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Tritium components

DifficultSepa.ra.tions, Difficult separations, characterized by separation factors in the range 0.95 to 1.05, are frequentiy expensive because these involve high operating costs. Such processes can be made economically feasible by reducing the solvent recovery load (260) this approach is effective, for example, in the separation of m- and -cresol, Hnoleic and abietic components of tall oil (qv), and the production of heavy water (see Deuteriumand TRITIUM, deuterium). [Pg.80]

The principal source of natural tritium is the nuclear reactions induced by cosmic radiation in the upper atmosphere, where fast neutrons, protons, and deuterons coUide with components of the stratosphere to produce tritium ... [Pg.14]

Concentration by gas chromatography has also been demonstrated. Elution chromatography has been used on an activated alumina column to resolve the molecular species H2, HT, and T2, thereby indicating a technique for separation or concentration of tritium (54). This method was extended (55) to include deuterium components. The technique was first demonstrated in 1964 using macro quantities of all six hydrogen molecular species (56). [Pg.15]

Table IV presents the results of the determination of polyethylene radioactivity after the decomposition of the active bonds in one-component catalysts by methanol, labeled in different positions. In the case of TiCU (169) and the catalyst Cr -CjHsU/SiCU (8, 140) in the initial state the insertion of tritium of the alcohol hydroxyl group into the polymer corresponds to the expected polarization of the metal-carbon bond determined by the difference in electronegativity of these elements. The decomposition of active bonds in this case seems to follow the scheme (25) (see Section V). But in the case of the chromium oxide catalyst and the catalyst obtained by hydrogen reduction of the supported chromium ir-allyl complexes (ir-allyl ligands being removed from the active center) (140) C14 of the... Table IV presents the results of the determination of polyethylene radioactivity after the decomposition of the active bonds in one-component catalysts by methanol, labeled in different positions. In the case of TiCU (169) and the catalyst Cr -CjHsU/SiCU (8, 140) in the initial state the insertion of tritium of the alcohol hydroxyl group into the polymer corresponds to the expected polarization of the metal-carbon bond determined by the difference in electronegativity of these elements. The decomposition of active bonds in this case seems to follow the scheme (25) (see Section V). But in the case of the chromium oxide catalyst and the catalyst obtained by hydrogen reduction of the supported chromium ir-allyl complexes (ir-allyl ligands being removed from the active center) (140) C14 of the...
Isotopic-labeled tracers behave like the components in the fluid of interest. For example, tritium water behaves like water. If less similar chemicals are used as tracers, selective adsorption, chemical reaction, and liquid-liquid distribution must be considered. The tracer must be chosen so that the analytic method is sufficiently sensitive to detect the tracer in the desired amounts. [Pg.225]

Hormone receptors for steroids were discovered in the early 1960s, when the technology to radioactively mark steroids became available. By obtaining tritium-labeled estradiol, Jensen could show the existence of an intracellular protein component that bound specifically to this hormone and that was called the estradiol receptor (ER). [Pg.19]

Separation of 6Li from natural abundance (7.4%) feed to synthesize 6LiD (an important component of the fuel used in hydrogen fusion weapons (hydrogen bombs)). This, because the (n,T) cross section for 6Li is much larger than that of 7Li, so production of tritium is much enhanced in the triggering explosion. [Pg.245]

Pyrrolizidine Alkaloids.—The necic acid component of senecionine (8) derives from two molecules of isoleucine, radioactivity from precursor amino-acid being equally incorporated into both halves of the necic acid fragment, as shown in Scheme 2 (c/. Vol. 9, p. 4). It has now been shown that biotransformation of isoleucine into the necic acid involves loss of half of a tritium label from C-4 in each of the two amino-acid fragments.6 Removal of a proton is, therefore, stereospecific, and oxidation at C-4 does not proceed beyond the two-electron level i.e., a higher intermediate oxidation level, corresponding to a ketone, is excluded. Further results indicate that for each molecule of isoleucine it is the 4-pro-S proton [see (14)] which is lost. [Pg.2]

The tissue distribution of CSPs was examined by amplifying CSP cDNAs from different parts of the M. brassicae body, including legs (unpublished) and female pheromonal glands (Jacquin-Joly et al., 2001), as well as antennae and proboscis. Moreover, proteins extracted from these tissues appeared to bind tritium-labeled pheromone components. Figure 17.4A shows binding of Zll-... [Pg.526]

In contrast to the oxidative reactions discussed above, the only reported biotransformations of reserpine (21) and rescinnamine (23) (42-44) appear to involve hydrolytic processes. Reserpine is readily metabolized by liver homogenates from the mouse (43), rat, guinea pig, dog, and cat (44) to yield methyl reserpate (22) and 3,4,5-trimethoxybenzoic acid in yields of up to 70% (43). The use of reserpine labeled with tritium in the 2 and 6 positions of the trimethoxybenzoate residue indicated that no significant metabolism of reserpine by another route occurred before hydrolysis, reserpine and 3,4,5-trimethoxybenzoic acid being the only detectable radioactive components of the incubation mixture at the conclusion of the reaction (44). An... [Pg.336]

Fig. 11.3 Radiocarbon-tritium correlation, northern Kalahari groundwater (Table 11.1). Samples with values exceeding 85pmc and 2TU contain a post-nuclear bomb water component. Dashed lines are theoretical dividers between prebomb and post-bomb waters. (From Verhagen et al., 1974.)... Fig. 11.3 Radiocarbon-tritium correlation, northern Kalahari groundwater (Table 11.1). Samples with values exceeding 85pmc and 2TU contain a post-nuclear bomb water component. Dashed lines are theoretical dividers between prebomb and post-bomb waters. (From Verhagen et al., 1974.)...
Autoradiography is a technique for locating radioactive compounds within cells it can be conducted with light or electron microscopy. Living cells are first exposed to the radioactive precursor of some intracellular component. The labeled precursor is a compound with one or more hydrogen ( H) atoms replaced by the radioisotope tritium (3H) e.g., [3H]thymidine is a labeled precursor of DNA, and [3H]uridine is a labeled precursor of RNA (Chap. 7). Various tritiated amino acids are also available. The labeled precursors enter the cells and are incorporated into the appropriate macromolecules. The cells are then fixed, and the samples are embedded in a resin or wax and then sectioned into thin slices. [Pg.4]

Loss of tritium from D-glucose-3-t (but not from D-glucose-J-f) during the biosynthesis of L-streptidine (77), which is a component of the antibiotic streptomycin, showed that the 3-guanidination of D-l-deoxy-l-guanidino-sci/Wo-inositol (75) may proceed through the 3-ketone intermediate 76. The enzyme system was specific195 for the D-isomer (75). [Pg.177]

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See also in sourсe #XX -- [ Pg.139 , Pg.139 ]



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