Nucleotide sequence of DNA controlling expression of genes for maltosaccharide utilization in Streptococcus pneumoniae

An analysis of previous data indicated that four structural genes concerned with maltosaccharide utilization in Streptococcus pneumoniae are organized in two operons that are transcribed in opposite directions from a central control region. This region contains two strong promoters subject to repression by a regulatory gene product in the absence of maltose. The nucleotide sequence of the 554-bp control region DNA and adjacent portions of the malX and malM structural genes was determined. Unique reading frames and initiation codons allowed identification of the oppositely oriented structural genes. Putative ribosome binding sites and −10 and −35 RNA-polymerase-binding sites, as well as AT-rich regions farther upstream, were observed proximal to both the X and M genes. The similarity of these sequences to sites found in Escherichia coli and Bacillus subtilis indicated the conservation of control signals in bacteria, both Gram-negative and Gram-positive. A pair of 17-bp hyphenated repeat sequences in the control region may represent repressor binding sites. Two down promoter mutations, V11 and 69, were shown to be deletions in the control region. The V11 mutation, which affected only the MP operon, deleted the promoter adjacent to the M gene. Mutation 69, which reduced both X and M gene functions, deleted the entire segment between the promoters so that they now overlap at their −35 binding sites. As a consequence of this deletion, the AT-rich regions proximal to the promoters were lost. This suggests that the AT-rich regions are important for promoter strength.     

Trapping, loss and annihilation of excitations in a photosynthetic system: II. Experiments with the purple bacteria Rhodospirillum rubrum and Rhodopseudomonas capsulata

In this paper a number of experiments with the purple bacteria Rhodospirillum rubrum and Rhodopseudomonas capsulata is described in which the total fluorescence yield and/or the total fraction of reaction centers closed after a picosecond laser pulse were measured as a function of the pulse intensity. The conditions were such that the reaction centers were either all in the open or all in the closed state before the pulse arrived. These experiments are analysed using the theoretical formalism discussed in the preceding paper (Den Hollander, W.T.F., Bakker J.G.C., and Van Grondelle, R., Biochim. Biophys. Acta 725, 492–507). From the experimental results the number of connected photosynthetic units, λ, the rate of energy transfer between neighboring antenna molecules, k_h, and the rate of trapping by an open reaction center, k^o_t, can be estimated. For R. rubrum it is found that λ = 14−17, k_h = (1−2)·10¹² s⁻¹ and k^o_t = (4−6)·10¹¹ s⁻¹, for Rps. capsulata λ ≈ 30, k_h ≈ 4·10¹¹ s⁻¹ and k^o_t ≈ 3·10¹¹ s⁻¹. The findings are discussed in terms of current models for the structure of the antenna and the kinetic properties of the decay processes occurring in these purple bacteria.     

Cloning and characterization of femA and femB from Staphylococcus epidermidis

A DNA fragment was identified and cloned from Staphylococcus epidermidis (Se) using femA from S. aureus (Sa) as a heterologous hybridization probe. DNA sequence analysis of a portion of this clone revealed two complete ORFs highly related to femA and femB of Sa. The genomic arrangement of the Se femA/B complex was nearly identical to that observed in Sa. Intra- and interspecies relatedness of these genes and conservation of genomic organization were consistent with gene duplication of one of these genes in an ancestral organism. Recombinant FEMA, produced in Escherichia coli (Ec), was purified to near homogeneity. Identity of the purified protein was verified by N-terminal amino acid (aa) sequence analysis.     

The tyrosyl-tRNA synthetase from Escherichia coli: Complete nucleotide sequence of the structural gene

The structural component of the tyrS gene of Escherichia coli, comprising 1269 base pairs, has been fully sequenced by the combined M13/dideoxychain termination approach. The gene has a codon usage pattern which is typical of highly expressed proteins and similar to other Escherichia coli aminoacyl-tRNA synthetase genes. Peptide purification and sequencing has been used to locate the N-terminus and to provide confirmation of 95% of the translated protein sequence. This latter yields on M_r of 47 403 for the Escherichia coli tyrosyl-tRNA synthetase, and reveals considerable homology with the primary structure of the analogous enzyme isolated from Bacillus staerothermophilus.     

Bacillussubtilis holo-cytochrome c-550 can be synthesised in aerobic Escherichia coli

Bacillus subtilis membrane-bound holo-cytochrome c-550 was found to be expressed from the structural gene cloned on a plasmid vector in aerobically grown Escherichia coli and exhibited normal biochemical properties. This occurs despite the lack of endogenous eytochrome c and suggests that eytochrome c-heme lyase activity is also present in aerobic E. coli. The membrane topology of B. subtilis eytochrome c-550 was studied using fusions to alkaline phosphatase (PhoA). The results show that the heme domain (at least when fused to PhoA) can be translocated as apo-cytochrome and confirm that the N-terminal part of the cytochrome functions as both export signal and membrane anchor for the C-tenninal heme domain. A model for the organisation of B. subtilis cytochrome c-550 in the cytoplasmic membrane is presented.     

Ester production in E. coli and C. acetobutylicum

Genetic engineering has improved the product yield of a variety of compounds by overexpressing, inactivating, or introducing new genes in microbial systems. The production of flavor-enhancing ester compounds is an emerging area of heterologous gene expression for desired product yield in Escherichia coli. Isoamyl acetate, butyl acetate, ethyl acetate, and butyl butyrate are reported here to be produced by expressing Saccharomyces cerevisiae genes ATF1 or ATF2 and the strawberry gene SAAT in E. coli when the appropriate substrates are provided. Increasing the concentration of alcohol added to the reaction generally resulted in increased ester production. ATF1 expression was found to produce more isoamyl acetate and butyl acetate than ATF2 expression or SAAT expression in the strains and culture conditions examined. Additionally, SAAT expression resulted in greater isoamyl acetate and butyl acetate production than ATF2 expression. Butyl butyrate is produced by cell-free extracts of E. coli harboring SAAT but not ATF1 or ATF2.