Proteomics

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The protein expression of Chlamydomonas responds to norflurazon in both treated and non-treated conditions.


ABSTRACT: Microalgae, particularly Chlamydomonas, produce valuable pigments like chlorophylls and carotenoids for industrial applications while demonstrating potential in bioremediation. This study employs proteomics to analyze protein expression patterns between norflurazon-resistant and non-resistant Chlamydomonas strains. The investigation aims to understand the molecular mechanisms underlying herbicide resistance, focusing on differential protein expression when exposed to norflurazon, a commonly used herbicide in weed control. This research could provide insights into both bioremediation capabilities and herbicide resistance mechanisms in microalgae.

ORGANISM(S): Chlamydomonas Reinhardtii

SUBMITTER: Kantinan Leetanasaksakul 

PROVIDER: PXD057458 | JPOST Repository | Thu Nov 21 00:00:00 GMT 2024

REPOSITORIES: jPOST

Dataset's files

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Action DRS
4A_0um-1_1.index Other
4A_0um-1_1.wiff Wiff
4A_0um-1_1.wiff.scan Wiff
4A_0um-1_1.wiff2 Wiff
4A_0um-1_2.index Other
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