Regulation of thyroidal inducibility of Na,K-ATPase and binding of epidermal growth factor in wild-type and cold-sensitive E1a mutant type 5 adenovirus-transformed CREF cells

We have analyzed the relationship between expression of the transformed phenotype and thyroid hormone (triiodothyronine, T3) inducibility of Na,K-ATPase and binding of 125I-epidermal growth factor (EGF) to cell membrane receptors in wild-type (wt) and mutant type 5 adenovirus (Ad5)-transformed CREF cells displaying a cold-sensitive (cs) expression of the transformed phenotype. CREF cells respond to thyroid hormone treatment with increased Na,K-ATPase activity and bind similar levels of 125I-EGF at 32 degrees C, 37 degrees C and 39.5 degrees C. In contrast, CREF cells transformed by wt Ad5 or the E1a plus E1b-transforming genes of wt Ad5 are refractile to T3 treatment and bind lower levels of 125I-EGF than CREF cells at all three temperatures. By employing a series of cloned CREF cell lines transformed by a host-range cold-sensitive mutant virus, H5hr1 or H5dl101, or the E1a or E1a plus E1b genes from these viruses, we have investigated expression of the transformed state and its relationship with hormone inducibility and EGF binding. When cs virus, cs E1a- or cs E1a plus E1b-transformed CREF clones were grown at 32 degrees C, a nonpermissive transforming temperature in which cs-transformed cells exhibit properties similar to untransformed CREF cells, T3 induced Na,K-ATPase activity and these cells bound similar levels of 125I-EGF as CREF cells. However, when cs virus- and cs Ela plus E1b-transformed CREF clones were incubated at 37 degrees C or 39.5 degrees C, temperatures at which cs-transformed cells exhibit properties similar to wt Ad5-transformed CREF cells, they did not respond to T3 and bound lower levels of 125I-EGF than CREF cells. In the case of cs E1a-transformed CREF clones, thyroid hormone responsiveness was observed at both 32 degrees C and 37 degrees C, but not at 39.5 degrees C. By performing temperature shift experiments--i.e. 32 degrees C to 37 degrees C, 32 degrees C to 39.5 degrees C, 37 degrees C to 32 degrees C, and 39.5 degrees C to 32 degrees C, it was demonstrated that after a shift from lower to higher temperature a 24-hr lag period was required for cs-transformed CREF cells to lose T3 inducibility and exhibit reduced EGF binding, whereas 96 hr after a shift from higher to lower temperature a 96-hr lag period was required for cs-transformed cells to regain T3 inducibility and increased 125I-EGF binding.(ABSTRACT TRUNCATED AT 400 WORDS)     

tsJT60, a cell cycle G0-ts mutant, becomes lethal at non-permissive temperature by transformation with adenovirus 5 when the expression of E1B gene is lacking

tsJT60, a temperature-sensitive (ts) mutant cell line of Fischer rat, is viable at both permissive (34 degrees C) and non-permissive (39.5 degrees C) temperatures. The cells grow normally in exponential growth phase at both temperatures, but when stimulated with fetal bovine serum (FBS) from G0 phase they re-enter S phase at 34 degrees C but not at 39.5 degrees. When tsJT60 cells were transformed with adenovirus (Ad) 5 wild type, they grew well at both temperatures, expressed E1A and E1B genes, and formed colonies in soft agar. When tsJT60 cells were transformed with Ad5 dl313, that lacks E1B gene, the transformed cells grew well at 34 degrees C but failed to form colony in soft agar. They died very soon at 39.5 degrees C. 3Y1 cells (a parental line of tsJT60) transformed with dl313 grew well at both temperatures, although neither expressed E1B gene nor formed colonies in soft agar. The phenotype of being lethal at 39.5 degrees C of dl313-transformed tsJT60 cells was complemented by cell fusion with 3Y1BUr cells (5-BrdU-resistant 3Y1), but not with tsJT60TGr cells (6-thioguanine resistant tsJT60). These results indicate that the lethal phenotype is related to the ts mutation of tsJT60 cells and also to the deletion of E1B gene of Ad5.     

Circular dichroism and ethidium bromide binding capacity of chromatin from cells temperature sensitive for the transformed phenotype.

Clone H6-15/163 is a clone of cells, originally derived from SV-40 transformed 3T3 cells, which express the transformed phenotype at low (32 degrees C) but not at high (39 degrees C) temperature. Chromatin was isolated from these cells grown at either temperature and studied by circular dichroism and for its ability to bind the intercalating dye, ethidium bromide. During the exponential phase of growth the chromatins of cells grown at either 32 or 39 degrees C are undistinguishable. Cessation of growth in confluent cultures results in marked changes in circular dichroism spectra and in ethidium bromide binding capacity of chromatin. The changes are much are much more pronounced at 39 degrees C (where the cells truly become quiescent) than at 32 degrees C (where cell proliferation continues although the number of cells per culture remains stationary). Temperature shifts and medium replacement also cause changes in chromatin structure, but the changes are again related to the extent of cell proliferation. It is concluded that the chromatin changes occurring in H6-15/163 cells and detectable by circular dichroism and ethidium bromide binding can be related to the proliferating activity of the cultured cells rather than to the expression of the transformed or untransformed phenotype.     

Biosynthesis of plasma membrane components by SV40-virus-transformed 3T3 mouse cells temperature sensitive for expression of some transformed cell properties.

We have studied the plasma membranes of an SV40-transformed 3T3 cell line temperature sensitive for the transformed growth phenotype (ts H6-15 cells), and have found that they vary little as a function of temperature of cultivation. Analysis by polyacrylamide gel electrophoresis was performed on plasma membranes prepared from ts H6-15 cells cultured at the permissive (32 degrees C) and non-permissive (39 degrees C) temperatures and radioactively-labelled in several ways. No significant differences were seen when the electrophoretic patterns of polypeptides of the plasma membranes of ts H6-15 cells, grown through 3-4 generations in medium containing radioactive leucine (32 degrees C and 39 degrees C temperatures) were compared. Plasma membranes derived from cells similarly grown in medium with radioactive glucosamine indicated that extensive alterations in the intrinsic glycopeptides occurred in association with alteration in growth phenotype. A shift towards decreased synthesis of large molecular weight (congruent to 100 000-160 000) glycopeptides occurred in cells grown at the temperature of non-transformed growth (39 degrees C). A decrease in amount of a 120 000 molecular weight glycopeptide at 39 degrees C was the most prominent of these alterations. We have studied the surface exposure of polypeptides and glycopeptides of intact cells grown at 32 and 39 degrees C, using lactoperoxidase-catalyzed iodination, NaBH4 reduction of galactose oxidase-treated cells, and metabolic-labelling with glucosamine of trypsin-sensitive molecules. We found no major qualitative differences between whole cell extracts or between plasma membrane preparations of cells cultivated at the permissive and non-permissive temperatures. Of special interest was the observation that the formation and surface exposure of a trypsin-sensitive, 240 000 molecular weight polypeptide appeared not to be ts in ts H6-15 cells. The significance of these observations will be discussed.     

Association of poly(ADP-rib) synthesis with cessation of DNA synthesis and DNA fragmentation

CHO cells and cs-4-D3 cells were used to investigate the association between poly(ADP-rib) synthesis and the cessation of DNA synthesis and DNA fragmentation. The cs4-D3 cells are cold-sensitive DNA synthesis arrest mutants of CHO cells. Upon incubation at 33 degrees C, DNA synthesis in the cs4-D3 cells stops and the cells enter a prolonged G1 or G0 phase. The events that occurred when cs4 cells were incubated at 33 degrees C were similar to those that occurred when wild-type CHO cells grew to high density. (1) In both cases, DNA synthesis and cell growth stopped. (2) The NAD+ concentration/cell was 20-25% lower in growth-arrested cells than in logarithmically growing cells. (3) Poly(ADP-rib) synthesis was 3-4 fold higher in growth-arrested cells than in logarithmically growing cells. (4) The growth-inhibited cells developed DNA strand breaks which resulted in large percentages of their DNA appearing in the low molecular weight range of alkaline sucrose gradients. (5) Both the increased rate of poly(ADP-rib) synthesis and the development of DNA strand breaks appears to be characteristic of the G1 phase of the cell cycle. (6) When growth-inhibited cells were restored to conditions favorable for DNA synthesis and cell growth, the DNA strand breaks were repaired. (7) Prolonged incubation under growth-restrictive conditions resulted in the accumulation of more DNA strand breaks than the cells could repair. This was followed by cell death when the cells were restored to conditions favorable for cell growth.     

A cell cycle G0-ts mutant, tsJT60, becomes lethal at the nonpermissive temperature after transformation with adenovirus 12 E1B 19K mutant

tsJT60, a temperature-sensitive (ts) cell-cycle mutant of Fischer rats, is viable at both the permissive (34 degrees C) and nonpermissive (40 degrees C) temperatures. The cells grow normally in exponential growth phase at both temperatures, but when stimulated with serum from G0 phase they enter S phase at 34 degrees C but not at 40 degrees C. tsJT60 cells transformed with human adenovirus (Ad) 12 dl205, which lacks the E1B 19-kDa polypeptide gene, were lethal at 40 degrees C, whereas tsJT60 cells transformed with Ad12 wt, dl207, which lacks E1B 58-kDa protein gene, or in206B, which produces 19- to 58- kDa fused protein, were viable. Degradation of cell DNA occurred in dl205-transformed tsJT60 cultured at both 34 degrees C and 40 degrees C. Neither cytocidal phenotype nor degradation of DNA occurred in 3Y1 cells (a parental line of tsJT60) transformed with dl205. These results suggest that the lethal phenotype and degradation of DNA are related to the ts mutation in tsJT60 and also to the lack of Ad12 E1B 19kDa polypeptide.     

Cell cycle dependence of transformation expression in mouse cells transformed by a thermosensitive mutant (Ts-121) of polyoma virus.

Change in division capability as a phenotypic expression of cellular transformation was investigated by using one of the temperature-sensitive (ts) mutants of the polyoma virus-transformed cell line, the 121-6-5 cells of BALB/3T3. When contact -inhibited cells were treated with hyaluronidase at 39 degrees C, a single round of cell division was induced after which cell growth was inhibited by cell density. However, if the cells were incubated at 35 degrees C, after the enzyme treatment, density-inhibition block disappeared and the cells entered a second division. This indicates that the release of cells from density-inhibition depends on the low temperature incubation. The ability of cells to complete a second division was examined by shifting the cells from 39 degrees C to 35 degrees C during different phases of the first division cycle after the enzyme-treatment. A 6-hour incubation of S phase cells at 35 degrees C resulted in a second cycle of division, while the 24-hour incubation of G1 cells at 35 degrees C did not induce a second round of division. These results suggest that expression of the transformed phenotype in 121-6-5 cells is clearly dependent upon both the temperature and the phase of the division cycle.     

Expression of histone genes in a G1-specific temperature-sensitive mutant of the cell cycle

The expression of genes coding for the four core histones (H2A, H2B, H3, and H4) was studied in tsAF8 cells. These baby hamster kidney-derived cells are a temperature-sensitive (ts) mutant of the cell cycle that arrest in G1 at the restrictive temperature. When serum-deprived tsAF8 cells are stimulated with serum, they enter the S phase at the permissive temperature of 34 degrees C, but are blocked in G1 at the nonpermissive temperature of 39.6 degrees C. Northern blot analysis using cloned human histone DNA probes detected only very low levels of histone RNA either in quiescent tsAF8 cells or in cells serum stimulated at the nonpermissive temperature for 24 h. Cellular levels of histone RNA were markedly increased in cells serum stimulated at 34 degrees C for 24 h. Temperature shift-up experiments after serum stimulation of quiescent populations showed that the amount of histone RNA was related to the number of cells that entered the S phase. Those cells that synthesized histone RNA and entered the S phase were capable of dividing. This is the first demonstration in a mammalian G1-specific ts mutant that the expression of H2A, H2B, H3, and H4 histone genes depends on the entry of cells into the S phase of the cell cycle.     

Changes in cell surface charge and transmembrane potential accompanying neoplastic transformation of rat kidney cells

Free flow electrophoresis measurements have been used to determine the surface charge density of normal rat kidney (NRK) cells and a clone of NRK, designated as 6m2, that exhibit a transformed phenotype at 33 degrees C and a non-transformed phenotype at 39 degrees C. A clone of 6m2, designated 54-5A4, which is transformed at both 33 degrees C and 39 degrees C was also studied. A surface charge density of -1.42 microC/cm2 was obtained for the NRK and non-transformed 6m2 cells at 39 degrees C, whereas at 33 degrees C values of -1.85 and -1.78 microC/cm2 were determined for the transformed 6m2 and 54-5A4 cells, respectively. It was found that 72% of the increased charge that appeared on the transformed 6m2 cells compared with the non-transformed 6m2 cells was RNAase sensitive. The time-dependent decrease in surface charge that accompanied the shift of the 6m2 cells from their transformed to non-transformed state was found to mirror the increase in transmembrane potential previously reported using a fluorescent dye technique, and was also comparable to the reported temporal changes in their morphology and virally-coded protein content.     

Dominant versus recessive behavior of a cold- and a heat-sensitive mammalian cell cycle variant in heterokaryons

A heat-sensitive (hs, arrested at 39.5 degrees C, termed 21-Ta) and a cold-sensitive (cs, arrested at 33 degrees C, termed 21-Fb) clonal cell cycle variant were isolated from the same clone of the P-815 murine mastocytoma line. At the respective nonpermissive temperatures, both the hs and the cs variant were reversibly arrested in G1 phase, and numbers of cells forming colonies upon reincubation at the permissive temperature remained nearly constant for at least 6 days. Cells arrested in G1 by incubation at the respective nonpermissive temperatures were fused to cells of another P-815 clone (31-S) that had been arrested by serum deprivation. Upon reincubation in medium containing 10% serum for 48 h at 39.5 degrees C, 21-Ta x 31-S heterokaryons, similar to 31-S x 31-S homokaryons, entered the S phase, whereas at 33 degrees C, 21-Fb x 31-S heterokaryons, similar to 21-Fb x 21-Fb homokaryons, remained arrested in G1, indicating a recessive expression of the hs and a dominant expression of the cs phenotype.     

Coexpression of two thermosensitive defects in a Chinese hamster cell line : Manifestation of a G1 block associated with a mitosis defect

Asynchronous cultures of ts12, an anchorage-dependent derivative of the thermosensitive Chinese hamster cell line ts111, show a rapid drop in [3H]thymidine incorporation with accumulation of the cells in the G1 and in the G2 phases of the cycle, when shifted from 34.5 to 39.4 degrees C. Shift-up experiments carried out after either isoleucine deprivation or synchronization at 39.4 degrees C, locate the execution point of a ts function in late G1 (2.5-3 h before S). However, stimulation of proliferation of a high density-arrested population allows a fraction of the cells to enter S. In addition to the G1 ts defect, ts12 expresses a slight cytokinesis defect at 39.4 degrees C (8-15% binucleate cells). The results suggest that altered processes are taking place at a post-metaphasic stage during the first hours after the shift-up. When populations are synchronized by a thymidine block and released at 39.4 degrees C, multinucleate cells in addition to binucleate cells are observed. Part of these multinucleate cells result from abnormal karyokinesis without inhibition of cytokinesis. Evidence is presented suggesting that excess thymidine allows the re-expression of the multinucleation phenotype of ts111.     

Structural studies of the O6meG.C interaction in the d(C-G-C-G-A-A-T-T-C-O6meG-C-G) duplex

One- and two-dimensional nuclear magnetic resonance (NMR) experiments have been undertaken to investigate the conformation of the d(C1-G2-C3-G4-A5-A6-T7-T8-C9-O6meG10-C11-G12) self-complementary dodecanucleotide (henceforth called O6meG.C 12-mer), which contains C3.O6meG10 interactions in the interior of the helix. We observe intact base pairs at G2.C11 and G4.C9 on either side of the modification site at low temperature though these base pairs are kinetically destabilized in the O6meG.C 12-mer duplex compared to the G.C 12-mer duplex. One-dimensional nuclear Overhauser effects (NOEs) on the exchangeable imino protons demonstrate that the C3 and O6meG10 bases are stacked into the helix and act as spacers between the flanking G2.C11 and G4.C9 base pairs. The nonexchangeable base and H1', H2', H2', H3', and H4' protons have been completely assigned in the O6meG.C 12-mer duplex at 25 degrees C by two-dimensional correlated (COSY) and nuclear Overhauser effect (NOESY) experiments. The observed NOEs and their directionality demonstrate that the O6meG.C 12-mer is a right-handed helix in which the O6meG10 and C3 bases maintain their anti conformation about the glycosidic bond at the modification site. The NOEs between the H8 of O6meG10 and the sugar protons of O6meG10 and adjacent C9 exhibit an altered pattern indicative of a small conformational change from a regular duplex in the C9-O6meG10 step of the O6meG.C 12-mer duplex. We propose a pairing scheme for the C3.O6meG10 interaction at the modification site. Three phosphorus resonances are shifted to low field of the normal spectral dispersion in the O6meG.C 12-mer phosphorus spectrum at low temperature, indicative of an altered phosphodiester backbone at the modification site. These NMR results are compared with the corresponding parameters in the G.C 12-mer, which contains Watson-Crick base pairs at the same position in the helix.     

Nucleotide sequences of accessible regions of 23S RNA in 50S ribosomal subunits.

Nucleotide sequences around kethoxal-reactive guanine residues of 23S RNA in 50S ribosomal subunits have been determined. By use of the diagonal paper electrophoresis method )Noller, H.F. (1974), Biochemistry 13, 4694-4703), 41 ribonuclease T1 oligonucleotides, originating from about 25 sites, were identified and sequenced. These sites are single stranded and accessible in free 50S subunits, and are thus potential sites for interaction with functional ligands during protein synthesis. Examination of these sequences for potential intermolecular base-pairing reveals the following: (1) There are 19 possible complementary combinations between exposed sequences in 16S and 23S RNA containing more than 4 base pairs: 15 containing 5 base pairs and 4 containing 6 base pairs. Nine of these complementary combinations contain 16S RNA sequences which we have previously shown to be protected from kethoxall by 50S subunits (Chapman, N.M., and Noller, H.F. (1977), J. Mol. Biol. 109, 131-149). (2) One of the exposed sites in 23S RNA has a sequence which is complementary to the invariant GT psi CR sequence in tRNA.     

Detection of high-affinity intercalator sites in a ribosomal RNA fragment by the affinity cleavage intercalator methidiumpropyl-EDTA-iron(II)

The affinity cleavage reagent methidiumpropyl-EDTA (MPE) [Hertzberg, R. P., & Dervan, P. B. (1982) J. Am. Chem. Soc. 104, 313-315] intercalates between base pairs in helical DNA and, when complexed with Fe(II), cleaves the DNA by oxidative degradation of the deoxyribose. We find that this reagent is useful for mapping structure in some RNA molecules. The reagent binds to poly(A)-poly(U) with the same or slightly lower affinity as the related ethidium intercalator, selectively binds double-helical in preference to single-stranded RNA, and when complexed with Fe(II) readily cleaves the RNA backbone. The reagent binds to three or four helical locations in tRNAPhe with an affinity of 10(5)-10(6) M-1 (0.1 M Na+, pH 7.6, 37 degrees C). With a 345-base RNA fragment covering the S8/S15 protein binding region of Escherichia coli 16S ribosomal RNA, MPE-Fe(II) intercalates strongly at two helical sites: one is located at or near a single base bulge and the other at the end of a helix. Intense cutting is also seen in a region that is not part of a Watson-Crick helix. Ethidium bromide binds at these sites with high affinity (about 10(7) M-1 at 0.1 M Na+, pH 7.6, 37 degrees C). The sites are all clustered in a region of the RNA thought to bind S15. Tertiary folding of the RNA may distort helices in the molecule to create sites with particularly high affinities for intercalators; such sites may have functional significance in protein recognition or RNA-RNA interactions.     

Microcell-mediated transfer of carcinogen-induced ouabain resistance from C3H/10T1/2 Cl 8 mouse fibroblasts to human cells

We previously developed a quantitative assay for measuring the induction of ouabain-resistant (Ouar) variants in transformable C3H/20T1/2 Cl 8 mouse fibroblasts following treatment of the cells with chemical carcinogens. To further define the nature of the Ouar phenotype, we conducted microcell-mediated chromosome transfer studies using Ouar cell lines induced by chemical carcinogens in C3H/10T1/2 Cl 8 cells as donors and 8-azaguanine-resistant (Azgr) derivatives of the human cell lines, D98/AH2 and HT 1080, as recipients. Microcells prepared from one spontaneous and two carcinogen-induced Ouar mouse cell lines were able to transfer resistance to 0.01 and 1 mM Oua to ouabain-sensitive D98 and HT 1080 cells. The frequency of microcell hybrid formation ranged from 10(-6) to 10(-5). Karyotypic analysis of the microcell hybrids indicated that the Ouar phenotype of C3H/10T1/2 Cl 8 derivatives mapped to mouse chromosome 3, the chromosome to which the wild-type murine Oua-1 allele had previously been assigned. These studies show that both spontaneous and chemically induced high level Ouar phenotypes of C3H/10T1/2 Cl 8 mouse fibroblasts can be transferred via microcell-mediated chromosome transfer, and provide strong genetic evidence that chemically induced Ouar phenotypes of C3H/10T1/2 Cl 8 cells arise from mutations at Oua-1. In addition, this study sufficiently standardizes microcell-mediated chromosome transfer in the C3H/10T1/2 Cl 8 cell line so that this technique can be used to investigate the nature of other phenotypic changes in these cells, such as the chemically transformed phenotype.     

Lipoxin A4 inhibits phosphoinositide hydrolysis in human neutrophils

Lipoxins (LX) are trihydroxytetraene metabolites derived from arachidonic acid via an interaction between the 5- and 15-lipoxygenases. Preincubation of [3H] myo-inositol labeled PMN with 10-7M and 10-5M LXA4 for 1 minute at 37 degrees C resulted in a concentration dependent inhibition of the generation of [3H] IP3 and [3H] IP in cells subsequently stimulated by increasing doses of LTB4 or FMLP for 1 minute at 37 degrees C. Preincubation of PMN with LXA4 did not inhibit specific binding of [3H] LTB4 to PMN. These results indicate that LXA4 inhibits chemotactic factor-induced phosphoinositide hydrolysis at a post-receptor level.     

Characterization of estrogen receptor in estrogen-dependent transplantable rat pituitary tumor MtT/F84

Properties of nuclear and cytosolic estrogen receptors (ERs) were examined in a new transplantable rat pituitary tumor designated as MtT/F84, of which growth is stimulated by estrogen. The optimal incubation conditions of both nuclear and cytosolic exchange were found to be at 37 degrees C for 15 min and at 25 degrees C for 2 hr, respectively. Molybdate increased a specific binding of estradiol (E2) as determined by [3H]E2-binding assay. Sucrose density gradient analyses of crude cytosol revealed specific peaks of radioactivity in both 4-5S and 8-10S areas. However, only a single 5S peak was present in 0.4M KCl-extractable nuclear ER. Molybdate also enhanced the stability of cytosolic 8-10S receptor in density gradient sedimentation behavior. Scatchard plot analysis for nuclear ER yielded a single class of binding sites with a dissociation constant (Kd) of 0.317 nM and the maximum number of binding sites (NBSmax) of 25.4 fmol/mg protein. Saturation analysis of [3H]estrogen binding to cytosolic ER also yielded a straight line with a Kd of 0.146 nM and NBSmax of 58.5 fmol/mg protein. The effect of E2 administration on the intracellular distribution of ER was also examined. A marked disappearance in the ER binding in cytosol with a concomitant increase in binding in nuclear fraction was found after the administration of the unlabeled E2 in vivo, whereas the total number of ER did not change. Thus, it is concluded that properties of ER in the MtT/F84 were very similar to those in other target organs such as uterus and pituitary gland.     

Interaction of (3H)naloxone with immunocompetent murine cells: the effect of mitogenic and antigenic activation]

The binding of the opioid antagonist [3H]-naloxone to immunocompetent cells of the mouse, F1(CBA x C57B1/6), in medium 199 has been studied. The binding was reversible and reached a maximum during 15-20 min at 37 degrees C. The stereospecificity profile was proven to correspond to mu-type receptors. The binding curve was characterized by high positive cooperativity (nH = 2.3, IC50 = 5 nM). Mitogenic stimulation by Con A, SEA, and ML caused an increase in the number of receptors. Besides, stimulation by an antigen (ovalbumin) changed the binding parameters. The distribution of binding sites for naloxone on various immunocompetent cells was investigated. The maximal number of sites was found on lymphocytes of lymph nodes and bone marrow cells. A conclusion is drawn that both T- and non-T-cells play a role in naloxone binding.     

The preparation and spectroscopic characterization of a weakly self-associating salt of guanylyl-(3'-5')-guanosine

The tetramethylammonium salt of guanylyl-(3'-5')-guanosine has been prepared by a cation-exchange technique and it has been found that the tetramethylammonium ion drastically reduces the self-association of GpG in solution. This has allowed the characterization of GpG by FTIR and 1-D and 2-D NMR spectroscopy. A complete, well-resolved 1H NMR spectrum in D2O has been obtained and all resonances have been assigned. A weak, essentially non-cooperative intermolecular association is observed in solution (15-20 mM) below 40 degrees C. The association occurs via base stacking and base-base hydrogen bonding.