Photoregulation of an Enzymic Process by Means of a Light-Sensitive Ligand

Kaufman, H.; Vratsanos, Spyros M.; Erlanger, Bernard F.

doi:10.1126/science.162.3861.1487

Cited by 103 publications

(54 citation statements)

References 7 publications

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“…Its photochromic azoderivative (II), N-p-phenylazophenyl-N-phenylcarbamyl chloride, can exist in trans-and cis-configurations. The equilibrium between the two forms may be shifted by illuminating I1 with light of a certain wavelength (Kaufman et al, 1968):…”

Section: Principle Ementioning

confidence: 99%

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Artificial Light‐sensitive Enzymatic Systems as Chemical Amplifiers of Weak Light Signals

Martínek

Березин

1979

Photochem & Photobiology

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Section: Principle Ementioning

confidence: 99%

“…It turned out (Kaufman et al, 1968) that cis-I1 inactivates a-chymotrypsin five times as fast as trans-11. Approximately the same differences in the rates of inactivation under the action of stereoisomers I1 (and also two other related compounds) were reported for acetylcholinesterase (Bieth et al, 1969 and1973).…”

Section: Principle Ementioning

confidence: 99%

Artificial Light‐sensitive Enzymatic Systems as Chemical Amplifiers of Weak Light Signals

Martínek

Березин

1979

Photochem & Photobiology

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“…1 The photosensitive compound, N-p-phenylazophenyl-N-phenylcarbamyl chloride2 (PAPC), is a specific inactivator of chymotrypsin.3 PAPC is a photochromic (or phototropic) molecule4 which, under the influence of light, can undergo a reversible configurational change involving the N = N bond, to yield either a cis or a trans isomer. The change in structure is influenced by the wavelength of light as follows: 320 nm trans = cis 420 nm Although both isomers could inactivate chymotrypsin, the cis isomer was found to be about five times more active.…”

mentioning

confidence: 99%

Photoregulation of Biological Activity by Photocromic Reagents, Ii. Inhibitors of Acetylcholinesterase

Bieth

Vratsanos

Wassermann

et al. 1969

Proc. Natl. Acad. Sci. U.S.A.

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Abstract.-The enzymic activity of acetylcholinesterase can be photoregulated through the mediation of photochromic inhibitors of the enzyme. N-pphenylazophenyl-N-phenylcarbamyl fluoride, an irreversible inhibitor of acetylcholinesterase, exists as two geometric isomers which are interconvertible through the action of light. The cis isomer, which predominates after exposure to light of 320 nm, is more active than the trans isomer, which results from exposure to light of 420 nm. It was possible, therefore, to use light energy to regulate the inactivation of the enzyme. Similarly, levels of acetylcholinesterase activity could be photo-regulated in a completely reversible manner by means of the photochromic reversible inhibitor p-phenylazophenyltrimethylammonium chloride. These experiments can serve as models for similar phenomena observed in nature, particularly in photoperiodic rhythms of higher animals.A system was recently described in which an enzymic process, in itself insensitive to light, could be made subject to photoregulation through the mediation of a light-sensitive effector molecule.1 The photosensitive compound, N-p-phenylazophenyl-N-phenylcarbamyl chloride2 (PAPC), is a specific inactivator of chymotrypsin.3 PAPC is a photochromic (or phototropic) molecule4 which, under the influence of light, can undergo a reversible configurational change involving the N = N bond, to yield either a cis or a trans isomer. The change in structure is influenced by the wavelength of light as follows: 320 nm trans = cis 420 nm Although both isomers could inactivate chymotrypsin, the cis isomer was found to be about five times more active. Conditions were found in which the rate of inactivation by trans PAPC was very slow. Thus, it was possible to "turn off" (i.e., inactivate) the enzyme by exposing a solution of enzyme in the presence of trans PAPC to light of 320 nm. Similarly, experiments in which the inactivation process could be halted by light were also possible by starting with the cis isomer. It was suggested that these experiments could serve as models for certain photosensitive processes found in nature, e.g., phototaxis.5Our investigations have now been extended to the enzyme acetylcholinesterase (AcCh-esterase). Its activity can be regulated in the same way as the activity of chymotrypsin. Moreover, by using a photochromic reversible inhibitor, it was possible to regulate the level of AcCh-esterase activity reversibly, by the action of light.

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“…These stereoisomeric acylenzymes are interconvertible by means of light. Erlanger et al [2] found that it is possible to regulate the rate of interaction of chymotrypsin with p-azophenyldiphenylcarbamyl chloride by using light of the appropriate wavelength (the cis-isomer is five times as reactive as the more stable trans-isomer). The two systems [1,2] can be considered as models for some of the light-sensitive metabolic processes present in living organisms (cf.…”

mentioning

confidence: 99%

“…The two systems [1,2] can be considered as models for some of the light-sensitive metabolic processes present in living organisms (cf. [2]). Furthermore, it should be pointed out that light-regulated cis-trans isomerism is a part of the mechanism of vision [1,3].…”

mentioning

confidence: 99%

Interaction of alpha-Chymotrypsin with N-Cinnamoylimidazole. Substrate Sensitive to Light

Martínek¹,

Varfolomeyev²,

Березин³

1971

Eur J Biochem

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A study has been made of photo-stereoisomerisation of N-cinnamoyl imidazole. N-transCinnamoylimidazole is found to react more readily than cis-stereoisomer with the a-chymotrypsin active centre. Photo-stereoisomerisation of the enzymatic reaction intermediate, cinnamoyl-a-chymotrypsin, has also been studied with the ratio of the rate constants of its deacylation, k3 (trans)/k3 (cis), found to exceed lo3 (pH 7.3,25"). The differing reactivity of cis and trans stereoisomers is considered to result from the specificity of the enzyme active centre. On the other hand, the ratio of the rate constants of the denaturated forms of acylenzymes is found to be as low a5 3: 1 (pH 12-13, 25") owing t o the disintegration of the a-chymotrypsin molecule by 8 M urea.

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Photoregulation of an Enzymic Process by Means of a Light-Sensitive Ligand

Cited by 103 publications

References 7 publications

Artificial Light‐sensitive Enzymatic Systems as Chemical Amplifiers of Weak Light Signals

Artificial Light‐sensitive Enzymatic Systems as Chemical Amplifiers of Weak Light Signals

Photoregulation of Biological Activity by Photocromic Reagents, Ii. Inhibitors of Acetylcholinesterase

Interaction of alpha-Chymotrypsin with N-Cinnamoylimidazole. Substrate Sensitive to Light

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