms, to obtain hGH with a purity of >99.5%. This technique is useful to purify polypeptide where detergent to contamination in the resulting polypeptide is undesirable.

Abstract: Our invention relates to a new way of preparing coding DNA constructs, by making a chimera of various coding region isoforms. For example, our method has been successfully used to make a new hGH-NV cDNA chimera having SEQ ID NO: 3, by combining the cDNA isoforms of human placenta and pituitary RNA encoding human growth hormone. Our invention also relates to a process for increasing the production of recombinant human growth hormone by inserting a plurality of promoter—coding region—termination sequences into a vector in tandem. For example, our method has been successfully used to approximately double the yield of recombinant growth hormone in transformed cells.