ID | 1199 |
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Name | ribonuclease |
Synonyms | AGS 4; Ribonuclease; AGS4; JUNB; RNASEH2A; RNASEHI; RNHIA; RNHL… |
ID | 1714 |
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Name | gibberellic acid |
CAS | (1α,2β,4aα,4bβ,10β)-2,4a,7-trihydroxy-1-methyl-8-methylenegibb-3-ene-1,10-dicarboxylic acid 1,4a-lactone |
PubMed | Abstract | RScore(About this table) |
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16656517 | Chrispeels MJ, Varner JE: Gibberellic Acid-Enhanced Synthesis and Release of alpha-Amylase and Ribonuclease by Isolated Barley and Aleurone Layers. Plant Physiol. 1967 Mar;42(3):398-406. Gibberellic acid enhances the synthesis of alpha-amylase in isolated aleurone layers of barley-seeds (Hordeum vulgare var. Himalaya). In the presence of 20 mm calcium chloride the amount of enzyme obtained from isolated aleurone layers is quantitatively comparable to that of the half-seeds used in earlier studies. After a lag period of 6 to 8 hours enzyme is produced at a linear rate. Gibberellic acid does not merely trigger alpha-amylase synthesis, but it is continuously required during the period of enzyme formation. Enzyme synthesis is inhibited by inhibitors of protein and RNA synthesis. Small amounts of actinomycin D differentially inhibit enzyme release and enzyme synthesis suggesting 2 distinct processes. Gibberellic acid similarly enhances the formation of ribonuclease which increases linearly over a 48 hour period. During the first 24 hours the enzyme is retained by the aleurone cells and this is followed by a rapid release of ribonuclease during the next 24 hour period. The capacity to release the enzyme is generated between 20 and 28 hours after the addition of the hormone. Ribonuclease formation is inhibited by inhibitors of protein and RNA synthesis. These inhibitors also prevent the formation of the release mechanism if added at the appropriate moment. |
89(1,1,2,4) |