Partial characterization of a DNA restriction endonuclease from Ruminococcus flavefaciens FD-1 and its inhibition by site-specific adenine methylation.

The principal DNA restriction-modification system of the cellulolytic ruminal bacterium Ruminococcus flavefaciens FD-1 is described. The restriction endonuclease RflFI could be separated from cell extracts by phosphocellulose and heparin-sepharose chromatography. Restriction enzyme digests utilizing RflFI alone or in combination with SalI, a restriction enzyme isolated from Streptomyces albus G, showed that the DNA sequence recognized by RflFI either overlapped or was the same as that recognized by SalI. DNA sequence analysis confirmed that RflFI was identical in activity to SalI, with the recognition sequence being 5'-GTCGAC-3' and cleavage occurring between G and T. Adenine methylation within this sequence can be catalyzed in vitro by TaqI methylase, and this inhibited the cleavage of plasmid DNA molecules by RflFI and SalI. Chromosomal DNA from R. flavefaciens FD-1 is also methylated within this DNA sequence because neither restriction endonuclease could degrade this DNA substrate. These findings provide a means to protect plasmid molecules from degradation prior to gene transfer experiments with R. flavefaciens FD-1.     

Partial characterization of a DNA restriction endonuclease from Ruminococcus flavefaciens FD-1 and its inhibition by site-specific adenine methylation.

The principal DNA restriction-modification system of the cellulolytic ruminal bacterium Ruminococcus flavefaciens FD-1 is described. The restriction endonuclease RflFI could be separated from cell extracts by phosphocellulose and heparin-sepharose chromatography. Restriction enzyme digests utilizing RflFI alone or in combination with SalI, a restriction enzyme isolated from Streptomyces albus G, showed that the DNA sequence recognized by RflFI either overlapped or was the same as that recognized by SalI. DNA sequence analysis confirmed that RflFI was identical in activity to SalI, with the recognition sequence being 5'-GTCGAC-3' and cleavage occurring between G and T. Adenine methylation within this sequence can be catalyzed in vitro by TaqI methylase, and this inhibited the cleavage of plasmid DNA molecules by RflFI and SalI. Chromosomal DNA from R. flavefaciens FD-1 is also methylated within this DNA sequence because neither restriction endonuclease could degrade this DNA substrate. These findings provide a means to protect plasmid molecules from degradation prior to gene transfer experiments with R. flavefaciens FD-1.     

FseI, a new type II restriction endonuclease that recognizes the octanucleotide sequence 5'' GGCCGGCC 3''.

A Type II restriction endonuclease, designated FseI, has been partially purified from a Frankia species (NRRL 18528). This enzyme cleaves Adenovirus 2 DNA at three sites, but does not cleave the DNAs from bacteriophages lambda, T7, and phi X174, the animal virus SV40, pUC18 and pBR322. FseI recognizes the octanucleotide sequence 5' GGCCGG decreases CC 3' and cleaves as indicated by the arrow. The frequency of occurrence of FseI sites within sequenced regions of the human genome is similar to that for NotI sites.     

Sse8387I, a new type-II restriction endonuclease that recognizes the octanucleotide sequence 5''-CCTGCAGG-3''.

A type II restriction endonuclease designated Sse8387I was partially purified from Streptomyces sp. 8387. This enzyme cleaved adenovirus 2 DNA at three sites, lambda phage DNA at five sites, and pUC18 and M13mp18 RF DNA at one site each, but did not cleave the DNAs from pBR322, SV40, or phi X174. Sse8387I recognized the octanucleotide sequence 5'-CCTGCA decreases GG-3', cleaving where shown by the arrow. Sse8387I is the first restriction endonuclease to be reported that recognizes an octanucleotide sequence consisting of all four nucleotides, G, A, T, and C. The frequency of occurrence of Sse8387I sites within sequenced regions of primate genomes was 2.4 times that of NotI sites.     

BsiY I, a novel thermophilic restriction endonuclease that recognizes 5'' CCNNNNNNNGG 3'' and the discovery of a wrongly sequenced site in pACYC177.

A new type II restriction endonuclease designated BsiY I has been purified from a thermophilic soil Bacillus stearothermophilus strain. This enzyme recognizes and cleaves the highly degenerate sequence 5' CCNNNNN!NNGG 3'. During the identification of the recognition sequence of BsiY I, we discovered that there should be five G nucleotides instead of four at position 1227-1230 of the plasmid pACYC177.     

AbeI, a restriction endonuclease from Azotobacter beijerinckii, which recognizes the asymmetric heptanucleotide sequence 5'-CCTCAGC-3'(-5/-2).

A new restriction endonuclease Abe I has beenisolated from Azotobacter beijerinckii. This enzymerecognizes the asymmetric heptanucleotide sequence 5'-CCTCAGC-3' and cleaves within it symmetrically at positions -5/-2 in the opposing strands, producing three base protruding 5'-ends.     

BfiI, a restriction endonuclease from Bacillus firmus S8120, which recognizes the novel non-palindromic sequence 5'-ACTGGG(N)5/4-3'.

A new type IIS restriction endonuclease Bfi I hasbeen partially purified from Bacillus firmus S8120. Bfi I recognizes the non-palindromic hexanucleotide sequence 5'-ACTGGG(N)5/4-3' and makes a staggered cut at the fifth base pair downstream of the recognition sequence on the upper strand, producing a single base 3' protruding end.     

AarI,a restriction endonuclease from Arthrobacter aurescens SS2-322, which recognizes the novel non-palindromic sequence 5'-CACCTGC(N)4/8-3'

A new type II restriction endonuclease AarI has been isolated from Arthrobacter aurescens SS2-322. AarI recognizes the non-palindromic heptanucleotide sequence 5'-CACCTGC(N)4/8-3' and makes a staggered cut at the fourth and eighth bases downstream of the target duplex producing a four base 5'-protruding end. AarI activity is stimulated by oligodeoxyribonucleotide duplexes containing an enzyme-specific recognition sequence.     

BseSI, a restriction endonuclease from Bacillus stearothermophilus Jo 10-553, which recognizes the novel hexanucleotide sequence 5'-G(G/T)GC(A/C)C-3'.

A new restriction endonuclease Bse SI has been isolated from Bacillus stearothermophilus Jo10-553. Bse SI recognizes a degenerate hexanucleotide sequence 5'-G(G/T)GC(A/C)C-3' and cleaves DNA to produce 3[prime]-protruding tetranucleotide ends.     

AarI, a restriction endonuclease from Arthrobacter aurescens SS2-322, which recognizes the novel non-palindromic sequence 5′-CACCTGC(N)4/8-3′

A new type II restriction endonuclease AarI has been isolated from Arthrobacter aurescens SS2-322. AarI recognizes the non-palindromic heptanucleotide sequence 5′-CACCTGC(N)_4/8-3′ and makes a staggered cut at the fourth and eighth bases downstream of the target duplex producing a four base 5′-protruding end. AarI activity is stimulated by oligodeoxyribonucleotide duplexes containing an enzyme-specific recognition sequence.     

Characterization of Borrelia sp. isolated from Ixodes tanuki, I. turdus, and I. columnae in Japan by restriction fragment length polymorphism of rrf (5S)-rrl (23S) intergenic spacer amplicons

Abstract Accumulation of citric acid by Aspergillus niger depends on a high flux through glycolysis. We have investigated the possibility of control of this flux by trehalose 6-phosphate, an inhibitor of hexokinase of Saccharomyces cerevisiae and other eukaryotes (Blasquez et al., FEBS Lett. (1993) 329, 517ndash;54). Hexokinase of A. niger was shown in vitro to be only weakly inhibited by trehalose 6-phosphate (K, 1.5–2 mM). To investigate the in vivo relevance of this inhibition, we used isogenic strains of A. niger , carrying either a disruption or an amplification of the trehalose-6-phosphate synthase A (T6PSA)-encoding gene ( ggsA ) and exhibiting corresponding differences in T6PSA activity. These strains produced citric acid at comparable rates and with similar yields on 1 or 2.5% (w/v) sucrose. At 5–14% (w/v) sucrose, the ggsA disrupted strain initiated citric acid accumulation earlier, whereas the multicopy strain showed the reverse effect. When sucrose was replaced by lactose, which enabled only low rates of catabolism irrespective of its concentration (1–8%), no differences in the initiation or rate of citric acid accumulation were observed between the three strains. The possible mechanisms by which ggsA controls glycolytic flux in A. niger in the presence of high sugar concentrations are discussed.     

Ksp632I, a novel class-IIS restriction endonuclease from Kluyvera sp. strain 632 with the asymmetric hexanucleotide recognition sequence: 5'-CTCTTC(N)1-3' 3'-GAGAAG(N)4-5'

A new class-IIS restriction endonuclease, Ksp632I, with novel sequence specificity has been discovered in a non-pathogenic species of Kluyvera. The presence of only a single site-specific activity in this Kluyvera sp. strain 632 enables Ksp632I to be isolated in highly purified form free of contaminating nucleases. Ksp632I recognition sites and cleavage positions were deduced using experimental and computer-assisted mapping and sequencing. The cleavage specificity corresponds to the sequence 5'-CTCTTCN decreases NNN-N-3' 3'-GAGAAGN-NNN increases N-5'. The enzyme recognizes an asymmetric hexanucleotide sequence and cleaves in the presence of Mg2+ ions specific phosphodiester bonds in both DNA strands, 1 and 4 nucleotides distal to the recognition sequence. The staggered cuts generate 5'-protruding ends with single-stranded 5'-phosphorylated trinucleotides. Several slow cleavage sites for Ksp632I were observed on lambda cI857Sam7 DNA. Ksp632I may complement other class-IIS enzymes in the universal restriction approach and may serve as a tool for generating defined unidirectional deletions or insertions.     

Root hair elongation is inhibited by hypaphorine, the indole alkaloid from the ectomycorrhizal fungus Pisolithus tinctorius, and restored by indole-3-acetic acid

Hypaphorine, the major indolic compound isolated from the ectomycorrhizal fungus Pisolithus tinctorius, controls the elongation rate of root hairs. At inhibitory concentrations (100 μM), hypaphorine induced a transitory swelling of root hair tips of Eucalyptus globulus Labill. ssp. bicostata. When the polar tip growth resumed, a characteristic deformation was still visible on elongating hairs. At higher hypaphorine concentrations (500 μM and greater), root hair elongation stopped, only 15 min after application. However, root hair initiation from trichoblasts was not affected by hypaphorine. Hypaphorine activity could not be mimicked by related molecules such as indole-3-acetic acid (IAA) or tryptophan. While IAA had no activity on root hair elongation, IAA was able to restore the tip growth of root hairs following inhibition by hypaphorine. These results suggest that hypaphorine and endogenous IAA counteract in controlling root hair elongation. During ectomycorrhiza development, the absence of root hairs might be due in part to fungal release of molecules, such as hypaphorine, that inhibit the elongation of root hairs. Received: 27 October 1999 / Accepted: 14 March 2000     

Replication fork-stimulated eIF-4A from Plasmodium cynomolgi unwinds DNA in the 3' to 5' direction and is inhibited by DNA-interacting compounds

Plasmodium cynomolgi DEAD-box DNA helicase 45 (PcDDH45) is an ATP-dependent DNA-unwinding enzyme with intrinsic DNA-dependent ATPase activity and is highly homologous to eIF-4A. In this study, we have further characterized and tested the effect of various DNA-interacting compounds on the DNA-unwinding activity of PcDDH45. The results show that PcDDH45 translocates in the 3' to 5' direction along the bound strand, a replication fork-like structure of the substrate stimulates its DNA-unwinding activity, and it failed to unwind blunt-ended duplex DNA. Of various compounds tested, only cisplatin, 4',6'-diamidino-2-phenylindole, daunorubicin, and nogalamycin were inhibitory to the unwinding activity of PcDDH45 with apparent IC(50) values of 1.0, 4.0, 7.5, and 1.7 microM, respectively. These results suggest that the interaction of these compounds with duplex DNA generate a complex that probably impedes the translocation of PcDDH45, resulting in inhibition of unwinding activity. This study is one of the first to demonstrate the effect of various DNA-binding compounds on a malaria parasite DNA helicase and should make an important contribution to our better understanding of the nucleic acid transactions in the parasite.     

Structural analysis of trisialylated biantennary glycans isolated from mouse serum transferrin: Characterization of the sequence Neu5Gc(α2-3)Gal(β1-3)[Neu5Gc(α2-6)]GlcNAc(β1-2)Man

Five variants of mouse serum transferrin (mTf, designated mTf-I to mTf-V) with respect to carbohydrate composition have been isolated by DEAE-cellulose chromatography in the following relative percentages: mTf-I: 0.55; mTf-II: 0.79; mTf-III: 71.80; mTf-VI: 21.90 and mTf-V: 4.96. The primary structures of the major glycans from mTf-III and mTf-IV were determined by methylation analysis and ¹H-nuclear magnetic resonance (NMR) spectroscopy. All glycans possessed a common trimannosyl-N,N′-diacetylchitobiose core. From the glycovariant mTf-III two isomers of a conventional biantennary N-acetyllactosamine type were isolated, in which two N-glycolylneuraminic acid (Neu5Gc) residues are linked to galactose either by a (α2-6) or (α2-3) linkage. A subpopulation of this glycovariant contains a fucose residue (α1-6)-linked to GlcNAc-1. The structure of the major glycan found in variant mTf-IV contained an additional Neu5Gc and possessed the following new type of linkage: Neu5Gc(α2-3)Gal(β1-3)[Neu5Gc(α2-6)]GlcNAc(β1-2)Man(α1-3). In addition to this glycan, a minor compound contained the same antennae linked to Man(α1-6). In fraction mTf-V, which was found to be very heterogeneous by ¹H NMR analysis, carbohydrate composition and methylation analysis suggested the presence of tri′-antennary glycans sialylated by Neu5Gc α-2,6- and α-2,3-linked to the terminal galactose residues. In summary, mTf glycans differed from those of other analyzed mammalian transferrins by the presence of Neu5Gc and by a Neu5Gc(α2-6)GlcNAc linkage in trisialylated biantennary structures, reflecting in mouse liver, a high activity of CMP-Neu5Ac hydroxylase and (α2-6)GlcNAc sialyltransferase.     

The multiple antibiotic resistance IncP-1 plasmid pKJK5 isolated from a soil environment is phylogenetically divergent from members of the previously established alpha, beta and delta sub-groups

The 54,383bp plasmid pKJK5 was recovered from a soil environment by exogenous plasmid isolation and conveys resistance towards tetracycline and trimethoprim. Sequencing and annotation revealed a high level of structural similarity of the backbone genes to other IncP-1 plasmids containing a Tra1 and Tra2 region, a central control module and a replication initiation module. A considerable degree of divergence was associated with the backbone genes of pKJK5 as compared to homologous genes in the alpha, beta and delta subgroups, which indicates that pKJK5 may belong to a novel subgroup of IncP-1 plasmids, which may also accommodate the partially sequenced non-subgroup classified plasmid pEMT3. Individual backbone genes in pKJK5 have a GC-content, which is consistently lower (average 6.3%) than the homologous genes from the archetype IncP-1beta plasmid R751 indicating homogenous amelioration of IncP-1 plasmid backbone genes. Two discrete accessory elements of 2145bp (load 1) and 11678bp (load 2) respectively are situated between the Tra1 and Tra2 regions of pKJK5, both bounded by inverted repeats and direct flanking repeats indicative of transposon-mediated insertion. Load 1 consists of an insertion sequence ISPa17 and load 2 is a Tn402-derivative containing a class 1 integron, IS1326 and a fragment identical to a region of plasmid pTB11 harboring a tetracycline resistance determinant and part of an IncP-1alphaoriV region.     

Differential digestion of the centromeric heterochromatic regions of the 5-azacytidine-decondensed human chromosomes 1, 9, 15, and 16 by NdeII and Sau3AI restriction endonucleases

A study on the factors involved in chromosome digestion by restriction endonuclease was carried out on 5-azacytidine treated and untreated human chromosomes 1, 9, 15 and 16 by using NdeII and Sau3AI isoschizomers. After treatment with 5-azacytidine, chromosomes 1, 9, 15, and 16 showed two differentiated areas at the centromeric regions: the centromere, fully condensed, and the pericentromeric heterochromatin, decondensed. Chromosomes not treated with 5-azacytidine after digestion with Sau3AI and NdeII showed all the centromeric regions undigested, except pair number 1, digested at the pericentromeric area. Digestion of the 5-azacytidine decondensed chromosomes with Sau3AI and NdeII showed the centromeres undigested in the four chromosome pairs while the pericentromeric heterochromatin appeared largely digested. Other factors, different to target distribution, are necessary to explain the pattern of restriction endonuclease digestion observed in this communication.