The control region of the F sex factor DNA transfer cistrons: Physical mapping by deletion analysis

Summary A technique has been developed which allows the isolation of random deletions extending from unique restriction enzyme sites in plasmid DNA molecules. The method involves transformation of E. coli cells with linear plasmid DNAs generated by restriction enzyme cleavage. We have used this technique to map DNA transfer genes in the tra control region of F sex factor DNA. Deletions within EcoRI fragment f6 of F DNA have been isolated and used to assign physical locations to tra genes by a combination of genetic complementation tests, restriction enzyme analysis, DNA heteroduplexing and the analysis of the proteins synthesised in minicells and in vitro. Deletion analysis has also allowed the identification of the traK gene product.     

Cloning and analysis of pif, replication and leading regions of the F plasmid

Summary We describe the molecular cloning of BglII fragments of the hybrid plasmid pRS5 (pSC101 and EcoRI fragments of F; f7, f5, f3 and f6). The clones isolated were examined for the expression of F-specified replication, incompatibility, mobilization and inhibition of T7 bacteriophage multiplication. Proteins directed by the BglII clones were labelled in Escherichia coli K12 maxicells and analyzed by SDS-polyacrylamide gel electrophoresis. The sizes of previously reported proteins, encoded by the replication, incompatibility and leading regions encompassed by these plasmids have been confirmed in this study. In addition, the results demonstrate that a pif gene, which encodes an 80,000 dalton polypeptide essential for the inhibition T7 phage multiplication, is located on the BglII fragment that spans the junction of EcoRI fragments f7 and f5.     

BglII identifies a frequent biallelic DNA polymorphism of the human RT6 gene

A genomic probe of the human RT6 gene detects a frequent biallelic BglII polymorphism. Allele A has a frequency of 63%, whereas that of allele B is 37%. This restriction fragment length polymorphism provides the first known genetic marker for this gene.     

Restriction Fragment Length Polymorphism Analysis of the Mitochondrial DNA of Fusarium oxysporum f. sp. ciceris

Seven isolates of Fusarium oxysporum f. sp. ciceris, representing pathogenic races 1 , 2, 3, and 4 from India and 0, 5, and 6 from Spain, were assayed for restriction fragment length polymorphisms (RFLPs) in the mitochondrial DNA,(mt DNA). The mt DNA fraction of total fungal DNA was purified and digested with the restriction endonucleases Bam HI, Bgl II, Eco RI. Kpn I, Sac I, Sal I, Sma I, and Xho I. The mt DNA is a circular molecule of 40.5 kb. No RFLP in the mt DNA was detected among the seven races of F. o. ciceris. The identical restriction patterns of mt DNA indicates an extensive conservation in the gene composition of mt DNA without sequence variation, and suggests that mt DNA of F. o. ciceris may not be responsible for pathogenic diversity. The restriction map of mt DNA from the race 6 isolate Fo 8272 was constructed by digestion of the mt DNA with five restriction enzymes: Eco RI, Kpn I, Sac I, Sal I, and Xho I, either singly or in selected pairs.     

A myeloblastin/proteinase-3 cDNA clone identifies a BglII and a PvuII restriction fragment length polymorphism

A myeloblastin/proteinase-3 (MBN/PR-3) cDNA probe detects two bi-allelic (BglII, PvuII) DNA polymorphisms. These restriction fragment length polymorphisms provide new genetic markers on chromosome 19.     

Insertion of a genetic marker into the ribosomal DNA of yeast

Plasmid pBR322 carrying the yeast LEU2+ gene transforms leu⁻ yeast into LEU+ at a low frequency by integration at homologous chromosomal DNA. When one-half of the yeast rDNA repeat unit (BglII-A) is inserted into the plasmid, the frequency of yeast transformation increases 100- to 200-fold, in proportion to the increased amount of homologous repetitive rDNA available for integration. When the other half of the repeat unit (BglII-B) is inserted into the plasmid, the transformation frequency increases by a factor of 10⁴, and the transformants are very unstable. It is likely that this fragment of rDNA contains a yeast origin of replication. This plasmid is a useful vector for cloning fragments of yeast DNA in yeast. We have used the LEU2+ gene, inserted into the rDNA locus, as a genetic marker for mapping the rDNA, in a procedure analogous to the use of antibiotic resistance transposons in the mapping of bacterial genes. Yeast ribosomal DNA is on chromosome XII between asp5 and ura4 as determined by mitotic linkage. Genetic analysis of markers inserted at the rDNA locus should be a useful tool for studying the conservation of sequence homology and the conservation of copy number of repeated genes.     

Cyanelle DNA from Cyanophora paradoxa

Summary Cyanelles which have been found in few eukaryotic organisms are photosynthetically active organelles which strikingly resemble cyanobacteria. The complexity of the cyanelle genome in Cyanophora paradoxa (127 Kbp) is too low to consider them as independent organisms in a symbiotic relationship. In order to correlate cyanelle genome and gene structure with those of plastid chromosomes of other plants, a circular map of the cyanelle DNA from Cyanophora paradoxa (strain LB555 UTEX) has been constructed using the restriction endonucleases SalI (generating 6 DNA fragments), BamHI (6), SalI (5), XhoI (9), and BglII (19).Besides the rRNA genes (16S, 23S, 5S), genes for 14 proteins have been located on this circular map. Among those are components of several multienzyme complexes involved in photosynthetic electron transport, as well as the large subunit of ribulose-1,5-bisphosphate carboxylase and two ribosomal proteins. All the probes used, were derived from a collection of spinach chloroplast DNA clones. Hybridization experiments showed signals to DNA fragments primarily from the large single-copy region of cyanelle DNA. The arrangement of genes on cyanelle DNA is different from that on spinach chloroplast DNA. However, genes which have been shown to be cotranscribed in spinach chloroplasts are also clustered on cyanelle DNA.Abbreviations Kbp 10³ base pairs - Rubisco ribulose-1,5-bisphosphate carboxylase/oxygenase holoenzyme     

A physical map of the permuted genome of bacteriophage T1

Summary A restriction map has been constructed for the DNA of coliphage T1 which locates the cleavage sites of the restriction endonucleases, BglI (6 cuts), BglII (16 cuts), EcoRI (2 cuts), HindIII (2 cuts) and PstI (2 cuts). Digestions with BglI and BglII reveal fragments which are present in sub-molar quantities. Two methods, one using the selective removal of molecular ends with exonuclease III and the other involving the comparison of digestion patterns of concatemeric and virion DNA, have shown that the submolar fragments are at or close to the ends of the molecules. Digestions with BglI show that one terminal fragment has a very precise molecular weight whereas all the others are of heterogenous molecular weight. These results are consistent with the model for DNA packaging in which maturation is initiated at a precise site on a concatemeric precursor and proceeds by the encapsidation of up to four successive headfuls of 1.065 genome equivalents (MacHattie and Gill 1977).     

Plasmid replication functions

Summary Replicating DNA molecules of the mini R6-5 plasmid, pKTO71, were purified by equilibrium centrifugation in two successive ethidium bromide-caesium chloride gradients, converted to linear forms by cleavage with either HindIII or BglII restriction endonuclease, and examined in the electron microscope. Determination of the replication fork positions in 65 replicating molecules demonstrated that replication is initiated at a unique location on the plasmid and that it proceeds uni-directionally from this site. The direction of replication is such that the origin-proximal BglII cleavage site is replicated late or, in the case of the parent R6-5 plasmid, is such that the R-determinant region of the molecule is replicated early. The origin of replication, located by these experiments at R6-5 coordinate 98.6 kb, is clearly distinct from that of the R6-5 incompatibility determinant which has been shown to be located on an adjacent PstI-generated DNA fragment whose termini have R6-5 coordinates 96.8 and 97.9 kb. This result indicates that the incompatibility function is not an origin DNA sequence.     

A specific marker,pat, for studying the fate of introduced bacteria and their DNA in soil using a combination of detection techniques

A specific eucaryotic DNA marker from Solanum tuberosum cv Bintje (688 bp patatin cDNA fragment) was cloned into the unique HindIII-site of plasmid RP4. RP4:: pat was transferred from Escherichia coli to Pseudomonas fluorescens R2f by filter mating.Homology to pat was not detected in the microbial population of Ede loamy sand soil, nor in that of the rhizosphere of wheat growing in this soil, as evidenced by colony filter hybridization. More sensitive molecular detection techniques like most-probable-number recovery/hybridization analysis, and analysis of total community DNA from soil by polymerase chain reaction (PCR) amplification did not reveal the presence of the pat sequence either. P. fluorescens R2f (RP4:: pat), introduced into sterile soil extract microcosms, initially showed poor survival and plasmid loss, after which the introduced populations grew and stabilized at a level of about Log₁₀ 7 cfu per mL. Between 25 and 50% of the population maintained the plasmid, as evidenced by filter hybridization of colonies from non-selective agar plates using the pat fragment as probe.Introduced R2f (RP4:: pat) could be recovered from soil microcosms using selective plating followed by colony hybridization and MPN recovery/hybridization with the pat probe. The presence of the pat marker always coincided with the presence of the resistance genes on RP4:: pat, indicating pat was an adequate marker of the presence of this plasmid. In addition, it adequately described the population dynamics of the introduced strain in soil, since no loss of the plasmid occurred.Hybridization to pat was also useful to show transfer of plasmid RP4:: pat to a recipient strain in soil; transfer to indigenous bacteria was not detected.Analysis by slot-blot hybridization of total community DNA extracted from inoculated soils indicated about Log₁₀ 6 cfu per g of dry soil were still detectable. Application of the PCR on this DNA indicated pat was detectable at least at a level of Log₁₀ 4 immunofluorescence-detectable cells per g of dry soil. Thus extraction of total community DNA followed by PCR permitted the detection of genetically engineered microorganisms present in soil as non-culturable cells.     

Size and organization of a multigene family encoding phaseolin, the major seed storage protein of Phaseolus vulgaris L.

Summary Solution hybridization kinetics and genomic nitrocellulose blot hybridization analyses show that the Phaseolus vulgaris L. (French bean) storage proteins (phaseolins) are encoded as a small, homologous, multigene family consisting of approximately seven members. Restriction endonuclease site mapping (EcoRI, BamHI, and BglII) of DNA regions flanking the phaseolin genes has shown that the gene family can be divided into at least three characteristic fragment size classes. Clones representative of two of these phaseolin gene classes have been isolated from a 1059 phage library.     

Analysis of a polymorphic region of the Euglena gracilis chloroplast genome

The circular chloroplast genome of Euglena gracilis is known to carry a single region of variable length (polymorphic region) located on BglII·Z fragments (6.1–6.9 kbp). We now have cloned a BglII·Z fragment (6.35 kbp) using as vector a modified pBR322. The cloned BglIl·Z fragment is split by HindIII into fragments of 1.0, 2.6 and 2.75 kbp and by HaeIII into fragments of 0.05, 1.35 and 4.95 kbp, respectively. The zone of variable length on this BglIl·Z fragment can be confined to a BglII-HindIII fragment of 2.6 kbp which is next to the previously mapped BglIl·G₁ (4.7 kbp) and about 4.5 kbp away from the 5′ end of the ‘extra’ 16 S rRNA gene. Two HindIII fragments from the polymorphic region of 5.9 and 6.1 kbp, respectively, were cloned and used in electron microscopic studies. Heteroduplexes formed between the two cloned HindIII fragments show the expected size difference of about 200 bp. Single strand reannealing experiments allow us to place the polymorphic region between two previously mapped short inverted repeats and partial DNA melting experiments indicate that the polymorphic region is very rich in dA-dT.     

Mitochondrial DNA from Podospora anserina

Summary EcoRI fragments of the 94 kilobase mitochondrial DNA (mtDNA) from young, wild type Podospora anserina were cloned into the EcoRI site of the E. coli plasmid vector pBR325. A complete EcoRI clone bank was developed, containing all 16 of the EcoRI fragments from the native mtDNA. Restriction endonuclease maps for the enzymes SalI, XhoI, BamHI, EcoRI, BglII, and HaeIII were constructed from the analysis of single, double, and triple restriction digests of cloned and native mtDNA. In constructing the maps data were refined by extensive Southern analysis of the native genome hybridized to cloned DNA probes. Restriction maps were analyzed and permitted us to locate the origin of mtDNA derived from senescent cultures.Both the large and small rRNA genes were then localized on these restriction maps using Southern and Northern blot analysis. We have shown the large rRNA locus to lie within a 10.8 kb region of EcoRI fragments E5 and E7, and the small rRNA locus to lie on a 5 kb subfragment of EcoRI fragment E1. The limit of separation between these two loci was determined to be between 6 and 9 kb.Surprisingly, when electrophoresed in agarose-CH₃HgOH gels, the large rRNA was found to be 3.8 kb long, 500 bases longer than that from the very closely related Neurospora crassa, making it the largest rRNA yet described.     

Vicia faba chloroplast DNA has only one set of ribosomal RNA genes as shown by partial denaturation mapping and R-loop analysis

Summary Broad-bean (Vicia faba) chloroplast DNA (cpDNA) was isolated and characterized. The intact DNA is circular and has a molecular weight of 79.8x 10⁶ dalton. Electron microscopic analysis of self-annealed intact single-strand circles show that it does not have a large double-stranded inverse repeat as seen in spinach chloroplast DNA. Only one ribosomal RNA gene (one set of 16S and 23S rRNA sequences) was found in preparations of R-loops between the Vicia rRNA and cpDNA circles. A restriction enzyme map for SalI and KpnI was derived by comparing the partial denaturation pattern of the fragments with the pattern of the intact circle. The map was confirmed by gel analysis. The ribosomal RNA gene was localized on the SalI fragment 3b by R-loop analysis. SalI fragment 1a although it contains a G-C rich region did not form R-loops with rRNA. Partial denaturation patterns of spinach cpDNA circles and BglI fragments were determined and from this the position of the fragments mapped. This confirmed the reliability of these methods for the arrangement of restriction enzyme fragments along circular molecules. The structures of the two cpDNAs were compared.     

Cloning and characterization of hydrogenase genes from Azotobacter chroococcum

Summary Genomic DNA from Azotobacter chroococcum was shown by DNA hybridization to contain sequences homologous to Rhizobium japonicum H₂-uptake (hup) hydrogenase genes carried on the plasmid pHU1. Two recombinant cosmid clones, pACD101 and pACD102, were isolated from a gene library of A. chroococcum by colony hybridization and physically mapped. Each contained approximately 42 kb of insert DNA with approximately 27 kb of overlapping DNA. Further hybridization studies using three fragments from pHU1 (6 kb HindIII, 6.4 kb BglII and 5 kb EcoRI) showed that the hup-specific regions of R. japonicum and A. chroococcum are probably highly conserved. Weak homology to the hydrogenase structural genes from Desulfovibrio vulgaris (Hildenborough) was also observed. A 24 kb BamHI fragment from pACD102 subcloned into a broad host-range vector restored hydrogenase activity to several Hup^- mutants of A. chroococcum.     

A restriction enzyme cleavage map of the histidine utilization (hut) genes of Klebsiella aerogenes and deletions lacking regions of hut DNA

Summary The histidine utilization (hut) operons of Klebsiella aerogenes were cloned into pBR322. The hut genes are wholly contained on a 7.9 kilobase pair fragment bounded by HindIII restriction sites and expression of hut is independent of the orientation of the fragment with respect to pBR322. A restriction map locating the 27 cleavage sites within hut for the enzymes, HindIII, PvuII, SalI, BglII, KpnI, PstI, SmaI, AvaI, and BamHI was deduced. Several of the cleavage sites for the enzymes HaeIII and HinfI were also mapped. A set of deletion plasmids was isolated by removing various restriction fragments from the original plasmid. These deletions were characterized and were used to assist in mapping restriction sites. This physical characterization of hut DNA opens the way for genetic and molecular analysis of the regulation of hut gene expression in vitro as well as in vivo.     

Isolation and characterization of plasmid DNA fromRuminococcus

A method has been developed, utilizing mutanolysin and proteinase K, for the rapid lysis of strains of the rumen cellulolytic bacteriumRuminococcus. This has enabled bacterial chromosomal and plasmid DNA to be isolated. A small cryptic plasmid has been identified inRuminococcus flavefaciens strain 186. It is 5.2 kb long, contains a singleBamHI site, and two sites forBglII,EcoRI, andHindIII. This plasmid has potential in the development of genetic vectors for rumen bacteria.     

Human pepsinogen A (PGA): an informative gene complex located at 11q13

Summary Human pepsinogen (PGA) exhibits extensive polymorphism that can be detected both at the protein and the DNA level. We describe here two restriction fragment length polymorphisms, EcoRI and BglII, which provide for the detection of three of the most common PGA haplotypes (A, B, and C) in the United States population. The relationship of these polymorphisms to each PGA haplotype was determined by analysis of DNA from individuals exhibiting the corresponding protein phenotypes and by analysis of a series of human × mouse somatic cell hybrids containing the individual chromosome 11 homologous from heterozygous individuals exhibiting the AB and AC protein phenotypes. The use of the BglII polymorphism in combination with previously described EcoRI polymorphism provides a very informative marker of 11q13.     

Lack of a BglII site at the 5′ region of the PGK 1 locus: a new variant discovered in two Chibchan Amerindian groups from Costa Rica

A new 3.8-kb allele at the 5 region of the PGK 1 locus detected by the probe pSPT/PGK is reported. This variant was discovered in the Cabecar and Guaymi, two Chibchan Amerindian groups of Costa Rica. So far, a polymorphism that consists of an EcoRI/BglI (1.3-kb) variable site within an EcoRI/BglII (1.7-kb) fragment when DNA is simultaneously digested with EcoRI, BglI and BglII is known to occur in black and Caucasian populations. These two alleles were also found in the Amerindians tested. The newly described band is due to the lack of the BglII site situated 1.7 kb downstream from the EcoRI site and to the cleavage of another BglII site 2.1 kb downstream from the lacking one. This variant might be restricted to some Amerindian groups and perhaps also to Asiatic populations. Thus, it could be a useful marker in evolutive studies and for forensic applications. Moreover, the presence of a third allele in populations with Amerindian ancestry can increase the heterozygosity of the region disclosed by the pSPT/PGK probe, thus improving its application in issues dealing with X-chromosome activation ratios in females.