Isolation of a polymorphic DNA segment unique to human chromosome 7 by molecular cloning of hybrid cell DNA

DNA isolated from a rodent-human hybrid cell line containing human chromosomes 3, 7, 9, 10, 14 and 22 was cloned in the plasmid vector pAT153. Recombinant plasmids containing inserts of human origin were identified by colony hybridization to 32P-labelled human DNA under conditions in which only repetitive sequences interact. Single- and low-copy sequences were liberated from these plasmids by restriction endonuclease digestion and used as hybridization probes against human DNA and DNA isolated from a panel of Chinese hamster-human hybrids. One single-copy probe was shown to react with a genomic sequence unique to human chromosome 7 and to recognize an apparent restriction fragment size polymorphism in human DNA.     

Saturation of human chromosome 3 with unique sequence hybridization probes

We have generated chromosome 3-specific recombinant libraries in both lambda and cosmid cloning vectors starting with somatic cell hybrids (hamster/human) containing either an intact chromosome 3 or a chromosome 3 with an interstitial deletion removing 75% of long-arm sequences. The libraries contained between 2 X 10(5) and 5 X 10(6) independent recombinants. Approximately 2% of the recombinants in these libraries contain inserts of human DNA. These were identified by hybridizing the recombinants to radioactively labeled total human DNA. Over 2500 recombinants containing human DNA were isolated from these various libraries and DNA was prepared from each of them. This represents 80,000 kb of cloned chromosome 3 sequences. One-third of the DNAs were digested with EcoRI or HindIII, and fragments free of repetitive sequences were radioactively labeled using random hexanucleotide primers and tested as unique sequence hybridization probes. Over 6500 of the fragments were tested and of these 758 were unique sequence probes with minimal or no background hybridization. Their hybridization only to chromosome 3 was verified. These probes, which were derived from 452 independent recombinants, should provide an effective saturation of human chromosome 3.     

Isolation of clones on chromosome 7 that contain recognition sites for rare-cutting enzymes by oligonucleotide hybridization

Five G/C-containing oligonucleotides that include the recognition sequences of rare-cutting restriction enzymes have been used to isolate almost 100 different genomic segments from chromosome 7 that contain recognition sites for those enzymes. Hybridization and washing at 27 degrees C allow the use of 8-bp radiolabeled oligonucleotides to detect specific G/C-containing sequences in less than 1 ng of cloned DNA. This method was used to isolate 9 positive clones from 138 previously isolated single-copy probes from a flow-sorted chromosome 7 library. The specificity of the method was confirmed by showing that clones that gave positive hybridization signals also contained the corresponding restriction site. The oligonucleotides were also used to analyze approximately 12,000 kb of genomic sequence from a newly constructed chromosome 7 cosmid library that yielded 88 positive cosmids from 350 analyzed. The average distances between binding sites ranged from 200 to 690 kb and was independent of the number of CpG residues present in the oligonucleotide. Confirmation that clones containing restriction sites for these rare-cutting enzymes are located near genes was obtained by hybridization to RNA and cross-species DNA blots.     

Chromosomal localization of Sau3A repetitive DNA revealed by in situ hybridization

The Sau3A DNA family consists of unique alphoid human repetitive DNA which is prone to be excised from the chromosomes and exhibits restriction fragment length polymorphism. We studied the chromosomal localization of the DNA by in situ hybridization using cultured normal human lymphocytes. Under standard hybridization conditions, the sequence hybridized with the centromeric regions of chromosomes 1, 2, 4, 11, 15, 17, 18, 19 and X, but under high stringency hybridization conditions, it hybridized with the centromeric regions of chromosomes 1, 17 and X, and particularly chromosome 11. Based on these results, we discuss the evolutionary relationship among the sequences of the Sau3A DNA family.     

Functional consequences of haem orientational disorder in sperm-whale and yellow-fin-tuna myoglobins.

With the use of the isoschizomeric restriction endonucleases HpaII and MspI, we found that mouse tumour ornithine decarboxylase (ODC; EC 4.1.1.17) genes are extensively methylated. ODC genes in L1210 mouse leukaemia cells were apparently more methylated than in Ehrlich ascites carcinoma, as revealed by the use of HpaII endonuclease, yet the digestion of genomic DNA isolated from these two murine tumour cell lines with MspI, which cleaves at a CCGG sequence, also with internally methylated cytosine, resulted in an apparently identical restriction pattern. It is possible that the amplification of ODC genes in Ehrlich ascites-carcinoma cells in response to 2-difluoromethylornithine (DFMO) was associated with hypomethylation, or that less-methylated genes were amplified. A human myeloma (Sultan) cell line only revealed three separate hybridization signals when cleaved with HpaII. One of these signals was amplified under the pressure of DFMO. When cleaved with MspI, these three HpaII fragments disappeared and were replaced by a double signal of 2.3-2.4 kilobase-pairs (kbp) in size. The amplified ODC sequences in the Sultan myeloma cell line apparently originated from chromosome 2, as indicated by a unique hybridization signal in a 5.8 kbp HindIII fragment specific for the human ODC locus on chromosome 2. A comparison of different human cells, the Sultan myeloma, a lymphocytic B-cell leukaemia (Ball), normal mononuclear leucocytes and leucocytes obtained from leukaemia patients, revealed interesting differences in the methylation of ODC genes. The use of two restriction endonucleases (HpaII and CfoI), the cleavage site for both of which contains a CG sequence and which only cleave when cytosine is unmethylated, indicated that ODC genes in the lymphocytic leukaemia cells were much less methylated than those in the normal leucocytes or in the Sultan cells.     

Distribution of moderately repetitive sequences pTR5 and LF1 in Xq24-q28 human DNA and their use in assembling YAC contigs.

Xq24-q28 DNA, from a hamster/human hybrid cell containing only that portion of the human X chromosome, was found to contain 56 TaqI restriction fragments that hybridized to the moderately repetitive sequence pTR5. Using the pTR5 sequence as a probe in colony hybridization, 136 cognate yeast artificial chromosome (YAC) clones were detected among a collection of 820 containing about three genomic equivalents of the Xq24-q28 DNA. The YACs were then grouped into 48 contigs and single clones containing one or more of the TaqI fragments. Overlaps were confirmed both by fingerprinting YACs with AluI and L1 probes and by additional information. A less complete analysis was also carried out with a second moderately repetitive sequence, LF1, and some smaller contigs were merged into larger ones. Moderately repetitive sequences can thus be used as probes for multiple loci in single hybridization experiments and can help to organize and confirm YAC overlaps during the development of maps with long-range contiguity.     

Construction of replication-competent Herpesvirus saimiri deletion mutants

DNA fragments derived from the left end of Herpesvirus saimiri 11 L-DNA were cloned in Escherichia coli by using vector pBR322. Deletions were introduced within a cloned 7.4-kilobase-pair sequence by using restriction endonucleases that cut once or twice within this sequence. Permissive owl monkey kidney-cultured cells were transfected with parental strain 11 viral DNA plus cloned DNA with specific sequences deleted. By screening the progeny of these transfections with a limiting-dilution spot hybridization assay, we isolated recombinant viruses containing deletions in this region. A contiguous 4.5-kilobase-pair sequence representing 4.1% of the coding capacity of the virus was found to be unnecessary for virus replication in cultured cells. These deletion mutants will allow us to test whether sequences in this region are required for the lymphoma-inducing capacity of H. saimiri. These same procedures should also allow us to introduce foreign DNA sequences into this region for studying their expression.     

Site-specific mutagenesis method which completely excludes wild-type DNA from the transformants.

A highly efficient site-specific mutagenesis method has been devised to exclude wild-type DNA from incorporation into the transformed cells. Two complementary oligonucleotides, corresponding to a target sequence of a DNA molecule and containing an insertion mutation which created an endonuclease restriction site, were synthesized. By using the wild-type DNA molecule flanked by two restriction sites on each side of the target region as a template, the two oligonucleotide primers were extended, enriched, and isolated. The extended products, in turn, were used as templates in a polymerase chain reaction to obtain a mutagenized double-stranded DNA fragment which was conveniently cloned into plasmids by using the flanking restriction sites. Escherichia coli cells transformed by these plasmids were subject to large-scale analysis. One hundred percent of the transformants examined by colony hybridization, restriction enzyme analysis, and DNA sequencing were found to contain the mutant DNA sequence.     

Site-specific mutagenesis method which completely excludes wild-type DNA from the transformants.

A highly efficient site-specific mutagenesis method has been devised to exclude wild-type DNA from incorporation into the transformed cells. Two complementary oligonucleotides, corresponding to a target sequence of a DNA molecule and containing an insertion mutation which created an endonuclease restriction site, were synthesized. By using the wild-type DNA molecule flanked by two restriction sites on each side of the target region as a template, the two oligonucleotide primers were extended, enriched, and isolated. The extended products, in turn, were used as templates in a polymerase chain reaction to obtain a mutagenized double-stranded DNA fragment which was conveniently cloned into plasmids by using the flanking restriction sites. Escherichia coli cells transformed by these plasmids were subject to large-scale analysis. One hundred percent of the transformants examined by colony hybridization, restriction enzyme analysis, and DNA sequencing were found to contain the mutant DNA sequence.     

Isolation, chromosomal localization, and nucleotide sequence of the human HOX 1.4 homeobox

We have isolated a 14-kb DNA sequence containing a single homeobox from a low-stringency screen of a human genomic phage library by using heterologous homeobox sequences as probes. Chromosomal mapping of this clone using in situ hybridization to metaphase chromosomes and a panel of mouse x human somatic cell hybrids localized it to human chromosome 7p13-p15 in the region of the HOX 1 locus. We have sequenced the homeobox and show it has 100% identity to the deduced amino acid sequence of the mouse Hox-1.4 homeobox. We detect no restriction fragment length polymorphisms with the 14-kb clone, which is devoid of any moderately repetitive DNA sequences. This implies an inability of this region to tolerate change in sequence, consistent with a function highly conserved throughout evolution. The regions in the human genome where homeobox-containing loci reside share patterns of organization and sequence and have other gene loci in common, implying evolutionary constraints over these regions and providing clues on how they may have evolved.     

Enhanced transcription of genes of the intracisternal A particles and B2 elements in mouse tumors

A comparison of the expression of two mobile genetic elements A1 and B2 was studied in normal and tumor tissues. The A1 element is a chromosomal homolog of IAP genes, and B2 is a short ubiquitous repetitive sequences of the mouse genome. These sequences were earlier cloned in our laboratory and in this study were used as probes in hybridization experiments with RNA isolated from different mouse tumor and normal tissues. Both elements were efficiently transcribed in tumor cells. The level of expression of A1 sequences in tumors was 100-200 times higher than in normal tissues. The amount of B2 small cytoplasmic RNA significantly varied in different normal tissues. The content of this RNA was much higher in tumors. Closed circular DNA molecules containing IAP sequences were found in Ehrlich carcinoma cells. These DNA molecules are considered as intermediate forms of the mobile elements. The role of these mobile elements in the regulation of RNA expression and tumor progression is discussed.     

Libraries for each human chromosome, constructed from sorter-enriched chromosomes by using linker-adaptor PCR.

We describe here the production of complex libraries enriched in sequences from each human chromosome type, starting with only a few thousand sorter-purified chromosomes. In this procedure, DNA is extracted from the sorted chromosomes, digested to completion by using the frequently cutting restriction endonuclease Sau3A1, and ligated, on each end, to an adaptor oligonucleotide. These fragments are then amplified using PCR with a sequence homologous to the adaptor oligonucleotide as a primer. We have used this procedure to produce PCR libraries for each of the 24 human chromosomes. These libraries were characterized by gel electrophoresis and found to be composed of a continuum of sequences ranging in size from a few hundred to approximately 1,000 bp. The libraries, when used as probes for fluorescence in situ hybridization, stained the target chromosomes more or less continuously, even after PCR amplification for more than 200 cycles. These libraries are useful as hybridization probes to facilitate molecular cytogenetic studies and as sources of probes either for identification of polymorphic short tandemly repeated sequences or for development of sequence-tagged sites.     

Nucleotide Sequences of Long Terminal Repeats of the Human Endogenous Retroviruses (LTR HERV-K) on the Short Arm of Chromosome 7: Identification,Map Locations,and Transcriptional Activity

Six clones containing long terminal repeat (LTR) sequences of human endogenous retrovirus of the HERV-K family were found in the YAC library (1200 kb) of the short arm of human chromosome 7. The sequence sizes of the three clones corresponded to the full-size LTR (969 bp). The LTR localization was determined using FISH and verified by comparison with the GenBank database. All three DNA fragments containing solitary LTRs were transcribed in normal germline cells (testicular parenchyma tissue). The differences in the expression of these clones in the germline tumor cells (seminoma) were observed.     

Studies of He-T DNA sequences in the pericentric regions of Drosophila chromosomes

He-T DNA is a complex set of repeated DNA sequences with sharply defined locations in the polytene chromosomes of Drosophila melanogaster. He-T sequences are found only in the chromocenter and in the terminal (telomere) band on each chromosome arm. Both of these regions appear to be heterochromatic and He-T sequences are never detected in the euchromatic arms of the chromosomes (Young et al. 1983). In the study reported here, in situ hybridization to metaphase chromosomes was used to study the association of He-T DNA with heterochromatic regions that are under-replicated in polytene chromosomes. Although the metaphase Y chromosome appears to be uniformly heterochromatic, He-T DNA hybridization is concentrated in the pericentric region of both normal and deleted Y chromosomes. He-T DNA hybridization is also concentrated in the pericentric regions of the autosomes. Much lower levels of He-T sequences were found in pericentric regions of normal X chromosomes; however compound X chromosomes, constructed by exchanges involving Y chromosomes, had large amounts of He-T DNA, presumably residual Y sequences. The apparent co-localization of He-T sequences with satellite DNAs in pericentric heterochromatin of metaphase chromosomes contrasts with the segregation of satellite DNA to alpha heterochromatin while He-T sequences hybridize to beta heterochromatin in polytene nuclei. This comparison suggests that satellite sequences do not exist as a single block within each chromosome but have interspersed regions of other sequences, including He-T DNA. If this is so, we assume that the satellite DNA blocks must associate during polytenization, leaving the interspersed sequences looped out to form beta heterochromatin. DNA from D. melanogaster has many restriction fragments with homology to He-T sequences. Some of these fragments are found only on the Y. Two of the repeated He-T family restriction fragments are found entirely on the short arm of the Y, predominantly in the pericentric region. Under conditions of moderate stringency, a subset of He-T DNA sequences cross-hybridizes with DNA from D. simulans and D. miranda. In each species, a large fraction of the cross-hybridizing sequences is on the Y chromosome.     

Nucleotide sequences of long terminal repeats of the human endogenous retrovirus (LTR HERV-K) on the short arm of chromosome 7: identification,analysis and evaluation of transcriptional activity

Six clones containing long terminal repeat (LTR) sequences of human endogenous retrovirus of the HERV-K family were found in the YAC library (1200 kb) of the short arm of human chromosome 7. The sequence sizes of the three clones corresponded to the full-length LTR (969 bp). The LTR localization was determined using FISH and verified by comparison with the GenBank database. All three DNA fragments containing solitary LTRs were transcribed in normal germline cells (testicular parenchyma tissue). The differences in the expression of these clones in the germline tumor cells (seminoma) were observed.     

Structural organization of alpha-satellite DNA in a single monkey chromosome

The organization of α-satellite sequences in a single monkey chromosome has been studied by restriction endonuclease analysis and molecular cloning. A somatic cell hybrid containing the monkey chromosome was isolated by cloning after fusion of the mouse L-cell line B82 (thymidine kinase minus) with primary African green monkey kidney cells and selective growth in HAT medium. Unlike the mouse cells, the hybrid cells contain DNA that hybridizes with the α-satellite DNA of the monkey. The presence of a single α-satellite containing monkey chromosome was demonstrated by Giemsa-11 staining and by the absence of both this chromosome and monkey α-satellite DNA sequences in cells after back-selection in bromodeoxyuridine. Hybridization of restriction endonuclease-digested hybrid cell DNA with a cloned segment of African green monkey α-satellite DNA showed distinctly different patterns from those observed with monkey total DNA. In particular, EcoRI and HaeIII restriction endonuclease sites are much more abundant in the satellite sequences in the thymidine kinase-carrying chromosome than they are in total satellite. A library of hybrid DNA was constructed in a λ bacteriophage. Analyses of purified recombinant phage that hybridized with α-satellite also indicated an abundance of EcoRI and HaeIII sites. Of nine phage studied in detail, no two showed identical distributions of the two restriction sites in the α-satellite sequences, suggesting the independent evolution of different domains within the single chromosome. These results indicate that the thymidine kinase-carrying chromosome contains distinct subsets (domains) of the α-satellite DNA of the whole monkey genome and further, that while the satellite sequence on the single chromosome is distinctive, it is also complex.     

Analysis of DNA attached to the chromosome scaffold

Two different methods have been described to investigate whether any specific DNA sequences are intimately associated with the metaphase chromosome scaffold. The chromosome scaffold, prepared by dehistonization of chromosomes with 2 M NaCl, is a nonhistone protein complex to which many looped DNA molecules are attached (Laemmli et al., 1977, Cold Spring Harbor Symp. Quant. Biol. 42:351--360). Chromosome scaffold DNA was prepared from dehistonized chicken MSB chromosomes by restriction endonuclease EcoRI digestion followed by removal of the looped DNA by sucrose gradient sedimentation. Alternatively, the scaffold DNA was prepared from micrococcal nuclease-digested intact chromosomes using sucrose gradients containing 2M NaCl. Solution hybridization of the radioactively labeled scaffold DNA with a large excess of total nuclear DNA revealed that, in either case, the scaffold DNA is not a unique sequence class of genomic DNA. Southern-blotting hybridization also showed that the scaffold DNA prepared from EcoRI-digested dehistonized chromosomes was not enriched (or depleted) in the ovalbumin gene sequences. The possibility of a dynamic interaction of protein and DNA in the chromosome scaffold and the possibility that the scaffold is a preparative artifact are discussed.     

Isolation of a human DNA sequence which spans the fragile X

To identify the sequences involved in the expression of the fragile X and to characterize the molecular basis of the genetic lesion, we have constructed yeast artificial chromosomes (YACs) containing human DNA and have screened them with cloned DNA probes which map close to the fragile site at Xq27.3. We have isolated and partly characterized a YAC containing approximately 270 kb of human DNA from an X chromosome which expresses the fragile X. This sequence in a yeast artificial ring chromosome, XTY26, hybridizes to the two closest DNA markers, VK16 and Do33, which flank the fragile site. The human DNA sequence in XTY26 also spans the fragile site on chromosome in situ hybridization. When a restriction map of XTY26, derived by using infrequently cutting restriction enzymes, is compared with similar YAC maps derived from non-fragile-X patients, no large-scale differences are observed. This YAC, XTY26, may enable (a) the fragile site to be fully characterized at the molecular level and (b) the pathogenetic basis of the fragile-X syndrome to be determined.     

Number and evolutionary conservation of alpha- and beta-tubulin and cytoplasmic beta- and gamma-actin genes using specific cloned cDNA probes

A partial library of cloned human DNA was screened for sequences represented on and specific to the X chromosome. The library was constructed from Bam HI-digested human DNA from cells with X chromosome polyploidy, and was cloned in pBR322. The screening was performed by individually hybridizing ³²P-labeled cloned plasmids to Southern blots containing Bam HI-digested DNA from mouse-human hybrid cells having the human X chromosome and from derivative hybrids lacking the human X. Of 45 clones assayed, 33 contained sequences homologous to ones represented many times on the X. In situ hybridization to metaphase chromosomes demonstrated that at least four of these clones were homologous to autosomes as well. Only one of the 18 clones of this kind tested cross-hybridized with another. Two recombinant plasmids were shown to be derived from the X chromosome and to be X chromosome-specific by three criteria: they hybridized to a single band in the Southern blots of Bam HI-digested DNA from hybrid cells containing the X chromosome; they hybridized to a band of the same molecular weight as did the inserted DNA fragment; and they showed a dosage effect when hybridized to Southern blots of Bam HI-digested DNA from XY and XXX cells. One of these hybridized as a single-copy or low-order reiterated sequence in a Cot analysis using male DNA as driver. Our methods can be applied to the identification of any chromosome-specific clone. The two X-specific clones identified here should be useful in investigating the mechanism of X inactivation and in isolating a Barr body.     

A Repeated Segment on the Mouse Y Chromosome Is Composed of Retroviral-Related, Y-Enriched and Y-Specific Sequences

We report the isolation and characterization of two recombinant clones containing DNA derived from the Y chromosome of the C57BL/10 inbred mouse strain. Both clones were isolated from a lambda phage library derived from a partial EcoRI digest of C57BL/10 male DNA using the murine retrovirus M720. Characterization of these clones showed they were derived from a repeated segment present on the C57BL/10J Y chromosome that contains sequences found elsewhere in the genome. In addition, one clone contained a sequence, designated YB10, that is unique to the Y chromosome and present in approximately 500 copies on the C57BL/10J Y chromosome. Analysis of Southern blots containing DNAs prepared from females and males of representative species from four subgenera of Mus probed with pYB10 and the 3'LTR from one of the Y-associated retroviruses (MuRVY) revealed that, with the exception of a single fragment observed in both female and male DNA of Mus saxicola, hybridization to pYB10 was observed only to male DNA of the species Mus spretus, Mus hortulanus, Mus musculus, Mus domesticus and Mus abbotti. In addition, the pattern and intensity of hybridization to YB10 and the MuRVY-LTR indicated that sequence of divergence was followed by amplification of Y chromosome sequences containing YB10 and MuRVY. The divergence and amplification occurred separately in each of the ancestral lineages leading to M. spretus, M. hortulanus, M. abbotti, M. musculus and M. domesticus. We suggest that acquisition and amplification of DNA sequences by the mammalian Y chromosome has contributed to its evolution and may imply that the mammalian Y chromosome is evolving at a faster rate than the rest of the genome.