2020
DOI: 10.1101/2020.03.18.996223
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A Data-Independent-Acquisition-based proteomic approach towards understanding the acclimation strategy ofMicrochloropsis gaditanaCCMP526 in hypersaline conditions

Anbarasu Karthikaichamy
1
,
John Beardall
2
,
Ross L. Coppel
3
et al.

Abstract: Salinity is one of the significant factors that affect growth and cellular metabolism, including photosynthesis and lipid accumulation, in microalgae and higher plants. Microchloropsis gaditana CCMP526 can acclimatize to different salinity levels by accumulating compatible solutes, carbohydrates, and lipids as an energy storage molecule. We used proteomics to understand the molecular basis for acclimation of M. gaditana to increased salinity levels (55 and 100 PSU (Practical Salinity Unit). Correspondence anal… Show more

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Temporal transcriptome profiling ofMicrochloropsis gaditanaCCMP526 under hyper-saline conditions

Karthikaichamy
1
,
Beardall
2
,
Coppel
3
et al. 2020
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Temporal transcriptome profiling ofMicrochloropsis gaditanaCCMP526 under hyper-saline conditions

Karthikaichamy
1
,
Beardall
2
,
Coppel
3
et al. 2020
Preprint
Self Cite
1
1
5
0
View full textAdd to dashboardCite
show abstract
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