Naganath Mandi scite author profile

Reteplase (rPA) is a thrombolytic agent used for the treatment of acute myocardial infarction. We studied the expression of rPA and its selected asparagine mutants after integration into the Pichia genome. Though methanol induction of the native and the rPA mutants showed similar expression levels (~200–250 mg/L), the mutants displayed significant loss of protease activity. Strikingly, the clot lysis activities of these mutants were considerably different. While mutation of Asn12 (N12P) of the Kringle 2 domain showed delayed clot lysis activity (t 1/2 = 38 min) compared to the native rPA (t 1/2 = 33 min), a faster rate of clot lysis (t 1/2 = 27 min) was observed when the Asn278 (N278S) of the serine protease domain was mutated. Interestingly, the slowest clot lysis activity (t 1/2 = 49 min) demonstrated by the double mutant (N12P, N278S) suggests the dominant role of Asn12 in regulating the fibrinolytic activity of rPA. The results presented in this paper indicate that the fibrinolytic and the proteolytic activities of rPA are independent of each other.

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Over-expression of proteins using a modified pBAD24 vector in E. coli expression system

Banerjee

Salunkhe

Apte-Deshpande

et al. 2009

Biotechnol Lett

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A modified pBAD24 vector (pBAD24M) was constructed with the araBAD promoter of the arabinose operon along with T7g10 sequence elements and a modified Shine-Dalgarno sequence. While both green fluorescent protein and granulocyte colony stimulating factor showed negligible expression under the original pBAD24 vector, they were expressed at >35% of total cellular protein with the modified vector. Similar results were obtained for staphylokinase wherein the pBAD24-SAK construct yielded 8 ng/10(6) c.f.u. of E. coli induced cells while the pBAD24M-SAK vector showed nearly 55 ng/10(6) c.f.u. induced bacterial cells as tested by ELISA. Interestingly, the expression levels using modified pBAD24 vector matched that achieved with T7 promoter based vector system. The modified pBAD24 vector therefore represents a simple and a useful prokaryotic expression system for efficient repression, modulation and elevated protein expression levels.

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Construction of a novel zero background prokaryotic expression vector: potential advantages

2009

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A novel DNA sequence, derived from the antisense strand of the DNA gyrase inhibitor protein, CcdB, was toxic to E. coli. This protein (approximately 6 kDa) decreased the growth rate of E. coli K12 by three orders of magnitude upon induction. The expressed toxic protein in E. coli K12 was soluble while it was insoluble in induced E. coli BL21. A high efficiency prokaryotic cloning/expression vector was constructed using this toxic gene sequence and gave zero background with approximately 100% cloning efficiency requiring no dephosphorylation. The toxic gene product also affected the survival of a ccdB resistant cell line, thus indicating a different mechanism of toxicity, other than DNA gyrase inhibition, as compared to the ccdB toxicity.

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Naganath Mandi

Screening of Bacterial Recombinants: Strategies and Preventing False Positives

and : Critical Residues for In Vitro Biological Activity of Reteplase

Over-expression of proteins using a modified pBAD24 vector in E. coli expression system

Construction of a novel zero background prokaryotic expression vector: potential advantages

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