Cloning and characterization of small circular DNA from Chinese hamster ovary cells.

Small polydisperse circular (spc) DNA was isolated and cloned, using BglII from Chinese hamster ovary (CHO) cells. The properties of 47 clones containing at least 43 different BglII fragments are reported. The majority of the clones probably contain entire sequences from individual spcDNA molecules. Most of the clones were homologous to sequences in CHO cell chromosomal DNA, and many were also homologous to mouse LMTK- cell chromosomal sequences. The majority of homologous CHO cell chromosomal sequences were repetitive, although a few may be single copy. Only a small fraction of cloned spcDNA molecules were present in every cell; most occurred less frequently than once in 15 cells. Localization studies indicated that at least a portion of spcDNA is associated with the nucleus in CHO cells.

Small circular DNA of Drosophila melanogaster: chromosomal homology and kinetic complexity.

Nucleic acid reassociation techniques were used to determine the kinetic complexity of small circular DNA in cultured cells of Drosophila melanogaster. Two kinetic components are present. One of these constitutes 82% of the mass of the circular DNA and has a complexity of 1.8 x 10(4) nucleotide pairs; the other constitutes 18% of the mass and the a significantly higher but undefined sequence complexity. We have demonstrated that these circular molecules hybridize to middle repetitive chromosomal sequences by hybridization of in vitro-labeled circular DNA tracer with a vast excess of Drosophila chromosomal DNA. Thermal stability measurements indicate that base-pair mismatch between small circular DNA and middle repetitive chromosomal DNA does not exceed 2%. We discuss possible functions of these small circular DNAs in light of the above findings.

Multiple mechanisms generate extrachromosomal circular DNA in Chinese hamster ovary cells.

Seven cloned small circular DNA molecules from CHO cells were sequenced and examined for the presence of homologies to each other and to a number of other functional sequences present in transposable elements, retroviruses, mammalian repeat sequences, and introns. The sequences of the CHO cell circular DNA molecules did not reveal common structural features that could explain their presence in the circular DNA population. A gene bank was constructed for CHO chromosomal DNA and sequences homologous to two of the seven small circular DNA molecules were isolated and sequenced. The nucleotide sequences present at the junction of circular and chromosomal DNA suggest that a recombination process involving homologous pairing may have been involved in the generation of one, but not the other, of the two circular DNA molecules.

Small circular deoxyribonucleic acid of Drosophila melanogaster: homologous transcripts in the nucleus and cytoplasm.

We have recently characterized small circular DNA of Drosophila cultured cells in terms of its average size, sequence complexity, and homology to intermediate repetitive DNA. We show here that transcripts homologous to small circular DNA are present in various RNA fractions. Nuclear poly(A+), nuclear poly(A-), and polysomal poly(A+) RNA drive 10, 7, and 20%, respectively, of in vitro labeled small circular DNA tracer into hybrid. Sequences complementary to small circular DNA are at least 10-fold more concentrated in nuclear poly(A+) RNA than in nuclear poly(A-) or polysomal poly(A+) RNA. We do not detect significant homology between poly(A-) cytoplasmic RNA and small circular DNA. Assuming that only the least complex component of small circular DNA is driven into hybrid and that transcription is asymmetric, we use the results obtained here and previously published data to calculate the sequence complexity and relative concentration of nuclear poly(A+), nuclear poly(A-), and polysomal poly(A+) RNA homologous to small circular DNA.

Suppression of the ndv mutant phenotype of Rhizobium meliloti by cloned exo genes.

The ndvA and ndvB genes of Rhizobium meliloti are involved in the export and synthesis, respectively, of the small cyclic polysaccharide beta(1,2)glucan. We have previously shown that spontaneous symbiotic pseudorevertants of ndv mutants do not produce periplasmic beta(1,2)glucan. Here we show that the pseudorevertants also do not produce extracellular beta(1,2)glucan, but do show alterations in the amount of the major acidic exopolysaccharide produced. This exopolysaccharide is not detectably different from that produced by the wild type or by the ndv mutants. A cosmid which suppresses the symbiotic defect of both ndvA and ndvB mutants was isolated from a gene bank prepared from DNA of an ndvA pseudorevertant. This cosmid contains a number of exo genes, including exoH and exoF. Subcloning and Tn5 mutagenesis were used to show that the widely separated exoH and exoF genes are both involved in suppression of the ndv mutant phenotype and that the 3.5 kb DNA fragment which contains the exoH gene does not carry the mutation responsible for second site suppression.

The ndvA gene product of Rhizobium meliloti is required for beta-(1----2)glucan production and has homology to the ATP-binding export protein HlyB.

The ndvA locus of Rhizobium meliloti is homologous to and can substitute for the chvA locus of Agrobacterium tumefaciens. We have previously shown that an ndvA mutant exhibited reduced motility and formed small, white, empty nodules on alfalfa roots. Here we show that this ndvA mutant is defective in the production of the cyclic extracellular polysaccharide beta-(1----2)glucan, even though a 235,000-dalton protein intermediate, known to be involved in the synthesis of this molecule, is present and active in vitro. The DNA sequence of the ndvA locus revealed a single large open reading frame encoding a 67,100-dalton protein that was homologous to a number of bacterial ATP-binding transport proteins. The greatest degree of relatedness was seen with Escherichia coli HlyB, a protein involved in the export of hemolysin, and with the mdr gene product of mammalian cells, which is also homologous to HlyB and thought to be involved in export. Based on the overall symbiotic phenotype of ndvA mutants, the extensive homology between NdvA and HlyB, the fact that ndvA mutants retained an active 235,000-dalton membrane intermediate, and the absence of extracellular beta-(1----2)glucan, we propose that NdvA is involved in export of beta-(1----2)glucan from the cell and that this process is fundamentally important for normal alfalfa nodule development.

The ndvB locus of Rhizobium meliloti encodes a 319-kDa protein involved in the production of beta-(1----2)-glucan.

The ndvB locus of Rhizobium meliloti was sequenced and found to encode a 319-kDa protein involved in the production of beta-(1----2)-glucan. Transposon Tn5 mutagenesis revealed that a large portion of the downstream half of this gene is not essential for symbiosis but is required for optimal production of beta-(1----2)-glucan. A high molecular weight inner membrane protein, believed to be the ndvB gene product, was absent from two different upstream ndvB::Tn5 mutants. This protein could be labeled in vitro with UDP-[U-14C]glucose in the wild type but not in the symbiotically defective mutants. Inner membrane preparations from the symbiotically competent downstream mutants labeled less well than did those from wild type with UDP-[U-14C] glucose and did not show distinct bands after polyacrylamide gel electrophoresis and fluorography, suggesting that C-terminal truncations of NdvB might affect the stability of this molecule. These downstream mutants had reduced amounts of periplasmic beta-(1----2)-glucan and exhibited several vegetative defects seen also in the upstream mutants. These included alterations in phage and antibiotic sensitivity, in motility, and in growth in low osmolarity media. Bacteroids produced by two of the downstream mutants were morphologically abnormal, indicating that ndvB is involved not only in invasion but also in bacteroid development.

Common regulatory elements control symbiotic and microaerobic induction of nifA in Rhizobium meliloti.

We have previously demonstrated that the nifA promoter (nifAp) of Rhizobium meliloti is inducible under microaerobic conditions in the absence of alfalfa. Here we show that microaerobic activation of nifAp involves both cis- and trans-acting regulatory controls identical to those used symbiotically. The start site for nifA mRNA synthesis was found to be the same during symbiosis and microaerobiosis, and a deletion analysis of nifAp demonstrated that DNA between positions -62 and -45 is essential for induction. Mutants isolated as being unable to induce nifA microaerobically also were found to be defective in symbiotic nitrogen fixation with alfalfa. Such mutants form nodules that are equivalent cytologically to those induced by nifA::Tn5 mutants. Genetic and structural studies have localized the mutations to a cluster of fix genes 200 kilobases distant from the nod-nif region on the pSym megaplasmid [Renalier, M.-H., Batut, J., Ghai, J., Terzaghi, B., Gherardi, M., David, M., Garnerone, A.-M., Vasse, J., Truchet, G., Huguet, T. & Boistard, P. (1987) J. Bacteriol. 169, 2231-2238].