Metabolic regulation of ammonia emission in different senescence phenotypes of Nicotiana tabacum

Y. J. Wu; T. Z. Yang; Y. Y. Song; X. Q. Zhang; S. X. Xu; G. Xue; X. X. Xing

doi:10.1007/s10535-015-0556-4

Metabolic regulation of ammonia emission in different senescence phenotypes of Nicotiana tabacum

Y. J. Wu, T. Z. Yang, Y. Y. Song, X. Q. Zhang, S. X. Xu, G. Xue, X. X. Xing

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8 Scopus citations

Abstract

In order to reveal the character of ammonia emission in senescent tobacco (Nicotiana tabacum), the content of NH₄ ⁺, total nitrogen, and soluble protein, and the activities of nitrogen metabolism-related enzymes were measured in leaves of a quick-leaf-senescence phenotype ZY90 and a slow-leaf-senescence phenotype NC89. Compared with NC89, ZY90 had a higher NH₄ ⁺ accumulation, a lower glutamine synthetase activity, and a significantly higher stomatal ammonia compensation point, and ammonia emission during 40 to 60 d after leaf emergence. During senescence, the quick-leafsenescence phenotype was characterized by nitrogen re-transfer by ammonia emmission, whereas the slow-leafsenescence phenotype by nitrogen re-assimilation. The ammonia emission was primarily regulated by glutamine synthetase activity, apoplastic pH, and NH₄ ⁺ content.

Original language	English
Pages (from-to)	190-194
Number of pages	5
Journal	Biologia Plantarum
Volume	60
Issue number	1
DOIs	https://doi.org/10.1007/s10535-015-0556-4
State	Published - Jan 1 2016
Externally published	Yes

Keywords

nitrogen metabolism
stomatal ammonia compensation point
tobacco

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10.1007/s10535-015-0556-4

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title = "Metabolic regulation of ammonia emission in different senescence phenotypes of Nicotiana tabacum",

abstract = "In order to reveal the character of ammonia emission in senescent tobacco (Nicotiana tabacum), the content of NH4 +, total nitrogen, and soluble protein, and the activities of nitrogen metabolism-related enzymes were measured in leaves of a quick-leaf-senescence phenotype ZY90 and a slow-leaf-senescence phenotype NC89. Compared with NC89, ZY90 had a higher NH4 + accumulation, a lower glutamine synthetase activity, and a significantly higher stomatal ammonia compensation point, and ammonia emission during 40 to 60 d after leaf emergence. During senescence, the quick-leafsenescence phenotype was characterized by nitrogen re-transfer by ammonia emmission, whereas the slow-leafsenescence phenotype by nitrogen re-assimilation. The ammonia emission was primarily regulated by glutamine synthetase activity, apoplastic pH, and NH4 + content.",

keywords = "nitrogen metabolism, stomatal ammonia compensation point, tobacco",

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doi = "10.1007/s10535-015-0556-4",

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AU - Wu, Y. J.

AU - Yang, T. Z.

AU - Song, Y. Y.

AU - Zhang, X. Q.

AU - Xu, S. X.

AU - Xue, G.

AU - Xing, X. X.

PY - 2016/1/1

Y1 - 2016/1/1

N2 - In order to reveal the character of ammonia emission in senescent tobacco (Nicotiana tabacum), the content of NH4 +, total nitrogen, and soluble protein, and the activities of nitrogen metabolism-related enzymes were measured in leaves of a quick-leaf-senescence phenotype ZY90 and a slow-leaf-senescence phenotype NC89. Compared with NC89, ZY90 had a higher NH4 + accumulation, a lower glutamine synthetase activity, and a significantly higher stomatal ammonia compensation point, and ammonia emission during 40 to 60 d after leaf emergence. During senescence, the quick-leafsenescence phenotype was characterized by nitrogen re-transfer by ammonia emmission, whereas the slow-leafsenescence phenotype by nitrogen re-assimilation. The ammonia emission was primarily regulated by glutamine synthetase activity, apoplastic pH, and NH4 + content.

AB - In order to reveal the character of ammonia emission in senescent tobacco (Nicotiana tabacum), the content of NH4 +, total nitrogen, and soluble protein, and the activities of nitrogen metabolism-related enzymes were measured in leaves of a quick-leaf-senescence phenotype ZY90 and a slow-leaf-senescence phenotype NC89. Compared with NC89, ZY90 had a higher NH4 + accumulation, a lower glutamine synthetase activity, and a significantly higher stomatal ammonia compensation point, and ammonia emission during 40 to 60 d after leaf emergence. During senescence, the quick-leafsenescence phenotype was characterized by nitrogen re-transfer by ammonia emmission, whereas the slow-leafsenescence phenotype by nitrogen re-assimilation. The ammonia emission was primarily regulated by glutamine synthetase activity, apoplastic pH, and NH4 + content.

KW - nitrogen metabolism

KW - stomatal ammonia compensation point

KW - tobacco

UR - https://www.scopus.com/pages/publications/84956950935

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DO - 10.1007/s10535-015-0556-4

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JO - Biologia Plantarum

JF - Biologia Plantarum

IS - 1

ER -

Metabolic regulation of ammonia emission in different senescence phenotypes of Nicotiana tabacum

Abstract

Keywords

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