Some Exchange Experiments with Radioactive Tracers - Journal of the

J. Am. Chem. Soc. , 1942, 64 (10), pp 2297–2298. DOI: 10.1021/ja01262a022. Publication Date: October 1942. ACS Legacy Archive. Cite this:J. Am. Chem...
0 downloads 0 Views 250KB Size
SOMEEXCHANGE EXPERIMENTS WITH RADIOACTIVE TRACERS

a t . , 1942

229i

[CONTRIBUTION FROM THE CHEMICAL LABORATORS AND THE RADIATION LABORATORY O F THE UNIVERSITY O F CALIFORNIA

1

Some Exchange Experiments with Radioactive Tracers R\.

s. R U B E N , M. 1). -MEN,

M. B.

.4LI,EN AND

P. U i AHINSKY

In coiinectioii with some experiments on photosynthesis in these Laboratories it was found that the centrally bound magnesium of chlorophylls a or b does not interchangei with Mg++ a t room temperature in 80% acetone-water solution. This rather surprising result induced us to study various other metallo-organic exchange reactions. In this paper we report the results of the following exchange experiments: (1) Fe+++ and ferriheme, (2) Fe+++ and ferrihemoglobin, (3) Fe+++ and ferric pheophytin, (4) Fe+++ and ferric tetraphenylporphyrin, ( 5 ) Cu ++ and cupric pheophytin, (6) Fe++ and ferrous ortho phenanthroline, fi) Fe++ and ferrous ala'-dipyridyl, (8) Mg+*. and magnesium 8-hydroxyquinolate. The first 5 pairs (i. e., the metallo porphyrins) showed no measurable exchange even after long periods. The remaining combinations exchanged a t a slow but easily measurable rate. These results seem to indicate that structural factors are more important than covalent-ionic bond character in determining the readiness of a metallic ion (in a metallo-organic compound) to undergo exchange.

exchange took place in a two-phase system, the quinolate contained 4 0 % of the radio-Mg calculated for complete interchange. Fe+++-Ferriheme and Fe+++-Ferrihemoglobin.-Bemuse of the above result it seemed pertinent to investigate tnetalloporphyrins other than chlorophyll. As a result of their investigations of the magnetic properties of hemonlobin and its many derivative?, Pauling and Coryel14 have concluded that the forces holding Fe+++ in ferriprotoporphyrin and ferrihemoglobin are ionic. These compounds readily lend themselves for investigation, particularly since a radioactive isotope of iron, Feb8, of fortymole of Fe*C13 seven days' half-life6 is known. 1.5 X in 0.001 molal hydrochloric acid was added to 3 X moles of ferriprotoporphyrin dissolved in 95% ethanol. After standing for about two months a t room temperature the alcohol v'as evaporated off. The Fe*Cls was removed from the solid residue with 0.001 molal hydrochloric acid zolution, the in5oluble porphyrin being filtered off. The heme was only \lightly active, containing -2% of the Fe*. This small activity could be due to incomplete removal of Fe*C13. In a separate experiment, 1 W 6 mole of Fe*Cls was added to an aqueous solution containing 10-6 mole of ferrihemoglobin6 in a slightly acid solution. After thirty hours at room temperature the hemoglobin was precipitated with excess trichloroacetic acid and filtered off. The bulky precipitate was carefully washed and ignited to yield mainly ferric oxide. This preparation was found to be inExchange between Magnesium 8-Hpdroxyquinolate and active, containing less than 1% of the radio-iron used. Mg*'+.-Since the magnesium in chlorophyll did not This is in agreement with the findings of Hahn, et al.' vxchange with Mg++, it was considered of interest to try Iron and Copper Pheophytins.-The magnesium of the exchange with the magnesium salt of S-hydroxyquino- chlorophyll can be replaced by other metallic ions under line. This compound is similar in behavior to the mag- suitable conditions without removal of the phytol or nesium porphyrins in that they are the only known mag- methanol. Such compounds are called pheophytins. nesium compounds which do not form magnesium hy- We have found no exchange between Fe*+++and iron droxide when boiled with concentrated alkali.2 pheophytin or between Cu*++ and copper pheophytin, Radioactive magnesium, Mg27 (10.2 min. half life) was even after two days in 80% acetone solution. prepared by bombardmentS of metallic magnesium with Fe+++-Ferric Tetrapheny1porphyrin.-This experiment 8 m. e. v. deuterons for ten minutes in the 37" cyclotron. was carried out in a 0.02 N HC104-water-ethanol-benzene The magnesium was dissolved in concentrated hydrochloric solution in which both ferric and the ferric tetraphenylacid, and excess sodium hydroxide added t o precipitate porphyrins salts are soluble. No exchange of iron (