The trans-tissue pathway and chemical fate of 14C photoassimilate in carrot taproot

Axial and radial transport and the accumulation of photoassimilates in carrot taproot were studied using ¹⁴C labelling and autoradiography. Axial transport of the ¹⁴C labelled assimilates inside the taproot was rapid and occurred mainly in the young phloem found in rows radiating from the cambium. The radial transport of the assimilate inward (to cambium, xylem zone and pith) and outward (to phloem zone and periderm) from the conducting phloem was an order of magnitude slower than the longitudinal transport and was probably mainly diffusive. The cambial zone of the taproot presented a partial barrier in the inward path of the assimilate to the xylem zone. We suggest that this is due to the cambium comprising a strong sink for the assimilate on the basis that our previous work has shown that it contains very low concentrations of free sucrose. By contrast, a high accumulation of nonsoluble ¹⁴C was found in the cambium region in good agreement with the active growth of this zone. Autoradiography following the feeding of ¹⁴C labelled sugars to excised sections of taproot indicated that only a ring of cells at and/or just within the cambium take up sugars from the apoplast. This indicates that radial movement in the phloem and pith must be symplastic. An apoplastic step between phloem and xylem is possible. The rapid uptake of sugars from the apoplast at this point might represent a mechanism for keeping photoassimilates away from the transpiration stream and re-location back to the leaves.     

Classical Noncholinergic Neurotransmitters and the Vesicular Transport System for Acetylcholine

Abstract: The acetylcholine transporter exhibits such low affinity and specificity for acetylchoiine that it appeared possible it could fail to select against other neurotransmitters. Potential interactions of classical noncholinergic neurotransmitters with cholinergic synaptic vesicles purified from electric organ were studied. No active transport of [³H]serotonin, [³H]noradrenaline, or [³H]glutamate occurred. Serotonin, noradrenaline, and N -acetylaspartyl glutamate inhibited active transport of [³H]acetylcholine by the vesicles. Dopamine previously had been shown to inhibit transport. Glutamate and γ-aminobutyric acid were shown here not to inhibit active transport of [³H]-acetylcholine. Noradrenaline was competitive with respect to [³H]acetylcholine in this effect. Serotonin, noradrenaline, and dopamine inhibited binding of [³H]vesamicol to the vesicles, and dopamine was a competitive inhibitor of the binding of this allosteric ligand of the acetylcholine transporter. The results indicate that the acetylcholine transporter does not transport any other classical neurotransmitter, but serotonin, noradrenaline, and dopamine bind to the acetylcholine site.     

REDISTRIBUTION OF ADENINE DERIVATIVES AMONG SUBCELLULAR FRACTIONS FROM GUINEA PIG NEOCORTICAL TISSUES, ON INCUBATION IN VITRO

Abstract— After the brief in vitro exposure of guinea-pig neocortical tissue to [¹⁴C]adenine, synaptosomal fractions prepared from the incubated tissue contained about 6% of its retained ¹⁴C. On continued incubation and superfusion with or without stimulation, the synaptosomal proportion of the ¹⁴C increased, while the protein and K content of the fraction underwent smaller changes only. Colchicine, 0.5 m m , diminished the synaptosomal enrichment in [¹⁴C]adenine derivatives and also in some cases increased the ¹⁴C effluent from tissues to superfusates. Colchicine also diminished the uptake of adenosine, but not of adenine, to the neocortical tissues. It is concluded that nerve terminal regions receive adenine derivatives from other tissue components as part of their normal metabolism, and that much of this can arrive by extracellular fluids; transport cytoplasmically is not excluded.     

THE BIOSYNTHESIS OF CHOLESTEROL AND OTHER STEROLS BY BRAIN TISSUE

Abstract— The distribution of ¹⁴C into several subcellular fractions of adult rat brain was studied as a function of time, following intracerebral injection of [2-¹⁴C]mevalonic acid. As expected from previous studies, the microsomal fraction was indicated as the site of sterol biosynthesis. The myelin fraction showed a marked and early uptake of ^I4C-labelled, digitonin-precipitable material. This was assumed to be a non-enzymic uptake of sterol intermediates. The mitochondrial fraction exhibited a rapid uptake of ¹⁴C-labelled, nonsaponifiable material, but a very slow accumulation of ¹⁴C-labelled, digitonin-precipitable product. Examination of the nonsaponifiable ¹⁴C-fractions by TLC showed a rapid appearance of labelled 4-desmethyl sterols in the microsomal fraction. The myelin fraction selectively retained 4,4'-dimethyl sterol but seemed to release this with time, possibly to be further metabolized by the microsomes. Examination of [¹⁴C]digitonin-precipitable material by the dibromide method showed that although labelled 4-desmethyl sterol appeared quite early, cholesterol itself was formed slowly in all fractions.     

Active Transport of Nicotine by the Isolated Choroid Plexus In Vitro

Abstract: In vitro , the transport of [¹⁴C]nicotine into the isolated choroid plexus, the anatomical locus of the blood–CSF barrier, was studied. The isolated rabbit choroid plexus accumulated [¹⁴C]nicotine by two processes: an active saturable transport process and a nonsaturable process. The [¹⁴C]nicotine accumulation process by choroid plexus was not due to binding or intracellular metabolism of the [¹⁴C]nicotine. The [¹⁴C]nicotine accumulation process in isolated choroid plexus was inhibited by weak bases, including tolazoline and lidocaine, but not by the weak acid probenecid. The accumulation process was decreased 60% by iodoacetate and dinitrophenol and by low temperatures. These results are consistent with previous autoradiographic evidence showing the choroid plexus concentrated [¹⁴C]nicotine in vivo , and suggest that the choroid plexus may transfer nicotine between blood and CSF in vivo .     

THE EFFECT OF DIABETES, INSULIN AND WALLERIAN DEGENERATION ON LEUCINE METABOLISM OF ISOLATED RAT SCIATIC NERVES

Abstract– ¹⁴CO₂ production and ¹⁴C incorporation into proteins was studied in isolated rat sciatic nerves during incubation with 0.1 mM-[1-¹⁴C]leucine. Rats were made diabetic with streptozotocin. Nerves from diabetic rats incubated with glucose oxidized more [¹⁴C]leucine than controls. This difference was abolished in the presence of insulin (1 mU/ml). The effects of diabetes and insulin on leucine oxidation could not be demonstrated in the absence of glucose. Insulin stimulated the incorporation of [¹⁴C] from leucine into proteins by nerves from controls and diabetic rats.
Nerves undergoing Wallerian degeneration showed a marked increase in DNA content and stimulated incorporation of [¹⁴C]leucine into proteins. ¹⁴CO₂ production from leucine proceeded at 75% of the rate observed in intact nerves. Neither insulin nor diabetes affected leucine metabolism in degenerating nerves.
Neither the extracellular space nor the concentration of free amino acids were significantly different in nerves obtained from control and diabetic rats, except for lower glutamine content in the latter.
In vitro leucine metabolism of nerves is affected by diabetes, insulin and the integrity of the axon. The Schwann cell is suggested as a possible site of the observed changes in leucine metabolism.     

The Synthesis and Release of [3H-Tyrosine1]Methionine5-Enkephalin from Guinea Pig Brain Slices

Abstract: Stores of methionine-enkephalin were labelled on the N -terminal by incubation of whole brain slices with [³H]tyrosine (10 °Ci/ml). The ³H radioactivity corresponding to the position of authentic Met-enkephalin after extraction on Amberlite XAD₂ and separation by thin-layer chromatography was taken as an index of synthesis. Maximal incorporation of the labelled tyrosine into Met-enkephalin was attained after 4 h of incubation at 37°C and was inhibited in the presence of 10 μ M cycloheximide. Isolated nerve terminals failed to incorporate any [³H]tyrosine. The labelled compound had opiatelike activity and consisted of the same five amino acids as an authentic standard. Incubations with leucine aminopeptidase indicated that the labelled tyrosine was on the N -terminus and removal of this tyrosine resulted in loss of opiate-like activity. The incorporation of [¹⁴C]glycine, selected as an alternative precursor, was consistent with de novo synthesis and not N -terminal exchange. A radioimmunoassay was also used to quantify the amount of labelled Met-enkephalin. KCl (50 m M ) elicited a Ca²⁺-dependent release of the synthesised [³H]Met-enkephalin from whole brain slices and also from isolated nerve terminals. The release of Met-enkephalin radioimmunoactivity paralleled that of [³H]met-enkephalin. Preliminary investigations have suggested that carbamyl choline inhibited this release and its effect was partially reversed by atropine.     

IS THERE BIDIRECTIONAL TRANSPORT OF NORADRENALINE IN SYMPATHETIC NERVES?

The experiments were designed to detect somatopetal transport of [¹⁴C]noradrenaline in the postganglionic sympathetic nerves supplying the cat spleen and sheep eye. The animals were treated with nialamide to protect the radioactive noradrenaline, after uptake into the nerve terminals, from monoamine oxidase. In the spleen, the transmitter stores were labelled by infusion of [¹⁴C]noradrenaline into a branch of the splenic artery. The branches of the nerves to the infused and non-infused sides of the spleen were ligated in an attempt to arrest, distal to the constriction, any noradrenaline transported somatopetally in the axons from their terminals. After 24 hr, however, there was less radioactivity in the nerves distal compared to proximal to the constriction, despite heavier labelling of the terminal transmitter stores in the infused portion of the spleen. The proximal accumulation of radioactivity could be attributed to a somatofugal transport of [¹⁴C]noradrenaline. Experiments were also done on the intact sympathetic nerve supply of the sheep eye. The sympathetic nerve terminals in the smooth muscle of the left eye were heavily labelled 5 days after the injection of [¹⁴C]noradrenaline into the left vitreous humour. However, both superior cervical ganglia were only lightly labelled, and there was no significant difference in the radioactivity present in the two ganglia. The results provide no support for a bidirectional transport of noradrenaline in sympathetic nerves but are consistent with a somatofugal transport of the amine storage vesicles from their site of synthesis in the soma to the axon terminals.     

RETROGRADE AXONAL TRANSPORT OF RAPIDLY MIGRATING LABELLED PROTEINS AND GLYCOPROTEINS IN REGENERATING PERIPHERAL NERVES

Abstract— The redistribution of rapidly migrating [³H]leucine-labelled proteins and [³H]fucose-labelled glycoproteins was studied in ligated regenerating hypoglossal and vagus nerves of the rabbit. When regenerating and contralateral hypoglossal nerves were ligated 16 h after labelling of the nerve cell bodies, rapidly migrating proteins and glycoproteins accumulated distal to the ligatures indicating a rapid retrograde transport from the peripheral parts of the nerves within 6 h. The retrograde accumulation of both proteins and glycoproteins was greater on the regenerating side than on the contralateral side at both 1 and 5 weeks after a nerve crush. Labelled proteins and glycoproteins also accumulated proximal to the ligatures, indicating a delayed rapid anterograde phase of axonal transport. The accumulation of this phase was also greater on the regenerating side 1 week after a nerve crush for both labelled proteins and glycoproteins. One week after a crush of the cervical vagus nerve, rapidly migrating proteins and glycoproteins redistributed between he crush zone and a proximal ligature applied 16 h after labelling of the nerve cell bodies. A retrograde accumulation occurred distal to the ligature within 6 h, indicating a rapid retrograde transport from the crush zone.     

IN VIVO INHIBITION OF RAT BRAIN PROTEIN SYNTHESIS BY l-DOPA

Abstract— A study has been made of the effect of a single intraperitoneal dose of l -DOPA on the in vivo metabolism of [¹⁴C]leucine and [¹⁴C]lysine by the brain, and on their uptake into brain protein. Administration of 500 mg DOPA/kg to 40-g rats raised the concentrations of several free amino acids; the only amino acid which underwent a statistically significant increment was alanine. Intracisternally-injected [U-¹⁴C]leucine was rapidly metabolized to other labelled compounds; DOPA administration did not influence significantly the rate of its metabolism. No similar metabolic change was observed after administering [U-¹⁴C]lysine intracisternally.
Incorporation of [¹⁴C]leucine and [¹⁴C]lysine into total brain protein was significantly reduced 45 min after DOPA administration. There was also depression of the uptake of labelled amino acid into a supernatant fraction, obtained by high speed centrifugation of the brain homogenate, and into brain microtubular protein (tubulin). Reduced amino-acid incorporation into brain proteins observed 45 min after l -DOPA injection coincided with extensive disaggregation of brain polyribosomes. At 120 min after DOPA treatment, disaggregation was no longer significant and there was a smaller depression in labelled amino aicd incorporation, which disappeared completely 240 min after l -DOPA injection. It is concluded that disaggregation of brain polysomes following DOPA treatment is an accurate reflection of a change in the intensity of brain protein synthesis in vivo.     

Effects of Monensin on Assembly of Po Protein into Peripheral Nerve Myelin

Abstract: The ionophore monensin has been used in a variety of systems to block secretion of glycoproteins or assembly of glycoproteins into membranes. We examined the effects of monensin on assembly of the Po glycoprotein into PNS myelin, and compared this agent with the glycosylation inhibitor tunicamycin in our system. Sciatic nerves from 9-day-old rat pups were sliced and incubated in vitro . Electron microscopy of the Schwann cells in slices incubated with monensin revealed extensive swelling of the Golgi complex. Incubation with 10⁻⁷ M monensin inhibited total protein synthesis by about 20% and fucose incorporation into protein about 35%. Following isolation of myelin, proteins were separated by sodium dodecyl sulfate gel electrophoresis. Monensin inhibited the appearance of Po in myelin, while causing its accumulation in a denser membrane fraction. In addition, a slightly faster-migrating species of P_o labeled with both [³H]fucose and [¹⁴C]glycine was observed in all fractions. Assembly of basic proteins into myelin was not affected. Preincubation with 10 μg/ml tunicamycin for 30 min prior to incubation with [³H]fucose and [¹⁴C]glycine for 2 h resulted in a 65% decrease in [³H]fucose incorporation into P_o, and the appearance of a new [¹⁴C]glycine-labeled peak that migrated in the region of the 23K protein reported by Smith and Sternberger. [³H]Fucose incorporation was inhibited earlier, and to a greater extent, than protein synthesis. Our results show that processing of the P_o glycoprotein is sensitive to both monensin and tunicamycin, and that monensin partially blocks assembly of P_o into myelin.     

The underestimated importance of belowground carbon input for forest soil animal food webs

The present study investigated the relative importance of leaf and root carbon input for soil invertebrates. Experimental plots were established at the Swiss Canopy Crane (SCC) site where the forest canopy was enriched with ¹³C depleted CO₂ at a target CO₂ concentration of c . 540 p.p.m. We exchanged litter between labelled and unlabelled areas resulting in four treatments: (i) leaf litter and roots labelled, (ii) only leaf litter labelled, (iii) only roots labelled and (iv) unlabelled controls. In plots with only ¹³C-labelled roots most of the soil invertebrates studied were significantly depleted in ¹³C, e.g. earthworms, chilopods, gastropods, diplurans, collembolans, mites and isopods, indicating that these taxa predominantly obtain their carbon from belowground input. In plots with only ¹³C-labelled leaf litter only three taxa, including, e.g. juvenile Glomeris spp. (Diplopoda), were significantly depleted in ¹³C suggesting that the majority of soil invertebrates obtain its carbon from roots. This is in stark contrast to the view that decomposer food webs are based on litter input from aboveground.     

Facilitated diffusion drives transport of oxidised ascorbate molecules into purified plasma membrane vesicles of Phaseolus vulgaris

Recently, the presence of a carrier‐mediated transport system for ascorbate was demonstrated in the plant plasma membrane. To investigate the possible physiological importance of this system in apoplastic ascorbate metabolism we further characterized this carrier. Transport of Asc was measured by incubating freshly‐purified plasma membrane vesicles from hypocotylar hooks of Phaseolus vulgaris together with [¹⁴C]‐labelled Asc. In this paper we show that ascorbate transport is detectable over a relatively broad pH range (6 to 7.5) and is not affected by protonophore addition. [¹⁴C]‐Ascorbate is not taken up into vesicle fractions consisting of sealed inside‐out oriented vesicles, suggesting that it is transported only from the apoplast to the cytoplasm. Asc uptake into vesicles previously loaded with ascorbate was also tested. Surprisingly, uptake of radioactive molecules was up to 3‐fold higher in the ascorbate‐loaded vesicles compared to non‐loaded control vesicles ( P < 0.001). The uptake of [¹⁴C]‐ascorbate in both the ascorbate‐loaded as the non‐loaded membrane vesicles was inhibited by addition of DTT and not by glutathione or ferricyanide. Based on various observations such as cis ‐inhibition, trans ‐stimulation and insensitivity towards proton gradients, a facilitated uptake mechanism is suggested. Our results strongly indicate that dehydroascorbate is the preferred transported species from the apoplastic to the cytoplasmic side of the membrane. This transport system is possibly involved in the regeneration of apoplastic ascorbate.     

SUBCELLULAR DISTRIBUTION OF ENDOGENOUS AND [3H] γ-AMINOBUTYRIC ACID IN RAT CEREBRAL CORTEX

Abstract— Slices of rat cerebral cortex were labelled by incubation with [³H]γ-aminobutyric acid (GABA) and homogenized in isotonic sucrose. The subcellular distributions of endogenous GAB A, [³H]GABA and glutamate decarboxylase (GAD) were studied by density gradient centrifugation. The subcellular distributions of the labelled and endogenous amino acid were remarkably similar, indicating that [³H]GABA is taken up into the endogenous GABA pool. About 40 per cent of both endogenous and [³H]GABA were recovered in particles which were tentatively identified as synaptosomes from their equilibrium density and sensitivity to osmotic shock. In slices labelled with [³H]GABA and [¹⁴C]α-aminoisobutyric (AIB) acid, significantly more [³H]GABA was recovered in paniculate fractions than [¹⁴C]AIB. About 80 per cent of the enzyme GAD was also recovered in the same particle fractions which contained [³H]GABA and endogenous GABA. Evidence is presented which suggests that a loss of particle-bound GABA occurs during subcellular fractionation procedures.     

CITRATE AS THE PRECURSOR OF THE ACETYL MOIETY OF ACETYLCHOLINE

Abstract— Rat brain cortex slices were incubated with glucose labeled with either ³H or ¹⁴C in the 6-position. The ³H/¹⁴C ratios and the incorporation of radioactivity into lactate, citrate, malate and acetylcholine were determined. While the ³H/¹⁴C ratio of lactate was close to that of glucose, the ratios in the acetyl moiety of acetylcholine and the acetyl (C-4,5) portion of citrate decreased in a similar proportion. This was interpreted as indirect evidence for the participation of citrate as a precursor to the acetyl moiety of acetylcholine. Two inhibitors of the citrate cleavage pathway: n -butylmalonate, an inhibitor of citrate transport and (-)-hydroxycitrate, an inhibitor of ATP-citrate lyase were studied for their effect on acetylcholine synthesis. N -butylmalonate (10 mM) and (-)-hydroxycitrate (7.5 mM) led to a decrease in the per cent of ¹⁴C recovered as acetylcholine. In each instance the ³H/¹⁴C ratio in acetylcholine was higher in the presence of inhibitor while the corresponding ratios in lactate and citrate (C-4.5) remained unchanged. From the results, it is suggested that citrate is involved in the transport mechanism of acetyl units from its site of synthesis in mitochondria to the site of acetylcholine synthesis in the cytosol.     

Studies on [14C]-glucose metabolism during shoot bud induction in cultured cotyledon explants of Pinus radiata

Bender, L., Joy IV, R. W. and Thorpe, T. A. 1987. Studies on [¹⁴C]-glucose metabolism during shoot bud induction in cultured cotyledon explants of Pinus radiala.
Excised cotyledons of Pinus radiata D. Don, cultured under shoot-forming (plus N⁶-benzyladenine) and elongating (minus N⁶-benzyladenine) conditions, were fed U-[¹⁴C]-glucose for 3 h in the light followed by a 3 h chase period immediately after excision (day 0) and after 3 days of culture (day 3). The incorporation of ^l4C into individual soluble metabolites as well as into protein was followed. No labelled citrate could be detected at day 0, however, a flow of ¹⁴C from glucose to glutamate/ glutamine occurred. During this stage the synthesis of glutamine strongly increased in the cotyledons supplied with N⁶-benzyladenine, which suggests a positive influence of this cytokinin on nitrogen incorporation prior to differentiation. After 3 days of cultivation large amounts of labelled citrate were detected. An increased incorporation of label into protein due to the cytokinin treatment was not detected during the early culture period (days 0 and 3). Labelled amino acids were incorporated into protein to different degrees, but this was not influenced by the hormonal treatment.     

Locally Synthesized Phosphatidylcholine, but Not Protein, Undergoes Rapid Retrograde Axonal Transport in the Rat Sciatic Nerve

Abstract: Retrograde axonal transport of phosphatidylcholine in the sciatic nerve has been demonstrated only after injection of lipid precursors into the cell body region. We now report, however, that after microinjection (1 μl) of [methyl-³H]choline chloride into the rat sciatic nerve (35-40 mm distal to the L4 and L5 dorsal root ganglia), time-dependent accumulation of ³H-labeled material occurred in dorsal root ganglia ipsilateral, but not contralateral, to the injection site. The level of radioactivity in the ipsilateral dorsal root ganglia was minimal at 2 h after isotope injection but was significantly increased at 7, 24, 48, and 72 h after intraneural isotope injection (n = 3–8 per time point); at these time points, all of the radiolabel in the chloroform/methanol extract of the ipsilateral dorsal root ganglia was present in phosphatidylcholine. The radioactivity in the water-soluble fraction did not show a time-dependent accumulation in the ipsilateral dorsal root ganglia as compared with the contralateral DRGs, ruling out transport or diffusion of precursor molecules. In addition, colchicine injection into the sciatic nerve proximal to the isotope injection site prevented the accumulation of radiolabel in the ipsilateral dorsal root ganglia. Therefore, this time-dependent accumulation of radiolabeled phosphatidylcholine in the ipsilateral dorsal root ganglia is most likely due to retrograde axonal transport of locally synthesized phospholipid material. Moreover, 24 h after injection of both [³H]choline and [³⁵S]-methionine into the sciatic nerve, the ipsilateral/contralateral ratio of radiolabel was 11.7 for ³H but only 1.1 for ³⁵S. indicating that only locally synthesized choline phospholipids, but not protein, were retrogradely transported.     

Release of Neurotransmitter Amino Acids from Synaptosomes: Enhancement of Calcium-Independent Efflux by Oleic and Arachidonic Acids

Abstract: The release of preloaded [¹⁴C]neuroactive amino acids (glutamic acid, proline, γ-aminobutyric acid) from rat brain synaptosomes can occur via a time-dependent, Ca²⁺ -independent process. This Ca²⁺-independent efflux is increased by compounds that activate Na⁺ channels (veratridine, scorpion venoms), by the ionophore gramicidin D, and by low concentrations of unsaturated fatty acids (oleic acid and arachidonic acid). Saturated fatty acids have no effect on the efflux process. Neither saturated nor unsaturated fatty acids have an effect on the release of [¹⁴C]leucine, an amino acid not known to possess neurotransmitter properties. The increase in the efflux of neuroactive amino acids by oleic and arachidonic acids can also be demonstrated using synaptosomal membrane vesicles. Under conditions in which unsaturated free fatty acids enhance amino acid efflux, no effect on ²²Na⁺ permeability is observed. Since Na⁺ permeability is not altered by fatty acids, the synaptosomes are not depolarized in their presence and, thus, the Na⁺ gradient can be assumed to be undisturbed. We conclude that unsaturated fatty acids represent a potentially important class of endogenous modulators of neuroactive amino acid transport in nerve endings and further postulate that their action is the result of an uncoupling of amino acid transport from the synaptosomal Na⁺ gradient.     

STUDY OF RNA IN SUBCELLULAR FRACTIONS FROM RAT BRAIN: SIMULTANEOUS INCORPORATION OF [14C]URIDINE AND [3H]METHYL-l-METHIONINE

Abstract— By using a combination of subcutaneous and intraventricular injections of [¹⁴C]uridine and [³H]methyl- l -methionine we have obtained maximum incorporation in about 40 min of both radioactive precursors into nuclear RNA from rat brain. In this nuclear fraction we found at least two different types of RNA that were rapidly labelled. One of them incorporated both [¹⁴C]uridine and [³H]methyl groups and seemed to correspond to species of rRNA and their precursors. The other RNA fraction was less methylated or non-methylated and exhibited sedimentation coefficients distributed along a continuous 8–30 % sucrose density gradient. At least part of the latter type of RNA very probably was mRNA, but much of it must conespond to a different RNA similar to that recently described in HeLa cells by P enman , V esco and P enman (1968).
We also found that labelled 185 and 285 rRNA components began leaving the nucleus for the cytoplasm within 24 to 33 min after the radioactive precursors had been injected, and, in the cytoplasmic fraction, the patterns of incorporation for [¹⁴C]uridine and [³H]-methyl groups were similar for the 18S and 28S rRNA components. We estimate that in this fraction of rat brain the 18S rRNA component was 1·4 times more methylated than the 28S component. We also detected a lower sedimentation coefficient for the non- or slightly methylated, species of soluble RNA found in the cytoplasmic fraction.