Department of Biotechnology, Interdisciplinary Program for Bioenergy and Biomaterials of Graduate School, Agricultural Plant Stress Research Center, Chonnam National University, Gwangju, 500-757, South Korea.
Planta. 2009 Nov;230(6):1197-206. doi: 10.1007/s00425-009-1015-2. Epub 2009 Sep 17.
It has been suggested that serotonin biosynthesis is regulated by tryptophan decarboxylase (TDC) in plants. To determine if TDC plays a rate-limiting role in serotonin biosynthesis, two TDC genes, PepTDC1 and PepTDC2, were cloned from pepper (Capsicum annuum L.) fruits infected with anthracnose fungus and their expression was then examined in various organs, including fruit that had been treated with the fungus or various chemicals. PepTDC1 expression was highly induced in pepper fruits after treatment with fungus and ethylene, while PepTDC2 was constitutively expressed at low levels in all pepper tissues. Additionally, predominant induction of PepTDC1 mRNA and TDC enzyme activity was detected in the unripe-green fruit, but not in the ripe-red fruit upon pathogen infection. Higher expression of TDC in unripe-green fruit was closely associated with increased levels of tryptamine, serotonin, and serotonin derivatives. However, unlike the enhanced serotonin synthesis, tryptophan levels responded unchanged when challenged with the pathogen in both the unripe-green fruit and the ripe-red fruit. Expression of two key tryptophan biosynthetic genes, anthranilate synthase (ASalpha) and tryptophan synthase (TSbeta), remained unchanged in response to treatment. Also, anthranilate synthase enzyme activity remained steady regardless of pathogen infection. Taken together, these results suggest that the synthesis of serotonin was regulated by the induction of TDC without a simultaneous increase in tryptophan levels in pepper fruits.
有人认为色氨酸脱羧酶(TDC)调节植物中的血清素生物合成。为了确定 TDC 是否在血清素生物合成中起限速作用,从感染炭疽病真菌的辣椒(Capsicum annuum L.)果实中克隆了两个 TDC 基因 PepTDC1 和 PepTDC2,并在包括已用真菌或各种化学物质处理过的果实在内的各种器官中检查了它们的表达。在真菌和乙烯处理后,PepTDC1 在辣椒果实中的表达高度诱导,而 PepTDC2 在所有辣椒组织中均以低水平组成型表达。此外,在未成熟绿色果实中检测到 PepTDC1 mRNA 和 TDC 酶活性的主要诱导,但在病原体感染后的成熟红色果实中则没有。TDC 在未成熟绿色果实中的高表达与色胺、血清素和血清素衍生物水平的增加密切相关。然而,与增强的血清素合成不同,在未成熟绿色果实和成熟红色果实中,色氨酸水平在受到病原体挑战时没有反应。两种关键色氨酸生物合成基因,邻氨基苯甲酸合酶(ASalpha)和色氨酸合酶(TSbeta)的表达也没有因处理而改变。此外,无论是否存在病原体感染,邻氨基苯甲酸合酶酶活性均保持稳定。总之,这些结果表明,在辣椒果实中,血清素的合成是通过 TDC 的诱导而不是色氨酸水平的同时增加来调节的。
