Detlev Behnke scite author profile

Recombinant plasmids were constructed in which the signal sequence of the sak42D and the sakSTAR staphylokinase genes were replaced by an ATG start codon and which express staphylokinase under the control of a tac promoter and two Shine-Dalgarno sequences in tandem. Induction of transfected E. coli TGl cells in a bacterial fermentor produced intracellular staphylokinase representing 10 to 15% of total cell protein. Gram quantities of highly purified recombinant staphylokinase were obtained from cytosol fractions by chromatography, at room temperature, on SP-Sepharose and on phenyl-Sepharose columns, with yields of 50 to 70 percent. The material, at a dose of 4 mg/kg, did not produce acute reactions or affect body weight in mice. Intravenous administration of 10 mg SakSTAR over 30 minutes in five patients with acute myocardial infarction induced complete coronary artery recanalization, without associated fibrinogen degradation. However, neutralizing antibodies appeared in the plasma of all patients within 12 to 20 days. Thus, the present expression and purification method for recombinant staphylokinase yields large amounts of highly purified mature protein (approximately 200 mg per liter fermentation broth) suitable for a more detailed clinical investigation of its potential as a thrombolytic agent.

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RepR protein expression on plasmid pIP501 is controlled by an antisense RNA-mediated transcription attenuation mechanism

Brantl¹,

Birch-Hirschfeld²,

Behnke³

1993

J Bacteriol

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Expression of the rate-limiting initiator protein RepR of plasmid pIP501 is controlled by the antisense RNAIII. Mutational alteration of individual G residues within the single-stranded loops of RNAIII led to an increase in copy number. In contrast to the G-rich single-stranded loops, two smaller AT-rich loops of RNAIII were found to be dispensable for its inhibitory function. Reciprocal mutations in the same loop compensated for each other's effect, and a destabilization of the major stem structure of RNAIII also resulted in an increased copy number. These data were consistent with the idea that the interaction of RNAIII with its target starts with the formation of a kissing complex between the single-stranded loops of both molecules. The repR mRNA leader sequence, which includes the target of RNAIIIs is able to assume two alternative structures due to the presence of two inverted repeats the individual sequences of which are mutually complementary. In the presence of the antisense RNAIII, one of these inverted repeats (IR2) is forced to fold into a transcriptional terminator structure that prevents transcription of the repR gene. In the absence of RNAIII, formation of the transcriptional terminator is prevented and expression of the essential repR gene can proceed normally. This antisense RNA-driven transcriptional attenuation mechanism was supported by extensive deletional analysis and direct evidence that IR2 functions as a transcriptional terminator.

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Molecular analysis of the replication region of the conjugativeStreptococcus agalactiaeplasmid pIP501 inBacillus subtilis. Comparison with plasmids pAMβ1 and pSM 19035

Brantl¹,

Behnke²,

Alonso³

1990

Nucl Acids Res

100

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The large conjugative plasmid pIP501 was originally isolated from Streptococcus agalactiae. To study the molecular basis of pIP501 replication we determined the nucleotide sequence of a 2.2 kb DNA segment which is essential and sufficient for autonomous replication of pIP501 derived plasmids, in Bacillus subtilis cells. This region can be divided into two functionally discrete segments: a 496 bp region (oriR) that acts as an origin of replication, and a 1488 bp segment coding for an essential replication protein (RepR). The RepR protein, which has a molecular mass of 57.4 kDa, could complement in trans a thermosensitive replicon bearing the pIP501 origin. Chimeric Rep proteins and replicons were obtained by domain swapping between rep genes of closely related streptococcal plasmids belonging to the inc18 group (pIP501, pAM beta 1 and pSM19035). The chimeras were functional in B. subtilis.

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Copy number control of the streptococcal plasmio plP501 occurs at three levels

Brantl¹,

Behnke²

1992

Nucl Acids Res

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Transcriptional analysis of the replication region of plasmid pIP501 has revealed three active promoters. The repR gene which is essential for pIP501 replication was transcribed from promoter pII. A small antisense RNA (136 nt, RNAIII) generated from promoter pIII was complementary to the leader region of the repR mRNA. Introduction of either point mutations or deletions into promoter pIII or RNAIII resulted in a 5-20fold increased plasmid copy number suggesting a negative regulatory function for RNAIII. The copR gene, the complete DNA and amino acid sequence of which is reported, was dispensable for pIP501 replication. However, deletion of the copR promoter pI and/or the copR coding sequence led to a 10-20fold increase in plasmid copy number. This effect was also observed when a -1 frameshift mutation was introduced into the CopR coding region. Mutations in copR and pIII/RNAIII were not additive. It is, therefore, proposed that both components act at the same level of copy number control most likely in a sequential way. A second level of copy number control was found to involve an inverted repeat structure upstream of and overlapping with promoter pII. Destruction of this repeat sequence by deletion caused an increase in copy number 2-3fold higher than that observed for either RNAIII or copR mutations. A working model is proposed how different components of pIP501 interact to regulate its copy number.

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Detlev Behnke

Thymidylate synthase and dihydropyrimidine dehydroge-nase expression in stage II and III colorectal cancer patients receiving adjuvant 5-fluorouracil

High Yield Production and Purification of Recombinant Staphylokinase for Thrombolytic Therapy

RepR protein expression on plasmid pIP501 is controlled by an antisense RNA-mediated transcription attenuation mechanism

Molecular analysis of the replication region of the conjugativeStreptococcus agalactiaeplasmid pIP501 inBacillus subtilis. Comparison with plasmids pAMβ1 and pSM 19035

Copy number control of the streptococcal plasmio plP501 occurs at three levels

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