Results 161 to 170 of about 5,944 (219)
Synchrotron macro-ATR-FTIR: a powerful technique for analyzing changes in plant cell chemical composition after surfactant exposure. [PDF]
Plant JTran TLC +6 more
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Chemical and structural heterogeneity of olive leaves and their trichomes. [PDF]
Commun BiolFernández V +5 more
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Epicuticular waxes of two sorghum varieties
Phytochemistry, 1978Abstract The epicuticular waxes of the two sorghum varieties Alliance A and SD 102 have been analyzed, after separation of the leaf blades from the sheaths. The major constituents were found to be free fatty acids but small amounts of esters, aldehydes, alcohols, n -alkanes and sterols were also detected. The typical chain lengths of aldehydes, free
BIANCHI G. +3 more
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Science, 1967
The external surface of the higher plants comprises a cuticular layer covered by a waxy deposit. This deposit is believed to play a major part in such phenomena as the water balance of plants and the behavior of agricultural sprays. The wax contains a wide range of organic compounds.
Geoffrey Eglinton, Richard J. Hamilton
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The external surface of the higher plants comprises a cuticular layer covered by a waxy deposit. This deposit is believed to play a major part in such phenomena as the water balance of plants and the behavior of agricultural sprays. The wax contains a wide range of organic compounds.
Geoffrey Eglinton, Richard J. Hamilton
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Epicuticular wax of Cirsium arvense
Phytochemistry, 1982Abstract Epicuticular wax of Cirsium arvense contains hydrocarbons (12%), esters (35%), free acids (3%), free alcohols (10%), triterpene acetates (8%) and 1,3-ditetradecanoyl-2-hexanoylglycerol (8%) as major components. Minor components are triterpene alcohols (3%) and nonacosan-10-ol (2%).
Tulloch, Alexander P. +1 more
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Epicuticular waxes of Sedum series Rupestria
Phytochemistry, 1994Epicuticular waxes from 55 plants of the seven species of Sedum series Rupestria and four artificial hybrids have been examined by GC and GC-MS. The taxa were S. amplexicaule, S. forsterianum, S. montanum ssp. montanum, S. montanum ssp. orientale, S. ochroleucum, S. pruinatum, S. rupestre ssp. erectum, S. rupestre ssp. rupestre, S.
STEVENS, JF +4 more
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Epicuticular wax of Colletia paradoxa
Phytochemistry, 1983Abstract The composition of Colletia paradoxa epicuticular wax was determined.
Patrick Moyna +3 more
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Epicuticular wax of Juniperus scopulorum
Phytochemistry, 1981Abstract Epicuticular wax from Juniperus scopulorum contains hydrocarbons (16%), esters (11%), free acids (1%), nonacosan-10-ol (27%), nonacosane-diols (7%) and estolides (16%). The major hydrocarbon is tritriacontane; the principal esters are C 34 –C 46 , mainly octyl and decyl esters of C 28 -C 36 acids; and the diols consist of nonacosane-4,10 ...
Tulloch, Alexander P., Bergter, Lothar
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Epicuticular wax of olive leaves
Phytochemistry, 1992Abstract The main components of the chloroform-soluble epicuticular waxes from olive tree leaves (Olea europaea cvs Coratina and Cipressino), were triterpene oleanolic and betulinic acids and triterpenols sitosterol, α- and β-amyrin, uvaol and erythrodiol. The waxes of both cultivars contain the ubiquitous wax classes of alkanes, alcohols, aldehydes,
Giorgio Bianchi +3 more
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