PCR-RFLP of S locus for identification of breeding lines in cruciferous vegetables

A simple method of detecting polymorphism of S locus glycoprotein gene, SLG, in Chinese cabbage and cabbage was developed, and used for identification of breeding lines. DNA was amplified by the polymerase chain reaction (PCR) with a pair of primers having S ₆ SLG sequences from inbred lines, and digested with restriction endonucleases which recognize tetranucleotide sequences. The cleaved DNA fragments were size-fractionated by polyacrylamide gel electrophoresis and detected by silver staining. PCR with S ₆ SLG primers amplified a fragment of ca. 1.3kb in more than half of the inbred lines tested. After digestion, polyacrylamide gel electrophoresis revealed polymorphism between the amplified 1.3kb DNA fragments. These polymorphic bands were detected by Southern hybridization using a probe of S ₆ SLG cDNA, suggesting that the amplified DNA was SLG. Primers having the SLG sequences of S ₂ , a representative of recessive S alleles, were used for amplification of SLG in the lines which did not give the 1.3kb DNA fragment by the PCR with S ₆ SLG primers. Polymorphism of amplified DNA was found in these lines. However these primers also appeared to amplify an invariant SLR-2 sequence of 1.3kb in addition to the polymorphic S ₂ SLG related sequences. Although the used primer sequences still need improvement for the analysis of recessive S alleles, PCR-RFLP of SLG was considered to be useful for identification of breeding lines as well as for S allele identification in cruciferous vegetables. F₁ hybrids exhibited the sum of the bands of both parents, and, therefore, this method is expected to be used for a purity test of F₁ seeds.     

Nucleotide sequence of BamHI family satellite DNA and its unit length polymorphism in bluegill sunfish Lepomis macrochirus

We have isolated and sequenced a member of tandem repetitive DNA containing BamHI site (BamHI family satellite DNA) from bluegill sunfish Lepomis macrochirus. PCR amplification with specific primers was performed to define the size of unit length repeat of the BamHI family satellite DNA, revealing that there were two distinct size of DNA fragments (0.9 kb and 1.3 kb) in the PCR products. The longer fragment (1.3 kb) consisted of internal sub-duplication of shorter fragment (0.9 kb). We have compared the size of PCR products among four fish populations, and found that both fragments co-existed in one population whereas the longer fragment was dominant in other three populations. The results may reflect ongoing homogenization of satellite DNA type over a short evolutionary time scale.     

Purification and restriction endonuclease mapping of soybean 18 S and 25 S ribosomal RNA genes

The restriction endonuclease map of the 25 S and 18 S ribosomal RNA genes of a higher plant is presented. Soybean (Glycine max) rDNA was enriched by preparative buoyant density centrifugation in CsCl-actinomycin D gradients. The buoyant density of the rDNA was determined to be 1.6988 g cm^–3 by analytical centrifugation in CsCl. Saturation hybridization showed that 0.1% of the total DNA contains 25 S and 18 S rRNA coding sequences. This is equivalent to 800 rRNA genes per haploid genome (DNA content: 1.29 pg) or 3200 for the tetraploid genome. Restriction endonuclease mapping was performed with Bam H I, Hind III, Eco R I, and BstI. The repeating unit of the soybean ribosomal DNA has a molecular weight of 5.9·10⁶ or approximately 9,000 kb. The 25 S and 18 S rRNA coding sequences were localized within the restriction map of the repeating unit by specific hybridization with either [¹²⁵I]25 S or [¹²⁵I]18 S rRNA. It was demonstrated that there is no heterogeneity even in the spacer region of the soybean rDNA.     

Non xenopus-like DNA sequence organization in the Chironomus tentans genome

Summary We have examined the sequence organization of Chironomus tentans DNA by means of optical and hydroxyapatite renaturation kinetics of total DNA fragment sizes of 0.36, 2.6 and 13.5 kilobases (kb) as well as isolated middle repeat DNA at sizes of 0.36 and 13.5 kb. 90% of the DNA renatured as unique sequences of a genome of 0.20 pg with the balance of DNA renaturing as middle repetitive sequences present on average 90 times per haploid genome. At a DNA fragment length of 13.5 kb, 35% of the DNA was trapped on the hydroxyapatite as middle repetitive fraction. We concluded C. tentans DNA to have a mean repeat length of about 4.3 kb distributed through out at least 35% of the genome with an inter repeat spacing of at least 13.5 kb but possibly being distributed throughout the whole genome with an inter repeat spacing of 36 kb. This shows C. tentans DNA organization not to follow the almost ubiquitous Xenopus model but to be similar to the organization of Drosophila melanogaster DNA.     

Low molecular weight DNA in the heteromeric macronuclei of two cyrtophorid ciliates

Summary— The size range of the native DNA molecules in the heteromeric macronuclei of two cyrtophorid ciliates (Trithigmostoma cucullulus, Chilodonella uncinata) was mainly investigated by using agarose gel electrophoresis. Numerous bands superimposed on a continuous spectrum of molecular sizes between about 0.35 kb and 30 kb were resolved by conventional electrophoresis. Species-specific banding patterns indicate a variation between species in the copy number of individual DNA fragments. A slight intra-specific variability of banding patterns can exist. Electrophoretic distributions for two strains of T cucullulus were indeed found to differ by at least one more intense band (‘overamplified’ sequences?). Fractionation by contour-clamped homogeneous electric field (CHEF) gel electrophoresis revealed that the size continum of macronuclear DNA molecules does not extend beyond 60–70 kb. The average size was estimated to be around 4 kb. Unresolved DNA fraction (> 1000 kb) accounted for less than 10% of the mass of cellular DNA entering CHEF gels. Macronuclear ribosomal DNA of each cyrtophorid species was identified by Southern hybridization with a Tetrahymena rDNA probe. The hybridization signal was observed on a single band of low molecular weight DNA. The corresponding size was close to 14.5 kb in Trithigmostoma and 15.5 kb in Chilodonella, which is about twice the size of monomeric rDNA in hypotrichous ciliates. We showed that S1 nuclease resistant duplexes wit half the length of the native rDNA can be formed by rapid renaturation of heat-denatured molecules and hybridized with native rDNA. This strongly suggests that the nucleotide sequence of this rDNA is a large palindrome. Unlike the hypotrichs, macronuclear rDNA in cyrtophorids should be organized into palindromic dimers as in Tetrahymena species.     

Cloning and characterization of hydrogenase genes from Azotobacter chroococcum

Summary Genomic DNA from Azotobacter chroococcum was shown by DNA hybridization to contain sequences homologous to Rhizobium japonicum H₂-uptake (hup) hydrogenase genes carried on the plasmid pHU1. Two recombinant cosmid clones, pACD101 and pACD102, were isolated from a gene library of A. chroococcum by colony hybridization and physically mapped. Each contained approximately 42 kb of insert DNA with approximately 27 kb of overlapping DNA. Further hybridization studies using three fragments from pHU1 (6 kb HindIII, 6.4 kb BglII and 5 kb EcoRI) showed that the hup-specific regions of R. japonicum and A. chroococcum are probably highly conserved. Weak homology to the hydrogenase structural genes from Desulfovibrio vulgaris (Hildenborough) was also observed. A 24 kb BamHI fragment from pACD102 subcloned into a broad host-range vector restored hydrogenase activity to several Hup^- mutants of A. chroococcum.     

Large arrays of tandemly repeated DNA sequences in the green alga Chlamydomonas reinhardtii

We describe the characterization of tandemly repeated DNA sequences, which resemble the satellite DNA sequences of multicellular eucaryotes, in the unicellular green alga Chlamydomonas reinhardtii. Restriction enzymes that cleave C. reinhardtii DNA relatively frequently produce a number of high molecular weight DNA fragments in addition to the bulk of low molecular weight DNA fragments. pTANC 1.5 contains a 1.5 kb Sau3A fragment cloned from one of these large bands. pTANC 1.5 hybridized to at least three large arrays (200 to 700 kb) of tandemly repeated DNA sequences in the cell-wall-deficient strain cw1.5. These arrays are composed of repeat units that are each cleaved once by BamHl into bands of 1.5, 1.9, 2.0 and 2.5 kb in size. The copy numbers of the 1.5, 1.9, 2.0 and 2.5 kb Bamhl bands vary between different C. reinhardtii strains. Chlamydomonas smithii and a number of C. reinhardtii strains are deficient in all four BamHl bands. Genetic analysis of wild-type strain 137c, which is deficient in the 2.0 kb BamHl band, indicates that the 1.5, 1.9 and 2.5 kb BamHl bands derive from at least five loci. The 1.5, 1.9 and 2.5 kb repeat units are not extensively interspersed with each other in strain 137c. Pulsed-field gel electrophoresis of intact C. reinhardtii chromosomes indicates that TANC arrays are present on more than one chromosome.     

High-resolution physical mapping in Arabidopsis thaliana and tomato by fluorescence in situ hybridization to extended DNA fibres

A technique to detect DNA sequences on extended DNA fibres (EDF) prepared from interphase nuclei from tomato (Lycopersicon esculentum) and Arabidopsis thaliana leaves by fluorescence in situ hybridization (FISH) is described. Three nuclear lysis procedures have been tested for their ability to decondense chromatin and to generate highly extended intact DNA fibres on microscopic slides. DNA probes of various sizes have been used in FISH experiments to EDFs to establish the resolution and sensitivity of the technique. The fluorescent signals of a 5S rDNA probe hybridized to tomato EDFs revealed continuous strings of about 200 µm, that corresponded to a molecular size of about 660 kb. In A. thaliana, a contig of three cosmids spanning a genomic region with a total length of about 89 kb was analysed. By means of multi-colour hybridization the physical positions of the cosmids were visualized as red and green fluorescence strings with overlapping regions in yellow. Comparison of the length of the fluorescent signals with the molecular data revealed a stretching degree of the DNA fibres at 3.27 kb µm^?1, which is close to the Watson-Crick DNA length estimate of 2.9 kb µm^?1. Other experiments on small size molecular probes with both lambda clones (13.5–17 kb insert sizes) and plasmids (4.2 and 5 kb) in a contig of A. thaliana, and the 5S rDNA region in tomato showed close agreement with molecular data. The lower limit of the detection, which was established in a hybridization experiment with two DNA probes from the 45S ribosomal gene on extended fibres of tomato, was about 0.7 kb. Consistent patterns of alternating fluorescent red and green spots were obtained reflecting the tandemly repeated arrangement of the 18S and 25S ribosomal sequences. On the basis of the microscopic distance between these hybridization spots the size of the ribosomal unit was estimated at 8.2 kb. This implies a drastic improvement of high-resolution physical mapping of DNA sequences by FISH on plant DNA.     

Ribotyping of 16S and 23S rRNA genes and organization of rrn operons in members of the bacterial genera Gemmata,Planctomyces, Thermotoga,Thermus, and Verrucomicrobium

The number of organization of rrn genes of two members of the order Planctomycetales, Planctomyces limnophilus and Gemmata obscuriglobus, as well as three species from other bacterial phyla, namely Thermotoga maritima, Thermus aquaticus and Verrucomicrobium spinosum were examined by Southern blot hybridization analysis of restricted DNA with labeled 16S- and 23S rRNAs. Ribotyping analysis revealed that two species contain unlinked 16S- and 23S rRNA genes. Planctomyces limnophilus possessed two unlinked rrn genes which were separated from each other by at least 4.3 kb, and Thermus aquaticus had to unlinked 16S and 23S rRNA genes, separated from each other by at least 2.5 kb. Gemmata obscuriglobus exhibited five genes for which the organization could as yet not be determined because of the complex hybridization patterns. In the other two species, rrn genes clustered in operons. Thermotoga maritima had a single gene for each rRNA species which were separated by not more than 1.5 kb, while Verrucomicrobium spinosum had four copies of probably linked 16S and 23S rRNA genes with a maximal distance between 16S and 23S rRNA genes of 1.3 kb.     

Plasmids from bacterial endosymbionts of hump-killer paramecia

Six isolates ofCaedibacter taeniospiralis, collected from four continents, were screened for plasmid DNA. Plasmid DNA species containing between 41.5 and 49.5 kilobase pairs (kb) were observed in all strains. Physical maps of plasmids were constructed by determining relative positions of the restriction endonuclease (BamHI,SalI,XhoI,SacI,PstI,AvaI, andEcoRI) recognition sequences in each plasmid. The physical map of the smallest plasmid (41.5 kb), pKAP30, is reflected in each of the plasmids isolated from the other strains ofC. taeniospiralis. Plasmid DNA from three of the isolates (strains 51 and 116 both from Indiana and strain 169 from Japan) each contain 43 kb, where 41.5 kb appear to be identical to pKAP30 (obtained from the Australian strain, A30). The extra 1.5 kb present in pKAP51, pKAP116, and pKAP169 is included as a single polynucleotide sequence. The 1.5-kb inclusion is located at apparently identical positions in pKAP116 and pKAP169 and at a totally different position in pKAP51. The two remaining plasmids, pKAP47 (from California strain 47) and pKAP298 (from Panama strain 298), both contain 49 kb to include a continuous 41.5-kb sequence that is apparently identical to pKAP30. The results indicate that the polynucleotide sequences of these plasmids are highly conserved and that the observed variations among them may be accounted for by transposable elements.     

Distribution of 5S ribosomal RNA genes in somatic and germ cells of the house cricket,Acheta domesticus

In the house cricket,Acheta domesticus, the 110 genes per haploid genome encoding 18S and 28S rRNA are contained within rDNA repeats which are amplified during oogenesis. The 5S rRNA coding sequences of this cricket are found in two sizes of 5S DNA repeating units (measuring 2.1 and 3.0 kb). The 3.0 kb repeats account for more than 90% of the totalAcheta 5S DNA. We have determined the number of cricket 5S rRNA genes by RNA-DNA hybridization analysis: 310 5S DNA repeats/haploid genome clearly approximates the number of 18S and 28S rRNA genes. Because of the relatively low copy number of 5S rRNA genes the possibility of 5S DNA amplification in oocytes ofA. domesticus was also examined. Although amplification of rDNA is readily detectable, amplification of 5S DNA is not observed in oocytes ofA. domesticus. Unlike the genes coding for 18S and 28S rRNA which are localized at a single chromosomal site in the genome ofA. domesticus, the 5S rRNA genes occupy numerous sites distributed along the length of most chromosomes.     

Identification of a centromeric activity in the autonomously replicating TRA region allows improvement of the host-vector system for Candida maltosa

A centromeric activity was identified in the previously isolated 3.8 kb DNA fragment that carries an autonomously replicating sequence (ARS) from the yeast Candida maltosa. Plasmids bearing duplicated copies of the centromeric DNA (dicentric plasmids) were physically unstable and structural rearrangements of the dicentric plasmids occurred frequently in the transformed cells. The centromeric DNA activity was dissociated from the ARS, which is 0.2 kb in size, and was delimited to a fragment at least 325 by in length. The centromeric DNA region included the consensus sequences of CDEI (centromeric DNA element I) and an AT-rich CDEII-like region of Saccharomyces cerevisiae but had no homology to the functionally critical CDEIII consensus. A plasmid bearing the whole 3.8 kb fragment was present in 1–2 copies per cell and was maintained stably even under non-selective culture conditions, while a plasmid having only the 0.2 kb ARS was unstable and accumulated to high copy numbers. The high-copy-number plasmid allowed us to overexpress a gene to a high level, which had never been attained before, under the control of both constitutive and inducible promoters in C. maltosa.     

Variable presence of the 1.94kb mitochondrial plasmid in maize S cytoplasm and its relationship to cytoplasmic male sterility

Mitochondrial DNA (mtDNA) was isolated from over 100 different maize nucleo-cytoplasmic combinations. DNA preparations were assayed for the presence of the 1.94kb mitochondrial plasmid by agarose gel electrophoresis and hybridization to a recombinant clone of the plasmid. The plasmid was present in all tested inbreds which carried N, male fertile, cytoplasm or the cytoplasmically male sterile (cms) groups,cms-T andcms-C. However, members of thecms-S group differed with respect to the presence of the plasmid. Cytoplasms I, J and S possessed the plasmid, whereas cytoplasms B, CA, D, G, H, IA, ME, ML, PS, RD and VG did not.Cms-S group lines which had spontaneously reverted to fertility (nuclear and cytoplasmic revertants) did not exhibit a concomitant change in 1.94kb plasmid levels, although all such lines showed the previously reported alteration in levels of the linear mtDNAs, S1 and S2. The presence or absence of the plasmid was not correlated with (i) frequency of reversion to fertility, (ii) the degree of male sterility expressed, (iii) the presence or absence of standard nuclear restorer to fertility genes and (iv) nuclear genotype. Latin American races carrying RU cytoplasm possessed the plasmid, as did sweet corn varieties. The relevance of the data tocms and evolution of thecms-S group is discussed.     

Physical map of Aspergillus nidulans mitochondrial genes coding for ribosomal RNA: an intervening sequence in the large rRNA cistron

Summary A detailed map of the 32 kb mitochondrial genome of Aspergillus nidulans has been obtained by locating the cleavage sites for restriction endonucleases Pst I, Bam H I, Hha I, Pvu II, Hpa II and Hae III relative to the previously determined sites for Eco R I, Hind II and Hind III. The genes for the small and large ribosomal subunit RNAs were mapped by gel transfer hybridization of in vitro labelled rRNA to restriction fragments of mitochondrial DNA and its cloned Eco R I fragment E3, and by electron microscopy of RNA/DNA hybrids.The gene for the large rRNA (2.9 kb) is interrupted by a 1.8 kb insert, and the main segment of this gene (2.4 kb) is separated from the small rRNA gene (1.4 kb) by a spacer sequence of 2.8 kb length.This rRNA gene organization is very similar to that of the two-times larger mitochondrial genome of Neurospora crassa, except that in A. nidulans the spacer and intervening sequences are considerably shorter.     

Evolution of human Y-chromosome DNA

We have used human male-specific 3.4 kb Hae III restriction endonuclease fragments to explore the evolutionary history of man's Y-chromosome. We have identified four sets of reiterated, sequences on the basis of their relative sequence homology with autosomal DNA. The sequences account for approximately 40% of the human Y-chromosome, are interspersed within the same 3.4 kb Hae III fragments, are heterogeneous and contain all reiterated DNA previously demonstrated to be specific for the Y-chromosome (it-Y DNA). Y-specific 3.4 kb Hae III sequences do not reassociate with either human female or ape DNA at standard reassociation criteria. However, approximately half of it-Y DNA (cross reacting it-Y) reassociates with both human female and ape DNA at reduced reassociation criteria. The remaining half (Y-specific it-Y) retains its specificity for the human Y-chromosome. These two sets of it-Y DNA have distinct reiteration frequencies and thermal stabilities with their Y-chromosome homologs. Non-Y-specific 3.4 kb Hae III sequences reassociate with both human female and ape DNA at standard reassociation criteria. The abundance of these non-Y-specific sequences decreases as a function of their evolutionary distance from man. One subset of non-Y-specific 3.4 kb Hae III sequences forms stable duplexes with human Y-chromosome DNA and with human and ape autosomal DNA. No detectable base-mismatch occurs among these homologs suggesting complete conservation of these sequences during primate evolution. The second subset of Non-Y-specific Hae III sequences form stable duplexes with human Y-chromosome DNA but highly mismatched duplexes with human and ape autosomal DNA.The finding that homologs of 3.4 kb Hae III sequences are not found within the Y-chromosome of apes but are only present in autosomes suggests that 3.4 kb Hae III sequences are largely autosomal in origin. Since autosomal homologs of most 3.4 kb Hae III-sequences exhibit a greater degree of divergence than those localized to the Y-chromosome, their evolutionary history seems to be chromosome-dependent.Our findings are not easily correlated with the comparative morphology of primate Y-chromosomes and suggest that sequence rearrangement has been a major event in the evolution of the human Y-chromosome. The significance of the specific interspersion of four sets of reiterated sequences, with distinct evolutionary histories, within a repeating unit specific to the human Y-chromosome is not clear. The apparent conservation of at least some of these reiterated sequences suggests they may be of functional importance.     

Plasmid pGB301, a new multiple resistance streptococcal cloning vehicle and its use in cloning of a gentamicin/kanamycin resistance determinant

Summary Streptococcal plasmid pGB301 is an in vivo rearranged plasmid with interesting properties and potential for the molecular cloning of genes in streptococci. Transformation of S. sanguis (Challis) with the group B streptococcal plasmid pIP501 (29.7 kb) gave rise to the deletion derivative pGB301 (9.8 kb, copy number 10) which retained the multiple resistance phenotype of its ancestor (inducible MLS-resistance, chloramphenicol resistance). Among the eight restriction endonucleases used to physically map pGB301 were four that cleaved the plasmid at single sites yielding either sticky (HpaII, KpnI) or bluntends (HpaI, HaeIII/BspRI). Passenger DNA derived from larger streptococcal plasmids (pSF351C61, 69.5 kb; pIP800, 71 kb) was successfully inserted into the HpaII site and, by blunt-end cloning, into the HaeIII/BspRI site. The gentamicin/kanamycin resistance gene of pIP800 was expressed by recombinant plasmids carrying the insert in either orientation. Insertion of passenger DNA into the HaeIII/BspRI site (but not the HpaII site) caused instability of adjacent pGB301 sequences which were frequently deleted, thereby removing the chloramphenicol resistance phenotype. The vector pGB301 has a remarkable capacity for passenger DNA (inserts up to 7 kb) and the property of instability and loss of a resistance phenotype following insertion of passenger DNA into the HaeIII/BspRI site should facilitate the identification of cloned segments of DNA when using this plasmid in molecular cloning experiments.     

Identification of a genomic region that complements a temperature-sensitive, high CO2-requiring mutant of the cyanobacterium, Synechococcus sp. PCC7942

Summary In a temperature-sensitive, high CO₂-requiring mutant of Synechococcus sp. PCC7942, the ability to fix intracellularly accumulated inorganic carbon was severely impaired at non-permissive temperature (41° C). In contrast, inorganic carbon uptake and ribulose-1,5-bisphosphate carboxylase activity in the mutant were comparable to the respective values obtained with the wild-type strain. The mutant was transformed to the wild-type phenotype (ability to form colonies at non-permissive temperature under ordinary air) with the genomic DNA of the wild-type strain. A clone containing a 36 kb genomic DNA fragment of the wild-type strain complemented the mutant phenotype. The complementing activity region was associated with internal 17 kb SmaI, 15 kb HindIII, 3.8 kb BamHI and 0.87 kb Pstl fragments. These 4 fragments overlapped only in a 0.4 kb HindIII-PstI region. In the transformants obtained with total genomic DNA or a plasmid containing the 3.8 kb BamHI fragment, the ability to fix intracellular inorganic carbon was restored. Southern hybridization and partial nucleotide sequence analysis indicated that the cloned genomic region was located approximately 20 kb downstream from the structural genes for subunits of ribulose-1,5-bisphosphate carboxylase/oxygenase. The cloned region was transcribed into a 0.5 kb mRNA. These results indicate that the cloned genomic region of Synechococcus sp. PCC7942 is involved in the efficient utilization of intracellular inorganic carbon for photosynthesis.     

Genes for the ribosomal proteins S12 and S7 and elongation factors EF-G and EF-Tu of the cyanobacterium, Anacystis nidulans: structural homology between 16S rRNA and S7 mRNA

Summary A 6.5 kb region from the genome of the cyanobacterium, Anacystis nidulans 6301 was cloned using the tobacco chloroplast gene for ribosomal protein S12 as a probe. Sequence analysis revealed the presence of genes for ribosomal proteins S12 and S6 and elongation factors EF-G and EF-Tu in this DNA region. The arrangement is rps12 (124 codons)-167 bp spacer-rps7 (156 codons)-77 bp spacer-fus (694 codons)-26 bp spacer-tufA (409 codons), which is similar to that of the Escherichia coli str operon. The deduced amino acid sequences of the A. nidulans S12 and EF-Tu show high homology (72%–82%) with the E. coli and chloroplast counterparts while those of the A. nidulans S7 and EF-G give low homology (51%–59%). Striking structural homology was found between the potential S7 binding region of 16S rRNA and the beginning of S7 mRNA, suggesting that feedback regulation of rps7 expression operates in A. nidulans.     

DNA sequences homologous to the T DNA region of Agrobacterium tumefaciens are present in diverse Rhizobium species

Summary DNA sequences homologous to the T DNA region of the octopine-type Ti plasmid from Agrobacterium tumefaciens are present in different Rhizobium species. Plasmid DNA from each of two R. leguminosarum, two R. meliloti, and four slow-growing Rhizobium strains examined contain restriction endonuclease fragments that hybridize with the T DNA region, or with DNA sequences at or near the adjacent Ti plasmid transfer (ra) region. Four different BamHI fragments that contain homology to the T DNA region were cloned from R. leguminosarum 300 plasmid DNA. Cloned fragments of 5.9 kb and 10.3 kb hybridize to each other and are homologous to sequences which map at the right boundary region (EcoRI fragment 24) of the core T DNA. Ti plasmid sequences homologous to those present in cloned fragments of 10.9 kb and 2.0 kb map in adjacent fragments near the tra genes, approximately 10 kb to the right of the core T DNA.     

DNA sequence organisation in avian genomes

By means of renaturation kinetics of DNA of the three avian species Cairina domestica, Gallus domesticus and Columba livia domestica the following major DNA repetition classes were observed: a very fast reannealing fraction comprising about 15% of the DNA, a fast or intermediate reannealing fraction that makes up 10%, and a slow reannealing fraction of about 70%, which apparently renatures with single copy properties. — Comparing the reassociation behaviour of short (0.3 kb) and long (>2 kb) DNA fragments of duck and chicken it becomes apparent that only 12% (duck) and 28% (chicken) of the single copy DNA are interspersed with repetitive elements on 2 to 3 kb long fragments. The lengths of the repetitive sequences were estimated by optical hyperchromicity measurements, by agarose A-50 chromatography of S₁ nuclease resistant duplexes and by electron microscopic measurements of the S₁ nuclease resistant duplexes. It was found that in the case of the chicken DNA the single copy sequences alternating with middle repetitive ones are at least 2.3 kb long; the interspersed moderate repeats have a length average of at least 1.5 kb. The sequence length of the moderate repeats in duck DNA is smaller. The results show that the duck and the chicken genomes do not follow the short period interspersion pattern of genome organisation, characteristic of the eucaryotic organisms studied so far.