Long-term results after resection of hepatocellular carcinoma: experience of 480 cases

We have investigated the use of dU excision by uracil N-glycosylase (UDG) to create cohesive ends on PCR fragments "mimicking" those generated by restriction enzymes. The feasibility of this approach for directional and nondirectional cloning using cohesive ends mimicking SacI or PstI ends is demonstrated by the subcloning of a 383 to 388-bp fragment of bovine basic fibroblast growth factor into restriction enzyme-linearized pT7T318U. UDG-mediated cohesive ends imperfectly matched to PstI-generated vector ends gave reasonable cloning efficiency and accuracy, suggesting that the approach may be extended to mimicry of other restriction enzymes producing 3' overhangs. The rapid and specific excision of dU by UDG (within 30 min at 37 degrees C) has several potential advantages over the use of restriction site-modified primers, including the avoidance of restriction cleavage at internal sites within the PCR product. Also, following ligation, the approach described may be used to prevent subsequent cleavage of the joined DNA segments by the restriction enzyme, that is, by not recreating the restriction enzyme recognition sequence at the junction, which may find application in gene engineering. By adapting the approach to use dU-containing linkers or "vectorettes," the approach may be used for cloning unknown sequences (e.g., by cDNA or genomic library construction) or for mimicking 5' overhang cohesive ends on PCR fragments.     

Physical and genetic map of the mitochondrial genome of Cryphonectria parasitica Ep155

In the chestnut-blight fungus, Cryphonectria parasitica, a cytoplasmically transmissible (infectious) form of hypovirulence is associated with mitochondrial DNA (mtDNA) mutations that cause respiratory deficiencies. To facilitate the characterization of such mutations, a restriction map including the probable location of 13 genes was constructed for a relatively well-characterized virulent strain of the fungus, Ep155. The physical map is based on the order of all fragments generated by cleavage of the mtDNA by the PstI restriction endonuclease and includes some of the cleavage sites for HindIII, EcoRI, and XbaI. It was constructed from hybridization patterns of cloned mtDNA fragments with Southern blots of mtDNA digested with the four restriction enzymes. On this map, the probable locations of genes commonly found in the mitochondrial genomes of ascomycetes were determined by low-stringency hybridization of cloned Neurospora crassa mitochondrial gene probes to Southern blots of C. parasitica mtDNA. The data indicate that the mtDNA of strain Ep155 is a circular molecule of approximately 157 kbp and ranks among the largest mitochondrial chromosomes observed so far in fungi. The mtDNAs of 11 different C. parasitica isolates range in size from 135 to 157 kbp and in relatedness from 68 to 100 percent, as estimated from restriction-fragment polymorphisms. In addition to the typical mtDNA, the mitochondria of some isolates of the fungus contain double-stranded DNA plasmids consisting of nucleotide sequences not represented in the mtDNA of Ep155.     

Systematic comparison of gene expression through analysis of cDNA fragments within or near to the protein-coding region

Life is controlled by the timely and ordered expression of genes. Identification of important genes involved in specific physiological and pathological conditions requires efficient methods to analyse differential gene expression. We describe a novel strategy, namely complete comparison of gene expression (CCGE), for a systematic assessment of differentially expressed genes. Using the CCGE method, double-stranded cDNA is digested with two restriction enzymes that cut with different frequencies, the representative cDNA fragments are generated within or near to the protein-coding region. After being flanked by two different types of adapters, and amplified by a nested suppression PCR, the selected cDNA fragments, representing entire cDNA population, can be divided into 256 subsets; amplified and compared in a systematic manner.     

Integrated map of the Schizosaccharomyces pombe genome

A restriction map of the entire Schizosaccharomyces pombe genome was constructed using two restriction enzymes (BamHI and PstI) that recognize 6 bp. The restriction map contains 420 minimally overlapping clones (miniset) and has 22 gaps. We located 126 genes, marker fragments of DNA (NotI and SfiI linking clones), and 36 transposable elements by hybridization to unique restriction fragments.     

Changes of telomere lengths in human intracranial tumours

The termini of human chromosomes comprise stretches of G-rich repeats that are about 5-20 kilobase (kb) in length. The size of the telomeres can be determined by hybridization with probes specific for these (ttaggg)n sequences after digestion of chromosomal DNA with appropriate restriction enzymes and electrophoretic separation of the fragments. Here, probing with the 32P-labelled synthetic (TTAGGG)3 oligonucleotide revealed length changes of the telomeres occurring in intracranial tumours. Among 60 samples, analysed, 41.7% showed telomere elongation, and 21.7% telomere reduction, whereas 36.7% of the tumours exhibited equal lengths compared with the patients' peripheral blood leukocytes. Most of the elongated glioma telomeres exceeded in length those of untransformed astrocytes derived from human fetal tissue.     

Construction of two near-kilobase resolution restriction maps of the 5' regulatory region of the human apolipoprotein B gene by quantitative DNA fiber mapping (QDFM)

Quantitative DNA fiber mapping (QDFM) is a high-resolution technique for physical mapping of DNA. The method is based on hybridization of fluorescently labeled DNA probes to individual DNA molecules stretched on a chemically modified glass surface. We now demonstrate and validate a rapid QDFM-based approach for the mapping of multiple restriction sites and precise localization of restriction fragments in large genomic clones. Restriction fragments of a 70-kb P1 clone (P1-70) containing the 5' region of the human apolipo-protein B gene (APOB) were subcloned and mapped along straightened P1-70 DNA molecules. Multicolor fluorescence in situ hybridization (FISH) and digital image analysis allowed us to rapidly position 29 restriction fragments, ranging in size from 0.5 kb to 8 kb, and to map 43 restriction sites. The restriction map obtained by QDFM was in excellent agreement with information obtained by RecA-assisted restriction endonuclease (RARE) cleavage, long-range PCR, and DNA sequence analyses of the P1-70 clone. These data demonstrate that QDFM is a rapid, reliable method for detailed restriction site-mapping of large DNA clones.     

Interstitial telomeric repeats within the Arabidopsis thaliana genome

A highly systematic, non-cloning method of distinguishing and isolating every fragment in a class-IIS or interrupted palindrome restriction digest has been developed in our laboratory. These enzymes produce informative, non-identical cohesive ends which can be selectively modified by ligation to individual synthetic oligodeoxyribonucleotides with the corresponding complementary ends. In this way, polymerase chain reaction and sequencing primer sites and labels can be introduced specifically into a single fragment in a total genomic digest. Known and unknown fragments from genomes of the complexity of Escherichia coli can be isolated directly in sequencable form without the necessity of synthesizing unique primers. Human DNA has also been assessed in this way. Problems intrinsic to cloning (selective fragment loss, mutation and sequence rearrangement) are avoided. Systematic characterization of DNA fragments by their cohesive ends and length provides tremendous power and flexibility for analysis of any DNA molecule without specific clones, probes or libraries. We report proof of principle of this remarkable system and indicate potential applications in DNA sequence tagged site and restriction mapping, sequencing, restriction-fragment-length polymorphism analysis and DNA diagnostics.     

REP-PCR fragments as biomarkers for differentiating gastroduodenal disease-specific Helicobacter pylori strains

We previously identified four potential putative gastroduodenal disease fragments by using the interspersed repetitive extragenic palindromic DNA sequence based PCR (REP-PCR) technique. We investigated these fragments with regard to their disease specificity. The putative disease-specific REP-PCR fragments were cloned, mapped by restriction enzymes, cross-hybridized, and confirmed by Southern hybridization. The four fragments were also used as probes against REP-PCR amplicons from H. pylori isolates obtained from gastritis (N = 20), duodenal ulcer (N = 30), and gastric cancer patients (N = 30). Three of these fragments (1.4- and 0.76-kb for gastritis; 1.35 kb for duodenal ulcer) were amplified without any discrimination between any disease-specific H. pylori isolates. However, amplification following hybridization with the fourth 0.81-kb fragment was observed only from gastritis (60%) and duodenal ulcer (52%) but with none (0%) of gastric cancer patients. Nucleotide sequence analysis of the 0.81-kb fragment revealed that it was an open reading frame of the hypothetical protein HP0373 matched to the position of 380,966 to 383,068 nucleotides of the H. pylori complete genome sequence. Hence, the REP-PCR sequence was not a extragenic palindromic DNA sequence. The hypothetical protein was also present in all the tested isolates. The REP-PCR fingerprinting technique is useful to differentiate disease-specific H. pylori strains based on the interspersed repetitive extragenic palindromic DNA sequences; however, it may not be useful to identify disease-specific virulence determinant(s) without being confirmed by DNA sequence analysis and functional studies.     

A physical map of two clusters containing the genes for six proinflammatory receptors

The genes encoding for six receptors involved in the proinflammatory response lie on different chromosomes. Two receptors for N-formylpeptides (FPR1, FPR2), one homologue of these (FPRL2), and the receptor for complement fragment C5a (C5aR) are encoded by four genes mapped to human chromosome 19. The genes encoding two receptors for Interleukin-8 (IL8RA, IL8RB) have been located on human chromosome 2. In this report we describe the physical linkage between these genes in two different clusters. DNA fragments obtained by digestion with several restriction enzymes were separated by pulsed field gel electrophoresis. Nylon filters were hybridized with probes corresponding to the complete translated sequences of these genes. These probes were obtained from a human neutrophil cDNA-library. The four genes on chromosome 19 are contained in a 200 kilobase (kb) fragment. Both Interleukin-8 receptors are on a 150 kb fragment. The complete translated sequences for these genes were amplified from genomic DNA, indicating that they are contained in a single exon.     

Restriction map of the 125-kilobase plasmid of Bacillus thuringiensis subsp. israelensis carrying the genes that encode delta-endotoxins active against mosquito larvae

A large plasmid containing all delta-endotoxin genes was isolated from Bacillus thuringiensis subsp. israelensis; restricted by BamHI, EcoRI, HindIII, KpnI, PstI, SacI, and SalI; and cloned as appropriate libraries in Escherichia coli. The libraries were screened for inserts containing recognition sites for BamHI, SacI, and SalI. Each was labeled with 32P and hybridized to Southern blots of gels with fragments generated by cleaving the plasmid with several restriction endonucleases, to align at least two fragments of the relevant enzymes. All nine BamHI fragments and all eight SacI fragments were mapped in two overlapping linkage groups (with total sizes of about 76 and 56 kb, respectively). The homology observed between some fragments is apparently a consequence of the presence of transposons and repeated insertion sequences. Four delta-endotoxin genes (cryIVB-D and cytA) and two genes for regulatory polypeptides (of 19 and 20 kDa) were localized on a 21-kb stretch of the plasmid; without cytA, they are placed on a single BamHI fragment. This convergence enables subcloning of delta-endotoxin genes (excluding cryIVA, localized on the other linkage group) as an intact natural fragment.     

Saccharomyces species assignment by long range ribotyping

Type strains of 10 genotypically distinct Saccharomyces species are differentiated by ribosomal DNA restriction fragment analysis (ribotyping). The full length of the chromosomal ribosomal repeat was amplified in two parts, the 18SrDNA including both ITS region (2600 bp) and the 25SrDNA (3300 bp). Restriction fragments generated by 9 enzymes from these two products yield characteristic patterns, by which unknown Saccharomyces isolates are assigned to the type strains. For convenient separation and detection only fragments longer than 200 bp were monitored. In contrast to molecular differentiation methods of highest resolution as RAPD-PCR or fingerprinting, the results from ribotyping are absolutely reproducible and thereby suitable for databases. The phylogeny computed from the discrete character matrix for presence/absence of fragments by the PHYLIP program package is in complete accordance to the phylogeny derived from ribosomal RNA sequence analysis. By this the field of application of the long range ribotyping can be regarded basically as equal to DNA sequence analysis of the same locus. Because distant relationships are recognized, misidentified genera were detected upon the species assignment. This cannot be done by methods of higher resolution like RAPD-PCR or fingerprinting.     

A deleted retroviral insertion at the ev21-K complex locus in Indonesian chickens

Very poor feather development has been observed in chickens of the Nunukan strain, originating from Indonesia. The wing of the newly hatched chick does not show any primary or covert feathers; this phenotype will be referred to as very-late feathering (VLF). As adults, chickens are feathered but tail feathers are short and fragile. An experimental population was set up at the National Institute of Agronomic Research (INRA), Jouy-en-Josas, from one Nunukan male and four Nunukan females. Preliminary observations did not support the hypothesis of a sex-linked dominant mode of inheritance for the VLF phenotype. A restriction fragment length polymorphism (RFLP) study using five restriction enzymes and two probes, RAV-2 and endogenous virus (ev) ev21-int specific for the endogenous viral locus ALVE21, showed the presence of the expected 3' junction fragments for the ev21 occupied site but failed to reveal the expected 5' junction fragments for ev21 in Nunukan chickens. The unoccupied site corresponded to the ev21 unoccupied repeat (UR) of type a (URa). A deletion in the 5' region of the provirus and of the insertion site was indicated by the RFLP analysis and confirmed by a PCR study. Primers were designed in order to amplify a 5' junction fragment specific to the modified ev21 found in the Nunukan chickens. The sequence of this amplified product showed that the deletion started 652 bp upstream of the insertion site of ev21 and ended within the pol gene of the viral genome. This deletion represents a new allele, OSD, at the ev21 insertion site (locus ALVE21), that appears insufficient to produce a complete virus. Current data do not show a clear causal relationship between OSD and the VLF phenotype. The presence of OSD may be required but is not in itself sufficient to obtain the VLF phenotype. The genetic relationships between OSD and the altered feathering phenotype of Nunukan chickens will be investigated further in families segregating for the VLF phenotype, using the locus-specific PCR test developed as part of this study.     

Restriction map of a 35-kb HLA fragment constructed by nested deletion 'drop-out' mapping

An efficient method for generating detailed restriction maps of large cloned DNA segments is demonstrated. The mapping strategy entails comparing restriction fragments from a parent clone and from nested deletion derivatives of that clone. In a set of deletion plasmids of decreasing size, an individual fragment will be lost, or 'drop-out', according to its position in the cloned fragment. In this demonstration, nested deletions were generated in both directions in a 35-kb DNA segment from the human leukocyte antigen (HLA) region by intramolecular transposition of an engineered gamma delta (Tn1000) element present in a special 'deletion factory' cloning vector [Wang et al., Proc. Natl. Acad. Sci. USA 90 (1993) 7874-7878]. Fifteen plasmids with deletions extending in one direction and eleven plasmids with deletions extending in the opposite direction were digested singly by each of four restriction enzymes. A total of 36 cleavage sites were mapped in the 35-kb HLA fragment. This drop-out approach using nested deletions provides a simple and efficient means of mapping restriction sites, genes and other features of interest in cosmid-sized cloned DNA segments or DNAs.     

Adenovirus transcription. IV. Synthesis of viral-specific RNA in human cells infected with temperature-sensitive mutants of adenovirus 5

Cytoplasmic RNA sequences produced in HeLa cells infected with the adeno-virus 5 temperature-sensitive mutants ts1, ts2, ts9, ts17, ts18, ts19, ts20, ts22, ts49, ts36, and ts125 were characterized by hybridization to DNA probes generated by strand separation of restriction endonuclease fragments of adenovirus 5 DNA. Two "early' mutants defective in DNA synthesis, ts125 and ts36, fail to make wild-type levels of all previously reported classes of late RNA at the nonpermissive temperature. At 40.5 degrees C, both ts125 and ts36 synthesize a wild-type complement of early cytoplasmic RNA 16 h after infection. Under these conditions, no "late' cytoplasmic RNA sequences were observed. Similarly, nuclear RNA present in these cells resembled early cytoplasmic RNA rather than late nuclear RNA. All the late adenovirus 5 temperature-sensitive mutants synthesized normal wild-type levels of late cytoplasmic RNA at the nonpermissive temperature, except ts2, which appears to overproduce certain cytoplasmic species.     

College students'' attitudes and knowledge of AIDS

Specialized cells within the aphid, Schizaphis graminum, contain intracellular, vesicle-enclosed eubacterial endosymbionts (Buchnera aphidicola). Using oligonucleotide probes derived from conserved sequences of the ATP synthase beta-subunit and glyceraldehyde-3-phosphate dehydrogenase, and the polymerase chain reaction (PCR), we have amplified, cloned, and sequenced three DNA fragments. Amino acid sequence similarity indicated that two of these fragments corresponded to endosymbiont and host genes potentially coding for the beta-subunit of ATP synthase. The host gene fragment contained two putative introns. The third DNA fragment corresponded to a portion of a gene coding for a glyceraldehyde-3-phosphate dehydrogenase that was highly related to one of the enzymes from Escherichia coli (GapA). These results indicate that B. aphidicola may have an ATP synthase and consequently could synthesize ATP from a proton motive force generated within the intracellular vesicles of host cells containing the endosymbionts. The detection of a gene fragment coding for a protein similar to glyceraldehyde-3-phosphate dehydrogenase suggests the presence of this glycolytic enzyme in the endosymbiont and its involvement in energy-yielding metabolism.     

Genetic investigations in immigration cases and frequencies of DNA fragments of the VNTR systems D2S44, D5S43, D7S21, D7S22, and D12S11 in Turks

We have included investigations of the DNA polymorphism of variable numbers of tandem repeat (VNTR) regions with restriction fragment length polymorphism (RFLP) in the genetic evaluations in immigrant cases. HinfI-digested DNA was separated by electrophoresis in agarose gels and hybridized with radiolabelled probes detecting the VNTR systems D2S44 (YNH24), D5S43 (MS8), D7S21 (MS31), D7S22 (g3), and D12S11 (MS43a). We used the matching criterion for paternity testing for the parent/child comparisons, i.e. non-match if the intra gel difference exceeded 1.25 mm. A total of 43 immigration cases involving mainly Turks were investigated with DNA technique in parallel with investigations of 10-15 conventional systems. One man was excluded from paternity by both conventional and DNA investigations. Non-exclusion was observed with both conventional and DNA systems in 97 putative mother/child pairs and in 96 putative father/child pairs. In a putative father/child combination with non-exclusion in 18 genetic systems, a single genetic inconsistency ('exclusion') in D7S21 (MS31) was observed. The frequency distributions of HinfI digested DNA fragments of the five VNTR systems in 105 Turks are presented.     

Physical and genetic map of the Pasteurella multocida A:1 chromosome

A physical and genetic map of the Pasteurella multocida A:1 genome was generated by using the restriction enzymes ApaI, CeuI, and NotI. The positions of 23 restriction sites and 32 genes, including 5 rrn operons, were localized on the 2.35-Mbp single circular chromosome. This report presents the first genetic and physical map for this genus.     

DNA sequence analysis of Prinker-modified restriction fragments after collection from capillary electrophoresis with replaceable matrices

This paper demonstrates the procedure of sequencing DNA restriction fragments isolated by a recently developed fraction collector after CE separation. In particular, using pBr 322 plasmid as a model system, a double digest was performed with Eco RI and Pst 1 restriction enzymes to produce two fragments of 749 base pairs (bp) and 3612 bp, both with cohesive ends. Prinkers, specific linkers complementary to the cohesive ends, were then ligated to both fragments (increasing the size by 59 bp each). These Prinker-modified fragments were separated by CE and collected. The success of the collection was demonstrated by reinjection of each isolated fraction with laser-induced fluorescence detection, using ethidium bromide as intercalater. The 808 bp isolated fragment was then polymerase chain reaction-amplified with appropriate primers for the Prinker ends, followed by cycle sequencing. Both strands of the fragment were run on an ABI 373, sequencing 427 bases and 450 bases, respectively, with a read accuracy of 99.3%. This approach with Prinker-modified restriction fragment and automated CE fraction collection can be used as a general procedure for sequencing unknown genomic DNA as well as mutated DNA mixtures.     

A novel method for producing partial restriction digestion of DNA fragments by PCR with 5-methyl-CTP

Partial digestion of DNA fragments is a standard procedure for subcloning analysis and for generating restriction maps. We have developed a novel method to generate a partial digestion for any DNA fragment that can be amplified by PCR. The method involves the incorporation of 5-methyl-dCTP into the PCR product to protect most of the restriction sites. As a result, complete digestion of the modified PCR products with a 5-methyl-dCTP-sensitive enzyme will produce an array of restriction fragments equivalent to a partial restriction enzyme digestion reaction done on unmethylated PCR products. This method reduces the time and material needed to produce partially-digested DNA fragments by traditional methods. Furthermore, using fluorescein-labeled primers in the reaction, we were able to detect the fluorescein-labeled end fragments resulting from the enzyme digestion using a fluorimager or anti-fluorescein-AP antibody and thus determine the restriction maps.     

Influence of age and low afterload on the stress-velocity relation of the left ventricle

Lactobacillus sake strains originally isolated from dry-fermented sausages were characterized by phenotypic and genotypic methods, including DNA-DNA hybridization, restriction fragment length polymorphism (RFLP), and 16S rDNA sequencing analysis, in order to establish their taxonomic position and relation to well defined reference species. Initially, isolates of Lact. sake showing a characteristic phenotype (melibiose-positive, maltose- and arabinose-negative) were identified by DNA-DNA hybridization. Subsequently, RFLP studies using EcoRI and HindIII as restriction enzymes, and cDNA from Escherichia coli or 16S rDNA from Lact. sake strains as probes, showed distinct polymorphism levels. Thus, EcoRI-digested DNA probed with cDNA from E. coli disclosed the presence of a unique cluster for the meat isolates tested, allowing their differentiation from the reference type strain. When HindIII-digested DNA was hybridized with the cDNA probe, strain-specific patterns were obtained, showing a higher discrimination power. Considerable strain differentiation was also observed when EcoRI and HindIII digests were hybridized with 16S rDNA probes. Finally, sequence analysis of the 16S rDNA from one isolate also revealed a certain degree of genetic variability with respect to the reference strain of Lact. sake.