Structure and Biosynthesis of Cuticular Lipids

Kolattukudy, Pappachan E.; Croteau, Rodney; Brown, Linda

doi:10.1104/pp.54.5.670

Cited by 38 publications

(7 citation statements)

References 11 publications

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“…The proportion of the C18 monomers increases during organ development. Thus, the cutin of a mature organ with a thicker cuticle, contains a larger portion of the C18 monomers [ 24 , 29 , 46 ]. Also, in apple fruit cutin, higher proportions of C18 monomers than C16 monomer have been reported [ 37 , 39 ].…”

Section: Discussionmentioning

confidence: 99%

Cutin Synthesis in Developing, Field-Grown Apple Fruit Examined by External Feeding of Labelled Precursors

Khanal

Sauheitl

et al. 2021

Plants

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An intact skin is essential in high-quality apples. Ongoing deposition of cuticular material during fruit development may decrease microcracking. Our objective was to establish a system for quantifying cutin and wax deposition in developing apple fruit. Oleic acid (13C and 14C labelled) and palmitic acid (14C labelled) were fed to developing apples and the amounts incorporated in the cutin and wax fractions were quantified. The incorporation of 14C oleic acid (C18) was significantly higher than that of 14C palmitic acid (C16) and the incorporation in the cutin fraction exceeded that in the wax fraction. The amount of precursor incorporated in the cutin increased asymptotically with time, but the amount in the wax fraction remained about constant. Increasing the concentration of the precursor applied generally increased incorporation. Incorporation in the cutin fraction was high during early development (43 days after full bloom) and decreased towards maturity. Incorporation was higher from a dilute donor solution (infinite dose feeding) than from a donor solution subjected to drying (finite dose feeding) or from perfusion of the precursor by injection. Feeding the skin of a developing apple with oleic acid resulted in significant incorporation in the cutin fraction under both laboratory and field conditions.

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Section: Discussionmentioning

confidence: 99%

Cutin Synthesis in Developing, Field-Grown Apple Fruit Examined by External Feeding of Labelled Precursors

Khanal

Sauheitl

et al. 2021

Plants

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“…The above equation defining resistance is simply a rearranged form of the general equation characterizing all molecular transport processes, i.e., the rate of transfer is equal to the driving force divided by the resistance (18). This equation is often used in the literature to express gas and vaporbarrier properties of lipid monolayers (6,(19)(20)(21)(22), cuticular membranes of plant tissue (23)(24)(25)(26)(27), and wax coatings applied to fresh fruit 128).…”

Section: Calculation Of Resistance To 02 Transmissionmentioning

confidence: 99%

Resistance of lipid films to oxygen transmission

Kester

Fennema

1989

J Americ Oil Chem Soc

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Various lipids, mounted on a polar filter paper matrix, were evaluated as barriers to O2 transmission Among those lipids tested, stearyl alcohol was most resistant to oxygen transmission, the most likely reason being its ability to crystallize as compactly overlapping platelets with their planes normal to the direction of O2 diffusion. Tristearin, beeswax, and acetylated monoglycerides were, respectively, 39, 43 and 61% less resistant to O2 transmission than the fatty alcohol. Activation energies of O2 transport were. 7.0, 7.5, 15.0 and 27.5 kcal/mole, respectively, for stearyl alcohol, tristearin, beeswax, and acetylated monoglycerides. Stearic acid was substantially less resistant to O2 flux than the above four lipids. In addition, the fatty acid was unique among the, lipids tested in its temperature dependence, i.e., resistance to O2 transmission increased with elevation of temperature yielding a negative activation energy of −17.2 kcal/mole. This was attributed to the presence of small interplatelet channels in the stearic acid film, which presumably act as the principal route for gas transport. Hexatriacontane displayed poor O2 barrier properties compared to the other lipids, a consequence of relatively large pores in the alkane film.

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“…TCA was the first of the chemicals investigated and subsequently shown to inhibit elongation in a number of plant systems; B. oleracea (19,21,36), Nicotiana tabacum (22), P. sativum (5) and Vicia faba (30). A single elongation block has not been identified, instead the severity of the inhibition increased as the chain length increased.…”

Section: Previously Identified Blocks In the Elongation System(s) Leamentioning

confidence: 99%

The effects of inhibitors on the biosynthesis of the long chain lipids with even carbon numbers in barley spike epicuticular wax

Mikkelsen

1978

Carlsberg Res. Commun.

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, m e r c a p t o e t h a n o lThe effects of inhibitors on the incorporation of label from [2-t4C]-acetate into the epicuticular wax classes with even carbon numbers have been determined. They include the free fatty acids, the primary alcohols, the aldehydes, the ester acids and a newly identified wax class on barley spikes, the short chain esters. Dithiothreitol, which has no effect on 13-diketone synthesis, inhibits decarboxylation of very long fatty acyl chains which are precursors of the alkanes. Mercaptoethanol, which greatly stimulates wax synthesis at low concentrations and has no effect on 13-diketone synthesis, blocks further elongation of fatty acyl precursors having 20 carbons at higher concentrations. A relatively small inhibition of decarboxylation was also observed with mercaptoethanol. Arsenite, which inhibits 13-diketone synthesis presumably by blocking the entrance of C,~ precursors into the 13-diketone elongation mechanism, was also found to prevent the C20-C22 elongation step in the sequence leading to the alkanes. Cyanide, which blocks 13-diketone synthesis by an unknown mechanism, greatly stimulated synthesis of the other wax classes. At higher concentrations a block in the elongation sequence leading to the alkanes was also apparent between C~-C~8. These results are incorporated into a composite figure illustrating the biosynthetic relationships among the wax classes. All identified chemical and genetic blocks have been included. The conclusion is reached that at least three elongation systems must be involved.

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Structure and Biosynthesis of Cuticular Lipids

Cited by 38 publications

References 11 publications

Cutin Synthesis in Developing, Field-Grown Apple Fruit Examined by External Feeding of Labelled Precursors

Cutin Synthesis in Developing, Field-Grown Apple Fruit Examined by External Feeding of Labelled Precursors

Resistance of lipid films to oxygen transmission

The effects of inhibitors on the biosynthesis of the long chain lipids with even carbon numbers in barley spike epicuticular wax

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