The sequence of the distal end of the E. coli ribosomal RNA rrnE operon indicates conserved features are shared by rrn operons

Linkage map of Escherichia coli K-12, edition 10: the traditional map

This map is an update of the edition 9 map by Berlyn et al. (M. K. B. Berlyn, K. B. Low, and K. E. Rudd, p. 1715-1902, in F. C. Neidhardt et al., ed., Escherichia coli and Salmonella: cellular and molecular biology, 2nd ed., vol. 2, 1996). It uses coordinates established by the completed sequence, expressed as 100 minutes for the entire circular map, and adds new genes discovered and established since 1996 and eliminates those shown to correspond to other known genes. The latter are included as synonyms. An alphabetical list of genes showing map location, synonyms, the protein or RNA product of the gene, phenotypes of mutants, and reference citations is provided. In addition to genes known to correspond to gene sequences, other genes, often older, that are described by phenotype and older mapping techniques and that have not been correlated with sequences are included.

Physical mapping of the scattered methionine genes on the Escherichia coli chromosome

Methionine is an important amino acid which acts not only as a substrate for protein elongation but also as the initiator of protein synthesis. The genes of the met regulon, which consists of 10 biosynthetic genes (metA, metB, metC, metE, metF, metH, metK, metL, metQ, and metX), two regulatory genes (metJ and metR), and the methionyl tRNA synthetase gene (metG), are scattered throughout the chromosome. The only linked genes are metK and metX at 63.6 min, metE and metR at 86.3 min, and the metJBLF gene cluster at 89 min. metBL form the only met operon.

Determination of oligonucleotide composition from mass spectrometrically measured molecular weight

Extensive calculations for molecular mass versus subunit composition have been made for oligonucleotides from RNA and DNA to determine the extent to which base compositions might be derived from mass spectrometrically determined molecular weights. In the absence of compositional constraints (e.g., any numbers of A, U, G, C), measurement of molecular weight leads to only modest restrictions in allowable number of base compositions; however, if the compositional value for any one residue is known, such as from selective chemical modification or enzymatic cleavage, the number of allowable base compositions becomes unexpectedly low. For example, hydrolysis of RNA by ribonuclease T1 produces oligonucleotides for which G=1, for which all base compositions can be uniquely specified up to the 14-mer level, solely by measurement of mass to within ±0,01%. The effects of methylation, phosphorylation state of nucleotide termini, and knowledge of chain length on the determination of subunit composition are discussed.

Analysis of the complex transcription termination region of the Escherichia coli rrnB gene

The complex terminator region of the Escherichia coli rrnB gene was analyzed by subcloning the terminators T1 and T2 and the inverted repeats IR1 and IR2 individually, or in various combinations, in a normal or inverted orientation into a terminator probe vector. The in vivo terminating efficiency was assayed by measuring the galactokinase activity encoded by the downstream galK gene. Termination efficiencies of all fragments were compared in two constructs, differing in the presence or absence of readthrough translation over the investigated terminator signal. The following main conclusions were drawn. (a) T1 and T2 are both efficient terminators in isolated forms. (b) IR1 and IR2 have some terminating effect (much lower than the proper terminators), especially in the inverted orientation. Their presence modifies the effect of the proper terminators in a quite unpredictable way, especially if these regions are translated. (c) The terminators are not symmetrical; in the inverted orientation T1 is practically inactive and T2 termination is reduced. (d) Translation radically decreases the efficiency of the terminators. (e) Several sequences in the rrnB gene, upstream of the terminator region (one in the 16S RNA and one in the 5S RNA coding region), are very efficient in vivo terminators in the inverted orientation.

Escherichia coli kgtP encodes an alpha-ketoglutarate transporter

The witA gene located between pss and rrnG on the Escherichia coli chromosome encodes a 432-amino acid protein. It is homologous to a human hepatoma glucose transporter and to E. coli membrane proteins that transport citrate (CitA), arabinose (AraE), and xylose (XylE), and, like these carrier proteins, WitA also contains 12 highly hydrophobic putative membrane-spanning regions. Gene disruption mutants constructed in two E. coli strains grew slowly or not at all, depending on genetic background, in M9 minimal medium containing alpha-ketoglutarate. Growth on alpha-ketoglutarate and uptake of alpha-[14C]ketoglutarate were restored by transformation with plasmids containing witA. These complementation studies indicate that WitA is an alpha-ketoglutarate transporter and should be renamed kgtP(alpha-ketoglutarate permease).

Transcriptional termination sequence at the end of the Escherichia coli ribosomal RNA G operon: complex terminators and antitermination

We have examined the termination region sequence of the rrnG operon and have observed its properties in vivo using a fusion plasmid test system. Transcription of rrnG terminator fragments was also studied in vitro. We found that termination of rrnG transcription is a complex process controlled by a tandem Rho-independent and Rho-dependent terminator arrangement which we designate rrnG-tt'. Together, these two elements were 98% efficient at terminating transcription initiated at the rrnG-P2 promoter. When the two elements were separated, however, we found that the Rho-independent structure was only 59% efficient while the Rho-dependent fragment alone could account for total transcriptional termination of the tandem arrangement. The rrnG termination region was resistant to rrn antitermination and, therefore, possesses some means of stopping antiterminated transcription. The distal rrnG sequence contains several additional noteworthy features; the rrnGt' fragment contains a REP (repetitive extragenic palindromic) sequence and homology with a small unidentified reading frame following rrnE. This sequence is followed by witA, which is homologous to a citrate transport gene, citB. Finally, our sequence, obtained from plasmid pLC23-30, contains a Tn1000 insertion that is absent from the E. coli chromosome. This insertion lies 975 bp beyond the 5S gene and is not involved in the termination events examined in this study.

Overproduction and characterization of the iclR gene product of Escherichia coli K-12 and comparison with that of Salmonella typhimurium LT2

The iclR gene of Escherichia coli K-12, which encodes a regulatory protein (repressor) for the aceBAK operon, is located between that operon and metH in the 91-min region of the chromosome. The iclR gene was cloned and expressed in a coupled T7 RNA polymerase/promoter system and the gene product was identified by specific binding to a fragment containing the aceBAK operator region. The iclR gene product is a polypeptide of 274 amino acids (aa) with a calculated Mr of 29,741. Comparison of the deduced IclR aa sequence to that of Salmonella typhimurium revealed that the two IclR repressors exhibit 89% identity. A possible helix-turn-helix motif characteristic of DNA-binding proteins was found within the IclR sequence. A search in protein data banks revealed that IclR has a score of similarity of 43.7% with GylR, a transcriptional regulator of the glycerol operon of Streptomyces coelicolor.

Characterization of Mycobacterium paratuberculosis and organisms of the Mycobacterium avium complex by restriction polymorphism of the rRNA gene region

Nineteen Mycobacterium paratuberculosis strains, including strains of bovine, caprine, ovine, cervid, subhuman primate, and human origins, were compared with organisms of the M. avium complex by restriction fragment length polymorphism with a 5S rRNA gene probe as the reference DNA. Mycobacterial DNA was extracted, digested with several restriction enzymes, subjected to electrophoresis and Southern blotting, and then hybridized with a 5S rRNA gene probe from Escherichia coli. Hybridizing bands were visualized by autoradiography, and the sizes of the resulting rRNA fragments in kilobases were determined. Base substitutions were calculated on the basis of the number of shared fragments between species and strains. It was determined that M. paratuberculosis and the M. avium complex possess a single copy of the rRNA genes within their genomes and that the M. avium complex and M. paratuberculosis are a group of closely related organisms, likely with a common ancestral link. In proximity to the 5S rRNA gene exists a region or regions which display polymorphisms that are capable of species and subspecies differentiation. M. paratuberculosis strains isolated from humans, subhuman primates, and animals were found to be genetically identical to each other. M. paratuberculosis strains lacked the genetic heterogeneity (restriction fragment length polymorphisms) characteristic of most species, suggesting that this organism has unidirectional genetic selection. It is therefore assumed to be biologically isolated, occupying a unique and specific biological niche. This homogeneity was present in all strains, including those of animal and primate (subhuman and human) origin and strains isolated from different parts of the world.

The 9S RNA precursor of Escherichia coli 5S RNA has three structural domains: implications for processing

The secondary structure of the 9S RNA precursor to ribosomal 5S RNA in Escherichia coli has been determined using chemical reagents and ribonucleases in combination with a reverse transcription procedure. The 9S RNA precursor was generated in vitro by T7 RNA polymerase, and the rrnB operon terminator, T1, was able to terminate the in vitro transcript. The secondary structure model exhibits three structural domains corresponding to a 5' region, a mature region and a terminator region. The mature domain is structurally identical to 5S RNA, and the ribosomal proteins L18 and L25 are able to bind to the precursor. The processing endoribonuclease RNase E cleaves between the structural domains. Moreover, an intramolecular refolding of the nascent transcript must take place if the current view of RNase III processing stems is correct.

Structure of the DNA distal to the gene for ribosomal protein S20 in Escherichia coli K12: presence of a strong terminator and an IS1 element

The sequence of nucleotides extending over 2.3 kb distal to the gene for ribosomal protein S20 of E. coli has been determined. Included in the sequence is an efficient rho-independent terminator 50 b.p. distal to the coding sequence for S20, a complete copy of IS1 which lacks, however, flanking direct repeats, and finally, an open reading frame capable of encoding a 28 kDa polypeptide of unknown function. Several lines of evidence suggest that the IS1 sequence described here must represent one of the copies resident in the bacterial chromosome rather than a newly transposed copy. Northern blotting experiments show that the gene for S20 is functionally monocistronic under all conditions tested in several genetic backgrounds. Thus it seems unlikely that the distal copy of IS1 plays any role in the termination or stability of mRNA transcribed from the gene for S20.

Spheroplastic phase of mycobacteria isolated from patients with Crohn's disease

Two strains of an unclassified Mycobacterium species were isolated after 18 and 30 months of incubation of media inoculated with resected intestinal tissues from patients with Crohn's disease. These strains represented the third and fourth isolates of this organism from Crohn's disease patients. Ultrastructural examination of this strain and two previously isolated strains revealed the presence of spheroplasts which eventually transformed into the bacillary form of a previously unrecognized Mycobacterium species. These cell wall-deficient forms did not stain with conventional dyes and failed to grow on hypertonic media. Restriction polymorphism of the ribosomal DNA genes was used to determine the relationship between the cell wall-deficient and bacillary forms. Identical restriction patterns of the ribosomal DNA genes were found between the spheroplasts and Mycobacterium sp. isolates with EcoRI, BamHI, and XhoI restriction endonucleases, thus providing definitive evidence of their origin. Unidentified spheroplasts were isolated from an additional 12 patients with Crohn's disease, of which 7 of 10 seroagglutinated with antiserum prepared against the Mycobacterium sp. Spheroplasts were isolated from 16 of 26 (61%) patients with Crohn's disease but not from tissues of 13 patients with ulcerative colitis or 13 patients with other diseases of the bowel. These findings support the role of mycobacteria as etiologic agents in some cases of Crohn's disease.