Proteomics

Dataset Information

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Identification of Cypermethrin Induced Proteins Changes in Green Algae by iTRAQ Quantitative Proteomics


ABSTRACT: Cypermethrin (CYP) is one of the most widely used pesticides in large scale for agricultural and domestic purpose and the residue often seriously affects aquatic system. Environmental pollutants induced protein changes in organisms could be detected by proteomics, leading to discovery of potential biomarkers and understanding of mode of action. While proteomics investigations of CYP stress in some animal models have been well studied, few reports about the effects of exposure to CYP on algae proteome were published. To determine CYP effect in algae, the impact of various dosages (0.001 µg/L, 0.01 µg/L and 1 µg/L) of CYP on green algae Chlorella Vulgaris for 24h and 96h were investigated by using iTRAQ quantitative proteomics technique. A total of 162 and 198 proteins were significantly altered after CYP exposure for 24h and 96h, respectively. Overview of iTRAQ results indicated that the influence of CYP on algae protein might be dosage-dependent. Functional analysis of differentially expressed proteins showed that CYP could induce protein alterations related to photosynthesis, stress responses and carbohydrates metabolism. This study provides a comprehensive view of complex mode of action of algae under CYP stress and highlights several potential biomarkers for further investigation of pesticides exposed plant and algae.

INSTRUMENT(S): TripleTOF 5600

ORGANISM(S): Chlorella Vulgaris (green Alga)

SUBMITTER: Yan Gao  

LAB HEAD: LI Fong Yau Sam

PROVIDER: PXD003521 | Pride | 2016-03-14

REPOSITORIES: Pride

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Publications

Identification of cypermethrin induced protein changes in green algae by iTRAQ quantitative proteomics.

Gao Yan Y   Lim Teck Kwang TK   Lin Qingsong Q   Li Sam Fong Yau SF  

Journal of proteomics 20160304


Cypermethrin (CYP) is one of the most widely used pesticides in large scale for agricultural and domestic purpose and the residue often seriously affects aquatic system. Environmental pollutant-induced protein changes in organisms could be detected by proteomics, leading to discovery of potential biomarkers and understanding of mode of action. While proteomics investigations of CYP stress in some animal models have been well studied, few reports about the effects of exposure to CYP on algae prot  ...[more]

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