# Fileset

[Supporting_information.pdf](https://mdr.nims.go.jp/filesets/e6346989-ea61-4f60-a070-6b63dee4864d/download)

## Creator

[Chiho Kataoka-Hamai](https://orcid.org/0000-0002-4068-0405)

## Rights

[Creative Commons BY Attribution 4.0 International](https://creativecommons.org/licenses/by/4.0/)

## Other metadata

[Triacylglycerol-droplet-induced bilayer spontaneous curvature in giant unilamellar vesicles](https://mdr.nims.go.jp/datasets/5d6b896c-bf82-4047-a273-56ed6c4267d6)

## Fulltext

Microsoft Word - Supporting_informationTable S1. Vesicle radii (Rv) of unilamellar vesicles incorporating TAG droplets. PC TAG Rv (± standard error) (μm)  18:1 14:1 3.79 (± 0.26) (N = 30)  16:1 3.50 (± 0.18) (N = 18)  18:1 3.63 (± 0.23) (N = 19)  20:1 3.76 (± 0.23) (N = 24) 16:0–18:1 14:1 3.31 (± 0.22) (N = 19)  16:1 3.11 (± 0.23) (N = 23)  18:1 3.36 (± 0.31) (N = 21)  20:1 4.02 (± 0.66) (N = 9) 16:1 14:1 3.16 (± 0.12) (N = 35)  16:1 3.12 (± 0.14) (N = 23)  18:1 2.80 (± 0.24) (N = 16)  20:1 2.75 (± 0.16) (N = 31) 14:1 14:1 4.28 (± 0.33) (N = 31)  16:1 3.82 (± 0.60) (N = 11)  18:1 4.79 (± 0.37) (N = 13)  20:1 4.22 (± 0.36) (N = 9)  Table S2. Size parameters (R0) of the vesicles consisting of single-bilayer and double-bilayer segments. The R0 values were calculated by assuming that the vesicles had a total bilayer surface area of 4πR02.      PC TAG R0 (± standard error) (μm)  18:1 14:1 5.82 (± 0.85) (N = 4)  16:1 5.53 (± 0.50) (N = 14)  18:1 5.99 (± 0.45) (N = 17)  20:1 7.27 (± 0.58) (N = 16) 16:0–18:1 14:1 6.01 (± 0.63) (N = 13)  16:1 6.40 (± 0.72) (N = 15)  18:1 3.56  (N = 1)  20:1 5.25 (± 0.57) (N = 7) 16:1 14:1 3.62 (± 0.07) (N = 2)  16:1 4.90 (± 0.34) (N = 21)  18:1 5.42 (± 0.41) (N = 12)  20:1 4.31 (± 0.30) (N = 19) 14:1 14:1 5.08 (± 0.80)  (N = 4)  16:1 5.39 (± 0.32) (N = 18)  18:1 7.54 (± 0.47)  (N = 39)  20:1 5.49 (± 0.34) (N = 20)