Role of tryptophan residues in the recognition of mutagenic oxidized nucleotides by human antimutator MTH1 protein

The human MTH1 antimutator protein hydrolyzes mutagenic oxidized nucleotides, and thus prevents their incorporation into DNA and any subsequent mutation. We have examined its great selectivity for oxidized nucleotides by analyzing the structure of the protein and its interaction with nucleotides, as reflected in the fluorescence of its tryptophan residues. The binding of nucleotides decreased the intensity of MTH1 protein fluorescence and red-shifted the emission peak, indicating that at least one tryptophan residue is close to the binding site. Oxidized nucleotides (2-OH-dATP and 8-oxo-dGTP) produced a larger decrease in fluorescence intensity than did unoxidized nucleotides, and MTH1 protein had a much higher binding affinity for oxidized nucleotides. Deconvolution of protein fluorescence by comparison of its quenching by positively (Cs(+)) and negatively (I(-)) charged ions indicated that the MTH1 tryptophan residues are in two different environments. One class of tryptophan residues is exposed to solvent but in a negatively charged environment; the other class is partially buried. While the binding of unoxidized nucleotides quenches the fluorescence of only class 1 tryptophan residue(s), the binding of oxidized nucleotides quenched that of class 2 tryptophan residue(s) as well. This suggests that selectivity is due to additional contact between the protein and the oxidized nucleotide. Mutation analysis indicated that the tryptophan residue at position 117, which is in a negative environment, is in contact with nucleotides. The negatively charged residues in the binding site probably correlate with the finding that nucleotide binding requires metal ions and depends upon their nature. Positively charged metal ions probably act by neutralizing the negatively charged nucleotide phosphate groups. (c) 2002 Elsevier Science Ltd.     

The ancestry of a sample of sequences subject to recombination

In this article we discuss the ancestry of sequences sampled from the coalescent with recombination with constant population size 2N. We have studied a number of variables based on simulations of sample histories, and some analytical results are derived. Consider the leftmost nucleotide in the sequences. We show that the number of nucleotides sharing a most recent common ancestor (MRCA) with the leftmost nucleotide is approximately log(1 + 4N Lr)/4Nr when two sequences are compared, where L denotes sequence length in nucleotides, and r the recombination rate between any two neighboring nucleotides per generation. For larger samples, the number of nucleotides sharing MRCA with the leftmost nucleotide decreases and becomes almost independent of 4N Lr. Further, we show that a segment of the sequences sharing a MRCA consists in mean of 3/8Nr nucleotides, when two sequences are compared, and that this decreases toward 1/4Nr nucleotides when the whole population is sampled. A measure of the correlation between the genealogies of two nucleotides on two sequences is introduced. We show analytically that even when the nucleotides are separated by a large genetic distance, but share MRCA, the genealogies will show only little correlation. This is surprising, because the time until the two nucleotides shared MRCA is reciprocal to the genetic distance. Using simulations, the mean time until all positions in the sample have found a MRCA increases logarithmically with increasing sequence length and is considerably lower than a theoretically predicted upper bound. On the basis of simulations, it turns out that important properties of the coalescent with recombinations of the whole population are reflected in the properties of a sample of low size.     

Complete nucleotide sequence of alfalfa mosaic virus RNA 1.

Double-stranded cDNA of alfalfa mosaic virus (AlMV) RNA 1 has been cloned and sequenced. From clones with overlapping inserts, and other sequence data, the complete primary sequence of the 3644 nucleotides of RNA 1 was deduced: a long open reading frame for a protein of Mr 125,685 is flanked by a 5'-terminal sequence of 100 nucleotides and a 3' noncoding region of 163 nucleotides, including the sequence of 145 nucleotides the three genomic RNAs of AlMV have in common. The two UGA-termination codons halfway RNA 1, that were postulated by Van Tol et al. (FEBS Lett. 118, 67-71, 1980) to account for partial translation of RNA 1 in vitro into Mr 58,000 and Mr 62,000 proteins, were not found in the reading frame of the Mr 125,685 protein.     

Sequence identity of the n-1 product of a synthetic oligonucleotide.

After synthesis and purification of an oligonucleotide, the final product usually contains a low level of n-1 congeneric species. We have sequenced the n-1 population of a 25mer phosphodiester oligonucleotide. The n-1 band was cut from the gel and eluted. Oligonucleotides were tailed with dA and annealed to a dT-tailed plasmid. The recombinant plasmid was ligated and used to transform competent bacteria. Our results show that the n-1 population was heterogeneous. The frequency of truncated nucleotides at the 3'-end was much higher than at the 5'-end of the oligomer. No truncated nucleotides were found in the last four nucleotides at the 5'-end. Our results also show that the chain of oligonucleotides can grow on unreacted sites of a controlled-pore glass support.     

Extracellular Modulation of the Silkmoth Sex Pheromone Receptor Activity by Cyclic Nucleotides

Odorants and pheromones are essential to insects as chemical cues for finding food or an appropriate mating partner. These volatile compounds bind to olfactory receptors (Ors) expressed by olfactory sensory neurons. Each insect Or functions as a ligand-gated ion channel and is a heteromeric complex that comprises one type of canonical Or and a highly conserved Orco subunit. Because there are many Or types, insect Ors can recognize with high specificity a myriad of chemical cues. Cyclic nucleotides can modulate the activity of insect Or-Orco complexes; however, the mechanism of action of these nucleotides is under debate. Here, we show that cyclic nucleotides, including cAMP and cGMP, interact with the silkmoth sex pheromone receptor complex, BmOr-1-BmOrco, from the outside of the cell and that these nucleotides act as antagonists at low concentrations and weak agonists at high concentrations. These cyclic nucleotides do not compete with the sex pheromone, bombykol, for binding to the BmOr-1 subunit. ATP and GTP also weakly inhibited BmOr-1-BmOrco activity, but D-ribose had no effect; these findings indicated that the purine moiety was crucial for the inhibition. Only the bombykol receptors have been so far shown to be subject to modulation by nucleotide-related compounds, indicating that this responsiveness to these compounds is not common for all insect Or-Orco complexes.     

S. cerevisiae U1 RNA is large and has limited primary sequence homology to metazoan U1 snRNA

We have cloned and sequenced the yeast SNR19 gene and show here that snR19 is the yeast homolog of metazoan U1 snRNA. sn R19 is 569 nucleotides long, strikingly larger than its metazoan counterpart. The two molecules resemble each other closely in the predicted secondary structure of their first 50 nucleotides. Primary sequence homology is restricted to some of their single-stranded regions, including 11 consecutive nucleotides at the 5' end of the two molecules, the region that interacts with pre-mRNA 5' splice junctions. snR19 is spliceosome-associated and required for in vitro pre-mRNA splicing. We also note that 8 sequences in snR19 have extensive complementarity to snR20, the large yeast U2 RNA, suggesting that yeast U1 may interact with yeast U2 by base-pairing.     

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.     

Proton NMR studies of nucleotide and amine storage in the dense granules of pig platelets

1H NMR measurements have been conducted at 360 MHz on isolated pig platelet dense granules. Resonances of the H8, H2 protons of the adenine ring, H1' protons of the ribose moiety, and the aromatic hydrogens of 5-hydroxytryptamine (5HT) have been identified in spectra of intact dense granules. Like the 31P resonances of the nucleotides contained in the dense granules (U?urbil et al., 1984), the line widths and the intensities of these resonances were sensitive to sample temperature and osmolarity of the suspension medium. Their chemical shifts indicate that 5HT in the granule interior is predominantly bound to the nucleotides through ring-stacking interactions. Association of 5HT with the nucleotides was also confirmed by the presence of intermolecular nuclear Overhauser effect (NOE) between 5HT and nucleotide protons. Large and negative intermolecular NOE's observed among the nucleotide H8, H2 and H1' protons, together with upfield shifts undergone by these protons within the dense granules, demonstrate that the nucleotides form a complex where they are in close proximity of each other. The formation of this complex apparently does not require the presence of amines since removal of 5HT and histamine did not change the chemical shifts of the nucleotide protons. From T1 and T2 data, rotational correlation time of 4 ns was calculated for the nucleotides in the dense granule interior at 35 degrees C. A resonance tentatively identified as H2 of histamine was found to shift upon manipulation of the intragranular pH; it was used as an indicator of pH changes within the granule interior during 5HT uptake and showed that 5HT accumulation increases the intragranular pH. These results demonstrate that 5HT is first taken up in response to the inside acidic pH gradient across the granule membrane and is subsequently sequestered in a matrix formed by the divalent cations and the nucleotides.     

Content of N-6 methyl adenylic acid in heterogeneous nuclear and messenger RNA of HeLa cells.

With the aid of a suitable thin layer chromatographic procedure, the N-6 methyl adenylic acid (m6A), content of a variety of 32P labeled RNA species from HeLa cells has been measured. Poly(A)-containing (poly(A)+) cytoplasmic RNA has on the average one m6Ap per 800 to 900 nucleotides. This value is independent of the length of the molecules. The proportion of m6Ap in poly(A)+ cytoplasmic RNA does not change between 4 and 18 hours of labeling with 32P, suggesting that the majority of the messenger RNA molecules may have a similar level of internal methylation regardless of their half-life. The non-polyadenylated, non-ribosomal cytoplasmic RNA fraction sedimenting from 10S TO 28S is less methylated with approximately one m6A per 2,700 nucleotides. Heterogeneous nuclear RNA molecules (DMSO treated) which sediment from 28S to 45S have approximately one m6Ap per 3,000 nucleotides. The hnRNA molecules sedimenting from 10S to 28S have one m6Ap per 1,800 nucleotides. Poly(A)+ nuclear RNA is enriched in m6A, containing 1 residue of m6A per 700 to 800 nucleotides, a value close to that obtained for the polyadenylated cytoplasmic RNA.     

Autoregulation of the Pseudomonas aeruginosa protein PtxS occurs through a specific operator site within the ptxS upstream region

We have previously shown that the Pseudomonas aeruginosa toxA regulatory protein PtxS autoregulates its own synthesis by binding to a 52-bp fragment. The 3' end of the 52-bp fragment is located 58 bp 5' of the ptxS translation start site. We have identified a 14-bp palindromic sequence (TGAAACCGGTTTCA) within the 52-bp fragment. In this study, we used site-directed mutagenesis and promoter fusion experiments to determine if PtxS binds specifically to this palindromic sequence and regulates ptxS expression. We have also tried to determine the roles of specific nucleotides within the palindromic sequence in PtxS binding and ptxS expression. Initial promoter fusion experiments confirmed that the 52-bp fragment does not overlap with the region that carries the ptxS promoter activity. PtxS binding was eliminated upon the deletion of the 14-bp palindromic sequence from the 52-bp fragment. In addition, the deletion of the 14-bp sequence caused a significant enhancement in ptxS expression in the P. aeruginosa strain PAO1 and the ptxS isogenic mutant PAO::ptxS. Mutation of specific nucleotides within the 14-bp sequence eliminated, reduced, or had no effect on PtxS binding. However, mutations of several of these nucleotides produced a significant increase in ptxS expression in both PAO1 and PAO::ptxS. These results suggest that (i) the 14-bp palindromic sequence and specific nucleotides within it play a role in PtxS binding and (ii) deletion of the palindromic sequence or changing of certain nucleotides within it interferes with another mechanism that may regulate ptxS expression.     

IF1 inhibition of mitochondrial F1-ATPase is correlated to entrapment of four adenine- or guanine-nucleotides including at least one triphosphate

This paper demonstrates that the inhibition of F1 ATPase activity by the natural inhibitor protein IF1 is correlated to triphosphate nucleotide entrapment in F1. The complete balance of nucleotides bound after preincubation with Mg-[alpha-32P]GTP or Mg-[alpha-32P]ATP, used to promote IF1 inhibition, has been established on purified F1 containing 0.7 mol of non-exchangeable endogenous nucleotides. As many as 4 mol of labelled guanine- or adenine- nucleotides are trapped in F1; at least one of these nucleotides is a triphosphate. On the contrary, in the absence of IF1, no triphosphate nucleotide is significantly retained and the diphosphate nucleotides bound are mainly exchangeable.     

Characterization of exchangeable and nonexchangeable bound adenine nucleotides in F1-ATPase from Escherichia coli

The total amount of bound exchangeable and nonexchangeable adenine nucleotides in Escherichia coli F1-ATPase (BF1) was determined; three exchangeable nucleotides were assessed by equilibrium dialysis in a [14C]ADP-supplemented medium. When BF1 was purified in a medium supplemented with ATP, a stoichiometry of nearly 6 mol of bound nucleotides/mol of enzyme was found; three of the bound nucleotides were ATP and the others ADP. When BF1 was filtered on Sephadex G-50 in a glycerol medium (Garrett, N.E., and Penefsky, H.S. (1975) J. Biol. Chem. 250, 6640-6647), bound ADP was rapidly released, in contrast to bound ATP which remained firmly attached to the enzyme. Upon incubation of BF1 with [14C]ADP, the bound ADP rather than the bound ATP was exchanged. Of the three [14C]ADPs which have bound to BF1 by exchange after equilibrium dialysis, one was readily lost by gel filtration on Sephadex G-50; the loss of bound [14C]ADP was markedly reduced by incubation of BF1 with aurovertin, a specific ligand of the beta subunit which is known to increase the affinity of the beta subunit for nucleotides (Issartel, J.-P., and Vignais, P. V. (1984) Biochemistry 23, 6591-6595). Upon photoirradiation of BF1 with [alpha-32P]2-azido-ADP, only the beta subunit was labeled; concomitantly, bound ADP was released, but the content in bound ATP remained stable. These results suggest that specific sites located on the three beta subunits bind nucleotides in a reversible manner. Consequently, the tightly bound ATP of native BF1 would be located on the alpha subunits.     

Selective regulatory effects of purine and pyrimidine nucleotides on vacuolar transport of amino acids

The release of amino acids from their vacuolar store was studied in situ, i.e. in cells with selectively permeabilized plasma membrane and functionally intact vacuoles. As we previously described [Roos et al., J. Biol. Chem. 272 (1997) 15849-15855], this transport process is regulated by extravacuolar adenylates at their physiological concentrations. We now show, using our test object Penicillium cyclopium, that not only purine but also pyrimidine nucleotides are involved in the control of efflux of vacuolar phenylalanine. At 0.1 mM adenosine or guanosine phosphates inhibit, whereas cytidine or uridine phosphates stimulate the rate of efflux. At 1 mM the same nucleotides have no measurable impact on efflux but abolish the effects of other nucleotides present at 0.1 mM. This argues for at least two interacting binding sites with different nucleotide affinities. The minimum structural requirement for any of the observed effects is a non-cyclic ribonucleoside monophosphate. In intact cells, cytosolic concentrations of ATP (representing purine nucleotides) and CTP (representing pyrimidine nucleotides) are 1-2 mM and 0.05-0.2 mM, respectively. ATP is therefore assumed to dominate transport control and allow optimum efflux (and uptake) rates. Short-time starvation of carbon and nitrogen adjusts CTP and ATP at levels that cause declining efflux rates. During prolonged starvation both nucleotides fall below their transport-controlling concentrations and thus allow increasing rates of efflux from the still maintained vacuolar pool. Hence, efflux control under nutrient limitation includes an interplay of purine and pyrimidine nucleotides which precisely regulates the release of vacuolar amino acids and enables flexible adjustment to either amino acid saving or cell survival.     

Sequence of interrupted and uninterrupted mRNAs and cloned DNA coding for the two overlapping nonstructural proteins of influenza virus

We have obtained the complete sequence of cloned full-length DNA (NS DNA) derived from influenza virus gene 8, which codes for two unique polypeptides, NS₁ and NS₂, and the sequence of the NS₂ mRNA. Previously we showed that the mRNA for NS₁ (～860 nucleotides) is colinear with the viral RNA and maps from 0.05?0.95 units of the cloned NS DNA, and the body of the NS₂ mRNA (～340 nucleotides) maps from 0.59?0.95 units, suggesting that the two mRNAs are 3′ co-terminal and share the same poly(A) addition site. Sequencing studies have shown that the NS₂ mRNA contains an interrupted sequence of 473 nucleotides. The nucleotide sequences at the junctions of the interrupted segment are similar to those of the consensus sequences at the splicing sites of intervening regions in eucaryotic mRNAs. The first ～56 virus-specific nucleotides at the 5′ end of the NS₂ mRNA are the same nucleotides as are found at the 5′ end of the NS₁ mRNA, and this leader sequence of the NS₂ mRNA contains the initiation codon for protein synthesis and coding information for nine amino acids which would be common to NS₁ and NS₂. In addition, both mRNAs contain 10–20 heterogeneous nonviral nucleotides at their 5′ ends. The ～340 nucleotide body region of the NS₂ mRNA can be translated in the +1 reading frame, and the sequence indicates that NS₁ and NS₂ overlap by 70 amino acids that are translated from different reading frames.     

Primary structure of the potato virus X genome: the region preceding the capsid protein cistron

DNA copies of the potato virus X (PVX) RNA corresponding to 2300 nucleotides at the 3'-end have been cloned. The cloned cDNA copies containing the nucleotides 445-1280 from the 3'-end have been sequenced. The 5'-terminal region of the PVX coat protein gene corresponds to residues 445-786 from the 3'-end. The amino acid sequences of two more open reading frames (ORF) have been deduced from the nucleotide sequence. The potential translation products of these ORF's would correspond to the nonstructural viral proteins. We have located the ORF1 within the region of residues 799-1009 preceding the coat protein cistron. The tentative protein is composed of 70 amino acids and has an aminoterminal segment which is markedly hydrophobic. ORF2 in the PVX sequence ends with UAG at nucleotides 942-944 and extends to the 5'-terminus for additional 340 nucleotides. The distant sequence homology exists between a carboxyterminal portion of PVX ORF2 and that of the nonstructural "30 K-proteins" of the plant tobamoviruses.     

Decreased ecto-NTPDase1/CD39 activity leads to desensitization of P2 purinoceptors regulating tonus of corpora cavernosa in impotent men with endothelial dysfunction

Vascular responses to adenine nucleotides in human corpora cavernosa from men with vasculogenic erectile dysfunction were investigated. We also evaluated the catabolism of extracellular adenine nucleotides to probe its relevance to vascular hemodynamics in impotent men. Human corpora cavernosa have high NTPDase1/CD39 activity, converting ATP directly into AMP, without significant ADP formation. Extracellular ATP hydrolysis is slower in impotent patients. Adenine nucleotides have dual roles on phenylephrine-contracted strips of corpora cavernosa operated by P2X-contractant and P2Y-relaxant receptors. Prolonged exposure to endogenous ATP related to decreased NTPDase1/CD39 activity leads to P2-purinoceptor desensitization in impotent men. Shutting down ATP signaling in vasculogenic impotent men may represent a defense mechanism for preventing purinergic overstimulation.