RBCS1A and RBCS3B, two major members within the Arabidopsis RBCS multigene family, function to yield sufficient Rubisco content for leaf photosynthetic capacity.
about
Comparative transcriptomics analysis reveals difference of key gene expression between banana and plantain in response to cold stress.Synergistic and Antagonistic Action of Phytochrome (Phy) A and PhyB during Seedling De-Etiolation in Arabidopsis thaliana.Cytonuclear Coordination Is Not Immediate upon Allopolyploid Formation in Tragopogon miscellus (Asteraceae) Allopolyploids.Identification of host factors potentially involved in RTM-mediated resistance during potyvirus long distance movement.Can phenotypic plasticity in Rubisco performance contribute to photosynthetic acclimation?RT-qPCR demonstrates light-dependent AtRBCS1A and AtRBCS3B mRNA expressions in Arabidopsis thaliana leaves.Ascophyllum nodosum Seaweed Extract Alleviates Drought Stress in Arabidopsis by Affecting Photosynthetic Performance and Related Gene Expression.Arabidopsis thaliana ggt1 photorespiratory mutants maintain leaf carbon/nitrogen balance by reducing RuBisCO content and plant growth.Mutant selection in the self-incompatible plant radish (Raphanus sativus L. var. sativus) using two-step TILLING.Arabidopsis RabF1 (ARA6) Is Involved in Salt Stress and Dark-Induced Senescence (DIS).Rubisco small subunits from the unicellular green alga Chlamydomonas complement Rubisco-deficient mutants of ArabidopsisTranslational downregulation of RBCL is operative in the coordinated expression of Rubisco genes in senescent leaves in rice.A novel chloroplast localized Rab GTPase protein CPRabA5e is involved in stress, development, thylakoid biogenesis and vesicle transport in Arabidopsis.A "Do-It-Yourself" phenotyping system: measuring growth and morphology throughout the diel cycle in rosette shaped plants.A guideline for leaf senescence analyses: from quantification to physiological and molecular investigations.Autophagy contributes to nighttime energy availability for growth in Arabidopsis.ROS Induces Anthocyanin Production Via Late Biosynthetic Genes and Anthocyanin Deficiency Confers the Hypersensitivity to ROS-Generating Stresses in Arabidopsis.Target of rapamycin signaling regulates metabolism, growth, and life span in Arabidopsis.Cosuppression of RBCS3B in Arabidopsis leads to severe photoinhibition caused by ROS accumulation.Structure of Rubisco from Arabidopsis thaliana in complex with 2-carboxyarabinitol-1,5-bisphosphate.Effects of co-overexpression of the genes of Rubisco and transketolase on photosynthesis in rice.Entire Photodamaged Chloroplasts Are Transported to the Central Vacuole by Autophagy.A Small Decrease in Rubisco Content by Individual Suppression of RBCS Genes Leads to Improvement of Photosynthesis and Greater Biomass Production in Rice Under Conditions of Elevated CO2.
P2860
Q35658806-F3DD0932-EFDD-424F-B83A-F58A6A486225Q35813789-EEEAAB45-92E6-48CA-9E89-5F11EE293531Q35863502-6216A79C-EF37-4C6F-A84F-5B713005E526Q36294797-50319245-7E81-4318-86B5-660BD32F1A63Q38094653-DF830E79-3E44-440B-95D1-B3C58F3E0A16Q38906210-AD8E3E55-D53D-44B7-8375-66779F0CCF93Q39429247-C90D9D59-96E2-42CD-9B70-5C50768C8A7FQ40689566-D579E0EB-D71F-4C8C-8362-8D4C3A0DFA4DQ41046985-6C1A3DA8-CAB9-45CD-8FC2-6CF3DEFCB4DBQ42212464-F70FF61A-D714-47BA-AB9B-6B69D7912C38Q42314604-C4FAA369-C82F-4A33-81D8-8ACB970033AFQ43240993-AFD59DD4-14F6-4601-AD69-A7A5273339D5Q44340825-2AA3FF76-0FCC-4F70-9BC3-D0E3FC0007BDQ45714680-533C80E5-9718-4917-9795-96572C971747Q46290770-F7574945-41EE-4674-9B6A-13D7B2693D45Q46302970-7FACC44B-BB75-4C67-BCF0-17843E5348BAQ46355411-FDF02C25-FE54-4CE0-B3CC-8B53D5E0AA07Q46527498-88019828-19B9-4BC8-84E6-78E20A52FDF4Q46796211-6E3F75F8-449B-4B28-ACB8-B5959DCC2317Q48160020-0CB0858A-87D0-4B39-B174-28A1D008CDF2Q48243765-15FE7E0C-3A3D-4F28-B364-BA88061413CBQ48310961-644F355B-0406-4CB0-ABFD-19358535B147Q52795522-F45BFBCF-EB2E-4C0B-AD8D-9FBF7E6D6BFE
P2860
RBCS1A and RBCS3B, two major members within the Arabidopsis RBCS multigene family, function to yield sufficient Rubisco content for leaf photosynthetic capacity.
description
2012 nî lūn-bûn
@nan
2012年の論文
@ja
2012年論文
@yue
2012年論文
@zh-hant
2012年論文
@zh-hk
2012年論文
@zh-mo
2012年論文
@zh-tw
2012年论文
@wuu
2012年论文
@zh
2012年论文
@zh-cn
name
RBCS1A and RBCS3B, two major m ...... leaf photosynthetic capacity.
@en
type
label
RBCS1A and RBCS3B, two major m ...... leaf photosynthetic capacity.
@en
prefLabel
RBCS1A and RBCS3B, two major m ...... leaf photosynthetic capacity.
@en
P2093
P2860
P356
P1476
RBCS1A and RBCS3B, two major m ...... leaf photosynthetic capacity.
@en
P2093
Amane Makino
Hiroyuki Ishida
Honami Tsunoda
Masanori Izumi
Yuji Suzuki
P2860
P304
P356
10.1093/JXB/ERR434
P577
2012-01-05T00:00:00Z