The importance of being red when young: anthocyanins and the protection of young leaves of Quercus coccifera from insect herbivory and excess light.
about
Spring Versus Autumn or Young Versus Old Leaf Colors: Evidence for Different Selective Agents and Evolution in Various Species and FlorasClimatic origins predict variation in photoprotective leaf pigments in response to drought and low temperatures in live oaks (Quercus series Virentes).The influence of ascorbate on anthocyanin accumulation during high light acclimation in Arabidopsis thaliana: further evidence for redox control of anthocyanin synthesis.Nutritional enhancement of leaves by a psyllid through senescence-like processes: insect manipulation or plant defence?Colored and white sectors from star-patterned petunia flowers display differential resistance to corn earworm and cabbage looper larvae.The functional significance of black-pigmented leaves: photosynthesis, photoprotection and productivity in Ophiopogon planiscapus 'Nigrescens'Identification of the pr1 gene product completes the anthocyanin biosynthesis pathway of maize.Hybrid photoacoustic and optical imaging of pigments in vegetative tissues.Pigment patterns and photoprotection of anthocyanins in the young leaves of four dominant subtropical forest tree species in two successional stages under contrasting light conditions.A magic red coat on the surface of young leaves: anthocyanins distributed in trichome layer protect Castanopsis fissa leaves from photoinhibition.Soybean Aphid (Hemiptera: Aphididae) Affects Soybean Spectral Reflectance.UV induced visual cues in grasses.Transient winter leaf reddening in Cistus creticus characterizes weak (stress-sensitive) individuals, yet anthocyanins cannot alleviate the adverse effects on photosynthesisA MYB transcription factor, DcMYB6, is involved in regulating anthocyanin biosynthesis in purple carrot taproots.The shared and separate roles of aposematic (warning) coloration and the co-evolution hypothesis in defending autumn leaves.Winter leaf reddening in 'evergreen' species.Sweet immunity in the plant circadian regulatory network.Aphids do not attend to leaf colour as visual signal, but to the handicap of reproductive investmentHigh AN1 variability and interaction with basic helix-loop-helix co-factors related to anthocyanin biosynthesis in potato leaves.Association between winter anthocyanin production and drought stress in angiosperm evergreen species.Optical effects of abaxial anthocyanin on absorption of red wavelengths by understorey species: revisiting the back-scatter hypothesisThe dual defensive strategy of Amorphophallus throughout its ontogeny.Red (anthocyanic) leaf margins do not correspond to increased phenolic content in New Zealand Veronica sppDifferential expression of genes in purple-shoot tea tender leaves and mature leaves during leaf growth.Red reveals branch die-back in Norway maple Acer platanoidesPhysiological and genetic analysis of Arabidopsis thaliana anthocyanin biosynthesis mutants under chronic adverse environmental conditionsA mechanistic model for the light response of photosynthetic electron transport rate based on light harvesting properties of photosynthetic pigment molecules.Ultrafast internal conversion in a model anthocyanin-polyphenol complex: implications for the biological role of anthocyanins in vegetative tissues of plants.Novel R2R3-MYB transcription factors from Prunus americana regulate differential patterns of anthocyanin accumulation in tobacco and citrus.Anthocyanin contribution to chlorophyll meter readings and its correction.Identification of Anthocyanin Composition and Functional Analysis of an Anthocyanin Activator in Solanum nigrum Fruits.Lettuce flavonoids screening and phenotyping by chlorophyll fluorescence excitation ratio.Metabolic analyses reveal different mechanisms of leaf color change in two purple-leaf tea plant (Camellia sinensis L.) cultivars.Reversible colour change in leaves enhances pollinator attraction and reproductive success in Saururus chinensis (Saururaceae).Importance of the green color, absorption gradient, and spectral absorption of chloroplasts for the radiative energy balance of leaves.Support for a photoprotective function of winter leaf reddening in nitrogen-deficient individuals of Lonicera japonica.Photosynthetic costs and benefits of abaxial versus adaxial anthocyanins in Colocasia esculenta 'Mojito'.Carbohydrate accumulation may be the proximate trigger of anthocyanin biosynthesis under autumn conditions in Begonia semperflorens.Xanthophyll cycle pigment and antioxidant profiles of winter-red (anthocyanic) and winter-green (acyanic) angiosperm evergreen species.Why red-dominated autumn leaves in America and yellow-dominated autumn leaves in Northern Europe?
P2860
Q28109393-72EFF48F-B10F-49B4-BFE8-7C84F32FDEF4Q30943944-90A3BB79-2700-4CE6-888E-1AFE8861E84FQ33918928-F5E380D0-67BA-432A-8BBD-A6FF89AA74B5Q34484389-E4F4AD03-B270-448D-B45F-23F2DFBF0F04Q34778992-BC5CA6E6-5C28-44EF-8D05-A329CA0FF170Q34797599-909C70CB-A9E7-4416-BD54-C17125CEE308Q35060070-3B1CC3EF-7B0F-4CF4-9A82-79F770162E45Q35971635-B16E6AC1-2EC1-4456-A217-F4AABA638BF2Q36038689-A67FF53A-92BE-4567-8BB0-429275367282Q36129294-7C9A28C4-33AF-49EF-A304-4AFC7283A2ACQ36399078-48B21018-6997-4D74-8600-E73B4644B6F5Q37193172-2A3CD29B-A7C1-427C-9A67-8D6F131B7E25Q37282109-92315FCA-BD21-4E9C-95B5-AE1890E73DD2Q37721618-3D20D6CF-EA33-44C9-BF87-B796F01C52C8Q37759985-45256FFE-34A5-4A26-A8A0-54D0F50452B8Q37849818-D99F3E1F-F105-48C1-8AAF-2D1544D263ABQ38097028-55AC7C37-6BC6-421E-9557-393D758FC224Q38270901-4F74307F-4ABF-435F-B871-6B87085E1BD9Q38547552-64B85464-0913-4DA5-942B-519270C93E36Q39085784-26252F35-10BD-46DE-97F9-BCCC6A672256Q39085790-5B175C09-22AB-4100-8F28-B2D0C697F9E3Q39183932-9CFD5DEB-F450-4881-846E-37DCD4E074BFQ39902077-5011FA22-53CC-4091-AC5C-D2826F4F6958Q40826286-6779717A-3401-452A-8D42-577C11FCE496Q41869067-E93ECF34-CCE2-4279-B507-F6C1DA5ADF89Q42202576-6187D0A3-9088-4362-8019-C99DACDD45BEQ45359374-E9FD0347-E24A-428F-81EA-E2F008619BBBQ46203539-6CB84087-CC2F-47F2-A9B1-2506B47BA4B0Q46437286-A757DE20-7FED-44F7-9455-1657296EB367Q46536743-1E730388-CF87-495F-BE10-CF61C979B0AEQ48015160-58613E27-3677-4DB6-8E3B-DBA092B1EDA1Q48112910-4E0B6932-1FBE-45BB-A75E-60C6B749C356Q50052406-87815466-1FE1-44FA-812A-9E35746D0BD9Q50084658-31291CA0-D29C-4D7A-818A-6890EA6BA667Q50205932-E0432AE8-B1AE-4425-AFBC-9834241D6FAAQ50220737-5C8C9796-36EC-44EA-9995-6B0CE0211AF5Q50455111-9A1DB9AE-B168-4E52-9BBF-B79011A01122Q50492496-044F3FDD-B494-414E-8E1E-C4244090C4F9Q50506222-C7995ECA-ECBA-4642-9B20-74E70DF61B4BQ50606172-DB0B5D7D-FCEF-410D-878E-C436EC690EFD
P2860
The importance of being red when young: anthocyanins and the protection of young leaves of Quercus coccifera from insect herbivory and excess light.
description
2006 nî lūn-bûn
@nan
2006 թուականի Մայիսին հրատարակուած գիտական յօդուած
@hyw
2006 թվականի մայիսին հրատարակված գիտական հոդված
@hy
2006年の論文
@ja
2006年論文
@yue
2006年論文
@zh-hant
2006年論文
@zh-hk
2006年論文
@zh-mo
2006年論文
@zh-tw
2006年论文
@wuu
name
The importance of being red wh ...... ct herbivory and excess light.
@ast
The importance of being red wh ...... ct herbivory and excess light.
@en
The importance of being red wh ...... ct herbivory and excess light.
@nl
type
label
The importance of being red wh ...... ct herbivory and excess light.
@ast
The importance of being red wh ...... ct herbivory and excess light.
@en
The importance of being red wh ...... ct herbivory and excess light.
@nl
prefLabel
The importance of being red wh ...... ct herbivory and excess light.
@ast
The importance of being red wh ...... ct herbivory and excess light.
@en
The importance of being red wh ...... ct herbivory and excess light.
@nl
P356
P1433
P1476
The importance of being red wh ...... ct herbivory and excess light.
@en
P2093
Panagiota Karageorgou
Yiannis Manetas
P304
P356
10.1093/TREEPHYS/26.5.613
P577
2006-05-01T00:00:00Z