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Publication Year: 2025

10,921 to 10,930 of 11,085 Results

S2_Mn4-XAS.absq.dat Jan 13, 2025 - Datasets for Mn X-ray absorption spectroscopy and quantum chemical calculations on the ammonia-treated S2 state of the oxygen-evolving complex Fixed Field Text Data - 70.0 KB - MD5: 47730284af7ca20e4e610b89c78e8bb5
S2_Mn4-XAS.absq.stk Jan 13, 2025 - Datasets for Mn X-ray absorption spectroscopy and quantum chemical calculations on the ammonia-treated S2 state of the oxygen-evolving complex application/hyperstudio - 11.4 KB - MD5: 2a53a67f64fe5fa5a83c7a852ff2f74a
S2-NH3_S2_difference-spectra_calc-vs-exp.txt Jan 13, 2025 - Datasets for Mn X-ray absorption spectroscopy and quantum chemical calculations on the ammonia-treated S2 state of the oxygen-evolving complex Plain Text - 75.6 KB - MD5: ac15a462fac4e9132261884e49c17b1f
S2-NH3_S2H_difference-spectra_calc-vs-exp.txt Jan 13, 2025 - Datasets for Mn X-ray absorption spectroscopy and quantum chemical calculations on the ammonia-treated S2 state of the oxygen-evolving complex Plain Text - 76.0 KB - MD5: 450e188f7d827c689c5069e48f062f7b
Reversible pH-Responsive Coacervate Formation in Lipid Vesicles Activates Dormant Enzymatic Reactions data Jan 9, 2025 Love, Celina; Steinkühler, Jan; Gonzales, David Thomas; Yandrapalli, Naresh; Robinson, Tom; Dimova, Rumina; Tang, T-Y Dora, 2025, "Reversible pH-Responsive Coacervate Formation in Lipid Vesicles Activates Dormant Enzymatic Reactions data", https://doi.org/10.17617/3.DC72LD, Edmond, V1 In situ, reversible coacervate formation within lipid vesicles represents a key step in the development of responsive synthetic cellular models. Herein, we exploit the pH responsiveness of a polycation above and below its pKa , to drive liquid-liquid phase separation, to form single coacervate droplets within lipid vesicles. The process is complete...
Figure1.tar.gz Jan 9, 2025 - Reversible pH-Responsive Coacervate Formation in Lipid Vesicles Activates Dormant Enzymatic Reactions data Gzip Archive - 989.7 MB - MD5: d4399618d529443395868d0aea4bf68e
Figure2.tar.gz Jan 9, 2025 - Reversible pH-Responsive Coacervate Formation in Lipid Vesicles Activates Dormant Enzymatic Reactions data Gzip Archive - 19.1 MB - MD5: 5413c1f448385bf77320c780c64b31f8
Figure3.tar.gz Jan 9, 2025 - Reversible pH-Responsive Coacervate Formation in Lipid Vesicles Activates Dormant Enzymatic Reactions data Gzip Archive - 485.0 MB - MD5: bd5c55a0ec0c9cd83d03b4e81459e6af
Figure4.tar.gz Jan 9, 2025 - Reversible pH-Responsive Coacervate Formation in Lipid Vesicles Activates Dormant Enzymatic Reactions data Gzip Archive - 11.1 GB - MD5: e0fb62f90b6398ff28a9663be6aa22056bbe69e6
SI.tar.gz Jan 9, 2025 - Reversible pH-Responsive Coacervate Formation in Lipid Vesicles Activates Dormant Enzymatic Reactions data Gzip Archive - 6.5 GB - MD5: 7fc31d1d86b902f8c881a09011c3e0f12afba3cd

S2_Mn4-XAS.absq.dat

Jan 13, 2025 - Datasets for Mn X-ray absorption spectroscopy and quantum chemical calculations on the ammonia-treated S2 state of the oxygen-evolving complex

Fixed Field Text Data - 70.0 KB -

S2_Mn4-XAS.absq.stk

Jan 13, 2025 - Datasets for Mn X-ray absorption spectroscopy and quantum chemical calculations on the ammonia-treated S2 state of the oxygen-evolving complex

application/hyperstudio - 11.4 KB -

S2-NH3_S2_difference-spectra_calc-vs-exp.txt

Jan 13, 2025 - Datasets for Mn X-ray absorption spectroscopy and quantum chemical calculations on the ammonia-treated S2 state of the oxygen-evolving complex

Plain Text - 75.6 KB -

S2-NH3_S2H_difference-spectra_calc-vs-exp.txt

Jan 13, 2025 - Datasets for Mn X-ray absorption spectroscopy and quantum chemical calculations on the ammonia-treated S2 state of the oxygen-evolving complex

Plain Text - 76.0 KB -

Reversible pH-Responsive Coacervate Formation in Lipid Vesicles Activates Dormant Enzymatic Reactions data

Jan 9, 2025

Love, Celina; Steinkühler, Jan; Gonzales, David Thomas; Yandrapalli, Naresh; Robinson, Tom; Dimova, Rumina; Tang, T-Y Dora, 2025, "Reversible pH-Responsive Coacervate Formation in Lipid Vesicles Activates Dormant Enzymatic Reactions data", https://doi.org/10.17617/3.DC72LD, Edmond, V1

In situ, reversible coacervate formation within lipid vesicles represents a key step in the development of responsive synthetic cellular models. Herein, we exploit the pH responsiveness of a polycation above and below its pKa , to drive liquid-liquid phase separation, to form single coacervate droplets within lipid vesicles. The process is complete...

Figure1.tar.gz

Jan 9, 2025 - Reversible pH-Responsive Coacervate Formation in Lipid Vesicles Activates Dormant Enzymatic Reactions data

Gzip Archive - 989.7 MB -

Figure2.tar.gz

Jan 9, 2025 - Reversible pH-Responsive Coacervate Formation in Lipid Vesicles Activates Dormant Enzymatic Reactions data

Gzip Archive - 19.1 MB -

Figure3.tar.gz

Jan 9, 2025 - Reversible pH-Responsive Coacervate Formation in Lipid Vesicles Activates Dormant Enzymatic Reactions data

Gzip Archive - 485.0 MB -

Figure4.tar.gz

Jan 9, 2025 - Reversible pH-Responsive Coacervate Formation in Lipid Vesicles Activates Dormant Enzymatic Reactions data

Gzip Archive - 11.1 GB -