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Diluted aqueous solutions of some proteins (bovine serum albumin, β-Lactoglobubin, Peroxidase) show weak phosphorescence lasting over several minutes after they have been irradiated with light in the range 3500-4200 A. Addition of Eosin after the irradiation amplifies in some cases the intensity of luminescence to a value of about hundred. If Eosin is present at the irradiation process the excitation to phosphorescence is possible with light of the wavelength 5460 A.
After denaturation processes which destroy the configuration of proteins (Urea, Guanidine-HCI. detergents, heat at higher pH) the ability of phosphorescence disappears altogether; likewise after blocking the SH-groups by benzochinone or a total oxidation or reduction of the SS-groups which causes an complete unfolding of the peptide chain.
In solutions of bovine serum-albumin irradiated with 3650 Å at room temperature and afterwards frozen to -178°C no radicals could be observed by measurements of electron-spin-resonance but they were detectable if the irradiation took place in the presence of H2O2.
The reactions Xanthinoxidase-Xanthine-O2, Peroxidase-H2O2 and bovine serum-albumin-H2O2-Fe (II) EDTA are accompanied by chemiluminescence. By comparison with the behaviour of oxidised serum-albumin it could be shown that the chemical reaction produces an excited state of the native protein.
The observations lead to the conclusion that the weak phosphorescence of long duration originates from a triplet-state which is sufficiently populated only as the consequence of cooperative phenomena attending the undisturbed α-Helix-structure of the protein.
During photooxidation of polycyclic aromatic hydrocarbons (PAH) products can be formed which develop chemiluminescence on treatment with bases. Flash photolysis experiments show that this is the case only after previous formation of cation radicals, e.g. in the presence of CCl4 as solvent or of e-acceptors in aprotic solvents. These radicals react with oxygen to peroxy-radicals which can combine to several kinds of peroxides. Primary and secondary peroxides are the sources of chemiluminescent activity.
Chemiluminescent peroxides can also be obtained by irradiation of PA H carbonyl com pounds in protic solvents under nitrogen. It is assumed that two excited CO groups combine exceptionally with their O-atom s thus creating a peroxide bond. 24 aromatic aldehydes, ketones, dicarboxylic acid anhydrides and coumarines develop chemiluminescence after illumination with wavelengths ≥ 320 nm with intensities varying 4 magnitudes of order.
The sensitivity of the photochemiluminescent method is sufficient to detect amounts of PA H and their CO derivatives in the ppb to ppm range.
Exposite produce chemiluminescence when heated to 50 - 70 °C or treated with nucleophilic substances at room temperature. Initiation by Piperidine in Dimethylsulfoxide allows to determine 5 nmol of Phenyloxirane in 5 ml samples.
Durch fluoreszenz-spektrographische Intensitätsmessungen mit einem aus Laboratoriumsmitteln gebauten, einfachen Fluoreszenzspektrometer wurde die Löslichkeit des carcinogenen Kohlenwasserstoffs 3.4-Benzpyren in verdünnten, wäßrigen Lösungen von β-Lactoglobulin und Milchsäure-Dehydro-genase bestimmt. Die molare Lösungsvermittlung der Proteine für 3.4-Benzpyren ist erheblich größer als die des Koffeins. Die Fluoreszenz des 3.4-Benzpyrens wird in den Proteinlösungen nicht durch molekularen Sauerstoff gelöscht. Das beobachtete Spektrum gleicht demjenigen alkoholischer Lösungen von 3.4-Benzpyren ohne Konzentrationslöschung.
Mitochondrien aus Rattenleber (RL) und Rinderherzmuskel (BH) erzeugen bei Behandlung mit O2 eine schwache Chemilumineszenz in dem Spektralbereich zwischen 400 und 650 mµ, deren Intensität bei RL-Mitochondrien durch vorheriges Einfrieren und Auftauen wie durch Ultraschallbehandlung größer wird. Bei beiden Arten verursacht Zusatz von Acridinorange eine wesentliche Verstärkung der Lumineszenz, gleichzeitig wird die O2-Aufnahme gehemmt. RL-Mitochondrien erzeugen unter diesen Bedingungen eine kurzzeitige, BH-Mitochondrien eine langsam ansteigende langandauernde Strahlung; das gleiche Verhalten zeigen aus BH-Mitochondrien gewonnene „electrontransfer-particles“ (ETP). Der zeitliche Ablauf und die Beeinflußbarkeit durch Effektoren der Atmungskette ist andersartig als bei der von VLADIMIROV gefundenen Chemilumineszenz von RL-Mitochondrien. Als Träger der Lumineszenz wird angeregter O2 diskutiert.
The autoxidation of NaSH and Cysteine in the presence of heavy metal ions is accompanied by chemiluminescence due to the formation of O2⊖ or adequate compounds as intermediates. The observation of the luminescence intensity and its time dependence has been used as analytical indication of the occurrence of electron transfer reactions from - SH to O2.
This enabled the study of the influence of different catalytic promoters. The efficiency of different metal ions could easily be demonstrated by their enhancement of light production during the reaction of NaSH with molecular oxygen. Cu (II) as one of the most efficient catalysts was also applied in the form of different complexes. Because it would catalyse the oxidation of cysteine, glutathione and other electron donors of biological interest, the influence of the nature of the ligands of the complexes was investigated. In the case of cysteine only complexes with stability constants of medium strength and planar configuration acted as effective catalysts. Therefore it has to be assumed that for an effective electron transport to the loosely bound oxygen the cysteine molecule has to enter the inner sphere of the complex. The much longer time of luminescence of this reaction (4 -10 min) compared to the short time luminescence caused by free O2H. OH and H2O2 indicates that these intermediates are stabilized by binding to the Cu (II) -complex as in compounds (I), (II) and (III) of oxidizing enzymes.
Um den Mechanismus der Reaktion des Cysteins mit molekularem Sauerstoff in Gegenwart von Komplexen des zweiwertigen Kupfers als Katalysatoren zu ermitteln, wurden Messungen der Chemilumineszenz, der Sauerstoff- und der Cysteinkonzentration in Abhängigkeit von der Zeit vorgenommen. Variation der Konzentration der Reaktionsteilnehmer führte zu Meßergebnissen, die die Aufstellung eines Reaktionsschemas gestattete. Das hieraus abzuleitende System nichtlinearer Differentialgleichungen für die Reaktionsgeschwindigkeiten wurde in einem Analogrechner gelöst, wobei Übereinstimmung zwischen Rechnung und Meßergebnissen sowohl für die Zeitabhängigkeit als auch für die Konzentrationsabhängigkeit gefunden wurde.