Rudolf Lurz

Activity of the hybrid trp-lac (tac) promoter of Escherichia coli in Pseudomonas putida. Construction of broad-host-range, controlled-expression vectors

A broad-host-range vector, pKT240, containing the structural gene (aph) for aminoglycoside phosphotransferase (APH), without promoter, has been constructed. Insertion of DNA fragments carrying promoters upstream of aph gene into the unique EcoRI site of this vector results in the expression of the aph gene and consequently the resistance of the host cells to streptomycin. The new vector has been used to show that the hybrid trp-lac (tac) promoter and the promoter of the lacIQ gene of Escherichia coli are active in Pseudomonas putida. Derivatives of pKT240 containing tac and lacIQ sequences may be used as wide-host-range expression vectors. Regulated overproduction of APH and catechol 2,3-oxygenase can be obtained with the aid of the new vectors in both E. coli and P. putida.

Plasmid replication functions

SummaryR6-5 is a low copy number, conjugative, FII incompatibility group plasmid that has a molecular length of 102 kb and that specifies resistance against several antibiotics (chloramphenicol, fusidic acid, kanamycin, streptomycin and sulphonamide) and mercury salts. By means of in vitro cloning procedures, mini plasmids have been generated that contain a DNA segment from the essential region of R6-5 that is only 2.6 kb in length. This DNA segment, which consists of two PstI fragments that are adjacent in the parent plasmid, carries all genes and sequences required for the regulated replication and incompatibility properties of R6-5, including its origin of replication, OriV, an essential function that has been designated RepA, and the copy control function, Cop. Three different polypeptides, having monomer molecular weights of 23,000, 10,000 and 9,500 daltons, are synthesized in detectable quantities by minicells carrying pBR322 hybrid plasmids that contain DNA segments from the R6-5 essential region. A spontaneous deletion derivative of a pBR322 hybrid plasmid that carries the R6-5 origin of replication was isolated. Heteroduplex analysis of this derivative plasmid indicates that the deleted DNA segment carries the R6-5 replication origin and that its termini consist of short inverted repeat sequences.

INTERACTION OF THE ESCHERICHIA COLI DNAA PROTEIN WITH BACTERIOPHAGE LAMBDA DNA

Abstract Interaction of the Escherichia coli DnaA (replication initiator) protein with restriction fragments of phage λ DNA demonstrated differential binding of DnaA along the whole λ DNA. Interaction of DnaA with the λ replication region (from the promoter pR to the origin of replication, oriλ) demonstrated a strong binding of DnaA to the region around the po promoter where synthesis of a short antisense oop RNA is initiated. The four sequences protected by DnaA (two 9mers and two 5mers) are not related even to a relaxed DnaA box. The pattern of protection of these four sequences and the location of three DNase I hypersensitive sites in the λ DNA r strand, together with results of mobility shift assays and electron microscopy studies, may indicate an interaction involving DnaA monomers bound to different DNA positions on one side of the helix and the formation of higher-order nucleoprotein structures. Therefore, it is tempting to suggest that DnaA, in addition to its activity in regulation of replication and transcription, could be considered as a factor which structures certain chromosomal regions.

Bacillus subtilis 168 RecR protein-DNA complexes visualized as looped structures

Abstract The Bacillus subtilis 168 RecR protein bound to duplex DNA in the presence of ATP and divalent cations (Mg2+ and Zn2+) was visualized by electron microscopy as a nearly spherical particle. A RecR homomultimer is frequently located at the intersection of two duplex DNA strands in an interwound DNA molecule, generating DNA loops of variable length. Two individual DNA molecules bound to the same protein are seen at a very low frequency, if at all. The association of RecR with the intersection of two duplex DNA strands is more often seen in supercoiled than with relaxed or linear DNA. The RecR protein displays a slight but significant preference for negatively supercoiled over linear DNA. The minimum substrate size for RecR protein is about 150 bp in length. A possible mechanism for RecR function in DNA repair is discussed.

The isolation and characterization of the chicken lysozyme and ovomucoid gene

Abstract The steroid-controlled rate of synthesis of the four egg-white proteins ovalbumin, conalbumin, ovomucoid and lysozyme is closely correlated to the cellular concentration of their mRNAs. Measurements of the stability of the egg-white protein mRNAs in vivo and their rates of synthesis in isolated nuclei have demonstrated that a decreased rate of degradation and an increased rate of synthesis contribute to the accumulation of these mRNAs. To understand the molecular mechanisms that regulate the expression of this group of genes, we have isolated lysozyme and ovomucoid gene sequences by screening a chicken DNA library using the lysozyme and ovomucoid cDNA plasmids pls-1 and pom-48 as hybridization probes. Two overlapping lysozyme clones and two overlapping ovomucoid clones covering a total length of 22 kb and 30 kb, respectively, of chicken DNA were characterized. Restriction mapping and electron microscopic analysis of hybrids between mRNA and the cloned DNA allowed determination of the arrangement of coding and intervening sequences in these two genes. Three intervening sequences interrupting the lysozyme structural gene and seven intervening sequences in the ovomucoid structural gene have been identified.