C4 photosynthetic isotope exchange in NAD-ME- and NADP-ME-type grasses.
about
New grass phylogeny resolves deep evolutionary relationships and discovers C4 originsPlant Carbonic Anhydrases: Structures, Locations, Evolution, and Physiological RolesBundle sheath leakiness and light limitation during C4 leaf and canopy CO2 uptakePhotosynthetic flexibility in maize exposed to salinity and shadeThe draft genome of the C3 panicoid grass species Dichanthelium oligosanthesSingle-cell C(4) photosynthesis: efficiency and acclimation of Bienertia sinuspersici to growth under low light.Carbon isotope discrimination as a diagnostic tool for C4 photosynthesis in C3-C4 intermediate species.Environmental and physiological determinants of carbon isotope discrimination in terrestrial plants.Bundle-sheath leakiness in C4 photosynthesis: a careful balancing act between CO2 concentration and assimilation.Genome-wide association of carbon and nitrogen metabolism in the maize nested association mapping population.Bundle-sheath leakiness and intrinsic water use efficiency of a perennial C4 grass are increased at high vapour pressure deficit during growth.Differences in photosynthetic syndromes of four halophytic marsh grasses in Pakistan.Influence of light and nitrogen on the photosynthetic efficiency in the C4 plant Miscanthus × giganteus.C4 plants use fluctuating light less efficiently than do C3 plants: a study of growth, photosynthesis and carbon isotope discrimination.Distinct Cellular Locations of Carbonic Anhydrases Mediate Carbon Dioxide Control of Stomatal Movements.Photosynthesis of C3, C3-C4, and C4 grasses at glacial CO2Oxygen isotope anomaly in tropospheric CO2 and implications for CO2 residence time in the atmosphere and gross primary productivity.Short-term thermal photosynthetic responses of C4 grasses are independent of the biochemical subtype.Temperature response of mesophyll conductance in three C4 species calculated with two methods: 18 O discrimination and in vitro Vpmax.Effects of reduced carbonic anhydrase activity on CO2 assimilation rates in Setaria viridis: a transgenic analysis.Intraspecific carbon and nitrogen isotopic variability in foxtail millet (Setaria italica).Online CO2 and H2 O oxygen isotope fractionation allows estimation of mesophyll conductance in C4 plants, and reveals that mesophyll conductance decreases as leaves age in both C4 and C3 plants.Temperature Responses of C4 Photosynthesis: Biochemical Analysis of Rubisco, Phosphoenolpyruvate Carboxylase, and Carbonic Anhydrase in Setaria viridis.Variations in nitrogen use efficiency reflect the biochemical subtype while variations in water use efficiency reflect the evolutionary lineage of C4 grasses at inter-glacial CO2.C4 photosynthesis in C3 rice: a theoretical analysis of biochemical and anatomical factors.The impacts of fluctuating light on crop performance.The efficiency of C4 photosynthesis under low light conditions in Zea mays, Miscanthus x giganteus and Flaveria bidentis.Shade compromises the photosynthetic efficiency of NADP-ME less than that of PEP-CK and NAD-ME C4 grasses.The response of mesophyll conductance to short-term variation in CO2 in the C4 plants Setaria viridis and Zea mays.
P2860
Q27659368-C29BB569-0D4B-4F2B-85CA-832CE9A62079Q28076875-8D649C89-33C0-44CC-9E8E-00DCA8AB5672Q28756408-DCF4C545-768C-41E4-BA93-BDE3166927D9Q33860151-461CFBAD-C70F-497D-BC0D-5D1169BE292FQ34543661-4EE9D682-4C20-4A39-81E6-54220341851CQ35079617-2B4A3F67-5DFC-4AB6-B07E-EFD04AAAB39CQ35919245-6A142DDF-D9DB-482C-B9A2-15982D8B8C4AQ38125526-F5BD67B1-5B23-4E7D-B817-C62B4889AD78Q38206336-5B9B9CCD-1D95-405E-A15D-C9A5F6216D07Q39013565-F9E80988-DEB9-45F6-A6C3-73AFD9C92E02Q39173001-BBDD5FE3-561F-4516-80AB-30C65628673EQ39260262-C4CDC8A6-6963-49A0-B9A6-EA4294E487F5Q39483717-F71A54BD-F3A1-4F98-BB29-D8BCCE73897AQ40102422-6B1124AE-CDBB-496A-9FF4-89752BED6C68Q40659566-358BF5DF-EE74-4AAF-8314-2303D60127C5Q42204920-2B21E042-E61E-4434-85E3-DEA260405CB8Q42377165-E80FE1DA-7327-4F29-97F7-7D012457366FQ46281330-9AEAB7DA-0766-42BF-AAFD-7024C0BD253EQ46450266-46FA7587-535B-4461-8E72-AED79730BC12Q46482065-80D80B6A-A167-4690-A5DF-787FB2CD2C0AQ46530180-136281C2-9272-41B0-AFB9-E8F68B8F0090Q46609568-B3172B78-D6B5-49E7-89F3-37AFB04823ECQ46669215-C91AD968-4420-45F7-A2AA-82A57A0FBCA0Q47199919-4BF1431C-C9C9-466E-839F-8F95DC2D2869Q49047120-BEAABCE6-4907-49D1-950D-AC1421BB712CQ49386870-6E65DFEB-CE58-47B7-A38D-5B3E0EAABBC9Q51342303-CAC3BF37-B07C-4F8D-83DD-BD63D6B5F367Q55339396-EE5263BF-0A0A-4005-8B37-78B25F8280C9Q55512268-456B165E-4F02-4EE4-8741-671A4D405089
P2860
C4 photosynthetic isotope exchange in NAD-ME- and NADP-ME-type grasses.
description
2008 nî lūn-bûn
@nan
2008 թուականի Մարտին հրատարակուած գիտական յօդուած
@hyw
2008 թվականի մարտին հրատարակված գիտական հոդված
@hy
2008年の論文
@ja
2008年論文
@yue
2008年論文
@zh-hant
2008年論文
@zh-hk
2008年論文
@zh-mo
2008年論文
@zh-tw
2008年论文
@wuu
name
C4 photosynthetic isotope exchange in NAD-ME- and NADP-ME-type grasses.
@ast
C4 photosynthetic isotope exchange in NAD-ME- and NADP-ME-type grasses.
@en
type
label
C4 photosynthetic isotope exchange in NAD-ME- and NADP-ME-type grasses.
@ast
C4 photosynthetic isotope exchange in NAD-ME- and NADP-ME-type grasses.
@en
prefLabel
C4 photosynthetic isotope exchange in NAD-ME- and NADP-ME-type grasses.
@ast
C4 photosynthetic isotope exchange in NAD-ME- and NADP-ME-type grasses.
@en
P356
P1476
C4 photosynthetic isotope exchange in NAD-ME- and NADP-ME-type grasses.
@en
P2093
Asaph B Cousins
Murray R Badger
P304
P356
10.1093/JXB/ERN001
P577
2008-03-28T00:00:00Z