Energy Distribution in the Photochemical Apparatus of Photosynthesis
about
Chimeric fusions of subunit IV and PetL in the b6f complex of Chlamydomonas reinhardtii: structural implications and consequences on state transitions.The photochemical reflectance index provides an optical indicator of spring photosynthetic activation in evergreen conifers.Contrasted effects of inhibitors of cytochrome b6f complex on state transitions in Chlamydomonas reinhardtii: the role of Qo site occupancy in LHCII kinase activation.The photosystem I trimer of cyanobacteria: molecular organization, excitation dynamics and physiological significance.Adaptive traits are maintained on steep selective gradients despite gene flow and hybridization in the intertidal zone.Improved photobiological H2 production in engineered green algal cells.Physiological response of fucoid algae to environmental stress: comparing range centre and southern populations.Resolving the contribution of the uncoupled phycobilisomes to cyanobacterial pulse-amplitude modulated (PAM) fluorometry signals.Mathematical review of literature to assess alternative electron transports and interphotosystem excitation partitioning of steady-state C3 photosynthesis under limiting light.Constitutive expression of the cold-regulated Arabidopsis thaliana COR15a gene affects both chloroplast and protoplast freezing tolerance.Models of fluorescence and photosynthesis for interpreting measurements of solar-induced chlorophyll fluorescence.An Automated Comparative Observation System for Sun-Induced Chlorophyll Fluorescence of Vegetation Canopies.Impaired respiration discloses the physiological significance of state transitions in ChlamydomonasTechnological applications of chlorophyll a fluorescence for the assessment of environmental pollutants.Excitonic connectivity between photosystem II units: what is it, and how to measure it?Frequently asked questions about chlorophyll fluorescence, the sequel.Toward Multiscale Models of Cyanobacterial Growth: A Modular Approach.Oxyradicals and PSII activity in maize leaves in the absence of UV components of solar spectrum.Photosynthetic responses of sun- and shade-grown barley leaves to high light: is the lower PSII connectivity in shade leaves associated with protection against excess of light?Photoinhibition of Chlamydomonas reinhardtii in State 1 and State 2: damages to the photosynthetic apparatus under linear and cyclic electron flow.Chloroplast phosphoproteins. Phosphorylation of polypeptides of the light-harvesting chlorophyll protein complex.Interaction between avoidance of photon absorption, excess energy dissipation and zeaxanthin synthesis against photooxidative stress in Arabidopsis.Spectral determination of concentrations of functionally diverse pigments in increasingly complex arctic tundra canopies.Solvent-induced changes in photochemical activity and conformation of photosystem I particles by glycerol.Dynamic interplay between photodamage and photoprotection in photosystem II.The thermodynamics and kinetics of electron transfer between cytochrome b6f and photosystem I in the chlorophyll d-dominated cyanobacterium, Acaryochloris marina.Phototropins maintain robust circadian oscillation of PSII operating efficiency under blue light.What limits photosynthetic energy conversion efficiency in nature? Lessons from the oceans.Analysis of fast chlorophyll fluorescence rise (O-K-J-I-P) curves in green fruits indicates electron flow limitations at the donor side of PSII and the acceptor sides of both photosystems.A retrieval algorithm to evaluate the Photosystem I and Photosystem II spectral contributions to leaf chlorophyll fluorescence at physiological temperatures.Sigmoidal reduction kinetics of the photosystem II acceptor side in intact photosynthetic materials during fluorescence induction.Cumulative stress restricts niche filling potential of habitat-forming kelps in a future climate.ADAPTATION OF UNICELLULAR ALGAE TO IRRADIANCE: AN ANALYSIS OF STRATEGIESNew approach of monitoring changes in chlorophyll a fluorescence of single guard cells and protoplasts in response to physiological stimuliASSESSING PHYSIOLOGICAL STRESS IN THALASSIOSIRA FLUVIATILIS (BACILLARIOPHYTA) AND DUNALIELLA TERTIOLECTA (CHLOROPHYTA) WITH DCMU-ENHANCED FLUORESCENCEPhotoinhibition of photosynthesis. An evaluation of damaging and protective mechanismsPhotosynthetic capacity measured by DCMU-induced chlorophyll fluorescence in an oligotrophic lakeEffect of environmental conditions on the relationship between solar-induced fluorescence and gross primary productivity at an OzFlux grassland siteLong-term exposure to elevated [CO2] in a natural Quercus ilex L. community: net photosynthesis and photochemical efficiency of PSII at different levels of water stressIn situ estimation of net CO2 assimilation, photosynthetic electron flow and photorespiration in Turkey oak (Q. cerris L.) leaves: diurnal cycles under different levels of water supply
P2860
Q30799580-46402EF6-613C-4B7C-8573-34910291683FQ30886968-87873551-DE05-4982-92ED-08564149AE43Q31779532-504F0D4C-984A-4697-9188-B7B11B1CC352Q33771550-7B5A9C62-54E1-445E-8C6E-37DA0379FA72Q33939336-048373BD-DF0D-4FF9-8E2F-FA3B41D4E999Q34442931-32FAA19A-3CCA-4A11-BBF1-32431D70590FQ35104549-EF89F7E7-DAC3-45D1-ABEF-0D30D793EBDDQ35609869-D0E4EAE5-1060-48FC-B969-0A37866EE6AFQ36567789-E331BB01-D8F7-4D82-AA36-EBAC13AE1944Q36697471-FCEA1F53-809A-4EE1-B281-87CCDAC47531Q36856662-DE3647A9-D811-422E-BAE1-1F334B1BA250Q37068456-A9184EE5-B0F5-4A30-918C-DFF9665E5A55Q37354243-168133D8-666E-43C6-9CBD-182D568695D8Q37893985-1B292EF0-0267-45B1-9A7D-802B7D69C566Q38116470-F74A2F30-9EC2-4877-8456-EFBE491BAAFAQ38999306-45069982-A3DD-4237-A738-F339099141DBQ39023112-9C2B57F7-D7BD-4D6D-ACF8-B88555C5EE3CQ39458186-ADD95EE2-51BB-4438-96FB-BF1787A58602Q41952345-EA899B34-BD54-4D5A-AEA4-4751A9A45D1DQ43569580-02E6745A-20AD-4937-8CE4-E692B7D58EC6Q44067380-66E0D4A2-0C79-48C0-A414-65FCF4AA83A8Q44859696-F3095A9F-61BD-4B2E-B777-B40059C3B543Q46546382-9BFC9A7D-12C8-469B-9E0B-8C7E299FD6DBQ46959726-484738E2-6F51-43EC-9D13-69D20B53648FQ47325063-D0A719ED-318B-49FB-B5B7-7BCB502E4FD4Q47446333-B64F7026-E1A4-4096-81C4-9BD0F03B23D8Q48153957-CBA8FF9E-6C72-4976-9158-BA8AA87A5DD3Q50503461-ECAA0E55-9586-4DD9-9F50-DA86C4F2CC04Q50564471-39814425-CE26-4287-9F58-83EDCE1C3575Q51537664-69E6DE5B-F0F7-4B16-99EB-BB5AF0863337Q51795947-DB95C65A-DA7E-4410-A68F-533A8C3D6497Q55263022-A03DE046-C4AB-4A30-8B7A-3619BEF0F0FBQ57046223-2E420179-56E6-4105-972B-44FA5017B2C1Q57051729-556556CC-4F65-4DD0-9E04-30CDD53A9763Q57444574-4C200D28-2EED-4604-96CE-A43BD1C8E222Q57485961-9CDE65F2-C252-4C39-B97E-41410E0EEA57Q58192438-27A17683-C6DE-483D-8138-20333A9B57A0Q58312135-F7C259E9-A7BF-4448-8FAE-B9120333DF07Q58848275-BC7A02F8-C849-477C-8F2A-DAAAEA0A360DQ58848292-C58FEFA0-E33D-4FF2-9740-7C5E56E49635
P2860
Energy Distribution in the Photochemical Apparatus of Photosynthesis
description
1978 nî lūn-bûn
@nan
1978 թուականի Յունիսին հրատարակուած գիտական յօդուած
@hyw
1978 թվականի հունիսին հրատարակված գիտական հոդված
@hy
1978年の論文
@ja
1978年論文
@yue
1978年論文
@zh-hant
1978年論文
@zh-hk
1978年論文
@zh-mo
1978年論文
@zh-tw
1978年论文
@wuu
name
Energy Distribution in the Photochemical Apparatus of Photosynthesis
@ast
Energy Distribution in the Photochemical Apparatus of Photosynthesis
@en
type
label
Energy Distribution in the Photochemical Apparatus of Photosynthesis
@ast
Energy Distribution in the Photochemical Apparatus of Photosynthesis
@en
prefLabel
Energy Distribution in the Photochemical Apparatus of Photosynthesis
@ast
Energy Distribution in the Photochemical Apparatus of Photosynthesis
@en
P3181
P1476
Energy Distribution in the Photochemical Apparatus of Photosynthesis
@en
P2093
W L Butler
P304
P3181
P356
10.1146/ANNUREV.PP.29.060178.002021
P577
1978-06-01T00:00:00Z