ELECTRON TRANSPORT SYSTEMS OF RHIZOBIUM GROWN IN NODULES AND IN LABORATORY MEDIUM
スポンサーリンク
概要
- 論文の詳細を見る
The electron transport systems of Rhizobium japonicum were studied, comparing cells harvested from effective nodules with those from artificial culture. Participation of the cytochrome system was confirmed in both forms of cells. Absorption peaks of the cytochromes of cultured cells were a, b, c type, resembling those of Bacillus subtilis, yeast and mammalian tissue. Cytochrome a could not be detected in the absorption spectrum of symbiotic cells, although the CO binding difference spectrum showed a peak at about 438 mμ, which can be attributed to a component a_3 or a_1. CO difference spectrum also showed a shoulder at about 416 mμ. Cells cultivated under the insufficient supply of oxygen showed the cytochrome absorption spectrum closely resembled that of symbiotic cells. Diaphorase activity was lower in symbiotic cells. These results are considered to be due to the insufficient supply of oxygen within nodule tissue. Succinate oxidation by the symbiotic cell particulate was shown to be carbon monooxide resistant. NADH_2 oxidation by the supernatant fraction of symbiotic cells was accelerated by flavin mononucleotide, 2, 6-dichlorophenol indophenol, methylene blue and vitamin K_3.
- 日本植物生理学会の論文
著者
-
Watanabe Iwao
Faculty of Bioresources, Mie University
-
Tuzimura Katura
Faculty Of Agriculture University Of Tokyo:(present)faculty Of Agriculture Tohoku University
-
Tuzimura Katura
Faculty Of Agriculture The University Of Tokyo
-
Watanabe Iwao
Faculty Of Agriculture University Of Tokyo:(present)central Agricultural Experiment Station
-
Watanabe Iwao
Faculty Of Agriculture The University Of Tokyo
-
Watanabe Iwao
Faculty Of Agriculture Iwate University
関連論文
- Methanogenic Characteristics of Flooded Rice Soils in Response to Glucose Amendment
- DIFFERENT GROWTH AND SURVIVAL OF RHIZOBIUM SPECIES IN THE RHIZOSPHERE OF VARIOUS PLANTS IN DIFFERENT SORTS OF SOIL : Ecological Studies on Root Nodule Bacteria in Soil (Part 4).
- ESTIMATION OF NUMBER OF ROOT-NODULE BACTERIA BY A NODULATION-DILUTION FREQUENCY METHOD : ECOLOGICAL STUDIES OF RHIZOBIUM IN SOILS (PART 1)
- Hydrogen Atom Position in Hydrated Iodide Anion from X-ray Absorption Near Edge Structure
- Nitrogen Mineralization in Tropical Wetland Rice Soils : II. Application of Exponential Models
- Nitrogen Mineralization in Tropical Wetland Rice Soils : I. Relationship with Temperature and Soil Properties
- ELECTRON TRANSPORT SYSTEMS OF RHIZOBIUM GROWN IN NODULES AND IN LABORATORY MEDIUM
- 24-1 The δ^C Values of CH_4 and CO_2 in Flooded Rice Soil Incorporated with ^C-labeled Rice Straw
- 24-9 Contribution of ^C-labeled rice straw to emitted methane from paddy soil
- THE EFFECT OF PESTICIDES ON THE DENITRIFICATITN IN PADDY SOIL
- FURTHER STUDY ON IODINE TOXICITY IN RELATION TO "RECLAMATION AKAGARE" DISEASE OF LOWLAND RICE
- THE EFFECT OF RHIZOSPHERE OF VARIOUS PLANTS ON THE GROWTH OF RHIZOBIUM : Ecological studies of root nodule bacteria (Part 3)
- THE GROWTH OF RHIZOBIUM IN THE RHIZOSPHERE OF THE HOST PLANT : Ecological studies of root nodule bacteria, (Part 2)
- ISOLATION OF PENTACHLOROPHENOL DECOMPOSING BACTERIA FROM SOIL
- Mineralization of Azolla N and Its Availability to Wetland Rice : II. Fertilizer Effect and ^N Uptake by Rice from Different Species of Azolla with Varying N Contents