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Repetitive sequence transcripts in the mature sea urchin oocyte   总被引:7,自引:0,他引:7  
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Three repetitive sequence families from the sea urchin genome were studied, each defined by homology with a specific cloned probe one to a few hundred nucleotides long. Recombinant λ-sea urchin DNA libraries were screened with these probes, and individual recombinants were selected that include genomic members of these families. Restriction mapping, gel blot, and kinetic analyses were carried out to determine the organization of each repeat family. Sequence elements belonging to the first of the three repeat families were found to be embedded in longer repeat sequences. These repeat sequences frequently occur in small clusters. Members of the second repeat family are also found in a long repetitive sequence environment, but these repeats usually occur singly in any given region of the DNA. The sequences of the third repeat are only 200 to 300 nucleotides long, and are generally terminated by single copy DNA, though a few examples were found associated with other repeats. These three repeat sequence families constitute sets of homologous sequence elements that relate distant regions of the DNA.  相似文献   

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The genes coding for the two major small nuclear RNAs in the sea urchin are organized in independent tandem repeating units. The small nuclear RNAs, N1 and N2 were purified from gastrula embryos of Lytechinus variegatus. These RNAs are analogous to the U series of RNA in mammalian cells as judged by their identical 5' termini and the sequence homology of the N1 urchin RNA and U1 mouse RNA. These RNAs were polyadenylated with E. Coli adenylate transferase. A 32PO4 labeled copy of each RNA was made with RNA-dependent DNA polymerase. This copy was used to probe the gene organization of these RNAs by hybridizing to restriction enzyme digests of sperm DNA. Each of these RNAs is coded in a tandemly repeated cluster (at least 30 kb) with a repeat length of 1100-1400 bases. The N1 and N2 clusters are distinct. The N1 repeat has been cloned and the repeating organization confirmed with the cloned gene.  相似文献   

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The first measurement has been made of the number of diverse mRNA sequences (mRNA sequence complexity) in the total polysomes of a eucaryotic system, the sea urchin gastrula. mRNA was purified of nuclear RNA and any other heterogeneous RNA contaminants by release from polysomes with puromycin. Trace quantities of labeled nonrepetitive DNA fragments were hybridized with an excess of mRNA. The hybridization reaction followed ideal first order kinetics in mRNA concentration. At completion of the hybridization reaction, 1.35% of the nonrepetitive DNA was present as mRNA-DNA hybrid. The hybridized DNA was extracted and was at least 70% hybridizable with mRNA, demonstrating a 50-fold purification of the expressed sequences. This purified DNA fraction reassociated with excess unfractionated sea urchin DNA at a rate identical to that of the total nonrepetitive DNA tracer. The mRNA had therefore been hybridized to nonrepetitive DNA sequence, and the amount of hybrid could be used as a direct measure of the mRNA sequence complexity.The complexity of the gastrula mRNA can be calculated as about 17 million nucleotides, sufficient to comprise some 14,000 distinct structural genes. This result also provides an estimate of the number of diverse proteins being translated in the gastrula. From the rate of mRNA-DNA hybrid formation, we estimate that about 8% of the mRNA belongs to this complex class, and that less than 500 copies of each species of message in this class exist per embryo. Most of the mRNA population consists of a relatively small number of diverse species represented a much larger number of times.  相似文献   

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Evolutionary change in the repetition frequency of sea urchin DNA sequences   总被引:1,自引:0,他引:1  
The frequency of occurrence of particular repetitive sequence families has been estimated in the DNA of the three sea urchin species Strongylocentrotus purpuratus, Strongylocentrotus franciscanus and Lytechinus pictus using individual cloned S. purpuratus repetitive sequence elements. Cloned repetitive sequence elements as described by Scheller et al. (1977a) were prepared by reassociation of S. purpuratus DNA fragments to repetitive Cot, digestion with single-strand-specific nuclease S1 and ligation of synthetic restriction sites to their ends. The sequences were cloned by insertion at the Eco RI site of plasmid RSF2124, labeled, strand-separated and reassociated with 800–900 nucleotide long unlabeled DNA. Both kinetic (genomic DNA excess) and saturation (cloned DNA excess) estimates of frequencies were made. For nine cloned fragments, the ratio of the repetition frequency in S. purpuratus DNA to that in S. franciscanus DNA ranges from about 20 to about 1. In the four cases examined, only a few copies were detected in the DNA of L. pictus. Estimates have also been made of frequency changes in many repetitive families by measuring the reassociation of labeled repetitive DNA fractions of each species with total DNA from other species. In each reciprocal comparison, the labeled repetitive sequences reassociate more slowly with DNA of other species than with DNA of the species from which they were prepared. Thus it appears that the dominant repetitive sequence families in the DNA of each species are present at lower frequencies in the DNA of closely related species. Measurements of thermal stability have been made of S. purpuratus cloned repetitive sequences reassociated with S. franciscanus DNA or S. purpuratus DNA. Most families have changed both in frequency and sequence, although some have changed little in sequence but show great changes in frequency.  相似文献   

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Structural gene sequences active in a variety of sea urchin adult and embryo tissues are compared. A single-copy 3H-DNA fraction, termed mDNA, was isolated, which contains sequences complementary to the messenger RNA present on gastrula stage polysomes. Gastrula message sequences are 50 fold concentrated in the mDNA compared to total single-copy DNA. mDNA reactions were carried out with excess mRNA from blastula, pluteus, exogastrula, adult ovary, tubefoot, intestine, and coelomocytes, and with excess total mature oocyte RNA. A single-copy 3H-DNA fraction totally devoid of gastrula message sequences, termed null mDNA, was also reacted with these RNAs. Large differences in the extent of both mDNA and null mDNA reaction with the various RNAs were observed, indicating that in each state of differention a distinct set of structural genes is active, generally characterized by several thousand specific sequences. The complexity of gastrula mRNA was shown in previous work to be about 17 × 106 nucleotides. In units of 106 nucleotides, the complexities of the RNA sequence reacting with mDNA and with null mDNA in each tissue are, respectively, as follows: intestine mRNA; 2.1 and 3.7; coelomocyte mRNA: 3.5 and ≤1.4; tubefoot mRNA: 2.7 and ≤0.4; ovary mRNA: 13 and 6.7; oocyte total RNA: 17 and 20; blastula mRNA: 12 and 15; pluteus mRNA: 14 and ≤0.6; exogastrula mRNA: 14 and ≤0.6. The total complexity of each mRNA population is the sum of these values, as verified for several cases by reactions with total single-copy DNA. A relatively small set of mRNAs, the complexity of which is about 2.1 × 106 nucleotides, appears to be shared by several of the tissues studied.  相似文献   

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Five developmentally regulated sea urchin mRNA sequences which increase in abundance between the blastula and pluteus stages of development were isolated by molecular cloning of cDNA. The regulated sequences all appeared in moderately abundant mRNA molecules of pluteus cells and represented 4% of the clones tested. There were no regulated sequences detected in the 40% of the clones which hybridized to the most abundant mRNA, and the screening procedures were inadequate to detect possible regulation in the 20 to 30% of the clones presumably derived from rare-class mRNA. The reaction of 32P[cDNA] from blastula and pluteus mRNA to dots of the cloned DNAs on nitrocellulose filters indicated that the mRNAs complementary to the different cloned pluteus-specific sequences were between 3- and 47-fold more prevalent at the pluteus stage than at the blastula stage. Polyadenylated RNA from different developmental stages was transferred from electrophoretic gels to nitrocellulose filters and reacted to the different cloned sequences. The regulated mRNAs were undetectable in the RNA of 3-h embryos, became evident at the hatching blastula stage, and reached a maximum in abundance by the gastrula or pluteus stage. Certain of the clones reacted to two sizes of mRNA which did not vary coordinately with development. Transfers of RNA isolated from each of the three cell layers of pluteus embryos that were reacted to the cloned sequences revealed that two of the sequences were found in the mRNA of all three layers, two were ectoderm specific, and one was endoderm specific. Four of the regulated sequences were complementary to one or two major bands and one to at least 50 bands on Southern transfers of restriction endonuclease-digested total sea urchin DNA.  相似文献   

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Structural genes adjacent to interspersed repetitive DNA sequences   总被引:2,自引:0,他引:2  
The observation that repetitive and single copy sequences are interspersed in animal DNAs has suggested that repetitive sequences are adjacent to single copy structural gene sequences. To test this concept, single copy DNA sequences contiguous to interspersed repetitive sequences were prepared from sea urchin DNA by hydroxyapatite fractionation (repeat-contiguous DNA fraction). These single copy sequences included about one third of the total nonrepetitive sequence in the genome as determined by the amounts recovered during the hydroxyapatite fractionation and by reassociation kinetics. 3H-labeled mRNA from sea urchin gastrula was prepared by puromycin release from polysomes and used in DNA-driven hybridization reactions. The kinetics of mRNA hybridization reactions with excess whole DNA were carefully measured, and the rate of hybridization was found to be 3–5 times slower than the corresponding single copy DNA driver reassociation rate. The mRNA hybridized with excess repeat-contiguous DNA with similar kinetics relative to the driver DNA. At completion 80% of that mRNA hybridizable with whole DNA (approximately 65%) had reacted with the repeat-contiguous DNA fraction (50%). This result shows that 80–100% of the mRNA molecules present in sea urchin embryos are transcribed from single copy DNA sequences adjacent to interspersed repetitive sequences in the genome.  相似文献   

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