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Toxic Effects of Ethyl Cinnamate on the Photosynthesis and Physiological Characteristics of Chlorella vulgaris Based on Chlorophyll Fluorescence and Flow Cytometry Analysis (2015)

Yang Jiao, Hui-Ling Ouyang, Yu-Jiao Jiang, Xiang-Zhen Kong, Wei He, Wen-Xiu Liu, Bin Yang, and Fu-Liu Xu

Hindawi

In: Scientific World Journal

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Publication Date: 2015-05-26

Description: The toxic effects of ethyl cinnamate on the photosynthetic and physiological characteristics of Chlorella vulgaris were studied based on chlorophyll fluorescence and flow cytometry analysis. Parameters, including biomass, (maximal photochemical efficiency of PSII), ФPSII (actual photochemical efficiency of PSII in the light), FDA, and PI staining fluorescence, were measured. The results showed the following: (1) The inhibition on biomass increased as the exposure concentration increased. 1 mg/L ethyl cinnamate was sufficient to reduce the total biomass of C. vulgaris. The 48-h and 72-h EC50 values were 2.07 mg/L (1.94–2.20) and 1.89 mg/L (1.82–1.97). (2) After 24 h of exposure to 2–4 mg/L ethyl cinnamate, the photosynthesis of C. vulgaris almost ceased, manifesting in ФPSII being close to zero. After 72 h of exposure to 4 mg/L ethyl cinnamate, the of C. vulgaris dropped to zero. (3) Ethyl cinnamate also affected the cellular physiology of C. vulgaris, but these effects resulted in the inhibition of cell yield rather than cell death. Exposure to ethyl cinnamate resulted in decreased esterase activities in C. vulgaris, increased average cell size, and altered intensities of chlorophyll a fluorescence. Overall, esterase activity was the most sensitive variable.

Electronic ISSN: 1537-744X

Topics: Natural Sciences in General

Published by Hindawi

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Characterization of Cellulose Synthesis in Plant Cells (2016)

Samaneh Sadat Maleki, Kourosh Mohammadi, and Kong-shu Ji

Hindawi

In: Scientific World Journal

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Publication Date: 2016-05-26

Description: Cellulose is the most significant structural component of plant cell wall. Cellulose, polysaccharide containing repeated unbranched β (1-4) D-glucose units, is synthesized at the plasma membrane by the cellulose synthase complex (CSC) from bacteria to plants. The CSC is involved in biosynthesis of cellulose microfibrils containing 18 cellulose synthase (CesA) proteins. Macrofibrils can be formed with side by side arrangement of microfibrils. In addition, beside CesA, various proteins like the KORRIGAN, sucrose synthase, cytoskeletal components, and COBRA-like proteins have been involved in cellulose biosynthesis. Understanding the mechanisms of cellulose biosynthesis is of great importance not only for improving wood production in economically important forest trees to mankind but also for plant development. This review article covers the current knowledge about the cellulose biosynthesis-related gene family.

Electronic ISSN: 1537-744X

Topics: Natural Sciences in General

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Characterization of Cellulose Synthesis in Plant Cells (2016)

Maleki, Samaneh Sadat ; Mohammadi, Kourosh ; Ji, Kong-shu

Hindawi

In: The Scientific World Journal. 2016; 2016: 1-8. Published 2016 Jan 01. doi: 10.1155/2016/8641373.

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Publication Date: 2016-01-01

Description: Cellulose is the most significant structural component of plant cell wall. Cellulose, polysaccharide containing repeated unbranchedβ(1-4) D-glucose units, is synthesized at the plasma membrane by the cellulose synthase complex (CSC) from bacteria to plants. The CSC is involved in biosynthesis of cellulose microfibrils containing 18 cellulose synthase (CesA) proteins. Macrofibrils can be formed with side by side arrangement of microfibrils. In addition, beside CesA, various proteins like the KORRIGAN, sucrose synthase, cytoskeletal components, and COBRA-like proteins have been involved in cellulose biosynthesis. Understanding the mechanisms of cellulose biosynthesis is of great importance not only for improving wood production in economically important forest trees to mankind but also for plant development. This review article covers the current knowledge about the cellulose biosynthesis-related gene family.

Print ISSN: 2356-6140

Electronic ISSN: 1537-744X

Topics: Natural Sciences in General

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Toxic Effects of Ethyl Cinnamate on the Photosynthesis and Physiological Characteristics ofChlorella vulgarisBased on Chlorophyll Fluorescence and Flow Cytometry Analysis (2015)

Jiao, Yang ; Ouyang, Hui-Ling ; Jiang, Yu-Jiao ; [et al.]

Hindawi

In: The Scientific World Journal. 2015; 2015: 1-12. Published 2015 Jan 01. doi: 10.1155/2015/107823.

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Publication Date: 2015-01-01

Description: The toxic effects of ethyl cinnamate on the photosynthetic and physiological characteristics ofChlorella vulgariswere studied based on chlorophyll fluorescence and flow cytometry analysis. Parameters, including biomass,Fv/Fm(maximal photochemical efficiency of PSII), ФPSII(actual photochemical efficiency of PSII in the light), FDA, and PI staining fluorescence, were measured. The results showed the following: (1) The inhibition on biomass increased as the exposure concentration increased. 1 mg/L ethyl cinnamate was sufficient to reduce the total biomass ofC. vulgaris. The 48-h and 72-h EC50 values were 2.07 mg/L (1.94–2.20) and 1.89 mg/L (1.82–1.97). (2) After 24 h of exposure to 2–4 mg/L ethyl cinnamate, the photosynthesis ofC. vulgarisalmost ceased, manifesting in ФPSIIbeing close to zero. After 72 h of exposure to 4 mg/L ethyl cinnamate, theFv/FmofC. vulgarisdropped to zero. (3) Ethyl cinnamate also affected the cellular physiology ofC. vulgaris, but these effects resulted in the inhibition of cell yield rather than cell death. Exposure to ethyl cinnamate resulted in decreased esterase activities inC. vulgaris, increased average cell size, and altered intensities of chlorophyll a fluorescence. Overall, esterase activity was the most sensitive variable.

Print ISSN: 2356-6140

Electronic ISSN: 1537-744X

Topics: Natural Sciences in General

Published by Hindawi

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