Rationally Engineered Tandem Facial Amphiphiles for Improved Membrane Protein Stabilization Efficacy

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Rationally Engineered Tandem Facial Amphiphiles for Improved Membrane Protein Stabilization Efficacy. / Das, Manabendra; Du, Yang; Mortensen, Jonas S.; Hariharan, Parameswaran; Lee, Hyun Sung; Byrne, Bernadette; Loland, Claus J.; Guan, Lan; Kobilka, Brian K.; Chae, Pil Seok.

In: ChemBioChem, Vol. 19, No. 20, 2018, p. 2225-2232.

Research output: Contribution to journalJournal articleResearchpeer-review

Harvard

Das, M, Du, Y, Mortensen, JS, Hariharan, P, Lee, HS, Byrne, B, Loland, CJ, Guan, L, Kobilka, BK & Chae, PS 2018, 'Rationally Engineered Tandem Facial Amphiphiles for Improved Membrane Protein Stabilization Efficacy', ChemBioChem, vol. 19, no. 20, pp. 2225-2232. https://doi.org/10.1002/cbic.201800388

APA

Das, M., Du, Y., Mortensen, J. S., Hariharan, P., Lee, H. S., Byrne, B., Loland, C. J., Guan, L., Kobilka, B. K., & Chae, P. S. (2018). Rationally Engineered Tandem Facial Amphiphiles for Improved Membrane Protein Stabilization Efficacy. ChemBioChem, 19(20), 2225-2232. https://doi.org/10.1002/cbic.201800388

Vancouver

Das M, Du Y, Mortensen JS, Hariharan P, Lee HS, Byrne B et al. Rationally Engineered Tandem Facial Amphiphiles for Improved Membrane Protein Stabilization Efficacy. ChemBioChem. 2018;19(20):2225-2232. https://doi.org/10.1002/cbic.201800388

Author

Das, Manabendra ; Du, Yang ; Mortensen, Jonas S. ; Hariharan, Parameswaran ; Lee, Hyun Sung ; Byrne, Bernadette ; Loland, Claus J. ; Guan, Lan ; Kobilka, Brian K. ; Chae, Pil Seok. / Rationally Engineered Tandem Facial Amphiphiles for Improved Membrane Protein Stabilization Efficacy. In: ChemBioChem. 2018 ; Vol. 19, No. 20. pp. 2225-2232.

Bibtex

@article{434daf203bb144dc9dc064e38ea62704,
title = "Rationally Engineered Tandem Facial Amphiphiles for Improved Membrane Protein Stabilization Efficacy",
abstract = "A new family of tandem facial glucosides/maltosides (TFGs/TFMs) for membrane protein manipulation was prepared. The best detergent varied depending on the hydrophobic thickness of the target protein, but ether-based TFMs (TFM-C0E, TFM-C3E, and TFM-C5E) were notable for their ability to confer higher membrane protein stability than the previously developed amide-based TFA-1 (P. S. Chae, K. Gotfryd, J. Pacyna, L. J. W. Miercke, S. G. F. Rasmussen, R. A. Robbins, R. R. Rana, C. J. Loland, B. Kobilka, R. Stroud, B. Byrne, U. Gether, S. H. Gellman, J. Am. Chem. Soc. 2010, 132, 16750–16752). Thus, this study not only introduces novel agents with the potential to be used in membrane protein research but also highlights the importance of both the hydrophobic length and linker functionality of the detergent in stabilizing membrane proteins.",
keywords = "amphiphiles, detergent design, detergent faciality, protein stabilization, protein structures",
author = "Manabendra Das and Yang Du and Mortensen, {Jonas S.} and Parameswaran Hariharan and Lee, {Hyun Sung} and Bernadette Byrne and Loland, {Claus J.} and Lan Guan and Kobilka, {Brian K.} and Chae, {Pil Seok}",
year = "2018",
doi = "10.1002/cbic.201800388",
language = "English",
volume = "19",
pages = "2225--2232",
journal = "ChemBioChem",
issn = "1439-4227",
publisher = "Wiley - V C H Verlag GmbH & Co. KGaA",
number = "20",

}

RIS

TY - JOUR

T1 - Rationally Engineered Tandem Facial Amphiphiles for Improved Membrane Protein Stabilization Efficacy

AU - Das, Manabendra

AU - Du, Yang

AU - Mortensen, Jonas S.

AU - Hariharan, Parameswaran

AU - Lee, Hyun Sung

AU - Byrne, Bernadette

AU - Loland, Claus J.

AU - Guan, Lan

AU - Kobilka, Brian K.

AU - Chae, Pil Seok

PY - 2018

Y1 - 2018

N2 - A new family of tandem facial glucosides/maltosides (TFGs/TFMs) for membrane protein manipulation was prepared. The best detergent varied depending on the hydrophobic thickness of the target protein, but ether-based TFMs (TFM-C0E, TFM-C3E, and TFM-C5E) were notable for their ability to confer higher membrane protein stability than the previously developed amide-based TFA-1 (P. S. Chae, K. Gotfryd, J. Pacyna, L. J. W. Miercke, S. G. F. Rasmussen, R. A. Robbins, R. R. Rana, C. J. Loland, B. Kobilka, R. Stroud, B. Byrne, U. Gether, S. H. Gellman, J. Am. Chem. Soc. 2010, 132, 16750–16752). Thus, this study not only introduces novel agents with the potential to be used in membrane protein research but also highlights the importance of both the hydrophobic length and linker functionality of the detergent in stabilizing membrane proteins.

AB - A new family of tandem facial glucosides/maltosides (TFGs/TFMs) for membrane protein manipulation was prepared. The best detergent varied depending on the hydrophobic thickness of the target protein, but ether-based TFMs (TFM-C0E, TFM-C3E, and TFM-C5E) were notable for their ability to confer higher membrane protein stability than the previously developed amide-based TFA-1 (P. S. Chae, K. Gotfryd, J. Pacyna, L. J. W. Miercke, S. G. F. Rasmussen, R. A. Robbins, R. R. Rana, C. J. Loland, B. Kobilka, R. Stroud, B. Byrne, U. Gether, S. H. Gellman, J. Am. Chem. Soc. 2010, 132, 16750–16752). Thus, this study not only introduces novel agents with the potential to be used in membrane protein research but also highlights the importance of both the hydrophobic length and linker functionality of the detergent in stabilizing membrane proteins.

KW - amphiphiles

KW - detergent design

KW - detergent faciality

KW - protein stabilization

KW - protein structures

U2 - 10.1002/cbic.201800388

DO - 10.1002/cbic.201800388

M3 - Journal article

C2 - 30070754

AN - SCOPUS:85053614521

VL - 19

SP - 2225

EP - 2232

JO - ChemBioChem

JF - ChemBioChem

SN - 1439-4227

IS - 20

ER -

ID: 209802023