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. 2020 Jul 9;14(7):e0008458. doi: 10.1371/journal.pntd.0008458

Table 1. Summary of the impact of cytoplasmic lysine mutagenesis on TbAQP2 localisation and function.


Protein

Localisation

Protein abundance post-CHX2

Proposed degradation pathway
EC50 pentamidine (nM)3
EC50 SHAM (μM)3

EC50 SHAM + 5 mM glycerol (μM)3
Untreated + MG132
AQP2WT Flagellar pocket 61.05 ± 3.43% 44.42 ± 13.15% Lysosome 3.29 1.96 1.16
1AQP2R19K Endoplasmic reticulum 14.42 ± 9.5% 16.11 ± 7.1% ERAD1 51.18 1.92 1.12
AQP2R45K Endoplasmic reticulum 1.3 ± 0.93% 34.3 ± 4.65% ERAD 43.16 1.99 2.36
AQP2R54K Endoplasmic reticulum 10.84 ± 0.5% 41.05 ± 12.5% ERAD 43.10 2.10 2.38
AQP2R234K Endoplasmic reticulum 7.67 ± 1.9% 24.91 ± 5.12% ERAD 39.95 1.28 2.34
AQP23K>R Endoplasmic reticulum 5.16 ± 0.62% 46.18 ± 5.95% ERAD 27.20 10.10 10.14
AQP25K>R Endoplasmic reticulum 16.8 ± 6.2% 37.5 ± 9.5% ERAD 41.98 1.34 1.25

1AQP2R19K did not show a significant accumulation upon MG132 treatment, but co-localized with TbBiP, indicating probable ERAD-mediated turnover.

2Protein abundance was calculated 2h post-treatment with cycloheximide (CHX) and expressed as percent of protein abundance compared to protein signal before treatment (“time 0h”).

3Estimated EC50 values from cells induced with tetracycline, 1 μg/ml for 24h.