Interstrain Variation of the Major Internal Structural Component (p30gag) of Two Murine Oncornaviruses: Comparative Immunochemical, Biochemical, and Biophysical Analysis

The major internal structural protein (p30(gag)) of the Moloney leukemia virus and the endogenous Y-1 murine oncornavirus was examined for biochemical and biophysical manifestations of interstrain antigenic variation. Although the two viral proteins share murine group-specific antigenic determinants, the Y-1 virus p30 appeared to have both a lower relative number of such determinants and a decreased affinity at the cross-reactive sites for Moloney virus p30 monospecific antibodies. Further, immunological analysis indicated the presence of unique antigenic sites on the Moloney virus p30 not shared by the analogous Y-1 virus molecule. The two polypeptides copurified and had similar isoelectric points (pH 6.2 to 6.3) and sedimentation coefficients (2.47S). However, equilibrium sedimentation yielded a significant mass difference between the two proteins, 28,300 +/- 600 and 31,000 +/- 300 daltons for the Moloney and Y-1 virus molecules, respectively. Amino acid analysis indicated a concomitant increase in total residues for the Y-1 virus p30, although a number of residues appeared to have been conserved between the two viral proteins. Conformational studies and hydrodynamic calculations demonstrated marked secondary and tertiary structural differences; with the Y-1 virus p30 being an asymmetric prolate ellipsoid containing 27 to 28% alpha-helix and Moloney virus p30 being somewhat more spherical and possessing an alpha-helical content of 50 to 55%. Two-dimensional mapping of (125)I-labeled tryptic peptides of each p30 suggested that considerable sequence heterogeneity is responsible for many of the biophysical, biochemical, and immunochemical differences in these two analogous structural proteins.     

Examination of the bactericidal and opsonic activity of normal human serum for a mucoid and nonmucoid strain ofPseudomonas aeruginosa

The bactericidal and opsonic activity of fresh human serum (FHS) for a mucoid strain ofPseudomonas aeruginosa, 144M, and its spontaneous nonmucoid revertant, 144NM, was examined. Strain 144M was sensitive to the bactericidal activity of FHS, but strain 144NM was not. This bactericidal activity was due to the combined interaction of IgG and IgM with complement, activated through both pathways. Neither 144M nor 144NM was ingested by human polymorphonuclear leukocytes (PMNL) without FHS. Whereas maximal phagocytosis of 144M required only 5% FHS, comparable ingestion of 144NM required 25% FHS. Maximal phagocytosis of either 144M or 144NM required IgG, IgM, and complement. However, 144M required a heat-sensitive opsonic IgG, whereas 144NM required a heat-resistant IgG. Using selective absorption techniques, the targets for bactericidal and opsonic immunoglobulins on 144M and 144NM appeared to be different, suggesting that the variant 144NM had one or more altered, absent, or inaccessible cell surface components that account for differences in response to FHS and PMNL.     

Calorimetric studies of flavin-binding proteins: FMN and FAD binding to hen egg riboflavin-binding proteins

Systematic thermodynamic studies have been conducted for flavin (FMN, FAD) binding to purified riboflavin-binding proteins from hen egg white and egg yolk. These studies were conducted under a variety of temperature (14, 26, and 38 °C), pH (4.5, 5.5, 6.5, 7.4, and 9.0), and buffer conditions, and an extensive thermodynamic profile was constructed. Enthalpies of binding FMN to white riboflavin-binding protein and yolk riboflavin-binding protein were ?19.3 and ?14.4 kcal/mol, respectively, at pH 7.4 and 38 °C. FAD bound to white and yolk riboflavin-binding proteins under the same conditions with ΔH values of ?11.7 and ?6.0, respectively. Binding constants of about 10⁵ and 10⁴ were obtained for FMN and FAD, respectively, and were the same for both proteins under all conditions studied. Using established thermodynamic relationships, we were able to calculate entropy and free energy changes. Entropies indicated a large degree of ordering in the system upon flavin binding with FMN (about ?40 cal/mol/ °C) twice as large as FAD (about ?15 to ?25 cal/mol/ °C), which may indicate a structured solvent interaction with the charged phosphate group, or steric limitations placed on the ribityl side chain in the bound state. Our thermodynamic data support the idea that flavin binding is a mixture of forces, with no one predominant. Analysis of the data suggests that the nucleotide may bind both as the mono- or dianion, that flavin binding occurs with no significant change in the pK of any functional group in the system, except at low pH for FAD binding, and that the temperature variation of the enthalpy change is quite small. These findings are combined with other published data to outline a general scheme of flavin binding with a histidine residue implicated in hydrogen bonding to the adenine portion of FAD, which may be in the unstacked form.     

Feeding habits and food resources of filter-feeding Trichoptera in a regulated mountain stream

A year-round study was conducted to examine feeding habits and food resources of the filter-feeding Trichoptera Arctopsyche grandis and Brachycentrus occidentalis along a regulated mountain stream gradient. There was a well defined longitudinal species replacement with A. grandis reaching maximum densities 2.3 kilometers below the impoundment, and concomitant with its decline downstream was an increase in B. occidentalis. At all sampling sites the < 75 µm organic seston fraction usually consisted primarily of diatoms (>70%, by areal estimate on microscope slides), whereas the 75–250 µm and > 250 µm seston fractions were predominantly composed of detritus (> 80 %). B. occidentalis larvae consumed primarily detritus and diatoms (> 70 % of the diet), while A. grandis ingested a variety of materials with animals, detritus and/or filamentous algae often constituting > 80% of the diet. Animal material was over-represented in the diets of both species when compared with amounts in the seston. Feeding habits provided partial explanations for the distinct longitudinal distribution patterns of filter-feeding Trichoptera observed in the regulated river.     

The radiolysis of tryptophan and leucine with32Pβ-radiation

Summary We have extended earlier experiments on the radiolysis of DL-tryptophan using³²P-radiation to longer reaction times, observing complete destruction of the tryptophan by secondary, non-radiolytic processes. We have also undertaken the irradiation of DL-leucine with³²P's at -196°, achieving radiolyses to the extents of ca. 20–30%, but observing no concomittant asymmetric bias. The implications of these observations are discussed with regard to the Vester-Ulbricht mechanism for the origin of optical activity.     

Effect of Tetanus Toxin on Transmitter Release from the Substantia Nigra and Striatum In Vitro

Abstract: The effect of tetanus toxin on the uptake and release of radiolabelled transmitters from slices prepared from substantia nigra (SN) and striatum of rats has been investigated. Tetanus toxin-500–750 mouse lethal doses (MLD)-injected into the SN 6 h before preparing the slices significantly reduced the calcium-dependent, potassium-evoked release of [³H]GABA. Endogenous GABA levels in the SN and [³H]GABA uptake by nigral slices were unaffected by pretreatment with the toxin. Injections of tetanus toxin (1000–2000 MLD) into the striatum significantly reduced the calcium-dependent, potassium-evoked release of [¹⁴C]GABA and also [³H]dopamine, but had no effect on the K⁺-evoked release of [³H]5-hydroxytryptamine or [¹⁴C]acetylcholine. It is concluded that tetanus toxin inhibits GABA release directly and not by interference with synthesis or inactivation processes.     

Comparison of lactate and malate dehydrogenases: Fluorescence and thermodynamic properties

Equilibrium, thermochemical, and time-resolved fluorescence measurements have been carried out in order to compare pig heart lactate dehydrogenase (LDH) and cytoplasmic malate dehydrogenase (MDH). The differences in the thermodynamic parameters for binding of NADH and NAD+ show the same pattern for both enzymes. The stronger binding of NADH is entropy-based, which can be understood as reflecting electrostatic interactions. The tryptophan fluorescence of MDH and LDH differ for the free enzymes and in quenching by NADH. The differences can be accounted for in terms of a single long-lived tryptophan residue present in LDH and not in MDH.     

Studies on nitrosamine metabolism I. Subcellular distribution of radioactivity in tumor-susceptible tissues of RFM mice following administration of [14C] dimethylnitrosamine

The distribution of radioactivity in tumor-susceptible (liver and lung) and non-tumor-susceptible (heart, forestomach, and esophagus) tissues of male RFM mice was investigated at timed intervals following a single intragastric administration of ¹⁴C-labeled DMN.³ The greatest amount of radioactivity was associated with the tumor-susceptible tissues—liver and lung. At 15 min, the relative amount of radioactivity in the homogenates of heart, forestomach, esophagus, livers and lung was 1, 2, 3, 10, and 70, respectively. The AS components of lung contained about six times as much radioactivity as the liver 15 min after administration; at 16 hr, the level of radioactivity had decreased and was equal in amount. The AI components of both tumor-susceptible tissues incorporated much less radioactivity than the AS components, indicating that only a small amount of methyl label is covalently bound to cellular macromolecules. The amount or radioactivity in the AI components ranged from 2–34% in the lung and from 11–33% in the liver. In the lung C-fraction the range of radioactivity was 75–89% for the AS components and 52–74% for the AI components. The radioactivity in the AS components of liver C-fraction ranged from 50–89%, and from 52–68% for the AI components. The results suggest differences in the affinity, transport, and/or metabolism of DMN between liver and lung, as well as between tumor-susceptible and non-tumor-susceptible tissues.     

THE SUBCELLULAR DISTRIBUTION OF [14C]GABA AND [3H]DOPAMINE IN THE RETINA

Abstract— Rabbit retinae were homogenized in isotonic sucrose and subjected to differential and density gradient centrifugation. Preliminary electron microscopic examination of some of the fractions indicated that in addition to the subcellular particles usually observed in brain homogenates, the photoreceptor cells gave rise to several characteristic fragments. These included fragmented outer limbs, aggregations of mitochondria from the inner segments, and photoreceptor terminals. Unlike the synaptosomes formed from the conventional type of synapses in the retina, these photoreceptor terminals appeared to sediment mainly in the low speed crude nuclear pellet (P1).
Retinae were incubated with low concentrations of [¹⁴C]GABA and/or [³H]dopamine prior to subcellular fractionation and in these experiments the P2 pellet was further fractionated on sucrose density gradients. Analysis of the radioactivity in the fractions showed that labelled GABA was accumulated by osmotically sensitive particles which had the sedimentation characteristics of synaptosomes. The panicles accumulating [³H]dopamine appeared to belong to a different, slightly lighter, population than those accumulating [¹⁴C]GABA. It is tentatively suggested that the particles accumulating labelled GABA were synaptosomes because the fractions containing these particles also possessed most of the GAD activity of the gradient. In contrast, GABA-T and MAO activity was found in the dense fractions of the gradients usually associated with mitochondria.
When retinae were incubated with a high concentration of labelled GABA a'lighter'population of particles seemed to accumulate the amino acid than when a low external GABA concentration was used. These results suggest that the high and low affinity uptake processes for GABA in the retina may have different cellular sites.