Development of real-time radioisotope imaging systems for plant nutrient uptake studies - Wikidata - wikimedia - TriplyDB

Development of real-time radioisotope imaging systems for plant nutrient uptake studies

Development of real-time radioisotope imaging systems for plant nutrient uptake studies

http://www.wikidata.org/entity/Q42156378

about

Critical Issues in the Study of Magnesium Transport Systems and Magnesium Deficiency Symptoms in Plants Root system architecture: insights from Arabidopsis and cereal crops Visualization of Uptake of Mineral Elements and the Dynamics of Photosynthates in Arabidopsis by a Newly Developed Real-Time Radioisotope Imaging System (RRIS)A novel role for the root cap in phosphate uptake and homeostasis.Identification of phosphatin, a drug alleviating phosphate starvation responses in Arabidopsis.A chemical genetic strategy identify the PHOSTIN, a synthetic molecule that triggers phosphate starvation responses in Arabidopsis thaliana.Research with radiation and radioisotopes to better understand plant physiology and agricultural consequences of radioactive contamination from the Fukushima Daiichi nuclear accident.Performance and Limitations of Phosphate Quantification: Guidelines for Plant Biologists.How can we harness quantitative genetic variation in crop root systems for agricultural improvement?Quantitative Imaging of FRET-Based Biosensors for Cell- and Organelle-Specific Analyses in Plants.Live imaging of inorganic phosphate in plants with cellular and subcellular resolution.Visualization of CO gas fixation by plants Development of a 14C detectable real-time radioisotope imaging system for plants under intermittent light environment Nondestructive real-time radioisotope imaging system for visualizing 14C-labeled chemicals supplied as CO2 in plants using Arabidopsis thaliana

P2860

Q26781351-09BEA562-B8F5-4E15-BE95-E1559CFDBD42 Q28730705-F4E5BCF0-5767-4A31-87D8-007FFF4AE269 Q33362851-56ECF343-CC6E-41C5-9911-0E40C43B6832 Q33362905-8881E3FF-F8FB-48E3-8ADC-4B8BF9998EA3 Q35247109-16C41D1B-0ABC-4234-AF88-187D20612C9D Q35738030-DEC635EE-E920-4AAE-9F07-2826BF7A85A4 Q37639614-47131179-16AA-4B39-9137-F91312C0E311 Q38729141-713F5969-36ED-4DFE-B39A-904243500057 Q38748917-BC732ABC-8B39-4A1F-B222-B01D3B952D80 Q39995231-D80AB8CA-C456-46DA-BF8E-1A8108B8DE84 Q51014325-D8EA2BB2-D6B6-4940-832F-C6C6BDFA00A3 Q58132907-DFD7C629-F4BA-48A3-8EA1-6046D297A12D Q58782913-5BC7CEBE-E338-4356-A852-B461CF1B28AB Q58782969-F32A9BAB-E8E2-4855-A12D-8E16DE18F35E

P2860

Development of real-time radioisotope imaging systems for plant nutrient uptake studies

http://www.wikidata.org/entity/Q42156378

description

2012 nî lūn-bûn

@nan

2012年の論文

@ja

2012年学术文章

@wuu

2012年学术文章

@zh-cn

2012年学术文章

@zh-hans

2012年学术文章

@zh-my

2012年学术文章

@zh-sg

2012年學術文章

@yue

2012年學術文章

@zh

2012年學術文章

@zh-hant

name

Development of real-time radioisotope imaging systems for plant nutrient uptake studies

@en

Development of real-time radioisotope imaging systems for plant nutrient uptake studies

@nl

type

label

Development of real-time radioisotope imaging systems for plant nutrient uptake studies

@en

Development of real-time radioisotope imaging systems for plant nutrient uptake studies

@nl

prefLabel

Development of real-time radioisotope imaging systems for plant nutrient uptake studies

@en

Development of real-time radioisotope imaging systems for plant nutrient uptake studies

@nl

P1433

Q42156378-629CCBBA-7178-480A-A8CA-A07D57667C82

P1476

Q42156378-2C0FB009-0538-4980-A510-7E4E95333D98

P2093

Q42156378-2A87CEBD-6D82-42DA-A5EB-96EDE3695E46

Q42156378-43A81D81-594B-41C1-8E21-FF1AE9CDBE0E

Q42156378-4D79D3C6-170A-414A-B514-29C90DA046AB

Q42156378-7A4490FC-7458-42ED-AB31-A69E6DC630B2

Q42156378-D669EA83-9D72-413F-800F-8723B73660E5

Q42156378-D72451DF-E008-49B8-9666-1C134C35FBDF

Q42156378-DA0C1C9D-FCAC-42B4-BA20-AC0A3DD70B5E

Q42156378-F525253C-FFDA-4BF9-A74E-74251B157677

P2860

Q42156378-0FB9D9D3-CC13-4333-A431-7573DEE285ED

Q42156378-1BC9FC8B-22AD-489C-B85D-F00F712F871C

Q42156378-2EEFFC24-E136-4107-8084-FC075623B78E

Q42156378-32E266D4-34EB-42F4-B0C1-9FCC780ECC9E

Q42156378-636FE581-CA76-4D19-AE6F-8E206314D438

Q42156378-913465A8-DF89-4D23-9837-507B6F7D729D

Q42156378-9A8F0CEA-02F7-433C-9FC2-56812C75CE7F

Q42156378-9D9845B6-08D5-4C51-89D0-354B75FED4FC

Q42156378-A9B70ECB-65EC-43FD-8142-D7856FA2219B

Q42156378-C150C5C3-47BA-40C6-9D43-2D7C5E4AA284

P304

Q42156378-2BB7500F-AFC3-44B1-AC1C-614D3A44E35B

P31

Q42156378-2EC41A69-3F12-4D86-871E-68DDEF24B0ED

P356

Q42156378-5342EA8F-6195-4781-B459-FD0A38A6736A

P407

Q42156378-92CA08EC-865D-4754-873A-1005BD278F8F

P433

Q42156378-C95C1208-A979-485D-9481-93DB2BF5C542

P478

Q42156378-DAB90BEA-92D6-46E7-8D2D-D41B50EBDB7B

P577

Q42156378-45AD8BAA-D08D-4930-B7FF-04356A87292B

P5875

Q42156378-E4C6DD26-B33B-425B-92D8-EB57FA7056AE

P698

Q42156378-3DD815CA-309E-48B5-9D09-CFBACC15F14D

P932

Q42156378-C8D78830-ED37-415B-A52E-0D597ADD93FE

P356

P1433

Philosophical Transactions of the Royal Society B

P1476

Development of real-time radioisotope imaging systems for plant nutrient uptake studies

@en

P2093

Atsushi Hirose

http://www.w3.org/2001/XMLSchema#string

Hiroki Ishibashi

http://www.w3.org/2001/XMLSchema#string

Keitaro Tanoi

http://www.w3.org/2001/XMLSchema#string

Laurent Nussaume

http://www.w3.org/2001/XMLSchema#string

Masato Yamawaki

http://www.w3.org/2001/XMLSchema#string

Natsuko I Kobayashi

http://www.w3.org/2001/XMLSchema#string

Satomi Kanno

http://www.w3.org/2001/XMLSchema#string

Tomoko M Nakanishi

http://www.w3.org/2001/XMLSchema#string

P2860

NMR imaging shows water distribution and transport in plant root systems in situ

Phosphorus Uptake by Plants: From Soil to Cell

Light-induced modification of plant plasma membrane ion transport.

Interactions between plant circadian clocks and solute transport.

Luminescence imaging using radionuclides: a potential application in molecular imaging.

Tracing cadmium from culture to spikelet: noninvasive imaging and quantitative characterization of absorption, transport, and accumulation of cadmium in an intact rice plant.

Combined MRI-PET dissects dynamic changes in plant structures and functions.

Effects of sulfur nutrition on expression of the soybean seed storage protein genes in transgenic petunia.

Arabidopsis thaliana high-affinity phosphate transporters exhibit multiple levels of posttranslational regulation.

Dynamic 13C/1H NMR imaging uncovers sugar allocation in the living seed

P304

1501-1508

http://www.w3.org/2001/XMLSchema#string

P31

scholarly article

P356

10.1098/RSTB.2011.0229

http://www.w3.org/2001/XMLSchema#string

P407

P433

1595

http://www.w3.org/2001/XMLSchema#string

P478

367

http://www.w3.org/2001/XMLSchema#string

P577

2012-06-01T00:00:00Z

http://www.w3.org/2001/XMLSchema#dateTime

P5875

224820299

http://www.w3.org/2001/XMLSchema#string

P698

22527392

http://www.w3.org/2001/XMLSchema#string

P932

3321680

http://www.w3.org/2001/XMLSchema#string