(PDF) Formation of the Azodication (ABTS2+) From ABTS

Formation of the Azodication (ABTS2+) From ABTS [2,2′-Azinobis-(3-Ethylbenzothiazoline-6-Sulphonate)] in Sterile Plant Cultures: Root–Exuded Oxidoreductases Contribute to Rhizosphere Priming

Soil Systems

doi 10.3390/soilsystems2020026

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Date

May 1, 2018

Authors

Gerhard Gramss

Publisher

MDPI AG

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Formation of the Azodication (ABTS2+) From ABTS [2,2′-Azinobis-(3-Ethylbenzothiazoline-6-Sulphonate)] in Sterile Plant Cultures: Root–Exuded Oxidoreductases Contribute to Rhizosphere Priming

Soil Systems

doi 10.3390/soilsystems2020026

Full Text

Abstract

Date

Authors

Publisher

Related search

Spectrophotometric Determination of Nitrite Based on Its Catalytic Effect on the Oxidation of 2,2'-Azinobis(3-Ethylbenzothiazoline-6-Sulfonic Acid).

Evaluation of the Spectrophotometric Assay of Guanase With 2,2'-Azino-Di(3-Ethylbenzthiazoline-6-Sulphonate) (ABTS) as Chromogen

Table 4: Percentage of Sequestration (% I) of the Radical 2,2′-Azino-Bis (3-Ethylbenzothiazoline-6-Sulfonate) (ABTS•+) by the Biosurfactant.

Reactions of 2,2‘-Azinobis-(3-Ethylbenzthiazoline-6-Sulfonate) Dianion, ABTS2-, With•OH, (SCN)2•-, and Glycine or Valine Peroxyl Radicals

pH-Dependent Long-Term Radical Scavenging Activity of AA-2G and 6-Octa-Aa-2g Against 2,2′-Azinobis(3-Ethylbenzothiazoline-6-Sulfonic Acid) Radical Cation

The Rhizosphere Revisited: Root Microbiomics

Organic Acids Exuded From Roots Increase the Available Potassium Content in the Rhizosphere Soil: A Rhizobag Experiment in Nicotiana Tabacum

Mechanisms of Plant Species Coexistence: Roles of Rhizosphere Bacteria and Root Fungal Pathogens

Root Aquaporins Contribute to Whole Plant Water Fluxes Under Drought Stress in Rice (Oryza sativaL.)