Topics
insectAnimal
double bondAlbum
sitosterolChemical substance
diolChemical compound
beta-sitosterolChemical substance
cholesterolChemical substance
1. [28-3H]Stigmast-5-ene-3 beta, 28-diol and [23,23,25-3H]stigmast-5-ene-3 beta, 24-diol were synthesized. 2. Each of the samples was mixed with beta-[4-14C]sitosterol and administered to Tenebrio molitor larvae. 3. The former compound is not utilized by the insect; the latter, although metabolized to 24(28)-ethylidene sterols and cholesterol, is not a beta-sitosterol metabolite. 4. The above results are discussed in relation to the mechanism of formation of the 24(28)-double bond in beta-sitosterol metabolism in T. molitor
Backgrounds: In insects, cholesterol is one of the membrane components in cells and a precursor of e...
BACKGROUNDS: In insects, cholesterol is one of the membrane components in cells and a precursor of e...
Insects are sterol auxotrophs and typically obtain sterols from food. However, the sterol demand and...
(24R)- and (24S)-24,28-Epoxyergost-5-en-3\u3b2-ols have been synthesized and their configuration at ...
During the conversion of 24-methylenecholesterol into cholesterol by Tenebrio molitor larvae the C-2...
It is shown that the insect Tenebrio molitor is able to convert the (24R,28S)-isofucosterol epoxide ...
This article surveys the present knowledge of the sterol metabolism of insects. It is emphasized tha...
[7,7-3H2]Clionasterol was synthesized and fed, together with [4-14C]sitosterol, to Tenebrio molitor ...
It has been demonstrated with cold trap experiments that Tenebrio molitor transforms \u3b2-sitostero...
Tenebrio molitor larvae convert [7-3H2]-(24R,28S)-24,28-epoxystigmast-5-en-3\u3b2-ol, but not its (2...
Abstractβ-Sitosterol 1 is metabolised to cholesterol 5 by phytophagous insects. It has been previous...
24-Methylene[23,23,25-3H3]cholesterol was transformed by Tenebrio molitor larvae into [23,23,24-3H3]...
A, The canonical pathway of sterol biosynthesis in fungi, Leishmania, vertebrates and land plants. B...
Sterols are essential nutrients for insects because, in contrast to mammals, no insect (or arthropod...
The sterols in the trophosomes of Romanomermis culicivorax and Neomesomermis flumenalis were identif...
Backgrounds: In insects, cholesterol is one of the membrane components in cells and a precursor of e...
BACKGROUNDS: In insects, cholesterol is one of the membrane components in cells and a precursor of e...
Insects are sterol auxotrophs and typically obtain sterols from food. However, the sterol demand and...
(24R)- and (24S)-24,28-Epoxyergost-5-en-3\u3b2-ols have been synthesized and their configuration at ...
During the conversion of 24-methylenecholesterol into cholesterol by Tenebrio molitor larvae the C-2...
It is shown that the insect Tenebrio molitor is able to convert the (24R,28S)-isofucosterol epoxide ...
This article surveys the present knowledge of the sterol metabolism of insects. It is emphasized tha...
[7,7-3H2]Clionasterol was synthesized and fed, together with [4-14C]sitosterol, to Tenebrio molitor ...
It has been demonstrated with cold trap experiments that Tenebrio molitor transforms \u3b2-sitostero...
Tenebrio molitor larvae convert [7-3H2]-(24R,28S)-24,28-epoxystigmast-5-en-3\u3b2-ol, but not its (2...
Abstractβ-Sitosterol 1 is metabolised to cholesterol 5 by phytophagous insects. It has been previous...
24-Methylene[23,23,25-3H3]cholesterol was transformed by Tenebrio molitor larvae into [23,23,24-3H3]...
A, The canonical pathway of sterol biosynthesis in fungi, Leishmania, vertebrates and land plants. B...
Sterols are essential nutrients for insects because, in contrast to mammals, no insect (or arthropod...
The sterols in the trophosomes of Romanomermis culicivorax and Neomesomermis flumenalis were identif...
Backgrounds: In insects, cholesterol is one of the membrane components in cells and a precursor of e...
BACKGROUNDS: In insects, cholesterol is one of the membrane components in cells and a precursor of e...
Insects are sterol auxotrophs and typically obtain sterols from food. However, the sterol demand and...
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