Effects of 1,2,4-Trichlorobenzene and Mercury Ion Stress on Ca2+ Fluxion and Protein Phosphorylation in Rice

Ge, Cailin; Wang, Ze-gang; Wan, Dingzhen; Ding, Yan; Wang, Yulong; Shang, Qi; Luo, Sulan; Ma, Fei

doi:10.1016/s1672-6308(08)60005-0

Cited by 3 publications

(2 citation statements)

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“…It is well established that organic contaminants can inhibit plant growth (de Araujo et al 2006;Ge et al 2007;Liu et al 2009). In the present study, wheat growth was significantly inhibited by the addition of TCB as indicated by the observed decline in fresh and dry shoot weight (Fig.…”

Section: Discussionmentioning

confidence: 99%

Physiological and biochemical response of wheat seedlings to organic pollutant 1, 2, 4-trichlorobenzene

Zhang

Chu

Wei

et al. 2012

New Zealand Journal of Crop and Horticultural Science

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The growth and antioxidant defence responses in wheat (Triticum aestivum L.) seedlings grown hydroponically with 0 (control), 10, 20, 40 and 80 mg L(1 of 1, 2, 4-trichlorobenzene (TCB) were examined to better understand plant physiological and biochemical responses to chlorinated benzenes. Fresh and dry shoot weight, chlorophyll and soluble protein contents decreased significantly with increasing TCB concentration. In contrast, the rate of production of O 2 -in the roots increased at lower TCB concentrations but decreased at higher concentrations. In addition, foliar electrolyte leakage and antioxidant defence activities increased linearly with increasing TCB concentration but were suppressed at higher concentrations in the roots. Taken together, the results support the hypothesis that antioxidant defence responses are an important component of plant responses to TCB, and oxidative damage appears to be a major factor leading to growth suppression in wheat exposed to higher TCB concentrations.

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Section: Discussionmentioning

confidence: 99%

Physiological and biochemical response of wheat seedlings to organic pollutant 1, 2, 4-trichlorobenzene

Zhang

Chu

Wei

et al. 2012

New Zealand Journal of Crop and Horticultural Science

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“…(MDA)含量 [31] , 单位为 nmol g -1 FW; 用羟氨氧化法 [32] 测诱导表达, 导致其受到的毒害作用小于宁粳 1 号。 TCB 对水稻苗期株高 [24] 、地上部生物量 [24] 和成熟期有效分蘖数 [37] 光系统 PSII 的潜在活性(F v /F o )、光化学猝灭系数(q P ) 及非光化学猝灭系数(q N )呈递减趋势; 杜青平、张波等 [5,38] 发现水稻和小麦幼苗叶片中叶绿素 a、b 和叶绿素总含量均随 TCB 浓度的增加而呈降低趋势。本研究表明, 低浓度 TCB 使分蘖盛期宁粳 1 号叶绿素含量比对照降低 3.4%, 而对扬辐粳 8 号却增加 0.2%。中高浓度的 TCB 胁迫使水稻光合器官受到伤害 [26] , 对两品种分蘖盛期的叶绿素含量均有极显著的抑制作用, 从而引起光合作用减弱, 干物重降低。蛋白质是植物生长发育、新陈代谢过程中的重要物质。已有研究表明 TCB 能诱导水稻和小麦幼苗蛋白质的表达 [23,39] , 主要包括解毒酶、细胞壁物质、激素、原初或次生代谢与调节等的相关酶, 进而导致植株体内蛋白质含量的增加 [25] 活性有所降低, 根系受到的伤害明显大于叶片 [5,25] 。张国良等 [22] 认为小麦敏感品种根系的SOD、POD活性在低浓度TCB胁迫下有所升高, 而CAT活性却显著降低。刘宛等 [20][21] 到诱导表达 [36] , 有利于清除活性氧和有毒物质、维持细胞结构的稳定, 进而增强植株的抗逆能力;…”

Section: 常被用作化学合成(农药、染料)的中间体、溶剂、卫unclassified

Effects of 1,2,4-trichlorobenzene on Growth and Physiological Characteristics of Rice at Maximum Tillering Stage

丁秀文¹,

张国良²,

戴其根³

et al. 2014

Acta Agronomica Sinica

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A soil culture experiment was conducted to study the effects of 1,2,4-trichlorobenzene (TCB) on morphological and physiological indexes of rice at maximum tillering stage, using rice cultivars of Ningjing 1 (TCB sensitive genotype) and Yangfujing 8 (TCB tolerant genotype), with four treatments of TCB concentrations including 0 (CK), 20, 40, and 60 mg kg -1 . The results indicated that the maximum root length, plant height, tillers per hill, shoot and root dry weight of Ningjing 1 were all decreased significantly (P<0.05) under different concentrations of TCB. Low TCB stress (20 mg kg -1 ) significantly increased Yangfujing 8's maximum root length, shoot and root dry weight, root activity (P<0.01), while medium and high TCB stresses (40 and 60 mg kg -1

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Calcium sensing and signaling in plants during metal/metalloid stress

Hasanzadeh

Hazrati

2021

Metal and Nutrient Transporters in Abiotic Stress

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Effects of 1,2,4-Trichlorobenzene and Mercury Ion Stress on Ca2+ Fluxion and Protein Phosphorylation in Rice

Cited by 3 publications

References 50 publications

Physiological and biochemical response of wheat seedlings to organic pollutant 1, 2, 4-trichlorobenzene

Physiological and biochemical response of wheat seedlings to organic pollutant 1, 2, 4-trichlorobenzene

Effects of 1,2,4-trichlorobenzene on Growth and Physiological Characteristics of Rice at Maximum Tillering Stage

Calcium sensing and signaling in plants during metal/metalloid stress

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