有明海沿岸に生育する塩生植物シチメンソウの成分分析 [in Japanese] Component analysis of a halophyte, Suaeda japonica, grown on the shore of Ariake Sea [in Japanese]
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- 和田 紀子 WADA Noriko
- 東京大学大学院農学生命科学研究科 Department of Applied Biological Chemistry, The University of Tokyo
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- 張 経華 ZHANG Jinghua
- 長崎大学環境科学部 Faculty of Environmental Studies, Nagasaki University
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- 陣野 信孝 [他] JINNO Nobutaka
- 長崎大学教育学部 Faculty of Education, Nagasaki University
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- 大久保 明 OKUBO Akira
- 東京大学大学院農学生命科学研究科 Department of Applied Biological Chemistry, The University of Tokyo
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- 山崎 素直 YAMAZAKI Sunao
- 長崎大学環境科学部 Faculty of Environmental Studies, Nagasaki University
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Author(s)
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- 和田 紀子 WADA Noriko
- 東京大学大学院農学生命科学研究科 Department of Applied Biological Chemistry, The University of Tokyo
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- 張 経華 ZHANG Jinghua
- 長崎大学環境科学部 Faculty of Environmental Studies, Nagasaki University
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- 陣野 信孝 [他] JINNO Nobutaka
- 長崎大学教育学部 Faculty of Education, Nagasaki University
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- 大久保 明 OKUBO Akira
- 東京大学大学院農学生命科学研究科 Department of Applied Biological Chemistry, The University of Tokyo
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- 山崎 素直 YAMAZAKI Sunao
- 長崎大学環境科学部 Faculty of Environmental Studies, Nagasaki University
Abstract
The adaptation of a halophyte, <i>Suaeda japonica</i>, in a saline environment was surveyed by analysing the cellular components, such as the major inorganic and organic constituents, as well as glycine betaine between halophytic and non-halophytic plants grown along the seashore of Ariake Sea. In contrast to non-halophytes, a remarkable accumulation of salt in leaf cells of halophytes, <i>Suaeda</i> and <i>Artemisia</i>, was accompanied by the accumulation of a compatible solute, glycine betaine. In a culture experiment under saline conditions, glycine betaine looked to be most effectively induced in the concentration of salt of around 250 mM NaCl.<br>
Journal
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- BUNSEKI KAGAKU
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BUNSEKI KAGAKU 52(9), 843-846, 2003-09-05
The Japan Society for Analytical Chemistry
References: 14
-
1
- <no title>
-
陣野信孝
有明海の生きものたち 50, 2000
Cited by (1)
-
2
- <no title>
-
COLMER T. G.
Phytochem. Anal. 11, 163, 2000
Cited by (2)
-
3
- <no title>
-
MCNEIL S. D.
Plant Physiol. 120, 945, 1999
Cited by (3)
-
4
- <no title>
-
大塚電子
Application Data, 018, 2000
Cited by (1)
-
5
- <no title>
-
田村太郎
栄養診断のための栽培植物分析測定 272, 1976
Cited by (2)
-
6
- <no title>
-
BRADFORD M. M.
Anal. Biochem. 72, 248, 1976
Cited by (100)
-
7
- <no title>
-
田村太郎
栄養診断のための栽培植物分析測定 290, 1976
Cited by (2)
-
8
- <no title>
-
ZHANG J.
Anal. Sci. 17 Suppl, i1315, 2001
Cited by (3)
-
9
- <no title>
-
ZHANG J.
塩生植物利用与区域農業可持続発展 77, 2002
Cited by (1)
-
10
- <no title>
-
間藤徹
植物の化学調節 32, 198, 1997
Cited by (2)
-
11
- <no title>
-
YAMAZAKI S.
Proceedings of the International Symposium, "Can Biological Production Harmonize with Environment?" 343, 1999
Cited by (1)
-
12
- <no title>
-
GREENWAY H.
Ann. Rev. Palnt Physiol. 31, 149, 1980
Cited by (1)
-
13
- Seed germination of the halophyte Suaeda japonica under salt stress
-
YOKOISHI T.
J.Plant Res. 107, 385-388, 1994
DOI Cited by (4)
-
14
- Determination of betaines in plants by low-pH capillary electrophoresis as their phenacyl esters [in Japanese]
-
ZHANG Jinghua , OKUBO Akira , YAMAZAKI Sunao
BUNSEKI KAGAKU 46(4), 275-279, 1997-04-05
J-STAGE NDL Digital Collections References (17) Cited by (7)
Cited by: 1
-
1
- Response of Sago Palm (Metroxylon sagu Rottb.) to NaCl stress
-
YONETA Ritsuko , OKAZAKI Masanori , YANO Yoshiharu
Sago Palm 14(1), 10-19, 2006-08-17
References (29) Cited by (1)