The mechanism and pattern of banding induced by restriction endonucleases in human chromosomes

The mechanism of chromosome banding induced by restriction endonucleases was analyzed by measuring the amount of radioactivity extracted from [¹⁴C]thymidine-labeled chromosomes digested first with restriction enzymes and subsequently with proteinase K and DNase I. Restriction enzymes with a high frequency of recognition sites in the DNA produced a large number of short DNA fragments, which were extracted from chromosomes during incubation with the enzyme. This loss of DNA resulted in decreased chromosomal staining, which did not occur in regions resistant to restriction enzyme digestion and thus led to banding. Subsequent digestion of chromosomes with proteinase K produced a further loss of DNA, which probably corresponded to long fragments retained in the chromosome by the proteins of fixed chromatin. Restriction enzymes induce chromatin digestion and banding in G1 and metaphase chromosomes, and they induce digestion and the appearance of chromocenters in interphase nuclei. This suggests that the spatial organization and folding of the chromatin fibril plays little or no role in the mechanism of chromosome banding.It was confirmed that the pattern of chromosome banding induced by AluI, MboI, HaeIII, DdeI, RsaI, and HinfI is characteristic for each endonuclease. Moreover, several restriction banding polymorphisms that were not found by conventional C-banding were detected, indicating that there may be a range of variability in the frequency and distribution of restriction sites in homologous chromosome regions.     

Isolation and characterization of plasmid from the Bacillus brevis var. G.-B. cells

Summary The plasmid designated pAD1 was isolated from the cells of four variants of Bacillus brevis var. G.-B. The plasmid DNA has a molecular weight of about 47.1×10⁶ daltons and contains 43.4 mole % G+C. The bulk of pAD1 DNA (96–98%) is associated with the fraction of chromosome DNA and membranes.Restriction endonucleases SmaI, SalI and BamHI cleaved the plasmid DNA into two, two and six fragments, respectively. The cleavage map of the pAD1 genome has been constructed for these three endonucleases. Restriction enzymes EcoRI, HindIII, KpnI and PstI hydrolized the plasmid DNA into 16, 21, 10 and 9 fragments, respectively. The presence of repeated sequences in the plasmid genome was shown based on pAD1 DNA cleavage by these endonucleases.     

Mapping of BamHI and SmaI DNA restriction sites on the genome of the nuclear polyhedrosis virus of the alfalfa looper, Autographa californica

The DNA of the nuclear polyhedrosis virus of the alfalfa looper, Autographa californica (AcNPV), has been analyzed with restriction endonucleases BamHI and SmaI. The molecular weight of the BamHI fragments, SmaI fragments, and BamHI + SmaI fragments has been determined. The molecular weight of AcNPV DNA is calculated to be about 82 million. A presumptive physical map of the BamHI and SmaI restriction sites on the AcNPV genome has been constructed.     

Restriction endonuclease resistant chromatin in human chromosomes

Summary The recent addition of restriction endonucleases in obtaining selective bands in the human genome has added a new dimension to molecular genetics. However, a considerable discrepancy exists in banding patterns produced by AluI in chromosomes 19 and 20, by MboI in chromosomes 4, 5, 8, 21 and 22 and by RsaI in chromosomes 12, 21 and 22. The principal causes of these differences are highlighted.     

The Organization of rRNA Genes in Vicia faba

Vicia faba DNA was digested with restriction endonucleases andfractionated on 1% agarose gels. The physical map for EcoRI,BamHI and XbaI cleavage sites in V. faba cytosol rDNA was determinedusing the Southern blot hybridization technique. XbaI and BglIIdigestion or partial EcoRI digestion showed that the lengthof a major repeat unit of V. faba rDNA is 6.7 x 10⁶ daltons.EcoRI and BamHI cleaved this unit into two and five DNA fragments,respectively. (Received April 23, 1981; Accepted July 20, 1981)     

Localization of flagellin genes on the physical map of Methanococcus voltae

Methanococcus voltae DNA, digested individually with the restriction enzymes ApaI, SacII, BamHI, or EagI, was resolved by pulsed-field gel electrophoresis reproducing the previously published digestion patterns. Hybridization of a flagellin gene-specific probe to such gels dried down (unblots) resulted in the identification of one band per enzyme harboring the flagellin genes. These bands all overlapped, revealing that an approximately 15-kb BamHI/EagI DNA fragment should harbor the flagellin genes. Double digestion with BamHI and EagI resulted in the resolution of two bands in the 15-kb region of the gel. Separation of these two fragments prior to blotting and probing with a flagellar gene-specific probe revealed that one of these fragments possessed the flagellar sequences. The presence of an EagI restriction site in flaB3 localized the flagellin genes precisely at the junction of EagI fragments Ea2 and Ea5 at approximately the 1800-kb position of the physical map.     

Physical characterization of plasmids from Streptomyces kasugaensis MB273

Plasmid DNA of molecular weight 6.8 × 10⁶ was isolated from Streptomyces kasugaensis MB273. The plasmid DNA showed a single CsCl-ethidium bromide density gradient centrifugation, in neutral sucrose gradient centrifugation, and in agarose gel electrophoresis. When this DNA was digested with BamHI or SalI endonucleases, an unexpected number of fragments were found on agarose gel electrophoresis. Molecular weight summation of fragments obtained from double restriction enzyme digestions suggested that the plasmid DNA was a mixture of two different plasmids. This was confirmed by constructing recombinant plasmids between S. kasugaensis plasmid DNA and pBR322, and then by isolating two plasmids after SalI endonuclease treatment followed by sucrose gradient centrifugation. One of the plasmids (pSK1) had a single recognition site for BamHI, EcoRI, and SalI, and three sites for BglII. The other plasmid (pSK2) had a single recognition site for EcoRI and BglII, two recognition sites for BamHI, and no cleavage site for SalI. The cleavage maps of these plasmids were constructed using several restriction endonucleases.     

Defining the breakpoint of a multigene deletion in the immunoglobulin heavy chain gene cluster

The constant region of the human immunoglobulin heavy chain (IGHC) is encoded by a cluster of genes near the telomere of chromosome 14q. Deletions and duplications of single or multiple genes in the cluster have been identified, but little information about the breakpoint junctions has been available, in part due to the high degree of sequence similarity between the genes in this region. We report an intensive study of a homozygous deletion, using Southern hybridization and polymerase chain reaction techniques. We found that the deleted DNA includes the functional epsilon gene, and that the breakpoints are located within a 2 kilobase Bam HI/Sac I region of both the IGHEP1 and IGHE genes. These results revise a previous conclusion regarding the deleted region. Definition of breakpoints occuring within thh cluster may shed light on recombination mechanisms.     

Mucopolysaccharidosis IVA: structural gene alterations identified by Southern blot analysis and identification of racial differences

Ninety-six alleles (36 alleles of Japanese and 60 of Caucasian origin) from forty-eight patients with mucopolysaccharidosis IVA were investigated for structural gene alterations using Southern blot analysis. All patients had a previously demonstrated deficiency of N-acetylgalactosamine-6-sulfate-sulfatase and exhibited a wide spectrum of clinical severity. Initially, using the fulllength cDNA as a probe, five of 36 chromosomes from the Japanese patients revealed similar rearrangements with respect to DNA digested with BamHI, SacI, and XhoI. Subsequent analysis using seven genomic fragments, covering the entire gene, enhanced the detection of aberrant fragments produced by the above restriction enzymes. Conversely, the 60 chromosomes of Caucasian origin revealed no evidence of large structural rearrangements when analyzed by these methods. There was a statistically significant difference between the two populations (P < 0.01). A severely affected Japanese patient showed structural rearrangements on both chromosomes by means of BamHI blots. An 8.0-kb fragment and a highly polymorphic 7.0-kb to 11.0-kb fragment present in normal individuals disappeared and two aberrant fragments of 11.5 kb and 12.0 kb were observed. Three other Japanese patients also showed these two aberrant fragments, in addition to the normal fragment pattern, and were thus heterozygous for this rearrangement. Interpretation of Southern blots was difficult because of the complexity of polymorphic bands resulting from variable number of tandem repeat elements. However, by utilizing these aberrant fragments or polymorphic bands, carrier detection was effective, even in families with poorly characterized mutations. Hybridization with probe MG-A (5end genomic probe in intron 1) showed a 8.4-kb fragment in BamHI blots of one Japanese and one Caucasian patient; XhoI, SacI, and EcoRI blots were normal. Since this BamHI alteration was also observed in one normal control, it appears to be a rare nonpathological polymorphism.     

Ultrasound permeabilizes CHO cells for the endonucleases AluI and benzon nuclease

Ultrasound permeabilizes Chinese hamster ovary (CHO) cells for the endonucleases AluI and benzon nuclease which leads to the induction of chromosomal aberrations by these enzymes. A few aberrant cells were observed when trypsinized cells or adherent cells were exposed to the enzymes in the absence of ultrasound. Our data show that sonication can be used to introduce endonucleases into CHO cells. We further demonstrate that few cells can internalize endonucleases without previous permeabilization.     

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. Received: 21 November 1996; in revised form: 3 March 1997 / Accepted: 27 March 1997     

Chloroplast ribosomal RNA genes in Euglena gracilis exist as three clustered tandem repeats

Chloroplast ribosomal DNA from Euglena gracilis was partially purified, digested with restriction endonucleases BamHI or EcoRI and cloned into bacterial plasmids. Plasmids containing the ribosomal DNA were identified by their ability to hybridize to chloroplast ribosomal RNA and were physically mapped using restriction endonucleases BamHI, EcoRI, HindIII and HpaI. The nucleotide sequences coding for the 16S and the 23S chloroplast ribosomal RNAs were located on these plasmids by hybridizing the individual RNAs to denatured restriction endonuclease DNA fragments immobilized on nitrocellulose filters. Restriction endonuclease fragments from chloroplast DNA were analyzed in a similar fashion. These data permitted the localization on a BamHI map of the chloroplast DNA three tandemly arranged chloroplast ribosomal RNA genes. Each ribosomal RNA gene consisted of a 4.6 kilobase pair region coding for the 16S and 23S ribosomal RNAs and a 0.8 kilobase pair spacer region. The chloroplast ribosomal DNA represented 12% of the chloroplast DNA and is G + C rich.     

Physical mapping of BglII, BamHI, EcoRI, HindIII and PstI Restriction fragments of bacteriophage P1 DNA

Summary A cleavage map of bacteriophage P1 DNA was established by reciprocal double digestion with various restriction endonucleases. The enzymes used and, in parenthesis, the number of their cleavage sites on the P1clts genome are: PstI (1), HindIII (3), BglII (11), BamHI (14) and EcoRI (26). The relative order of the PstI, HindIII and BglII sites, as well as the order of 13 out of the 14 BamHI sites and of 17 out of the 26 EcoRI sites was determined. The P1 genome was divided into 100 map units and the PstI site was arbitrarily chosen as reference point at map unit 20.DNA packaging into phage heads starts preferentially at map unit 92 and it proceeds towards higher map units. The two inverted repeat sequences of P1 DNA map about at units 30 and 34.     

Physical characterization of the plasmid pON5300

Summary The antibiotic resistance plasmid Rldrd19Km-which has spontaneously lost its kanamycin resistance marker, and its derivative pON5300, were analysed using the restriction endonucleases SalI, BamHI, HindIII and EcoRI. The fragment patterns were compared with that of the Rldrd19 and the fragments responsible for kanamycin resistance were found to be missing in Rldrd19Km ^– and pON5300. In these plasmids a 7 Mg/mol EcoRI fragment was observed instead of the D (6.3 Mg/mol) fragment of Rldrd19. Further a new 6 Mg/mol EcoRI restriction fragment was observed in pON5300. Using double digestions it was shown that the new fragment does not carry restriction sites for HindIII, BamHI and SalI endonucleases. The non-homology of the analysed plasmid was proved electron microscopically by heteroduplex techniques. The possibility of amplification in the regulatory region for the expression of R-determinants in pON5300 is discussed.     

Ribosomal DNA variation in foxtail millet, Setaria italica (L.) P. Beauv., and a survey of variation from Europe and Asia

 Restriction fragment length polymorphism (RFLP) and the structure of ribosomal RNA genes (rDNA) were investigated in 117 landraces of foxtail millet, Setaria italica (L.) P. Beauv. Five RFLP phenotypes were found when the genomic DNA was digested with BamHI; these were named types I–V. Of these types I, II and III were the most frequent. Type I was mainly distributed in the temperature zone, type II in the Taiwan-Philippines Islands and type III in South Asia. Restriction mapping of the cloned rDNA and comparison with RFLP phenotypes showed that the different types originated from a polymorphism in the length within the intergenic spacer (IGS) and BamHI site changes within the IGS. Received: 28 August 1996 / Accepted: 28 February 1997     

Alu-splice PCR: a simple method to isolate exon-containing fragments from cloned human genomic DNA

We have developed a simple, straightforward procedure to isolate exons from cloned human genomic DNA. The method is PCR based and relies upon the conservation of splice-site sequences and the frequency of Alu repeat elements in the genome to capture coding sequences. We designed two different sets of primers: a primer from each end of the Alu element and primers with the 5′ or 3′ splice-site consensus sequences. Putative exons were amplified by PCR using YAC DNA as starting material. We applied Alu-splice PCR to two overlapping YACs, 72H9 and 860G11, from human chromosome 21. Sequence and northern analysis of 37 initial clones resulted in the identification of five novel exons. Received: 17 July 1997 / Accepted: 28 August 1997     

Restriction analysis of lambda EMBL3 background recombinants: occurrence of lambda phages carrying a head to tail oriented left arm DNA sequence

Summary Eight representative recombinant background clones of λEMBL3 were analysed usingKpnI,BamHI,SalI,EcoRI andHindIII digestion. We found that λEMBL3 carries its own left arm in theBamHI cloning site. In this way, recombinant molecules were found to be generated which can grow onEscherichia coli strain NM539. In all cases analysed, the left arm DNA was inserted in a head to tail orientation. Seven clones carried a restoredBamHI site at thecos site-BamHI site connection. In the region where the inserted left arm and the right arm were ligated,BamHI cloning produces a large palindromic sequence consisting of two polylinkers. ThisBamHI site was incompletely cleaved in all cases analysed. We assume that a part of the λ DNA molecule in this region shows a cruciform structure prohibiting recognition or cleavage of this site by restriction endonucleaseBamHI.     

Localization of the 5S rRNA genes and evidence for diversity in the 5S rDNA region of maize

The 5S rRNA genes of maize are located in the long arm of chromosome 2 (88% of the distance from the centromere to the end) and organized in a 320-bp repeat. Genomic blots of maize DNA digested with the restriction enzymes BamHI and MspI reveal ladders of bands in multiples of 320 bp. Analysis of 5S rDNA from genomic clones reveals that the ladders are due to both modification and divergence of the 5s rDNA nucleotide sequence.     

Spodoptera frugiperda Nuclear Polyhedrosis Virus Genome: Physical Maps for Restriction Endonucleases BamHI and HindIII

The physical map for the genome of Spodoptera frugiperda nuclear polyhedrosis virus was constructed for restriction endonucleases BamHI and HindIII. The ordering of the restriction fragments was accomplished by cross-blot hybridization of BamHI, HindIII, and EcoRI fragments. The alignment of the HindIII fragments within the BamHI map was achieved by double digestion with the two restriction endonucleases followed by cross-blot hybridization. The results showed that the viral genome consisted of mainly unique sequences. In addition, the circular nature of the viral genome was reaffirmed.     

Studies of viable T4 bacteriophage containing cytosine-substituted DNA (T4dC phage)

Summary Digestion of non-glucosylated and cytosine-substituted T4 phage (T4dC) DNA with SalI restriction endonuclease showed that the DNA had nine SalI-sensitive sites. There were eight SalI sites in DNA from a strain which had a deletion in the rII-denB-ndd region. The comparison of two digestion patterns indicated that one of the SalI-sensitive sites was present in the deleted region and that the SalI-F fragment (8.4x10⁶ daltons) was located adjacent to the SalI-C or SalI-D fragment (15.5x10⁶ daltons) on the T4 chromosome. The DNA gave no detectable cleavage product when digested with BamHI endonuclease alone, while, when digested successively with BamHI and SalI, the DNA yielded two new digestion products in place of one fragment formed by SalI alone. The BamHI-sensitive site was in the SalI-A fragment (25.2x10⁶ daltons). The usefulness of this information for making cleavage maps of T4 phage chromosome is discussed.