Potential mechanisms of low-temperature tolerance of C4 photosynthesis in Miscanthus � giganteus: an in vivo analysis
about
C4 bioenergy crops for cool climates, with special emphasis on perennial C4 grassesCan the exceptional chilling tolerance of C4 photosynthesis found in Miscanthus × giganteus be exceeded? Screening of a novel Miscanthus Japanese germplasm collectionVariation in chilling tolerance for photosynthesis and leaf extension growth among genotypes related to the C4 grass Miscanthus ×giganteusCharacterization of chilling-shock responses in four genotypes of Miscanthus reveals the superior tolerance of M. x giganteus compared with M. sinensis and M. sacchariflorusPhotosynthesis, productivity, and yield of maize are not affected by open-air elevation of CO2 concentration in the absence of drought.Maize plants can enter a standby mode to cope with chilling stressHigh temperature acclimation of C4 photosynthesis is linked to changes in photosynthetic biochemistry.Predicting potential global distributions of two Miscanthus grasses: implications for horticulture, biofuel production, and biological invasions.Transcriptional responses indicate maintenance of photosynthetic proteins as key to the exceptional chilling tolerance of C4 photosynthesis in Miscanthus × giganteus.The Coordination of Gene Expression within Photosynthesis Pathway for Acclimation of C4 Energy Crop Miscanthus lutarioripariusHigh C3 photosynthetic capacity and high intrinsic water use efficiency underlies the high productivity of the bioenergy grass Arundo donaxLow-temperature leaf photosynthesis of a Miscanthus germplasm collection correlates positively to shoot growth rate and specific leaf area.Influence of light and nitrogen on the photosynthetic efficiency in the C4 plant Miscanthus × giganteus.Temperature response of bundle-sheath conductance in maize leavesMore productive than maize in the Midwest: How does Miscanthus do it?Field analysis of photoprotection in co-occurring cool climate C(3) and C(4) grasses.Genetic architecture of photosynthesis in Sorghum bicolor under non-stress and cold stress conditions.The evaluation of growth and phytoextraction potential of Miscanthus x giganteus and Sida hermaphrodita on soil contaminated simultaneously with Cd, Cu, Ni, Pb, and Zn.Cool C4 photosynthesis: pyruvate Pi dikinase expression and activity corresponds to the exceptional cold tolerance of carbon assimilation in Miscanthus x giganteus.Physiological basis of chilling tolerance and early-season growth in miscanthus.Photosynthetic responses to chilling in a chilling-tolerant and chilling-sensitive Miscanthus hybrid.The efficiency of C4 photosynthesis under low light conditions in Zea mays, Miscanthus x giganteus and Flaveria bidentis.Differential characteristics of photochemical acclimation to cold in two contrasting sweet sorghum hybrids.Energy crops: current status and future prospectsLow growth temperatures modify the efficiency of light use by photosystem II for CO2 assimilation in leaves of two chilling-tolerant C4 species, Cyperus longus L. and Miscanthus x giganteus
P2860
Q27008907-6082A648-6E57-4EDF-A298-D3A409631304Q28648524-3786348D-08DB-4880-A75F-BBBA908423AEQ28655956-75EC8BA5-BEEE-408D-B8B4-ADB0633A08D2Q28708903-39353D4B-27AB-4358-8B36-7E45C5CBE611Q31029544-99E031B1-FBD9-479B-A303-1D7117E5343EQ31135476-3500C7F0-0A9E-4876-B55F-41281FA76C44Q33267017-DB31B1CB-2743-491E-A5D1-091C8E0835EBQ33778996-D9226C14-CE8F-418E-8C30-97ACA531F1B4Q33860186-DFAD6682-0430-4973-AE5A-EB0DD345B803Q36559223-31D0B230-83CC-495D-B039-1DF350390743Q36565016-EE197101-77B2-4C01-8395-AF7A5A4D26CBQ36996065-51B555B0-AC01-44E4-B5E3-5B0F5872C399Q39483717-6BB84DC2-6F44-4CB4-B522-983485514FAEQ41191180-FC8A1AF4-80BA-4728-BB2C-2216C44C226CQ45965016-D4C39324-E00F-4E17-BD76-7DB8B45740EAQ46119809-43307A1C-E05F-4317-9306-6CA490586080Q46293860-982035F0-1913-4A8C-855F-4379CECA1BA5Q46443039-E9D89474-EA65-4FC9-83CB-95593C0F6C57Q46551301-B23057FA-1FD1-4D59-AD57-497549CAD453Q47732079-45A6CC98-9562-4AC5-8A30-804A3AA8AD80Q48272691-2B954225-A632-4264-85D3-CF3940BB16C2Q51342303-97A12F54-44B2-41C9-802F-19201EFCA07EQ52985035-EE5BA75F-6252-407D-B213-79DEE7D42454Q57029292-838D2990-3C8A-419F-8518-BCB4A931E167Q57202328-4412B3D7-661A-42A9-AAA2-52BB811F345E
P2860
Potential mechanisms of low-temperature tolerance of C4 photosynthesis in Miscanthus � giganteus: an in vivo analysis
description
article
@en
wetenschappelijk artikel
@nl
наукова стаття, опублікована в липні 2004
@uk
name
Potential mechanisms of low-te ...... giganteus: an in vivo analysis
@en
Potential mechanisms of low-te ...... giganteus: an in vivo analysis
@nl
type
label
Potential mechanisms of low-te ...... giganteus: an in vivo analysis
@en
Potential mechanisms of low-te ...... giganteus: an in vivo analysis
@nl
prefLabel
Potential mechanisms of low-te ...... giganteus: an in vivo analysis
@en
Potential mechanisms of low-te ...... giganteus: an in vivo analysis
@nl
P1433
P1476
Potential mechanisms of low-te ...... giganteus: an in vivo analysis
@en
P2093
Shawna L Naidu
P2888
P304
P356
10.1007/S00425-004-1322-6
P577
2004-07-17T00:00:00Z