SINEs and LINEs cluster in distinct DNA fragments of Giemsa band size

By in situ hybridization, short interspersed repeated DNA elements (SINEs), exemplified by Alu repeats, are located principally in Giemsa-light human metaphase chromosome bands. In contrast, the L1 family of long interspersed repeats (LINEs) preferentially cluster in Giemsa-dark bands. These SINE/LINE patterns also generally correspond to early and later replication band patterns. In order to provide a molecular link between structurally visible chromosome bands and a framework of interspersed repeats, we investigated patterns of SINE and LINE hybridization using pulse-field gel electrophoresis (PFGE). Interspersed SINEs and LINEs hybridize with high intensity to specific size fragments of 0.2–3 megabase pairs (Mb). Using appropriate restriction enzymes and pulse-field conditions, a number of fragments were delineated that were either SINE or LINE rich, and were mutually exclusive. Control studies with a human endogenous retroviral repeat that is related in sequence to the major LINE family, delineated a subset of fragments of 0.07–0.4 Mb with unequal intensity. Thus these less numerous repeats also appear to cluster selectively in DNA domains that are larger than a chromosome loop (60–120 kb). In summary, PFGE studies independently confirm the clustering of interspersed repeats on contiguous DNA loops. Selective clustering of repeat motifs may contribute to special structural or functional properties of large chromosome domains, such as chromatin extension/condensation or replication characteristics. In some cases the DNA fragments defined by these repeats approach the size of tandem satellite arrays.     

Use of porcine interspersed repeat sequences in PCR-mediated genotyping

PCR primers derived from porcine short and long interspersed repeat sequences were used to amplify DNA samples isolated from individual members of threegeneration pig reference pedigrees. Subsequent high-resolution gel electrophoresis of both SINE and LINE-PCR products allowed direct visualisation of polymorphisms that segregated in a Mendelian manner. Additional polymorphisms were detected by Southern blotting of the gels described above followed by hybridization with simple sequence DNA. Genotyping by interspersed repeat-PCR exploits the natural architecture of the pig genome and allows the typing of polymorphisms by utilizing pre-existing sequence information.     

Rapid isolation of DNA probes within specific chromosome regions by interspersed repetitive sequence polymerase chain reaction

A method was recently developed for the specific amplification of human DNA sequences from interspecific somatic cell hybrids by the polymerase chain reaction (PCR) using primers directed to Alu, a short interspersed repeat element (SINE). We now show human-specific amplification using a primer to the 3' end of the human long interspersed repeat element L1Hs (LINE). A monochromosomal hybrid containing an intact human X chromosome yielded approximately 25 discrete products, ranging in size from 800 to 4500 bp. Combination of a single Alu primer and the L1Hs primer yielded a large number of smaller products (300-1000 bp) distinct from those observed with either primer alone. Inspection of ethidium bromide-stained gels showed one Alu-Alu and three Alu-L1Hs products which were present in an intact X chromosome but absent in a hybrid containing an X chromosome deleted for the single metaphase band q28. These four fragments were isolated from the gel and used as probes on Southern blots which confirmed their localization to Xq28. These results demonstrate that primers can be constructed to a variety of interspersed repetitive sequences (IRS) and used individually or in combination for the rapid isolation of DNA fragments from defined chromosomal regions by IRS-PCR.     

Replication time of interspersed repetitive DNA sequences in hamsters

The replication time of 34 hamster genomic DNA segments containing interspersed repeat sequences was determined by probing the cloned segments with nick-translated early- and late-replicating hamster DNA. One-third of these cloned families replicated early, one-third replicated late, and one-third replicated without temporal bias. 19 different inserts from these clones along with the SINE, Alu, and the LINE, A36Fc, were used to probe Southern blots of early- and late-replicating hamster or human DNA. We report long interspersed repeats, LINEs, are selectively partitioned into late-replicating DNA and are often concertedly hypomethylated, while short interspersed repeats, SINEs, are selectively partitioned into early-replicating DNA. For some interspersed repeat families, this partitioning is complete or almost complete. The CCGG frequency is very low in late-replicating DNA. The mammalian chromosome's pattern of early-replicating R-bands and late-replicating G-bands reflects a differential distribution of LINEs and SINEs.     

PCR Detection of DNAs of Animal Origin in Feed by Primers Based on Sequences of Short and Long Interspersed Repetitive Elements

PCR primers for the detection of materials derived from ruminants, pigs, and chickens were newly designed on the basis of sequences of the Art2 short interspersed repetitive element (SINE), PRE-1 SINE, and CR1 long interspersed repetitive element (LINE), respectively. These primers amplified the SINE or LINE from total DNA extracted from the target animals and from test feed containing commercial meat and bone meal (MBM). With the primers, detection of Art2, PRE-1, or CR1 in test feed at concentrations of 0.01% MBM or less was possible. This method was suitable for the detection of microcontamination of feed by animal materials.     

PCR detection of DNAs of animal origin in feed by primers based on sequences of short and long interspersed repetitive elements

PCR primers for the detection of materials derived from ruminants, pigs, and chickens were newly designed on the basis of sequences of the Art2 short interspersed repetitive element (SINE), PRE-1 SINE, and CR1 long interspersed repetitive element (LINE), respectively. These primers amplified the SINE or LINE from total DNA extracted from the target animals and from test feed containing commercial meat and bone meal (MBM). With the primers, detection of Art2, PRE-1, or CR1 in test feed at concentrations of 0.01% MBM or less was possible. This method was suitable for the detection of microcontamination of feed by animal materials.     

A direct repeat sequence associated with the centromeric retrotransposons in wheat.

A high-density BAC filter of Triticum monococcum was screened for the presence of a centromeric retrotransposon using the integrase region as a probe. Southern hybridization to the BAC digests using total genomic DNA probes of Triticum monococcum, Triticum aestivum, and Hordeum vulgare detected differentially hybridizing restriction fragments between wheat and barley. The fragments that hybridized to genomic DNA of wheat but not to that of barley were subcloned. Fluorescence in situ hybridization (FISH) analysis indicated that the clone pHind258 hybridized strongly to centromeric regions in wheat and rye and weakly to those in barley. The sequence of pHind258 was homologous to integrase and long terminal repeats of centromeric Ty3-gypsy retrotransposons of cereal species. Additionally, pHind258 has a pair of 192-bp direct repeats. FISH analysis indicated that the 192-bp repeat probe hybridized to centromeres of wheat and rye but not to those of barley. We found differential FISH signal intensities among wheat chromosomes using the 192-bp probe. In general, the A-genome chromosomes possess strong FISH signals, the B-genome chromosomes possess moderate signals, and the D-genome chromosomes possess weak signals. This was consistent with the estimated copy numbers of the 192-bp repeats in the ancestral species of hexaploid wheat.     

Rapid identification of hybridization probes for chromosomal walking

The presence of repeated elements in restriction fragments used as hybridization probes for chromosomal walking poses a major obstacle to the success of this gene-cloning strategy. This report describes a simple and rapid means of identifying restriction fragments devoid of repeated sequences and therefore useful as hybridization probes for chromosomal walking. Restriction fragments derived from a genomic DNA clone are Southern blotted and hybridized to nick-translated total genomic [32P]DNA. Fragments of the genomic clone that contain high abundance sequences (i.e., repeated elements) hybridize strongly to their nick-translated counterparts, which, due to their high copy number, comprise a significant proportion of the total genomic DNA probe. Conversely, fragments containing single-copy or low-abundance sequences do not hybridize, as their nick-translated counterparts are poorly represented in the total genomic DNA probe. These latter fragments, by virtue of their low-abundance sequences, are well suited as probes for chromosomal walking. Ensuring the absence of repeated elements in restriction fragments prior to their purification and utilization as chromosomal walking probes results in marked savings of time, effort and materials.     

Genomic RFLP Analysis of Meloidogyne arenaria Race 2 Populations

Traditional morphological methods of Meloidogyne identification have been unsuccessful in distinguishing three South Carolina, USA Meloidogyne arenaria race 2 populations—Govan, Pelion, and Florence. These populations differ greatly in reproductive rate and aggressiveness on soybean hosts. Total genomic DNA from eggs of each population was digested with the restriction endonuclease Eco RI and Southern hybridization analyses were performed with single-copy and interspersed multi-copy cloned probes. Probes were isolated from a genomic library of Eco RI, M. arenaria DNA fragments cloned into pUC8. One probe, designated pE1.6A, when hybridized to Southern blots of M. arenaria genomic DNAs, displayed an interspersed repetitive pattern, and the RFLPs distinguished the Govan population from the Pelion and Florence populations. Another clone, pE6.0A, carrying moderately repeated sequences, distinguished the Pelion and Florence isolates. This communication demonstrates the utility of genomic RFLP analysis for distinguishing populations of the same race within the same species. To test the possible utility of these moderately repeated sequence probes for detecting the presence of nematode DNA in DNA samples from roots inoculated with varying numbers of nematodes, dot blot hybridization analyses were performed. It is possible to detect as few as 30 nematodes per root sample with these cloned probes.     

Nonspecific primer and PCR generated hybridization probes for physical ordering large restriction fragments in complex genome of S. aureus.

Pulsed field gel electrophoresis (PFGE) allows separation of large restriction fragments from bacterial genome. Restriction fragments obtained by digestion of Staphylococcus aureus DNA with rare cutting enzymes (Sma I, and Csp I) were separated by PFGE. To arrange the physical order of the fragments generated by digestion with one enzyme, probes were prepared by nonspecific priming and polymerase chain reaction (PCR), using individual fragments of the other enzymatic digest as a template. Probes were then used for Southern hybridization to the PFGE separated fragment distribution of the two infrequent cleaving enzymes (Sma I and Csp I). Using probes generated from four Sma I fragments and five Csp I fragments as individual templates, a partial physical order of Csp I fragments of the genome of S. aureus ISP8 has been determined in relation to a previously published Sma I map of S. aureus genome.     

HLA-DR4-associated haplotypes are genotypically diverse within HLA

Biochemical diversity among products of class II HLA genes has been observed in individuals who appear to be HLA-D and DR-identical by cellular and serologic typing. We used techniques of restriction enzyme fragment analysis by Southern blotting to analyze this diversity at the level of cellular DNA. A panel of 17 HLA-DR4 homozygous cell lines (HCL) were investigated by using cDNA probes homologous to DQ beta, DQ alpha, and DR beta genes. Each probe was hybridized to cellular DNA digested with a series of different restriction endonucleases. Polymorphisms were observed with the use of the enzymes Pst I, Hind III, and Bam HI: Hybridization of cellular DNA digested with Hind III and Pst I with the DQ beta probe revealed specific polymorphisms, as did hybridization of the Pst I digest with the DQ alpha cDNA probe and the Bam HI digest with the DR beta probe. The observed differences fall into two categories: first, considerable diversity was seen between HLA-DR4 HCL that represent different HLA-D-defined haplotypes; second, diversity was also observed among HCL of the same DR4-associated HLA-D cluster. In contrast to the DQ cDNA probes, hybridization with the DR beta probe revealed relatively limited polymorphism by using a panel of different restriction endonucleases. Thus, although there is a general pattern of polymorphic restriction enzyme fragments homologous to DQ probes within an HLA-D cluster, the pattern seen for any particular cell line was not sufficiently distinct to assign an HLA-D or DR specificity.     

Wide distribution of short interspersed elements among eukaryotic genomes.

Most short interspersed elements (SINEs) in eukaryotic genomes originate from tRNA and have internal promoters for RNA polymerase III. The promoter contains two boxes (A and B) spaced by approximately 33 bp. We used oligonucleotide primers specific to these boxes to detect SINEs in the genomic DNA by polymerase chain reaction (PCR). Appropriate DNA fragments were revealed by PCR in 30 out of 35 eukaryotic species suggesting the wide distribution of SINEs. The PCR products were used for hybridization screening of genomic libraries which resulted in identification of four novel SINE families. The application of this approach is illustrated by discovery of a SINE family in the genome of the bat Myotis daubentoni. Members of this SINE family termed VES have an additional B-like box, a putative polyadenylation signal and RNA polymerase III terminator.     

Molecular genetic analysis of the major histocompatibility complex in an ELA typed horse family

Restriction fragment length polymorphism was studied in an ELA typed horse family which included a stallion, a mare with two full-sibs, another mare with three full-sibs and, in addition, three paternal half-sibs. DNA samples from all individuals were investigated by Southern blot analysis using three restriction enzymes (EcoRI, HindIII or TaqI) and human cDNA class I, class II (DR beta) and class III (C4) probes. In addition, a genomic class II DQ alpha probe was used. Fragments hybridized with the various probes revealed the existence of DNA sequences homologous to HLA class I, DR beta, DQ alpha and C4 genes in the horse. Polymorphic fragments were found when DNA was hybridized with class I and class II probes irrespective of the enzyme used; but hybridization with the C4 probe did not reveal variability. All polymorphic fragments segregated according to the ELA serological specificities, thus indicating a close linkage between the different revealed subregions. Banding patterns suggest that the horse possesses about 20-30 class I genes, probably more than one DR beta and DQ alpha genes and possibly only one C4 gene. The high degree of polymorphism observed suggests that molecular DNA typing may represent a potentially powerful aid to decision in parentage control determination.     

Isolation of bovine Y-derived sequence: potential use in embryo sexing.

To obtain bovine Y-derived probes, we have constructed a bovine plasmid library enriched for Y-specific DNA sequences by the deletion enrichment method. The resulting clones were analyzed by hybridization to Southern blots of male and female genomic DNA. From 200 clones tested, two (BC1.2 and BC1.34) were entirely male specific, six gave a male-female differential hybridization pattern, and the remaining reacted similarly with male and female DNA. Interspecies somatic cell hybrid studies and chromosomal in situ hybridization confirmed that the BC1.2 sequence was derived from the Y chromosome. This 54-bp fragment is present at about 2000-2500 copies in the bovine male genome. No polymorphism was revealed with any of the restriction enzymes used, suggesting enzyme site conservation within blocks of repeats. Evolutionary study has shown that the BC1.2 sequence is conserved within Bos and Bison genera and remains male specific. The male specificity and repeated nature of the BC1.2 sequence have enabled us to use it as a molecular probe for sex determination on small numbers of cells by in situ hybridization.     

BamHI restriction endonuclease analysis of Yersinia ruckeri plasmids and their relatedness to the genus Yersinia 42- to 47-megadalton plasmid

The plasmid profile and BamHI restriction pattern of 17 sorbitol-negative and 1 sorbitol-positive French Yersinia ruckeri strain of the American type strain were studied. The 17 sorbitol-negative strains and the American strain harbored a 62-megadalton (MDa) plasmid with an identical BamHI restriction pattern. Southern hybridization indicated that this 62-MDa plasmid is common among these various strains. The sorbitol-positive strain had four plasmid bands (70, 62, 32, and 25 MDa), and there was no comigration of the DNA fragments of these cleaved plasmids with the fragments of the 62-MDa plasmid. Hybridization of these restricted plasmids with the common 62-MDa plasmid showed a weak DNA homology. The Y. ruckeri plasmid (62 MDa) had a different molecular weight than the virulence plasmid (42 to 47 MDa) of the genus Yersinia, and they had different BamHI restriction patterns. Furthermore, no sequence of the Y. ruckeri plasmid DNA was recognized after Southern hybridization when the 47-MDa plasmid of Y. enterocolitica was used as a probe.     

BamHI restriction endonuclease analysis of Yersinia ruckeri plasmids and their relatedness to the genus Yersinia 42- to 47-megadalton plasmid.

The plasmid profile and BamHI restriction pattern of 17 sorbitol-negative and 1 sorbitol-positive French Yersinia ruckeri strain of the American type strain were studied. The 17 sorbitol-negative strains and the American strain harbored a 62-megadalton (MDa) plasmid with an identical BamHI restriction pattern. Southern hybridization indicated that this 62-MDa plasmid is common among these various strains. The sorbitol-positive strain had four plasmid bands (70, 62, 32, and 25 MDa), and there was no comigration of the DNA fragments of these cleaved plasmids with the fragments of the 62-MDa plasmid. Hybridization of these restricted plasmids with the common 62-MDa plasmid showed a weak DNA homology. The Y. ruckeri plasmid (62 MDa) had a different molecular weight than the virulence plasmid (42 to 47 MDa) of the genus Yersinia, and they had different BamHI restriction patterns. Furthermore, no sequence of the Y. ruckeri plasmid DNA was recognized after Southern hybridization when the 47-MDa plasmid of Y. enterocolitica was used as a probe.     

Multiple source genes of HAmo SINE actively expanded and ongoing retroposition in cyprinid genomes relying on its partner LINE

Background  

We recently characterized HAmo SINE and its partner LINE in silver carp and bighead carp based on hybridization capture of repetitive elements from digested genomic DNA in solution using a bead-probe [1]. To reveal the distribution and evolutionary history of SINEs and LINEs in cyprinid genomes, we performed a multi-species search for HAmo SINE and its partner LINE using the bead-probe capture and internal-primer-SINE polymerase chain reaction (PCR) techniques.     

Isolation of major heat shock protein (hsp70) gene-related sequences from rat genome

Rat genome was assayed for the presence of hsp70 gene-related sequences. Southern blots prepared from rat DNA digested with EcoRI or HindIII restriction endonucleases were hybridized with mouse, human and fruit fly hsp 70 gene probes at increasing stringencies. At the stringency which allows sequences divergent up to about 30% to form stable complexes all three probes detected 25–30 restriction fragments. Increased stringency of the hybridization reduced the number of detectable bands to a few and among them the DNA fragments hybridizing specifically either with mouse or human hsp70 gene probes were detected. Most of the genomic fragments containing hsp70 gene-related sequences were subsequently isolated by screening the rat genomic library with mouse hsp70 gene probe. 168 positive clones were plaque purified and on the basis of the restriction and hybridization pattern we deduced that inserts represented 20 different genomic regions. Partial restriction maps of all isolated genomic fragments were constructed and regions containing hsp70 gene related as well as highly repetitive DNA sequences were localized. A putative sequence rearrangement in the proximity of the hsp70 gene-related sequence was detected in one of the isolated genomic segments.