Characterization of a highly repetitive sequence DNA family in rat

New families of site-specific repetitive DNA sequences that comprise constitutive heterochromatin of the Syrian hamster (Mesocricetus auratus, Cricetinae, Rodentia)

We molecularly cloned new families of site-specific repetitive DNA sequences from BglII- and EcoRI-digested genomic DNA of the Syrian hamster (Mesocricetus auratus, Cricetrinae, Rodentia) and characterized them by chromosome in situ hybridization and filter hybridization. They were classified into six different types of repetitive DNA sequence families according to chromosomal distribution and genome organization. The hybridization patterns of the sequences were consistent with the distribution of C-positive bands and/or Hoechst-stained heterochromatin. The centromeric major satellite DNA and sex chromosome-specific and telomeric region-specific repetitive sequences were conserved in the same genus (Mesocricetus) but divergent in different genera. The chromosome-2-specific sequence was conserved in two genera, Mesocricetus and Cricetulus, and a low copy number of repetitive sequences on the heterochromatic chromosome arms were conserved in the subfamily Cricetinae but not in the subfamily Calomyscinae. By contrast, the other type of repetitive sequences on the heterochromatic chromosome arms, which had sequence similarities to a LINE sequence of rodents, was conserved through the three subfamilies, Cricetinae, Calomyscinae and Murinae. The nucleotide divergence of the repetitive sequences of heterochromatin was well correlated with the phylogenetic relationships of the Cricetinae species, and each sequence has been independently amplified and diverged in the same genome.

Coordinated and conserved expression of alphoid repeat and alphoid repeat-tagged coding sequences

We have found an alpha-like simple-sequence DNA repeat that is differentially expressed during early embryogenesis in both chick and zebrafish. Before and during the primitive streak stage, transcripts of the alphoid repeat sequence were ubiquitously expressed throughout zebrafish and chick embryos. After headfold formation, expression was limited to the cardiac neural crest, the head, and the heart. Two types of alphoid repeat sequence transcripts were identified: alphoid repeat RNA and alphoid repeat-tagged mRNA (ESalphaT). Several of the ESalphaTs were identified by (1) searching expressed sequence tag databases, (2) arbitrary rapid amplification of cDNA ends (RACE), and (3) screening embryonic cDNA libraries. The alphoid element was located in the 3' untranslated region of one ESalphaT that was obtained by RACE. The ESalphaT sequences encoded a variety of different types of proteins, but all were expressed within tissues that were positive for the alphoid repeat RNA. The presence of two types of coordinately expressed alphoid-like repeat transcripts in maternal RNA with subsequent restriction to the head and heart, and the conservation of these features in disparate vertebrate embryos, suggest that the alphoid repeat sequence may serve as a control element in the gene regulation network.

Transcription modulation by a rat nuclear scaffold protein, P130, and a rat highly repetitive DNA component or various types of animal and plant matrix or scaffold attachment regions

The XmnI fragment, a highly repetitive DNA component, and animal and plant matrix or scaffold attachment region (MAR/SAR) were examined for similarity in interaction with nuclear scaffold. As the XmnI fragment bound a 130 kDa scaffold protein (P130) in vitro, various types of MAR/SAR fragments could bind 130 and 123 kDa scaffold proteins. The native XmnI and MAR/SAR fragments clearly augmented SV40 promoter-mediated luciferase gene transcription following transient transfection of recombinant plasmids into various types of recipient cells. In contrast, the XmnI fragment methylated at the cytosine base of the unique HindIII site, and a synthetic variant DNA deficient in base unpairing characteristic of MAR/SAR, could neither bind P130 nor augment this transcription. These two types of genomic regions appeared to have similar properties of interaction with nuclear scaffold, by which the activity of appropriately positioned promoter can be modulated.

Involvement of DNA methylation in binding of a highly repetitive DNA component to nuclear scaffold proteins from rat liver

Experimental reduction of the amount of CpG methylation in a highly repetitive DNA component was achieved by growth of Ac2F cells in the presence of 5-aza-2'-deoxycytidine or procainamide, as judged by the results of methyl-sensitive restriction endonuclease digestion and colony hybridization. Modification of genomic DNA with these DNA methylation inhibitors increased the release of 370-bp highly repetitive DNA from rat chromosomal DNA by HindIII digestion. This result indicated that highly repetitive DNA components in the nuclear scaffold fraction are hypermethylated. On the other hand, methylated DNA was used for southwestern analysis to investigate the protein(s) which bind specifically to the DNA in the nuclear scaffold fraction. The introduction of additional methylated cytosines within a highly repetitive DNA component affected the binding of DNA to the nuclear scaffold proteins. Thus, cytosine methylation may be involved in the regulation of gene expression and construction of the higher-order structure of chromatin.

Involvement of phosphorylation in binding of nuclear scaffold proteins from rat liver to a highly repetitive DNA component

The results of our previous work [Hibino et al., Biochim. Biophys. Acta 1174 (1993) 162-170] suggested that a highly repetitive DNA component facilitates bending of the helix axis to be recognized by the nuclear scaffold proteins from rat liver, P123 and P130. In the present experiment, it was shown that binding of these proteins to such a repetitive DNA component from rat liver nuclei (370-bp XmnI fragment) is based on a cooperative mode of interaction, although the binding activity of P130 is much higher than that of P123. The immunoblot analysis with anti-phosphoamino acid antibodies suggested that phosphorylation of serine and threonine residues occurs on P123 and P130, but also of tyrosine residue(s) on P130. The phosphatase assay showed that phosphoryl groups on these proteins may be involved in altering the DNA binding activities of the proteins. Thus, the results in the present study imply that phosphorylation of a nuclear scaffold protein in addition to the degree of bending of the DNA helix axis plays an important role in anchoring chromatin to the nuclear scaffold and in construction of a higher-order chromatin structure.

Analysis of DES-induced micronuclei in binucleated rat fibroblasts: comparison between FISH with a rat satellite I probe and immunocytochemical staining with CREST serum

The usefulness of fluorescence in situ hybridization (FISH) with rat satellite I DNA was compared with immunocytochemical staining with CREST serum for the analysis of the content of micronuclei from primary rat fibroblasts. We analyzed micronuclei induced in vitro by the aneugenic compound diethylstilbestrol (DES) or the clastogenic compound mitomycin C (MMC). Since a centromeric probe was not available for the rat, we isolated rat satellite I DNA by PCR with primers designed on the basis of the known rat satellite I DNA sequence. The PCR products obtained as well as the cloned PCR products showed hybridization to the centromeric regions of a large number of chromosomes, but not of chromosome 1, 19, 20, X and Y. Clone 18-5 was further analyzed and was shown to contain at least 4 repeats of the rat satellite I family. This probe, which hybridizes in the centromeric region of 34 of the 42 chromosomes, was used throughout the study as a probe for the FISH analysis of the micronuclei. For the immunocytochemical staining, the commonly used commercial anti-centromeric antibodies could not be used because of the weakness of the fluorescent signals given. Consequently, CREST serum of a single patient was used, which showed bright and distinct signals on the kinetochores of each chromosome. After treatment of the cells with the aneugen DES an increase in centromere (FISH) and kinetochore (CREST) positive micronuclei was found, whereas after treatment with the clastogen MMC, the percentage of centromere-positive micronuclei was similar to that observed in controls. Analysis of a large number of DES-induced micronuclei showed that the immunocytochemical method is equally as or slightly less sensitive for the detection of chromosomes in micronuclei and we therefore recommend FISH with probe 18-5 for the detection of chromosome loss in rat cells.

Nucleosomal organization of the rat liver satellite DNA-containing chromatin during aging

Nucleosomal organization of the satellite DNA-containing chromatin of the liver of young (18 +/- 2 weeks) and old (100 +/- 5 weeks) rats was examined by nucleases and satellite I DNA probe. The satellite DNA-containing chromatin exhibits lower accessibility to endogenous endonucleases in old rats. The nucleosomal repeat length of this chromatin as investigated from digestion with endogenous endonucleases and MNase differs remarkably from bulk chromatin, though it does not alter with age. However, age-dependent loss of satellite DNA is apparent from hybridization results. Furthermore, DNase I analysis of the satellite DNA-containing chromatin at nucleosomal level reveals a relatively loose organization in young rats than old ones. It also shows an altered 10 bp periodicity as compared to bulk chromatin in both ages. These findings establish organizational differences between rat liver bulk and satellite DNA-containing chromatin. They further show that repeat length and altered 10 bp periodicity are similar in young and old, but accessibility to nucleases declines with age.

Localization of anti-CENP antibodies and alphoid sequences in acentric heterochromatin in a breast cancer cell line

Karyotype alterations are a hallmark of cancer cells. Of particular interest to our laboratory are the inactive centromeres and blocks of heterochromatin devoid of the accompanying centromere. When purified or monospecies anticentromere proteins (CENP) antibodies or the whole serum from scleroderma (crest) patients are applied to human chromosomes, the centromere region exhibits the label. When we treated MDA 435 cells with the anti-CENP-A, anti-CENP-B, or the whole serum, the label was apparent on heterochromatin pericentric to the active and inactive centromeres. Moreover, blocks of heterochromatin not associated with any centromere also exhibited the label. Anti-CENP-C, however, is more strictly confined to the centromere in discrete dots and is not detected on any region except the sites of active centromeres. Distribution of alpha sequences also shows a pattern compatible with its distribution in the heterochromatin. Apparently, the use of anti-CENP-A and anti-CENP-B antibodies or alphoid DNA may not detect either the centromere (primary constriction) or the kinetochore; CENP-C may be an exception.

Binding affinities of highly repetitive DNA components for a nuclear scaffold protein from rat-ascites hepatoma cells

Separate samples of a self-ligated tandem dimer of a highly repetitive DNA component (369-bp HindIII fragment) from rat-ascites hepatoma nuclei were digested with different restriction enzymes that cleave only once in the monomer. The resulting 369-bp sequence-permuted monomers showed anomalously slow gel electrophoretic mobility. Of them, the XmnI fragment had the slowest mobility. This suggests that bending of the helix axis is the strongest in this fragment. Our previous work has shown that such a repetitive bent DNA has selective affinities for two nuclear scaffold proteins from rat liver that have molecular weights of 123,000 and 130,000 Hibino et al. (1992) Biochem. Biophys. Res. Commun., 184, 853-858; Hibino et al. (1993) Biochim. Biophys. Acta, 1174, 162-170). In the present experiment, it has been found that the nuclear scaffold fraction from rat-ascites hepatoma cells does not contain these proteins, but does have a repetitive bent DNA-binding protein that has a molecular weight of about 230,000. These results imply that there is some difference in the structure of nuclear DNA attachment region between rat liver and the hepatoma.

Satellite I DNA in transformed rat cells

P93-50, a 93-basepair (bp) repetitive DNA sequence from rats, was hybridized to transformed sublines of rat endothelial origin. The sequence hybridized at or near the centromeres of most but not all chromosomes in two transformed cell lines and three single-cell derived cultures. The hybridization signal was also frequently present at the telomeres. These cell lines have a highly aberrant karyotype including dicentric and multicentric chromosomes; however, even though this sequence labeled the centromere regions of some chromosomes, it did not hybridize with the telomere regions of the cell line XC, which rarely shows any dicentrics. Apparently, the telomere signals represent prematurely separating, inactive, terminal centromeres. The p93-50 sequence does not influence the timing of centromere separation, nor it is necessary for formation of heterochromatin.

Dissociation of minor satellite from the centromere in mouse

The minor satellite DNA of mouse is believed to constitute the centromere. We report that centromeres of some chromosomes in the Cl1D cells of mouse are not associated with this DNA even though the latter is present on these chromosomes. The satellite DNA was detected distally from the centromere and could not be mistaken as a component of the centromere. We also report that the site of the primary constriction may not always coincide with the site of the anti-kinetochore antibody reaction. Whereas the regions containing the major satellite decondense upon treatment with bisbenzimidazole (Hoechst 33258), the sites carrying minor satellite resist decondensing.

Do specific nucleotide bases constitute the centromere?

It is becoming increasingly clear that the underlying base composition of the DNA located in the centromere region is vastly different in different organisms. The chromosomes of related species or even the various chromosomes of the same species differ widely in their so-called centromeric DNA. Yet all centromeres appear physically alike and perform similar functions. The present communication proposes that the physical properties of the centromere are not due to its base composition but due to stereophysical make-up of the DNA segment constituting the centromere. This unique make up might reflect some physical parameter, like curvature, of the DNA present in the centromere constriction. It is further proposed that a proteinaceous factor, centromerase, is responsible for holding the centromeres as one unit until meta-anaphase.

Cloning and characterization of two satellite DNAs in the low-C-value genome of the nematode Meloidogyne spp

Two highly reiterated StyI satellite DNAs have been cloned from two nematode species: one from Meloidogyne hapla and another from M. incognita. The monomeric units of these two satellites have a repeat length of 169 and 295 bp, respectively. These StyI repeated element families constitute 5% of the M. hapla and 2.5% of the M. incognita haploid genomes. The A + T content is elevated in both families (i.e., 68% and 77%, respectively). Nucleotide methylation and transcriptional activity are negative. No similarity was found between the two satellites, nor to other known highly repetitive elements. These StyI satellite DNAs are quite homogenous in sequence, showing on average 3% and 3.5% divergence from their respective calculated consensus sequence. An internal subrepeating unit of about 11 bp is observed in the StyI satellite monomer sequences of M. hapla, suggesting that it could have evolved from a shorter sequence. Because of the small size of the Meloidogyne genome (51 Mb) and the abundance of repeated sequences, this genus approaches a limit in terms of coding fraction.

High rate of genetic rearrangement during replication of a Moloney murine leukemia virus-based vector

A protocol was designed to measure the forward mutation rate over an entire gene replicated as part of a Moloney murine leukemia virus-based vector. For these studies, the herpes simplex virus thymidine kinase (tk) gene under the control of the spleen necrosis virus U3 promoter was used as target sequence since it allows selection for either the functional or the inactivated gene. Our results indicate that after one round of retroviral replication, the tk gene is inactivated at an average rate of 0.08 per cycle of replication. Southern blotting revealed that the majority of the mutant proviruses resulted from gross rearrangements and that deletions of spleen necrosis virus and tk sequences were the most frequent cause of the gene inactivation. Sequence analysis of the mutant proviruses suggested that homologous as well as nonhomologous recombination was involved in the observed rearrangements. Some mutations consisted of simple deletions, and others consisted of deletions combined with insertions. The frequency at which these mutations occurred during one cycle of retroviral replication provides evidence indicating that Moloney murine leukemia virus-based vectors may undergo genetic rearrangement at high rates. The high rate of rearrangement and its relevance for retrovirus-mediated gene transfer are discussed.

Characterization of an unusually conserved AluI highly reiterated DNA sequence family from the honeybee, Apis mellifera

An AluI family of highly reiterated nontranscribed sequences has been found in the genome of the honeybee Apis mellifera. This repeated sequence is shown to be present at approximately 23,000 copies per haploid genome constituting about 2% of the total genomic DNA. The nucleotide sequence of 10 monomers was determined. The consensus sequences is 176 nucleotides long and has an A + T content of 58%. There are clusters of both direct and inverted repeats. Internal subrepeating units ranging from 11 to 17 nucleotides are observed, suggesting that it could have evolved from a shorter sequence. DNA sequence data reveal that this repeat class is unusually homogeneous compared to the other class of invertebrate highly reiterated DNA sequences. The average pairwise sequence divergence between the repeats is 2.5%. In spite of this unusual homogeneity, divergence has been found in the repeated sequence hybridization ladder between four different honeybee subspecies. Therefore, the AluI highly reiterated sequences provide a new probe for fingerprinting in A. m. mellifera.

Cloning and characterization of a highly conserved satellite DNA sequence specific for the phytoparasitic nematode Bursaphelenchus xylophilus

The phytoparasitic nematode, Bursaphelenchus xylophilus, contains an unusually abundant satellite DNA which constitutes up to 30% of its genome. It is represented as a tandemly repeated MspI-site-containing sequence with a monomeric unit of 160 bp. Thirteen monomers were cloned and sequenced. The consensus sequence is 62% A+T-rich, with the presence of direct and inverted repeat clusters. Monomers of the sequence are very similar, showing on average 3.9% divergence from the calculated consensus. The results suggest that some homogenizing mechanism is acting to maintain the homogeneity of this satellite DNA despite its abundance and that it is not transcribed.

Molecular analysis of abnormal satellite I DNA from a BUF/Mna rat thymoma

BUF/Mna rats develop spontaneous thymomas in an autosomal dominant manner. We constructed recombinant plasmid library of 90 and 185 base-paired (bp) satellite I DNA fragments isolated from BUF/Mna rat thymoma DNA. Four unusual clones containing 93, 95, 95, and 173 bp inserts were isolated by colony hybridization with Wistar rat satellite I DNA. Nucleotide sequence analysis of the inserts of the 4 clones revealed abnormal sequence organization and unusual subunit structure of the rat satellite I DNA. Sequence comparisons between normal and abnormal satellite I DNA suggested that the unusual subunit structure could be generated by the change of the Hinf I recognition sequence to an Eco RI cleavage site, in addition to random deletions, insertions and base substitutions. The heptanucleotide sequence TGGGAAC, which is strictly conserved in normal subunits, was completely lost in all these clones. Southern blot hybridization revealed the amplification of abnormal satellite I DNA in BUF/Mna rat thymomas.

Formation of primary constriction and heterochromatin in mouse does not require minor satellite DNA

Whereas the major satellite fraction in mouse extends its domain from the centromere to the distal end of the pericentric heterochromatin, the minor satellite DNA is present specifically in the centromere or primary constriction. We hybridized the biotinylated minor satellite sequence to L929 cells of mouse origin. The sequence hybridized to all chromosomes. Whereas hybridization was detected on all active centromeres, the inactive centromeres in certain dicentrics did not show any signal. This satellite, however, was detected in all inactive centromeres in a heptacentric chromosome. The intensity of fluorescence on the inactive centromeres of the heptacentric was similar to that present on the active centromeres. Several heterochromatin blocks, which were not associated with any centromere, were also found to lack hybridization with the minor satellite. The inactive centromeres, whether carrying the minor satellite DNA fraction or not, generally do not react with the antikinetochore antibodies present in the scleroderma serum. These studies are interpreted to show that (1) the primary constriction in mouse can be formed without the participation of minor satellite, (2) heterochromatin in mouse may constitute without this fraction, (3) the major and minor satellite may not be interspersed but are joined at some defined boundary, and (4) the binding of CENP-B does not depend upon the quantity of minor satellite or the number of CENP boxes present in the inactive centromeres.

Affinity of a highly repetitive bent DNA for nuclear scaffold proteins from rat liver

A highly repetitive component in rat nuclear DNA was isolated by HindIII digestion and cloned. A self-ligated tandem dimer of the 370-bp cloned component was digested with each of DraI, HindIII and XmnI. The resulting 370-bp restriction fragments exhibited anomalously slow gel electrophoretic mobilities. Of them, the XmnI fragment had the slowest mobility. This suggested that sequence-directed bending of the helix axis is the strongest in this fragment. Moreover, the 370-bp restriction fragments had selective affinities for the nuclear scaffold proteins, P123 and P130. The affinity levels of XmnI fragment were higher than those of DraI or HindIII fragment. These results implied that the affinity of a highly repetitive component for the nuclear scaffold proteins depends on the degree of sequence-directed bending of the helix axis.

Base sequences of highly repetitive components in nuclear DNAs from rat liver and rat-ascites hepatoma

A 370-bp highly repetitive component in each of the nuclear DNAs from rat liver (RL) and rat-ascites hepatoma (AH) was isolated by HindIII digestion and cloned in pUC9. Ten of the resulting clones were arbitrarily selected and sequenced. Heterogeneity of size was found in 7 of the RL clones (366-369 bp), but in only 2 of the AH clones (369 bp). The sequence homology was 64.6% among the RL clones; 80.3% among the AH clones. The base compositions were AT-rich, ranging from 61.1% to 64.7%. Many A and/or T runs consisting of 2-5 bases were interspersed throughout each sequence. The restriction sites reported previously, EcoRI, HaeIII, HindIII, HinfI and HphI sites, were confirmed in almost all of the clones. In the present experiment, 12 kinds of the sites were further found in both RL and AH clones.

Two highly reiterated nucleotide sequences in the low C-value genome of Panagrellus redivivus

Two families of highly reiterated satellite nucleotide (nt) sequences have been found in the genome of the sexually separated nematode Panagrellus redivivus. The repeats are arranged in tandem arrays but the different satellites are not intermingled. Monomeric lengths are of 155 bp for one kind and 167 bp for the other; they were named E155 and E167. The A + T content is elevated in both families (i.e., 59.5%, and 65.3%, respectively). No similarity was found between the two satellites nor to other known highly repetitive elements. Furthermore, nt methylation as well as transcriptional activity were negative. An internal subrepeating unit, about 30 bp long, was observed in E167, implying that it could have evolved from a shorter sequence. Reiteration frequencies are approx. 30,000 and 40,000 copies per haploid genome, for E155 and E167, respectively, constituting together about 17% of the total DNA. This figure is astonishingly high, considering a C-value of 70,000 kb in P. redivivus, which is thought to be the lower limit for metazoans. Hence, the genome complexity is approx. 58,000 kb. In contrast to the nematodes Ascaris lumbricoides and Parascaris equorum, however, P. redivivus does not seem to eliminate large blocks of satellite DNA in the presomatic cells during early development.

Satellite DNA I in chromatin loops of rat pachytene chromosomes and in spermatids

Biotinylated rat satellite DNA I probe p93-50 was used to visualize the chromatin of surface-spread rat pachytene chromosomes. Fluorescein isothiocyanate (FITC)-conjugated avidin produces a beaded fluorescence pattern along the chromatin loops that insert in the centromeric region of the synaptonemal complex (SC), the paired cores of homologous chromosomes. The number of fluorescent beads ranges from zero for centromeres without satellite DNA I homologous to probe p93-50, to several hundred for satellite-rich centromeric regions. For the chromosomes that can be identified, the relative amount of satellite DNA is chromosome specific. No satellite DNA I was detected at the non-centromeric ends of the chromosomes or interstitially. DNase-digested nuclei or isolated SCs did not have detectable amounts of satellite DNA in the centromeric regions of the chromosomes or in the residual SCs. The fate of the satellite DNA was followed during spermiogenesis. In the round spermatid the centromeric regions, which appear to be attached to the nuclear envelope, are still distinct and have converging loops of fluorescent chromatin. At later stages there are fewer but still bright fluorescent patches. Satellite DNA I is still detectable in the mature sperm head. These results demonstrate the organization of satellite DNA I in the chromatin loops at the centromeric regions, and they forecast the analysis of chromosome organization in unprecedented detail with a variety of probes in surface spreads of meiotic prophase chromosomes.

Distribution and sequence homogeneity of an abundant satellite DNA in the beetle, Tenebrio molitor

The mealworm beetle, Tenebrio molitor, contains an unusually abundant and homogeneous satellite DNA which constitutes up to 60% of its genome. The satellite DNA is shown to be present in all of the chromosomes by in situ hybridization. 18 dimers of the repeat unit were cloned and sequenced. The consensus sequence is 142 nt long and lacks any internal repeat structure. Monomers of the sequence are very similar, showing on average a 2% divergence from the calculated consensus. Variant nucleotides are scattered randomly throughout the sequence although some variants are more common than others. Neighboring repeat units are no more alike than randomly chosen ones. The results suggest that some mechanism, perhaps gene conversion, is acting to maintain the homogeneity of the satellite DNA despite its abundance and distribution on all of the chromosomes.

DNA denatures upon drying after ethanol precipitation

We have observed that ethanol precipitation and subsequent drying of small (less than 400 bp) radiolabelled DNA fragments is able to induce a transition to a form that migrates aberrantly on acrylamide gels. This unusual form has increased sensitivity to S1 nuclease, decreased sensitivity to restriction enzymes, and a concentration dependence for the reversion to the duplex form. Apparently, DNA denatures upon dehydration so that redissolving at low dilution will allow the collapse of DNA fragments into single-stranded hairpin structures. These structures are stable enough at low dilution to prevent complete reannealing of single stranded species. These single stranded species show strong binding to unidentified proteins present in nuclear extracts. This may give rise to misleading interpretations of mobility shift assays, especially if the single-stranded conformers have a similar mobility to the duplex fragment, which can occur in fragments that are 50-100 bp long. Evidence is presented that DNA, in general, denatures upon dehydration, but that hindrances to rotation in the solid state may prevent long fragments from dissociating.

Sequence and evolution of rhesus monkey alphoid DNA

Analysis of rhesus monkey alphoid DNA suggests that it arose by tandem duplication of an ancestral monomer unit followed by independent variation within two adjacent monomers (one becoming more divergent than the other) before their amplification as a dimer unit to produce tandem arrays. The rhesus monkey alphoid DNA is a tandemly repeated, 343-bp dimer; the consensus dimer is over 98% homologous to the alphoid dimers reported for baboon and bonnet monkey, 81% homologous to the African green monkey alpha monomer, and less than 70% homologous to the more divergent human alphoid DNAs. The consensus dimer consists of two wings (I and II, 172 and 171 bp, respectively) that are only 70% homologous to each other, but share seven regions of exact homology. These same regions are highly conserved among the consensus sequences of the other cercopithecid alphoid DNAs. The three alpha-protein binding sites reported for African green monkey alpha DNA by F. Strauss and A. Varshavsky (Cell 37: 889-901, 1984) occur in wings I and II, but with one site altered in wing I. Two cloned dimer segments are 98% homologous to the consensus, each containing 8 single-base-pair differences within the 343-bp segment. Surprisingly, 37% of these differences occur in regions that are evolutionarily conserved in the alphoid consensus sequences, including the alpha-protein binding sites. Sequence variation in this highly repetitive DNA family may produce unique nucleosomal architectures for different members of an alphoid array. These unique architectures may modulate the evolution of these repetitive DNAs and may produce unique centromeric characteristics in primate chromosomes.

Organization and evolution of a higher plant alphoid-like satellite DNA sequence

Two recombinant plasmids containing, respectively, three and eight tandem repeats of a 177 base-pair (bp) element from radish nuclear DNA have been isolated. These plasmids were used as probes to investigate the organization and the copy number of this element within the genome. This sequence is present in congruent to 0.6 million copies. Restriction analysis provides evidence for sequence heterogeneity and reveals the occurrence of non-overlapping subfamilies. Nine units were sequenced and found to be remarkably conserved. However, sequences in the two clones clearly belong to two distinct subgroups. Our data suggest that these sequences evolved in a concerted manner and that homogenization mechanisms such as gene conversions certainly took place. The 177 bp sequence is made from three 60 bp blocks that are derived from a common ancestor. Exchanges between the three blocks probably occurred before they became fixed as a patchwork of short sequences, the 177 bp element. This unit of 177 bp was then amplified in several steps. The presence of such a repeated sequence can be detected in other Cruciferae when hybridizations are carried out under low stringency conditions. Direct comparison with a previously published mustard satellite DNA sequence indicates a similar organization and a 75% homology. Homology was also found with shorter regions (congruent to 60 bp) of broad bean and corn satellite DNA. Finally, homology was also found with several animal alphoid sequences, suggesting that this family also occurs in the plant genomes.

Human alphoid family of tandemly repeated DNA. Sequence of cloned tetrameric fragments and analysis of familial divergence

Three tetramers of the 170 base-pair monomer repeat unit of human centromeric DNA (alphoid DNA) have been cloned and sequenced. Adjacent subunits differed in sequence by 30 to 45%, while dimers varied by 13 to 20% whether adjacent or not. Divergence was distributed unevenly across the monomeric sequence, such that two highly conserved segments adjoined clusters of insertions/deletions. Divergence, calculated from the cloned sequences or measured in uncloned DNA by thermal destabilization of mismatched reassociated duplexes, was far greater than previously estimated for the total human alphoid family. The population of these repeats within the human genome was not uniformly diverged, however, since restriction subsets of alphoid DNA contained as little as one-tenth the overall level of divergence. This indicates a hierarchical or familial structure of the genomic repeat population. Using cloned probes, human alphoid DNA was shown to be highly methylated and transcriptionally inactive. These data, along with evidence of conserved segments and periodicities (dimeric and higher-order) overlying considerable sequence diversity, support a structural role for this DNA family.

Strand specific transcription of satellite DNA I in rat ascites hepatoma cells

Rat satellite DNA I was highly expressed in a rat ascites hepatoma cell line, AH60C. The transcripts were found predominantly in the non-polyadenylated fraction of the nuclear RNA. RNA dot blot assay using strand specific probes revealed a strand-selective transcription of the sequence. The structures of cDNA clones isolated on the basis of their cross-hybridization to satellite DNA I were mainly composed of a tandemly repeated array of this sequence.

Two-stage maturation process for newly replicated chromatin

HTC cells have been labeled by short exposures to [3H]thymidine in order to identify newly synthesized DNA. By either isolating nuclei directly or isolating them after an extensive fixation with formaldehyde, we have been able to identify two phases in the maturation process of newly replicated chromatin. The first phase which is relatively brief (less than 5 min) is reflected in a diffuse, irregular organization of nucleosomes on new DNA immediately postreplicatively . The second phase which lasts from 5 to 30 min postreplication is characterized by a normal repeat length for the nucleosomes which are nonetheless more weakly bound than bulk nucleosomes. This is reflected in increased sliding during nuclease digestion as well as increased nuclease sensitivity and the presence of easily dissociated histones which has been described by other workers.

The spread of sequence variants in Rattus satellite DNAs

The genus Rattus has two related families of satellite DNA: Satellite I consists of tandem arrays of a 370 base pair repeat unit which is a dimer of two 185 base pair portions (a, b) which are about 60% homologous. Satellite I' consists of tandem arrays of a 185 base pair repeat unit (a') which is about 85% homologous to a and 60% homologous to b. R. norvegicus contains only satellite I but R. rattus contains both satellites I and I'. We examined certain aspects of satellite DNA evolution by comparing the spacing at which variant repeat units of each satellite have spread among non-variant repeat units in these two species. With but one exception, in R. rattus, 15 different variant repeat units have spread among non-variant repeat units of satellite I, with a spacing equal to the length of the (a,b) dimer. Similarly, fourteen different variant repeat units of the monomeric satellite I' have mixed among non-variant repeat units with a spacing equal to the length of the (a') monomer. These results suggest that a mechanism involving homologous interaction among satellite sequences could account for the spread of variant family members. We also found that a sequence variant present in certain portions of the dimeric repeat unit of satellite I is more efficiently amplified (or less efficiently corrected) than variants occurring in other regions. This was not true for the monomeric repeat unit of satellite I'.

Nucleotide sequence of a reiterated rat DNA fragment

A reiterated component of rat DNA was isolated by restriction with HindIII endonuclease and polyacrylamide gel electrophoresis. Sequence analysis revealed that the fragment was 179 nucleotides long. Unlike the known 370N reiterated rat DNA fragment which contained a high m5C content (2.7 mole%), this repetitive element contained a rather low m5C content (0.5 mole%). The present rat repetitive sequence appeared to be of alpha-type as shown by its significant homologies with alpha DNA sequences of African green monkey and human. The possibility of sequence heterogeneity is discussed.

Nucleosome arrangement in green monkey alpha-satellite chromatin. Superimposition of non-random and apparently random patterns

We have studied the structure of tandemly repetitive alpha-satellite chromatin (alpha-chromatin) in African green monkey cells (CV-1 line), using restriction endonucleases and staphylococcal nuclease as probes. While more than 80% of the 172-base-pair (bp) alpha-DNA repeats have a HindIII site, less than 15% of the alpha-DNA repeats have an EcoRI site, and most of the latter alpha-repeats are highly clustered within the CV-1 genome. EcoRI and HindIII solubilize approximately 8% and 2% of the alpha-chromatin, respectively, under the conditions used. EcoRI is thus approximately 30 times more effective than HindIII in solubilizing alpha-chromatin, with relation to the respective cutting frequencies of HindIII and EcoRI on alpha-DNA. EcoRI and HindIII solubilize largely non-overlapping subsets of alpha-chromatin. The DNA size distributions of both EcoRI- and HindIII-solubilized alpha-chromatin particles peak at alpha-monomers. These DNA size distributions are established early in digestion and remain strikingly constant throughout the digestion with either EcoRI or HindIII. Approximately one in every four of both EcoRI- and HindIII-solubilized alpha-chromatin particles is an alpha-monomer. Two-dimensional (deoxyribonucleoprotein leads to DNA) electrophoretic analysis of the EcoRI-solubilized, sucrose gradient-fractionated alpha-oligonucleosomes shows that they do not contain "hidden" EcoRI cuts. Moreover, although the EcoRI-solubilized alpha-oligonucleosomes contain one EcoRI site in every 172-bp alpha-DNA repeat, they are completely resistant to redigestion with EcoRI. This striking difference between the EcoRI-accessible EcoRI sites flanking an EcoRI-solubilized alpha-oligonucleosome and completely EcoRI-resistant internal EcoRI sites in the same alpha-oligonucleosome indicates either that the flanking EcoRI sites occur within a modified chromatin structure or that an altered nucleosome arrangement in the vicinity of a flanking EcoRI site is responsible for its location in the nuclease-sensitive internucleosomal (linker) region. Analogous redigestions of the EcoRI-solubilized alpha-oligonucleosomes with either HindIII, MboII or HaeIII (both before and after selective removal of histone H1 by an exchange onto tRNA) produce a self-consistent pattern of restriction site accessibilities. Taken together, these data strongly suggest a preferred nucleosome arrangement within the EcoRI-solubilized subset of alpha-oligonucleosomes, with the centers of most of the nucleosomal cores being approximately 20 bp and approximately 50 bp away from the nearest EcoRI and HindIII sites, respectively, within the 172-bp alpha-DNA repeat. However, as noted above, the clearly preferred pattern of nucleosome arrangement within the EcoRI-solubilized alpha-oligonucleosomes is invariably violated at the ends of every such alpha-oligonucleosomal particle, suggesting at least a partially statistical origin of this apparently non-random nucleosome arrangement.(ABSTRACT TRUNCATED AT 400 WORDS)

Two-dimensional gel electrophoretic analysis of the HindIII 1.8-kb repetitive-sequence family in the human genome

The structure and organization of a human repetitive DNA family containing the HindIII 1.8-kb repetitive sequence were studied, using two-dimensional (2D) gel electrophoresis. The HindIII 1.8-kb sequence proved to be part of a repetitive sequence about 5 kb long and interspersed on the genome. The long repetitive sequence family contained several subgroups, as based on polymorphism of the restriction site. Recombinant phages containing the long repetitive sequence were isolated from the human genomic DNA library. Heteroduplex and restriction analysis showed that the structure of the repetitive sequence carried by the phages was close to that expected from 2D gel electrophoretic analysis. The 2D gel electrophoretic analysis was shown to be a reliable and useful approach for surveying and mass analysis of repetitive sequence families.

Occurrence and evolution of homogeneously staining regions may be due to breakage-fusion-bridge cycles following telomere loss

Chromosomes with homogeneously staining regions (HSR) were analysed in a subclone of the H4 rat hepatoma cell line, where they represent amplification of the ribosomal RNA (rRNA) genes. Detailed G-band analysis of the subclone revealed that an HSR on the short arm of chromosome 3 became unstable and changed its position within the chromosome. The evolution of this marker chromosome was associated with the terminal deletion of the normal long arm of the HSR-bearing chromosome 3 and may have involved ring formation as a result of fusion between the HSR on the short arm and the broken end of the long arm. Evidence was obtained for breakage at different sites within the ring, producing chromosomes with HSRs located terminally on either the long arms or both arms. The terminally located HSR underwent elongation in some cells presumably as a result of a breakage-fusion-bridge cycle characteristic of instability due to telomeric loss. It is suggested that terminally located HSRs may generally occur this way.

The independent evolution of two closely related satellite DNA elements in rats (Rattus)

We have identified and determined the sequence and organization of a new rat satellite DNA in Rattus rattus, the roof rat. This satellite DNA, which we call R. rattus satellite I', consists of tandem arrays of a 185 base pair (bp) repeat unit that we call a'. a' is 86% homologous to a 185 bp portion of the 370 bp repeat unit of the previously described rat satellite [Pech et al. (1979) Nucleic Acids Res. 7, 417-432] present in the common laboratory rat species, R. norvegicus. We can thereby distinguish two 185 bp portions of the satellite I 370 bp repeat unit: "a" (homologous to a') and "b". Satellite I has the structure (a,b)n, and satellite I' has the structure (a')n. Like a, a' is only about 60% homologous to b and fails to hybridize to b. Although R. norvegicus and R. rattus contain about the same total concentration of satellite sequences, R. norvegicus contains essentially only the a,b type (satellite I), whereas R. rattus contains a' type (satellite I') and lesser amounts of the a,b type (satellite I). The a,b type (satellite I) in R. rattus is very similar to that in R. norvegicus as judged both by hybridization and by the presence of all but one of the major restriction enzyme sites that characterize the R. norvegicus satellite I. In R. rattus the a' and a,b repeat units are not detectably present in the same tandem array. All of the sequence differences between a' (R. rattus) and a (R. norvegicus) can be accounted for by simple base substitutions, and the implication of this and other features of rat satellite DNA structure for satellite DNA evolution are discussed.

Nucleotide sequence of satellite DNA contained in the eliminated genome of Ascaris lumbricoides

Several restriction endonuclease fragments isolated from highly repetitive satellite DNA of the chromatin eliminating nematode Ascaris lumbricoides var. suum have been cloned. Each type of restriction fragment corresponds to a different variant of the same related ancestral sequence. These variants differ by small deletions, insertions and single base substitutions. Restriction and DBM blot analyses show that members of the same variant class are tandemly linked and therefore are physically separated from other variant classes. A comparison of all the determined sequences establishes a 121 bp long and AT rich consensus sequence. There is evidence for an internal short range periodicity of 11 bp length, indicating that the Ascaris satellite initially may have evolved from an ancestral undecamer sequence. The satellite DNA sequences are mostly but not entirely eliminated from the presumptive somatic cells during chromatin diminution. We have no evidence for transcriptional activity of satellite DNA at any stage or tissue analyzed.

Structure of 1.71 lb gm/cm(3) bovine satellite DNA: evolutionary relationship to satellite I

The Eco RI fragments from the 2600 bp repeating unit of 1.711b gm/Cm(3) bovine satellite DNA were cloned in pBR322. The structure of the repeat unit was determined and compared to bovine satellite I DNA (rho CsCl = 1.715 gm/cm(3)). All of the DNA in the 1402 bp repeat of satellite I is represented in the sequence of the 2600 bp 1.711b gm/cm(3) repeat. The difference between the two repeats is due to a 1200 bp piece of DNA (INS) residing in the middle of the 1.711b gm/cm(3) repeat. The INS is AT-rich and has some repetitive components; it bears only limited similarity to the structure of eukaryotic transposable elements. We propose that the 1.711b gm/cm(3) satellite DNA arose via the amplification of a 1.715 gm/cm(3) satellite repeat altered by a 1200 bp insertion of DNA.

DNA-like duplexes with repetitions. III. Efficient template-guided chemical polymerization of d(TGGCCAAGCTp)

Self-association of a decanucleotide d(TGGCCAAGCTp) in an aqueous solution is shown by UV spectroscopy, CD and sedimentation analysis to yield a pseudopolymeric (concatemeric) duplex having a geometry similar to that of DNA B-type. It is demonstrated that in conditions when the concatemeric duplex is stable a water-soluble carbodiimide induces efficient polymerization of the 3'- or 5'-phosphorylated decanucleotide, and the resulting polymers d(TGGCCAAGCTp)2-10 contain only natural phosphodiester bonds. In conditions optimal for template-guided polymerization of d(TGGCCAAGCTp) the overall yield of 20-100-member polynucleotides exceeds 90%. The obtained polymeric duplexes are cleaved by restriction endonuclease Alu II, Bsu RI, and Hind III to corresponding decamers which were isolated and sequenced.

The characterisation of 1SF monomer nucleosomes from hen oviduct and the partial characterisation of a third HMG14/17-like in such nucleosomes

Nucleosomes released from oviduct nuclei during brief micrococcal nuclease digestions are enriched in transcribed sequences (bloom K.S. and Anderson, J.N. (1978) Cell, 15, 141-150). Such nucleosomes released into this 1Sf supernatant fraction are enriched in proteins HMG14, 17 and a third lower molecular weight protein which we show in this paper to be related to HMG14 and 17. This protein, which we call HMGY, runs as a doublet on polyacrylamide gels. A similar doublet is present in smaller quantities in chicken erythrocyte nuclei. Monomer nucleosomes in the 1SF supernatant have been separated by polyacrylamide gel electrophoresis into two main bands. The slower moving band contains the three HMG proteins HMG14, 17 and Y but lacks histone H1.