The Cladophora Complex (Chlorophyta): New Views Based on 185 rRNA Gene Sequences

Evolutionary relationships among species traditionally ascribed to the Siphonocladales/Cladophorales have remained unclear due to a lack of phylogenetically informative characters and extensive morphological plasticity resulting in morphological convergence. This study explores some of the diversity within the generic complex Cladophora and its siphonocladalean allies. Twelve species of Cladophora representing 6 of the 11 morphological sections recognized by van den Hoek were analyzed along with 8 siphonocladalean species using 185 rRNA gene sequences. The final alignment consisted of 1460 positions containing 92 phylogenetically informative substitutions. Weighting schemes (EOR weighting, combinatorial weighting) were applied in maximum parsimony analysis to correct for substitution bias. Stem characters were weighted 0.66 relative to single-stranded characters to correct for secondary structural constraints. Both weighting approaches resulted in greater phylogenetic resolution. Results confirm that there is no basis for the independent recognition of the Cladophorales and Siphonocladales. The Siphonocladales is polyphyletic, and Cladophora is paraphyletic. All analyses support two principal lineages, of which one contains predominantly tropical members including almost all siphonocladalean taxa, while the other lineage consists of mostly warm- to cold-temperate species of Cladophora.     

Properties and Anti-HIV Activity of Nicked Dumbbell Oligonucleotides

Abstract

We have designed a new type of oligodeoxyribonucleotide. These oligodeoxyribonucleotides form two hairpin loop structures with base pairs (sense and antisense) in the double helical stem at the 3′ and 5′-ends (nicked dumbbell oligonucleotides). The nicked dumbbell oligonucleotides are molecules with free ends that are more resistant to exonuclease attack. Furthermore, the nicked dumbbell oligonucleotide containing phosphorothioate (P=S) bonds in the hairpin loops has increased nuclease resistance, as compared to the unmodified nicked oligonucleotide. The binding of the nicked dumbbell oligonucleotide to RNA is lower than that of a single-stranded DNA. We also describe the anti-HIV activity of nicked dumbbell oligonucleotides.

     

Unique hairpin structures occurring at the replication origin of phage G4 DNA

Recently we reported that a DNA fragment, GCCAAAGC, forms an extraordinarily stable hairpin structure with two G-C pairs at the terminus and A-A-A stacked structure. The sequence is present at the replication origin of bacteriophage G4 ssDNA, and so on. Several kinds of possible hairpin structures, corresponding to the replication origin of phage G4, were synthesized and their secondary structures were examined. It was found that the fragments are able to form interconvertible hairpin structures depending on the length of the base-paired regions. The hairpin structure consisting of GCGAAAGC was not digested by the exonuclease activity of T4 DNA polymerase and it was stable enough to be only minimally bound by a single-stranded DNA binding protein.     

The terminal redundant regions of bacteriophage T7 DNA

Summary Some aspects of the involvment of the terminal reduntant regions of T7 DNA on phage production have been studied by transfection experiments with T7 DNA after treatment of the molecules with exonuclease or exonuclease plus exonuclease I. It was found that terminal 5 gaps between 0.08 and 6.4% of the total length did not decrease the infectivity of the molecules although such gaps cannot be filled directly by DNA polymerases. Rather, compared to fully native DNA the infectivity of gapped DNA increased up to 20 fold in rec ⁺ spheroplasts and up to 4 fold in recB spheroplasts. This indicates a protective function of the single-stranded termini against the recBC enzyme in rec ⁺ and possibly another unidentified exonuclease present also in recB. The possibility that spontaneous circularization of the gapped molecules in vivo provides protection against exonucleolytic degradation was tested by transfection with T7 DNA circularization in vitro by thermal annealing. Such molecules were separated from linear molecules by neutral sucrose gradient centrifugation. They displayed a 3 to 6 fold higher infectivity in rec ⁺ and recB compared to linear gapped molecules, which shows that T7 phage production may effectively start from circular DNA.When the 3 single-stranded ends from gapped molecules were degraded by treatment with exonuclease I the infectivity of the molecules was largely abolished in rec ⁺ and recB as soon as 40 to 80 base pairs had been removed per end. It is concluded that the terminal regions of T7 DNA molecules are essential for phage production and that the redundancy comprises probably considerably less than 260 base pairs. The results are discussed with respect to the mode of T7 DNA replication.     

Evidence for palindromic sequences near the termini of adenovirus 2 DNA

When the kinetics of $\text{Escherichia coli}$ exonuclease III digestion of adenovirus 2 DNA were studied by DNA polymerase I-catalyzed repair synthesis at 5°C, there was an indication of the formation of hairpin structure in the single-stranded template, exposed by exonuclease III. The hairpin structure results from a sequence with an inverted repetition of the type, a b c d···d′ c′ b′ a′. The location of these sequences was determined to be about 180 nucleotides from each terminus of adenovirus 2 DNA with the use of specific restriction endonucleases. The possible role of this region in the replication of the adenovirus 2 genome is discussed.     

PHYLOGENY OF THE ULVOPHYCEAE (CHLOROPHYTA): CLADISTIC ANALYSIS OF NUCLEAR-ENCODED rRNA SEQUENCE DATA1

Cladistic analysis of nuclear-encoded rRNA sequence data provided us with the basis for some new hypotheses of relationships within the green algal class Ulvophyceae. The orders Ulotrichales and Ulvales are separated from the clade formed by the remaining orders of siphonous and siphonocladous Ulvophyceae (Caulerpales, Siphonocladales /Cladophorales [S/C] complex, and the Dasycladales), by the Chlorophyceae and Pleurastrophyceae. Our results suggest that the Ulvophyceae is not a monophyletic group. Examination of inter- and intra-ordinal relationships within the siphonous and siphonocladous ulvophycean algae revealed that Cladophora, Chaetomorpha, Anadyomene, Microdictyon, Cladophoropsis and Dictyosphaeria form a clade. Thus the hypothesis, based on ultrastructural features, that the Siphonocladales and Cladophorales are closely related is supported. Also, the Caulerpales is a monophyletic group with two lineages; Caulerpa, Halimeda, and Udotea comprise one, and Bryopsis and Codium comprise the other. The Dasycladales (Cymopolia and Batophora) also forms a clade, but this clade is not inferred to be the sister group to the S/C complex as has been proposed. Instead, it is either the sister taxon to the Caulerpales or basal to the Caulerpales and S/C clade The Trentepohliales is also included at the base of the siphonous and siphonocladous ulvophycean clade. The Pleurastrophyceae, which, like the Ulvophyceae, posses a counter-clockwise arrangement of flagellar basal bodies, are more closely related to the Chlorophyceae than to the Ulvophyceae based on rRNA sequences. Thus, the arrangement of basal bodies does not diagnose a monophyletic group. Previously reported hypotheses of phylogenetic relationships of ulvophycean algae were tested. In each case, additional evolutionary steps were required to obtain the proposed relationships. Relationships of ulvophycean algae to other classes of green algae are discussed.     

Unidirectional pulsed-field electrophoresis of single- and double-stranded DNA in agarose gels: analytical expressions relating mobility and molecular length and their application in the measurement of strand breaks

Unidirectional pulsed-field electrophoresis improves the separation of single-stranded DNA molecules longer than 20 kilobases (kb) in alkaline agarose gels compared to static-field electrophoresis. The greatest improvement in separation is for molecules longer than 100 kb. The improved resolution of long molecules with unidirectional pulsed-field electrophoresis makes possible the measurement of lower frequencies of single-strand breaks. The analytical function that relates the length and mobility of single-stranded DNA electrophoresed with a static field also applies to unidirectional pulsed field separations. Thus, the computer programs used to measure single-strand breaks are applicable to both undirectional pulsed- and static-field separations. Unidirectional pulsed-field electrophoresis also improves the separation of double-stranded DNA in neutral agarose gels. The function relating molecular length and mobility for double-stranded DNA separated by unidirectional pulsed-field electrophoresis is a superset of the function for single-stranded DNA. The coefficients of this function can be determined by iterative procedures.     

Delineation of the Genera Struvea Bonder and Phyllodictyon J. E. Gray (Cladophorales, Chlorophyta)

Plants of the stalked, net-forming green alga Struvea plumosa Sender, the type species of the genus Struvea, divide segregatively at every stage of their multicellular differentiation. The segregative process results in virtually simultaneous internal cleavage of the cytoplasts of parent axes or laterals into uniseriate series of nearly identically sized daughter cells m which intercalary cross-wall formation never takes place. Several branch orders result through a repeated process by which each daughter cell produces a pair of opposite protrusions at its distal end; the protruded arms subsequently undergo segregative divisions themselves after reaching a sufficient length. Struvea elegans Børgesen is seemingly the only other member of the genus in which the thallus divides by this segregative process. The remaining species appear to lack segregative cell division, their septation resulting from non-synchronous, centripetal wall ingrowths that divide parent cells into more or less equal halves. Intercalary cell divisions are common, this process being easily seen in the most widely distributed member of the genus, Struvea anastomosans (Harv.) Pice, et Grunov ex Pice. Phyllodictyon J. E. Gray, based on Phyllodictyon putcherrimum. is currently considered a synonym of Struvea but should be reinstated to accommodate those former species of Struvea that have Cladophoratype. as opposed to segregative, cell division. Although the two genera thus differ substantially in their modes of cytokinesis and are assumed to represent independent developmental lines, both Struvea and Phyllodictyon are assigned to the Cladophorales on the basis of molecular studies by others showing that recognition of the separate order Siphonocladales renders the Cladophorales paraphyletic.     

Analysis of Schizosaccharomyces pombe mitochondrial DNA replication by two dimensional gel electrophoresis

The entire mitochondrial genome of Schizosaccharomyces pombe ura4-294h ^-was analyzed by the 2D pulsed field gel electrophoresis technique developed by Brewer and Fangman. The genome consists of multimers with an average size of 100 kb and analysis of the overlapping restriction fragments of the complete mitochondrial DNA (mtDNA) genome resulted in simply Y 2D gel patterns. Large single-stranded DNA molecules or double-stranded DNA molecules containing large or numerous single-stranded regions were found in the S. pombe mtDNA preparation. The replication of mtDNA monomers was found to occur in either direction. On the basis of these results, a replication mechanism for S. pombe mtDNA that is most consistent with a rolling circle model is suggested.     

Notes on the life histories of Boergesenia and Valonia (Siphonocladales,Chlorophyta)

Life history studies were carried out with isolates of Boergesenia forbesii (from Western Australia), Valonia fastigiata (Hawaii) and V. utricularis (Canary Islands, Mediterranean Sea) cultivated under laboratory conditions. Ploidy levels of nuclei were identified by micro spectrophotometric DNA content measurements after Feulgen staining. Fundamentally, the life history in both genera is diplohaplontic. Autodiploidization phenomena have been observed favoring the diploid generation. In contrast to other genera of the Siphonocladales s. str. producing biflagellate diploid zoospores (e.g. Ernodesmis, Boodlea), Valonia develops haploid and diploid zoospores with four flagella. No diploid zoospores were observed in Boergesenia.     

RNA facilitates RecA-mediated DNA pairing and strand transfer between molecules bearing limited regions of homology

The RecA protein ofEscherichia coli catalyzes homologous pairing and strand exchange between a wide range of molecules showing nucleotide sequence complementarity, including a linear duplex and a single-stranded DNA molecule. We demonstrate that RecA can promote formation of joint molecules when the duplex contains an RNA/DNA hairpin and a single-stranded circle serves as the pairing partner. A chimeric RNA/DNA hairpin can be used to form stable joint molecules with as little as 15 bases of shared homology as long as the RNA stretch contains complementarity to the circle. The joint molecule bears some resemblance to a triple helical structure composed of RNA residues surrounded by two DNA strands which are in a parallel orientation. Evidence is presented that supports the notion that short stretches of RNA can be used in homologous pairing reactions at lengths below that required for DNA-DNA heteroduplex formation.     

Replication of the Streptomyces plasmid pSN22 through single-stranded intermediates

The replication of the 11 kb conjugative multicopy Streptomyces plasmid pSN22 was analyzed. Mutation and complementation analyses indicated that the minimal region essential for plasmid replication was located on a 1.9 kb fragment of pSN22, containing a trans-acting element encoding a replication protein and a cis-acting sequence acting as a replication origin. Southern hybridization showed that minimal replicon plasmids accumulated much more single-stranded plasmid molecules than did wild-type pSN22. Only one strand was accumulated. A 500 by fragment from the pSN22 transfer region was identified which reduced the relative amount of single-stranded DNA, when added in the native orientation to minimal replicon plasmids. This 500 by DNA sequence may be an origin for second-strand synthesis. It had no effect on the efficiency of co-transformation, plasmid incompatibility, or stability. The results indicate that pSN22 replicates via single-stranded intermediates by a rolling circle mechanism.     

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.     

Crystal Structure of the First Eubacterial Mre11 Nuclease Reveals Novel Features that May Discriminate Substrates During DNA Repair

Mre11 nuclease plays a central role in the repair of cytotoxic and mutagenic DNA double-strand breaks. As X-ray structural information has been available only for the Pyrococcus furiosus enzyme (PfMre11), the conserved and variable features of this nuclease across the domains of life have not been experimentally defined. Our crystal structure and biochemical studies demonstrate that TM1635 from Thermotoga maritima, originally annotated as a putative nuclease, is an Mre11 endo/exonuclease (TmMre11) and the first such structure from eubacteria. TmMre11 and PfMre11 display similar overall structures, despite sequence identity in the twilight zone of only ∼20%. However, they differ substantially in their DNA-specificity domains and in their dimeric organization. Residues in the nuclease domain are highly conserved, but those in the DNA-specificity domain are not. The structural differences likely affect how Mre11 from different organisms recognize and interact with single-stranded DNA, double-stranded DNA and DNA hairpin structures during DNA repair. The TmMre11 nuclease active site has no bound metal ions, but is conserved in sequence and structure with the exception of a histidine that is important in PfMre11 nuclease activity. Nevertheless, biochemical characterization confirms that TmMre11 possesses both endonuclease and exonuclease activities on single-stranded and double-stranded DNA substrates, respectively.     

DNA末端构型调控RecJ核酸外切酶活性

目的 核酸酶介导的DNA双链末端切割对同源重组修复至关重要。然而,DNA末端构型对RecJ 5’-3’核酸外切酶活性的调控尚不清楚。本研究旨在探究DNA3’端和5’端构型对RecJ核酸外切酶活性的影响及其机制。方法 为探究DNA3’端构型对RecJ核酸外切酶活性的影响,使用含有Mg²⁺的体系,对具有不同3’突出末端长度（9 nt与18 nt）和3’突出末端修饰（磷酸化和硫代磷酸酯修饰）的单链DNA分别进行RecJ核酸酶活性检测。为揭示DNA 3’端构型对RecJ外切酶活性的调控机制,在Mg²⁺缺失的体系中,使RecJ与底物结合后进行凝胶迁移实验（EMSA）。为探索其他调控因子与DNA3’端构型对RecJ的协同作用,分别检测5’端磷酸化修饰和单链DNA结合蛋白（SSB）对DNA3’突出末端修饰的影响。结果 DNA3’端构型包括突出末端的长度和修饰（磷酸化和硫代磷酸酯修饰）均会抑制RecJ外切酶活性。DNA 3’端磷酸化和硫代磷酸酯修饰通过重塑RecJ-DNA的结合模式抑制RecJ外切酶活性。DNA 5’端磷酸化修饰可增强RecJ对具有不同3’端...     

Demonstration of W chromosome-specific repetitive DNA sequences in the domestic fowl,Gallus g. domesticus

Evidence is presented to demonstrate the presence of W chromosome-specific repetitive DNA sequences in the female White Leghorn chicken, Gallus g. domesticus, based on two different experimental approaches. First, ³H-labelled, female chicken DNA was hybridized with excess, unlabelled, mercurated, male DNA, and unhybridized single-stranded ³H-DNA (³H-SHU-DNA) was recovered by SH-Sepharose and hydroxyapatite column chromatography. Approximately 24% of the hybridizable ³H-SHU-DNA was female-specific and localized on the W chromosome. The second approach was to examine female-specific DNA fragments among the digests of chicken DNA with various restriction endonucleases. Among them, we found that digestion with XhoI produced two prominent female-specific bands of 0.60 kb (= kilobase pairs) and 1.1 kb. The 0.60 kb fragment was isolated and ³H-labelled by nick-translation. Female-specificity of the ³H-XhoI—0.60 kb DNA was judged to be at least 95% under the conditions of hybridization with membrane filter-bound DNA. Presence of amplified XhoI—0.60 kb DNA on the W chromosome seems to be limited to different lines of G. g. domesticus and no such repeat was detected in three species belonging to other genera in the order Galliformes and in three species belonging to other avian orders.     

Nucleic acid renaturation and restriction endonuclease cleavage analyses show that the DNAs of a transforming and a nontransforming strain of Epstein-Barr virus share approximately 90% of their nucleotide sequences.

Viral DNA molecules were purified from a nontransforming and a transforming strain of Epstein-Barr virus. Each viral DNA was labeled in vitro and renatured in the presence of an excess of either one or the other unlabeled viral DNA. Both viral DNAs were also digested with the Eco R1 restriction endonuclease and subsequently labeled by using avian myeloblastosis virus DNA polymerase to repair either the EcoR1 nuclease-generated single-stranded ends of the DNAs or their single-stranded ends produced by a second digestion with exonuclease III after the first EcoR1 nuclease digestion. The results of these experiments support three general conclusions: (i) the DNAs of these two strains of Epstein-Barr virus share approximately 90% of their nucleotide sequences; (ii) both viral DNA populations are reasonably homogenous; and (iii) both DNAs contain repetitions or inverted repetitions of some of their nucleotide sequences.     

Replication intermediate of a hybrid plasmid carrying the replication terminus (ter) site of R6K as revealed by agarose gel electrophoresis

Summary A 4.32 kb DNA fragment, on which the DNA replication terminus (terR) site of plasmid R 6K was located, was inserted into the unique EcoRI site of plasmid pUC9. To detect replication intermediate molecules with a replication fork halted at the terR site, a cell DNA extract was digested with EcoRI, electrophoresed through an agarose gel and stained with ethidium bromide. In addition to two major bands, one derived from vector DNA and the other from the ter insert fragment, two extra minor bands were detected. Following DNA-DNA hybridization and electron microscopic observation we concluded that the two minor bands corresponded to the two Y-shaped molecules, produced from the -shaped intermediate molecules by EcoRI digestion.Abbreviations Ap ampicillin - kb kilobase pair(s) - EtBr ethidium bromide     

Restriction enzyme digestion of heterochromatin inDrosophila nasuta

In situ digestion of metaphase and polytene chromosomes and of interphase nuclei in different cell types ofDrosophila nasuta with restriction enzymes revealed that enzymes like AluI, EcoRI, HaeIII, Sau3a and SinI did not affect Giemsa-stainability of heterochromatin while that of euchromatin was significantly reduced; TaqI and SalI digested both heterochromatin and euchromatin in mitotic chromosomes. Digestion of genomic DNA with AluI, EcoRI, HaeIII, Sau3a and KpnI left a 23 kb DNA band undigested in agarose gels while withTaqI, no such undigested band was seen. TheAluI resistant 23 kb DNA hybridized insitu specifically with the heterochromatic chromocentre. It appears that the digestibility of heterochromatin region in genome ofDrosophila nasuta with the tested restriction enzymes is dependent on the availability of their recognition sites.     

Intramolecular Recombination R-Triplex in Solution: Stabilization by bis-intercalator YOYO

Abstract

Recognition of double-stranded DNA with a mixed nucleotide sequence by oligonucleotide is a long-term challenge. This aim can be achieved via formation of the recombination R-triplex, accommodating two identical DNA strands in parallel orientation, and antiparallel complementary strand. In the absence of proteins the R-triplex stability is low, however, so that intermolecular R-triplex is not formed by three DNA strands in a ligand-free system. Recently, recognition of DNA with mixed base sequence by single-stranded oligonucleotide in the presence of bis-intercalator YOYO was reported. Here, we describe thermodynamic characteristics of YOYO complexes with the model oligonucleotides 5′-GT- 2AP-GACTGAG TTTT CTCAGTCTACGC GAA GCGTAGACTGAG-3′ (R^2APCW) bearing a single reporting 2-aminopurine (2AP) in place of adenine and 5′- CTCAGTCTACGC GAA GCGTAGACTGAG-3′ (CW). We found that each oligonucleotide is able to bind two YOYO molecules via intercalation mode in 0.5 M LiCl. Fluorescence intensity of YOYO intercalated in triplex R^2APCW and in CW hairpin increased 40-fold compared to the free YOYO. Remarkably, the melting temperature of the triplex (determined using temperature dependence of the 2AP fluorescence) increased from 19° C to 33° C upon binding two YOYO molecules. Further increase in the YOYO concentration resulted in binding of up to five YOYO molecules to R^2APCW triplex and up to six YOYO molecules to CW hairpin.