The EXS Domain of PHO1 Participates in the Response of Shoots to Phosphate Deficiency via a Root-to-Shoot Signal.
about
Phosphate Uptake and Allocation - A Closer Look at Arabidopsis thaliana L. and Oryza sativa LControl of eukaryotic phosphate homeostasis by inositol polyphosphate sensor domainsCell Wall Heterogeneity in Root Development of ArabidopsisCharacterization and Transposon Mutagenesis of the Maize (Zea mays) Pho1 Gene Family.Thiourea priming enhances salt tolerance through co-ordinated regulation of microRNAs and hormones in Brassica juncea.The Involvement of OsPHO1;1 in the Regulation of Iron Transport Through Integration of Phosphate and Zinc Deficiency Signaling.Heat Stress Affects Pi-related Genes Expression and Inorganic Phosphate Deposition/Accumulation in BarleyGenome-Wide Identification and Characterization of SPX Domain-Containing Members and Their Responses to Phosphate Deficiency in Brassica napus.Involvement of Small RNAs in Phosphorus and Sulfur Sensing, Signaling and Stress: Current Update.Piriformospora indica Reprograms Gene Expression in Arabidopsis Phosphate Metabolism Mutants But Does Not Compensate for Phosphate Limitation.Improving phosphorus use efficiency: a complex trait with emerging opportunities.Increased root hair density by loss of WRKY6 in Arabidopsis thaliana.H+ and Pi Byproducts of Glycosylation Affect Ca2+ Homeostasis and Are Retrieved from the Golgi Complex by Homologs of TMEM165 and XPR1.6,4-PP Photolyase Encoded by AtUVR3 is Localized in Nuclei, Chloroplasts and Mitochondria and its Expression is Down-Regulated by Light in a Photosynthesis-Dependent Manner.Abscisic Acid Modulates Seed Germination via ABA INSENSITIVE5-Mediated PHOSPHATE1.Root Cell-Specific Regulators of Phosphate-Dependent Growth.Understanding Fe2+ toxicity and P deficiency tolerance in rice for enhancing productivity under acidic soils.Design of synthetic bacterial communities for predictable plant phenotypes.Feeding the Walls: How Does Nutrient Availability Regulate Cell Wall Composition?
P2860
Q26738313-7A16797A-443D-4B21-898C-AA34A42C12E2Q27704571-75AA0158-1DF0-4FAB-B224-54D5294CAA78Q28074079-923D186A-5DBF-43DB-A179-87204F465F2CQ36138197-034C15B9-44D1-4128-BFD8-439B5DDE0920Q36337655-7E6BACFE-70E3-41F4-9248-FC7F5B7DB52DQ36768226-5451A716-F049-4E07-AE53-B3E6C1056117Q37034143-E8103FEA-C3C2-458A-AD16-211B09E264DEQ37604128-481CB312-C112-40F2-B147-6E49F625E19BQ37692011-6BFFD6B1-47EF-42A6-B6A6-3457E41FFC94Q38658910-6B5C3C02-A8F1-43FF-BC6F-FB6B4C20B680Q39012380-6DAE38B3-8509-4C56-89C0-2971A4E56B96Q41962579-76AC408A-100A-4E4A-92CC-764FD299A870Q47094014-25073BF4-76A7-443F-95B6-ED196E96BA5DQ47605107-6FAEFC45-5827-442A-8DC3-DB1D780FC2C4Q47680363-6758AACC-E33D-4E90-8A74-F19CCD33300BQ48062445-436C4AB0-7ED7-42B5-83B2-A214C2DF0A26Q50016455-A9D12828-731C-4F76-AD6D-F09F25AFB615Q52376062-68763238-0DB4-45E5-B523-6039B34DAFDAQ58753170-4743A545-E2F4-49AA-A5A6-F79A105E4FB6
P2860
The EXS Domain of PHO1 Participates in the Response of Shoots to Phosphate Deficiency via a Root-to-Shoot Signal.
description
2015 nî lūn-bûn
@nan
2015年の論文
@ja
2015年学术文章
@wuu
2015年学术文章
@zh-cn
2015年学术文章
@zh-hans
2015年学术文章
@zh-my
2015年学术文章
@zh-sg
2015年學術文章
@yue
2015年學術文章
@zh
2015年學術文章
@zh-hant
name
The EXS Domain of PHO1 Partici ...... cy via a Root-to-Shoot Signal.
@en
The EXS Domain of PHO1 Partici ...... cy via a Root-to-Shoot Signal.
@nl
type
label
The EXS Domain of PHO1 Partici ...... cy via a Root-to-Shoot Signal.
@en
The EXS Domain of PHO1 Partici ...... cy via a Root-to-Shoot Signal.
@nl
prefLabel
The EXS Domain of PHO1 Partici ...... cy via a Root-to-Shoot Signal.
@en
The EXS Domain of PHO1 Partici ...... cy via a Root-to-Shoot Signal.
@nl
P2860
P50
P356
P1433
P1476
The EXS Domain of PHO1 Partici ...... ncy via a Root-to-Shoot Signal
@en
P2093
Ji-Yul Jung
Sylvain Pradervand
P2860
P304
P356
10.1104/PP.15.00975
P407
P50
P577
2015-11-06T00:00:00Z