Intracellular calcium release and the mechanisms of parthenogenetic activation of the sea urchin egg.

Parthenogenetic activation of Lytechinus pictus eggs can be monitored after injection with the Ca-sensitive photoprotein aequorin to estimate calcium release during activation. Parthenogenetic treatments, including the nonelectrolyte urea, hypertonic sea water, and ionophore A23187, all acted to release Ca²⁺ from intracellular stores. Ionophore and urea solutions release Ca²⁺ from the same intracellular store as normal fertilization. This intracellular store can be reloaded after 40 min and discharged again. Hypertonic medium appears to release Ca²⁺ from a different intracellular store. Treatment with the weak base NH₄Cl did not release intracellular Ca²⁺ but did result in a momentary Ca²⁺ influx if Ca²⁺ was present in the external solution. Ca²⁺ influx was not required for ammonia activation.     

Evidence for an intermediate in the denaturation and assembly of phosphoglucose isomerase

The denaturation of dimeric rabbit muscle phosphoglucose isomerase in guanidine hydrochloride occurs in two discrete steps consisting of partial unfolding followed by subunit dissociation. In 3.5 to 4.5 m guanidine hydrochloride the enzyme forms a stable denaturation intermediate. Formation of this intermediate abolishes catalytic activity, shifts the protein fluorescence emission maximum from 332 to 345 nm, exposes all of the unavailable sulfhydryl groups, and decreases the s_20,w from 6.8 to 4.6 S. The intermediate dissociates into fully unfolded polypeptide chains with further increases in the concentration of the denaturant. The fluorescence maximum shifts to 352 nm and the s_20,w of the denatured monomer is 1.6 S. From the equilibrium constant for subunit association, 3 × 10⁴M^?1, in 4.7 m guanidine hydrochloride, the apparent free energy of association is estimated to be ?6 kcal mol^?1. Reconstitution of the enzyme protein takes place by the reversal of the steps observed upon denaturation. The denatured monomers refold and associate to reform the dimeric intermediate which then anneals to yield the intact enzyme molecule.     

Synthesis of phenyl 2-acetamido-2-deoxy-4-O-α-l-fucopyranosyl-β-d-glucopyranoside and p-nitrophenyl 2-acetamido-2-deoxy-6-O-α-l-fucopyranosyl-β-d-glucopyranoside

Maize and potato amylopectin (57 and 64%, respectively) were recovered as non-cyclic products from 4-h digests of the starches with cyclodextrin glycosyltransferase {(1→4)-α-d-glucan:[(1→4)-α-d-glucopyranosyl]transferase (cyclising), EC 2.4.1.19} from Klebsiella pneumoniae M 5 al. Besides smaller saccharides, highly branched fragments of different sizes (average d.p. 40–140) were obtained by fractionation. The extents of beta-amylolysis varied between 24 and 37%, indicating that the clusters were not equally susceptible to attack by cyclodextrin glycosyltransferase. The fragments of potato amylopectin still contained larger amounts of material of high molecular weight. Accordingly, part of the longer B-chains of the basic structure were protected from the enzymic attack, presumably because of interchain branches. By debranching with pullulanase, it was evident that the beta-limit dextrins of the fragments of potato amylopectin were composed of longer B-chains (average chainlength 17.8) than those of maize amylopectin (average chain-length 14.1). The A/B-chain ratios, which were calculated from h.p.l.c. data for the debranched beta-limit dextrins, were 1.22 (maize) and 1.06 (potato). Some structural differences between potato and maize amylopectin are discussed.     

A codeine radioimmunoassay exhibiting insignificant cross-reactivity with morphine: (Preliminary communication)

Antisera to codeine have been raised to an $\text{N}$-butyroylnorcodeine-bovine serum albumin conjugate. These antisera were used, at a final dilution of 1:10, 000 in a radioimmunoassay procedure for codeine utilizing tritiated codeine as label. No cross-reactivity was observed with heroin, 6-monoacetyl-morphine, morphine or codeine-6-glucuronide, but, as might be expected, norcodeine cross-reacts to an appreciable extent with this antiserum. This immunoassay system should be of value in quantitating codeine in biological fluids, and in distinguishing codeine from morphine or its major metabolites.     

Interleukin 2 regulation of mitogen induction of immune interferon (IFN gamma) in spleen cells and thymocytes

Interleukin 2 (IL 2) or T-cell growth factor induced the production of immune interferon (IFN_γ) in C57B1/6 mouse spleen cell cultures, and enhanced mitogen-induced IFN_γ production in both spleen cells and thymocytes. Staphylococcal enterotoxin A, but not phytohemagglutinin P (PHA-P), induced IFN_γ production in thymocytes. IL 2 enhanced this production by almost 12-fold, while having no effect on the negative response to PHA-P. The IFN activity was shown to be IFN_γ by neutralization with specific antiserum. A strict correlation between IL 2 induction or enhancement of IFN_γ production and cell proliferation was not observed, probably indicating that non-IFN-producing cells also proliferated in the presence of IL 2. The data indicate that IL 2 can both induce IFN_γ and modulate mitogen induction of IFN_γ.     

The use of 3H-gamma-aminobutyric acid for transport studies with isolated nerve-terminals from rat brain

Isolated synaptosomes were used to study the problem of net accumulation of neurotransmitters. The time-course and the kinetics of exogenous and endogenous GABA transport were studied by liquid-scintillation counting and HPLC-amino acid analysis respectively. Different pools of GABA were suggested by a 6-fold difference in tissue-to-medium-ratio of endogenous vs. exogenous GABA. Net accumulation, exchange and net efflux of GABA was found to be a function of the GABA concentration in the incubation medium. The Kms for net accumulation and for 3H-GABA accumulation were 2.68 +/- 1.16 and 6.19 +/- 1.26 microM respectively, whereas the Vmaxs were 5.9 +/- 4.9 and 134 +/- 13 pmol/mg w.w. min respectively. This means that the transport studies which use exogenous substances (e.g. 3H-GABA) considerably overestimate the transport by overlooking the magnitude of the counter transport.     

Analysis of the kinetics of electron transfer reactions of hemoglobin and myoglobin with inorganic complexes.

The kinetics of methemoglobin reduction by Fe(EDTA)^2? have been studied and found to follow a second order rate law with k = 29.0 $\text{M}$^?1 s^?1 [25°C, μ = 0.2 $\text{M}$, pH 7.0 (phosphate)], $\text{ΔH}{}^3\text{= 5.5 ± 0.7 kcal/mol}$, and $\text{ΔS}{}^2\text{= ?33 ± 2 e.u.}$. The electrostatics-corrected self-exchange rate constant (k₁₁^corr) for hemoglobin based on the Fe(EDTA)^2? cross-reaction is 2.79×10^?3$\text{M}$^?1 s^?1. This rate constant is compared with others reported for a water-soluble iron porphyrin and calculated from published data for the reactions of myoglobin and hemoglobin with Fe(EDTA)^2? and Fe(CDTA)^2?/?. The k₁₁^corr values for these systems range over ten orders of magnitude with heme ? myoglobin > hemoglobin.     

Chemical syntheses of 5α-cholesta-6,8(14)-dien-3β-ol-15-one and related 15-oxygenated sterols

Hydroboration of 5α-cholesta-8,14-dien-3β-ol (I) gave 5α-cholest-8-en-3β,15α-diol (IV) in 89% yield. 5α-Cholest-7-en-3β,15α-diol (V) was prepared in 91% yield by hydroboration of 5α-cholesta-7,14-dien-3β-ol (II). Hydroboration of 27:63 mixture of I and II gave IV and V in 18% and 70% yields, respectively. 5α-Cholest-8-en-15α-ol-3-one and 5α-cholest-7-en-15α-ol-3-one were prepared in high yields from IV and V, respectively, by either selective oxidation with silver carbonate-celite or by enzymatic oxidation using cholesterol oxidase. 7α,8α-Epoxy-5α-cholestan-3β,15α-diol (VIII) was prepared in 93% yield by treatment of V with m-chloroperbenzoic acid. 5α-Cholest-8(14)-en-7α-ol-3,15-dione (IX) was prepared in 56% yield by oxidation of VIII with pyridinium chlorochromate followed by treatment of the crude product with acid. Compound IX was also obtained in 72% yield by selective chemical oxidation of 5α-cholest-8(14)-en-3β,7α,15α-triol. 5α-Cholesta-6,8(14)-dien-3,15-dione (X) was prepared in 89% yield by treatment of IX with p-toluenesulfonic acid under controlled conditions. Reduction of X with lithium tri-tert-butoxyaluminum hydride under controlled conditions gave 5α-cholesta-6,8(14)-dien-3β-ol-15-one in 84% yield.     

Calcium content of frog rod outer segments and discs

To test the “Ca²⁺ hypothesis of visual excitation”, we measured the total Ca²⁺ content of freshly isolated bullforg rod outer segments, and have compared the total Ca²⁺ contents of fully dark-adapted discs with discs exposed to small amounts of light. Discs were prepared by hypotonically lysing outer segments under conditions expected to remove Ca²⁺ from the cytoplasm but not from the discs. Ca²⁺ was assayed by atomic absorption spectrophotometry. We find that both discs and outer segments contain a total of about 0.1–0.2 Ca²⁺ per rhodopsin molecule. Thus, each frog disc retains about $\text{2 · 10}{}^5\text{Ca}{}^{\mathrm{2+}}$. If most of this Ca²⁺ were free in the aqueous space inside the intact discs, the Ca²⁺ activity would be a few mM. Since the light-regulated Na⁺ channels have been reported to be highly sensitive to cytoplasmic Ca²⁺, this store of Ca²⁺ in the discs is far more than required by the Ca²⁺ hypothesis. However, despite several variations in experimental conditions, we did not observe any light-activated release of Ca²⁺ from discs in response to stimuli that photoactivated a small fraction of the rhodopsin, as required by the Ca²⁺ hypothesis. In the 26 experiments reported here we could have detected a release as small as 20–30% of the Ca²⁺ content of the disc.     

Kinetics and mechanism of oxidation of d-erythrose and dL-glyceraldehyde by chromium(VI) and vanadium(V) in perchloric acid medium

The kinetics of oxidation of d-erythrose and dL-glyceraldehyde by chromium (VI) and vanadium(V) in perchloric acid medium have been investigated spectrophotometrically. Each reaction was first-order with respect to [oxidant] and [substrate]. The reactions were catalysed by acid, but their dependence on acidity was complex. Sodium perchlorate accelerated the rate of each reaction. The oxidation rates follow the order glyceraldehyde > erythrose. The activation parameters were calculated and mechanisms consistent with the experimental observations are proposed.     

The induction of at least two distinct types of interferon in mouse spleen cell cultures by Corynebacterium parvum

Mice immunized with particulate antigens or soluble antigens in Freund's complete adjuvant produce a factor(s) which enhances antibody formation. Such an enhancing factor(s) is detected in the serum within 6 hr after immunization. The factor(s) is specific and enhances both 19s and 7s responses especially when recipient mice are challenged with subimmunogenic doses of antigen. From the study of the kinetics of antibody formation (latent period, coincidence of peaks of 19s and 7s responses) and the distribution of the Ig classes of the antibody (dominance of IgG1) it is concluded that the enhancing factor(s) primes the animals for a secondary response. The enhancing factor(s) is carrier specific and enhances antibody formation in the absence of T cells (nude mice). In the absence of T cells the antibody response is quantitatively small, which suggests that in the presence of T cells the enhancing factor(s) further amplifies antibody formation.     

Specific nucleotide sequences in HeLa cell inverted repeated DNA: enrichment for sequences found in double-stranded regions of heterogeneous nuclear RNA

Inverted repeat DNA was isolated from HeLa cell nuclei and transcribed in vitro with Escherichia coli RNA polymerase in the presence of [alpha-³²P]nucleoside triphosphates. The RNA products were digested with T₁ ribonuclease and subjected to separation in two dimensions. The pattern of the prominent oligonucleotides was almost indistinguishable from that seen when the double-stranded regions from ³²P-labeled HeLa cell heterogeneous nuclear RNA were fingerprinted in a similar manner. The sequences of several of the largest prominent T₁ ribonuclease-generated oligonucleotides were determined and were found to agree with those isolated from the double-stranded heterogeneous nuclear RNA that migrated to the same positions in the fingerprints. The most prominent component of the inverted repeat DNA appears to be sequences that are transcribed into double-stranded regions in heterogeneous nuclear RNA molecules.