Underrepresentation of nuclear DNA sequences in differentiating root cells ofVicia faba

Summary Data from cytological and biochemical analyses are presented on the behaviour of nuclear DNA during the differentiation ofVicia faba root cells. From the terminal 10.5 mm of the root, three segments were dissected by cutting transversely the root at 0.5 (segments I, meristematic cells), 4.5 (segment II, both meristematic and differentiating cells) and 10.5 mm (segment III, differentiating and/or differentiated cells) from the tip. Cytophotometric determinations of Feulgen absorptions in cell nuclei of the three root segments, carried out in preparations subjected to hydrolysis curve, revealed a lesser amount of nuclear DNA in differentiating cells when compared to the meristematic ones. Analyses of the reassociation kinetics of the DNAs extracted separately from the three root segments showed differences in the frequency of highly repeated sequences, which amount to 11.0, 8.6, and 7.5% of the total DNA in segments I, II, and III, respectively. Density gradient centrifugations in CsCl revealed a lighter satellite in the DNAs from segments I and II (ca. 5.4 and 3.8% of the total DNA, respectively) and no satellite in the DNA from segment III. It is suggested that underrepresentation of repeated DNA sequences occurs in differentiating cells and is a determining factor of the discharge of a cell from the mitotic activity.     

Comparison of DNA restriction fragment length polymorphisms of Nostoc strains in and from cycads

DNA was prepared from cyanobacteria freshly isolated from coralloid roots of natural populations of five cycad species: Ceratozamia mexicana mexicana (Mexico), C. mexicana robusta (Mexico), Dioon spinulosum (Mexico), Zamia furfuraceae (Mexico) and Z. skinneri (Costa Rica). Using the Southern blot technique and cloned Anabaena PCC 7120 nifK and glnA genes as probes, restriction fragment length polymorphisms of these cyanobacterial symbionts were compared. The five cyanobacterial preparations showed differences in the sizes of their DNA fragments hybridizing with both probes, indicating that different cyanobacterial species and/or strains were in the symbiotic associations. On the other hand, a similar comparison of cyanobacteria freshly collected from a single Encephalartos altensteinii coralloid root and from three independently subcultured isolates from the same coralloid root revealed that these were likely to be one and the same organism. Moreover, the complexity of restriction patterns shows that a mixture of Nostoc strains can associate with a single cycad species although a single cyanobacterial strain can predominate in the root of a single cycad plant. Thus, a wide range of Nostoc strains appear to associate with the coralloid roots of cycads.Non-standard abbreviations bp base pairs - kbp kilobase pairs - RFLP's restriction fragment length polymorphisms     

Different AT-rich satellite DNAs in Cucurbita pepo and Cucurbita maxima

Summary The AT-rich highly repeated satellite DNA of Cucurbita pepo (zucchini) and Cucurbita maxima (pumpkin) were cloned and their DNA structure was investigated. DNA sequencing revealed that the repeat length of satellite DNA in Cucurbita pepo is 349–352 base pairs. The percentage of AT-base pairs is about 61%. This satellite is highly conserved in restriction enzyme pattern and DNA sequence; sequence heterogeneity is about 10%. In contrast, the satellite DNA of Cucurbita maxima has a repeat length of 168–169 base pairs. This satellite is also rich in AT-base pairs (64%), existing in at least three different variants as revealed by restriction enzyme analysis and DNA sequencing. The sequence heterogeneity between these variants is about 15%. The two satellite DNAs showed no cross-hybridization to each other and sequence homology is only limited. Nevertheless, we found in the C. pepo genome a high amount of sequences resembling the satellite of C. maxima. In contrast, the satellite repeat of C. pepo is found in the C. maxima DNA only in a few copies. These observations were discussed with respect to satellite DNA evolution and compared to the data received from monocotyledonous species.     

Reassociation Kinetics and Cytophotometric Characterization of Peanut (Arachis hypogaea L.) DNA

The base composition of peanut (var. NC-17) DNA determined from thermal denaturation profiles showed an average guanine plus cystosine content of 34% which was in close approximation to 36% guanine plus cytosine calculated from the buoyant density. Buoyant density also indicated the absence of satellite DNA. The genome size, 2.0 × 10⁹ base pairs, as determined by reassociation kinetics of the single copy DNA was close to the genome size determined by cytophotometry, 2.1 × 10⁹ base pairs. Peanut DNA averaging 450 to 600 base pairs long, reassociated in phosphate buffer and fractionated by hydroxylapatite, indicated a DNA genome composition of 36% nonrepetitive or single copy DNA; reassociation in formamide and followed by optical methods indicated the repetitive DNA possesses highly repeated, intermediately repeated and rarely repeated components of DNA with DNA sequences repeated on the average about 38,000, 6,700, and 200 times each. Different criteria of reassociation in formamide revealed further subdivisions of these four separate components of DNA. The DNA of above mentioned NC-17 variety compared to Florigiant variety showed no differences in thermal denaturation profiles, buoyant density, or in genome size.     

Changes in DNA composition in the evolution of Vicia species

Summary The composition of nuclear DNA in 3 Vicia species are compared. The species V. eriocarpa, V. johannis and V. melanops are from three separate subgeneric sections of Vicia and show a fourfold variation in their amounts of nuclear DNA. DNA melting experiments, buoyant density gradient analysis and Cot reassociation experiments show that the quantitiative change in nuclear DNA between the three species is achieved by changes in the amounts of both repetitive and nonrepetitive DNA sequences. It is suggested that while the increase in the repetitive fraction is achieved by the proliferation of repetitive base sequences the increase in the nonrepetitive fraction is due to the steady accretion of highly diverged base sequences resulting from mutations, deletions, insertions and base sequence rearrangements among families of repetitive sequences.     

Molecular analysis of the genomic organization of the Hymenoptera Diadromus pulchellus and Eupelmus vuilleti

The genomic organization of two parasitic wasps was analyzed by DNA reassociation. Cot curves revealed a pattern with three types of components. A highly repetitive DNA, accounting for 15 to 25% of the genome, was identified as satellite DNA. The moderately repetitive DNA corresponds to 26 to 42% of the genome in both species, and shows large variations in complexity, repetitive frequency and a number of sub-components between males and females. These variations are seen as resulting from DNA amplification during somatic and sexual differentiation. Dot blot analyses show that such DNA amplifications concern several types of structural and regulatory genes. The presence of repeated mobile elements was studied by the Roninson method to compare the repeated sequence patterns of Diadromus pulchellus and Eupelmus vuilleti with those of Drosophila melanogaster. The occurrence and organization of mobile elements in these Hymenoptera differ from those of the neighboring order of Diptera. The repetitive and unique components define very large genomes (1 to 3 × 10⁹ base pairs). The genomic organization in Parasitica appears to be an extreme drosophilan type. We propose that the germinal genome of these parasitic wasps is primarily composed of satellite DNA blocks and very long stretches of unique sequences, separated by a few repeated and/or variously deleted, interspersed elements of each mobile element family.     

Presence of mycobacteriophage I3-like DNA sequences in the genome of its host Mycobacterium smegmatis

The genomes of phage I3 and its host Mycobacterium smegmatis have been compared. From thermal melting studies the GC contents of DNA from mycobacteriophage I3 and its host M. smegmatis were found to be 66%. A new method, based only on the initial rates of reassociation, has been developed for calculating the DNA homology. Analysis of DNA reassociation kinetics suggested the presence of one equivalent of the phage I3 genome within the M. smegmatis genome. Southern analysis revealed the presence of almost all of the phage I3 specific sequences within the host genome.     

Differentiation of metaxylem cell line in the root ofAllium cepa L.

Summary The differentiation processes of the metaxylem cell line in the root ofAllium cepa are characterized by amplification phenomena of repetitive DNA sequences mainly localized in heterochromatic regions of metaphase chromosomes. Moreover, these sequences are heavily methylated. This paper presents additional results on variation in endogenous DNA methylation in different developing root segments. The results show that methylation is higher in apical meristematic cells than the differentiating segments; contrastingly, total RNA synthesis seems to be correlated with undermethylation. Addition of labelled methyl groups to DNA by eukaryotic methylase, DNA digestions with different restriction enzymes specific for methylated sites and HPLC analysis confirmed the above results. Moreover, variation in methylation levels during differentiation occur not only at the internal cytosine of the-CCG-sites, but also at external cytosine. Furthermore, methylation affects other sites containing the trinucleotides-CXG-. In conclusion, root differentiation inAllium cepa seems to be correlated with gene activation modulated by the methylation/demethylation of particular DNA sequences.     

Arrangement and size distribution of repeat and single copy DNA sequences in four species ofCucurbitaceae

DNA sequence organization patterns have been studied in fourCucurbitaceae plant species, namely,Luffa cylindrica (sponge gourd),L. acutangula (ridge gourd),Benincasa hispida (ash gourd) andCoccinia indica (ivy gourd). Extensive interspersion of repeat and single copy sequences has been observed in sponge gourd and ridge gourd. In ash gourd and ivy gourd, however, there is a limited interspersion of these sequences and a large portion of the single copy DNA remains uninterspersed. The interspersed repetitive sequences are composed of a major class (75–80%) of short repeats (300 base pairs long) and a minor class (15–20%) of long repeats (2 000–4 000 base pairs) in all the four species. The average length of single copy sequences dispersed among repeats is 1 800–2 900 base pairs. In spite of these gross similarities in the genome organization in the four species, the fraction of repeats and single copy sequences involved in short and long period interspersion patterns, and fraction of single copy sequences remaining uninterrupted by repeats are vastly different. The probable implications of these differences with respect to speciation events and rates of genome evolution are discussed.Molecular Analysis ofCucurbitaceae Genomes, III. — NCL Communication No.: 3595.     

Differentiation between strains ofFlavobacterium breve and allied bacteria by comparisons of deoxyribonucleic acids

Chromosomal deoxyribonucleic acid was isolated and purified from 10 strains ofFlavobacterium breve, originating from human or other animal sources. The mean and standard deviation for the species in base content was 32.4±0.6% G+C, and in genome size was 3.21±0.37×10⁹ daltons. In vitro DNA reassociation showed that sevenF. breve strains (mainly from human sources) had high levels of intraspecific base sequence similarity (>70%) as derived from reassociations done at the optimum temperature of reassociation (TOR) or TOR—10°C (nonstringent conditions). The three otherF. breve strains contained a high degree of base sequence divergence. All 10 strains ofF. breve were readily distinguishable in their DNA characteristics fromF. meningosepticum, F. odoratum, and allied Gram-negative bacteria.     

Nuclear DNA divergence among Lathyrus species

Among diploid Lathyrus species a threefold variation in nuclear DNA amount is attributable to differences in the amount of repetitive DNA. Cross reassociation among repetitive and among non-repetitive DNA fractions from different species shows substantial divergence in DNA composition. The divergence in base composition is correlated with nuclear DNA amount. The degree of divergence is of the same order of magnitude in both the repetitive and nonrepetitive fractions.     

Effects of Sequence Divergence on the Reassociation Properties of Repetitive DNAs

PYRIMIDINE tract analysis of two satellite DNAs suggests that their basic sequences are simpler than those calculated from their rates of reassociation (réf. 1 and unpublished results of A. Carr-Brown, E. M. S. and P. M. B. Walker). One possible explanation for this discrepancy would be that mismatched base pairs, which are known to affect the stability of duplexes², might have a serious effect on the rate of reassociation of DNA. The work of Sutton and McCallum³ (see following article³) shows that this is indeed the case for mouse satellite DNA. If this effect were general it would have serious consequences for the interpretation of the reassociation kinetics of the repeated sequences in higherorganism DNA, because the bulk of these sequences reassociate to give badly matched duplexes. I now discuss a simple modification of the mechanism for DNA reassociation put forward by Wetmur and Davidson⁵, which may explain why the effect of mismatching is so large and which suggests a relationship which may eventually be used to correct for the effect.     

Nuclear DNA changes within Helianthus annuus L.: cytophotometric,karyological and biochemical analyses

Summary Cytophotometric measurement of the root meristems of seedlings after Feulgen-staining reveals that large differences (up to 58.16%) in nuclear DNA content may occur in the thirty-one cultivated varieties or lines of Helianthus annuus tested. Significant variations (not exceeding 25%) in the amount of DNA, which does not differ between the root and the shoot meristems of a single seedling, are also found to exist within cultivars or lines; even seedlings obtained from seeds collected from different portions of single heads of plants belonging to a selfed line may vary one from the other in this respect. Variations in the number of chromosomes or alterations in the chromosome structure do not account for the differences observed in nuclear DNA content. Karyometric analyses demonstrate that the surface area of squashed interphase nuclei and metaphase chromosomes and the total length of the latter increase with the increase in Feulgen/DNA absorption. DNA thermal denaturation and reassociation kinetics indicate that a frequency variation in repeated DNA sequences goes hand in hand with changes in the size of the genome. These results, supporting the concept that a plant genome is highly flexible, are discussed in relation to other data to be found in the literature on the intraspecific variation in the nuclear DNA content and in relation to the way in which it is produced in H. annuus.     

Nuclear genome characterization and carrageenan analysis ofGymnogongrus griffithsiae (Rhodophyta) from North Carolina

DNA reassociation kinetics were used to determine nuclear genome organization and complexity inGymnogongrus griffithsiae (Gigartinales, Rhodophyta). Results indicate the presence of three second order components corresponding to fast (3%), intermediate (8%) and slow (89%) fractions. Thus the genome consists mainly of unique sequences. Thermal denaturation (T _m) indicated a nuclear DNA base pair composition of 40 mol% G + C. Microspectrophotometry with the DNA-localizing fluorochrome DAPI was used to confirm ploidy level differences in the gametophytic and tetrasporoblastic phases. Comparisons of mean nuclear DNA (I _f) values to chicken erythrocytes (RBC) resulted in an estimate of 0.32 pg/2 C genome forGymnogongrus griffithsiae. Karyological studies using aceto-orcein revealed the presence of ca. 23 bivalents during diakinesis of tetrasporangial mother cells. Total carrageenan content in water extraction was 30% dry weight. Infrared spectroscopy confirmed the isolated carrageenan to be the iota-fraction.     

Deoxyribonucleic acid homologies among staphylococci: Coagulase-positive reference strains

DNA hybridization results confirm the proposed separation of coagulase-positive staphylococci into two distinct species. Strains ofStaphylococcus aureus representing the various biotypes and different phage typing groups of the human biotype gave high values of reassociation with DNA fromS. aureus reference strain RN 450, at both optimal and restrictive reassociation temperatures. Similar results were obtained between strains ofS. intermedius and its reference strain K 3. Interspecific reassociation between the two coagulase-positive species was low, and each reference strain showed low DNA sequence homology with 10 coagulase-negative species.S. staphylolyticus, strain PS 73, and putative pleiotropic mutants ofS. aureus were shown to be unrelated toS. aureus.     

Deoxyribonucleic acid reassociation in the classification of coagulase-positive staphylococci

DNA-DNA reassociation studies were performed with coagulase-positive staphylococci belonging to the biotypes A, B, C, D, E and F. These studies present genetic evidence for the existence of at least two distinct species within this group of organisms. The common Staphylococcus aureus strains were represented by organisms from biotypes A to D, and their DNA revealed over 80% nucleotide sequence homology under restrictive conditions. Less than 15% DNA homology was detected between strains from biotypes A to D (S. aureus) and those from biotypes E and F. The DNA of organisms from either the biotypes E or F displayed over 70% homology. Together, both biotypes are considered to represent the species S. intermedius. However, DNA homology values dropped to 50–65% between strains from different biotypes. This may justify the separation of S. intermedius biotypes E and F on a subspecies level.Abbreviations O.D. optical density - SSC standard saline citrate buffer (0.15 M NaCl, 0.015 M sodium citrate, pH 7.0) This work was supported by Deutsche Forschungsgemeinschaft     

Contrasting patterns of DNA sequence arrangement in Apis mellifera (Honeybee) and Musca domestica (housefly)

We have examined the organization of the repeated and single copy DNA sequences in the genomes of two insects, the honeybee (Apis mellifera) and the housefly (Musca domestica). Analysis of the reassociation kinetics of honeybee DNA fragments 330 and 2,200 nucleotides long shows that approximately 90% of both size fragments is composed entirely of non-repeated sequences. Thus honeybee DNA contains few or no repeated sequences interspersed with nonrepeated sequences at a distance of less than a few thousand nucleotides. On the other hand, the reassociation kinetics of housefly DNA fragments 250 and 2,000 nucleotides long indicates that less than 15% of the longer fragments are composed entirely of single copy sequences. A large fraction of the housefly DNA therefore contains repeated sequences spaced less than a few thousand nucleotides apart. Reassociated repetitive DNA from the housefly was treated with S1 nuclease and sized on agarose A-50. The S1 resistant sequences have a bimodal distribution of lengths. Thirty-three percent is greater than 1,500 nucleotide pairs, and 67% has an average size about 300 nucleotide pairs. The genome of the housefly appears to have at least 70% of its DNA arranged as short repeats interspersed with single copy sequences in a pattern qualitatively similar to that of most eukaryotic genomes.     

Capnocytophaga: New genus of gram-negative gliding bacteria. IV. DNA base composition and sequence homology

Isolates of Gram-negative fermentative gliding bacteria which are prominantly cultivated from the subgingival sulcus in association with periodontal lesions have been the subject of a collaborative taxonomic study. Thirty-five oral strains, isolated from various states of periodontal health and disease, were examined for DNA base composition and patterns of DNA sequence homology. The phentotypically similar organism, Bacteroides ochraceus ATCC 27872, as well as two representatives of gliding bacteria in the family Cytophagaceae, Myxococcus fulvus and Sporocytophaga myxococcoides, were included in these comparisons. Mol-percent guanine and cytosine (% G+C) was determined by thermal denaturation. Relatedness was also assessed by interspecific reassociation of DNA measured by the use of a single-strand specific S1 endonuclease. DNA purified from oral gliders, B. ochraceus ATCC27872 and S. myxococcoides contained 33–41% G+C as compared with 67% in DNA from M. fulvus. Three homology groups (designated as 25, 4 and 27) were delineated by DNA homology. Homology at the 77% level was demonstrated between B. ochraceus ATCC 27872 and the oral reference strain 25. Homology group 4 comprised four strains, all of which were isolated from cases of rapidly advancing periodontal disease. The relatively high degree of genetic divergence, observed as intergroup homology levels of less than 25%, supports the naming of three species of Capnocytophaga, C. ochracea, C. sputigena and C. gingivalis by Leadbetter et al. (1979) corresponding to DNA homology groups 25, 4 and 27, respectively.     

Phylogenetic analysis of Methanobrevibacter isolated from feces of humans and other animals

Comparative 16S rRNA gene sequence and genomic DNA reassociation analyses were used to assess the phylogenetic relationships of Methanobrevibacter fecal isolates. The 16S rRNA gene sequences of Methanobrevibacter smithii strain PS and the human fecal isolates B181 and ALI were essentially identical, and their genomic DNA reassociated at values greater than 94%. The analysis of 16S rRNA sequences of the horse, pig, cow, rat, and goose fecal isolates confirm that they are members of the genus Methanobrevibacter. They had a high degree of sequence similarity (97–98%) with the 16S rRNA gene of M. smithii, indicating that they share a common line of descent. The 16S rRNA genes of the horse and pig isolates had 99.3% sequence similarity. Sequence analysis of the 16S rRNA gene of the sheep fecal isolate showed that it formed a separate line of descent in the genus Methanobrevibacter. Genomic DNA reassociation studies indicate that the horse, pig, cow, and goose fecal isolates represent at least three new species. The horse and pig isolates were the only animal isolates that had > 70% genomic DNA reassociation and represent strains of a single species. The cow, goose, and sheep isolates had little or no genomic DNA reassociation with M. smithii or with each other. The relationship of the rat isolate to the other animal isolates was not determined. An evaluation of the relationship of 16S rRNA gene sequence similarity and genomic DNA reassociation of Methanobrevibacter and other methanogenic archaea indicated that genomic DNA reassociation studies are necessary to establish that two methanogenic organisms belong to the same species. Received: 17 November 1997 / Accepted: 16 January 1998     

Genetic diversity analysis of a world-wide collection of <Emphasis Type="Italic">Ascochyta rabiei</Emphasis> isolates using sequence tagged microsatellite markers

A previously characterized compound microsatellite locus ARMS1, containing penta- and decameric repeat units, has been reported to reveal genetic diversity in Ascochyta rabiei (Pass.) Labr. isolates. Therefore, 37 isolates of Ascochyta rabiei collected from different states of India and 38 isolates from fifteen other countries in the world were examined for their diversity at this locus. Twenty-six alleles on the basis of size (228--451 base pairs) were detected in the world isolates examined, while 15 alleles (287--418 base pairs) were observed in isolates from the Indian subcontinent. To the best of our knowledge, this study is the first to demonstrate diversity in representative Ascochyta rabiei isolates from different parts of the world at the ARMS1 locus.