[83] L. Ghani, S. Kim, H. Wang, H. S. Lee, J. S. Mortensen, S. Katsube, Y. Du, A. Sadaf, W. Ahmed, B. Byrne, L. Guan, C. J. Loland, B. K. Kobilka, W. Im,  P. S. Chae* “Foldable detergents for membrane protein study: Importance of detergent core flexibility in protein stabilization” Chem. Eur. J.  2022, 28, e202200116 (Corresponding author, IF = 5.020).

​

[82] H. J. Lee, H. S. Lee, T. Youn, B. Byrne, P. S. Chae* “Impact of novel detergents on membrane protein studies" Chem 2022, 8, 980-1013 (Corresponding author, IF = 25.832).  

​

[81] M. Ehsan, H. Wang, S. Katsube, C.F. Munk, Y. Du, T. Youn, S. Yoon, B. Byrne, C. J. Loland, L. Guan, B. K. Kobilka, P. S. Chae* “Glyco-steroidal amphiphiles (GSAs) for membrane protein structural study" ChemBioChem 2022, 23, e202200027 (Corresponding author, IF = 3.461). 

 

[80] A. Kumar,* S. Kumar, P. S. Chae*, “A Chromo-Fluorogenic Naphthoquinolinedione-Based Probe for Dual Detection of Cu2+ and Its Use for Various Water Samples" Molecules 2022, 27, 785 (Corresponding author, IF = 4.927)

 

[79]  A. Kumar,* W. Hur, G. H. Seong, S. Kumar, P. S. Chae*, “Chromofluorogenic naphthoquinolinedione-based probes for sensitive detection and removal of Hg2+ in aqueous solutions" Dyes & Pigments 2022,198, 110025 (Corresponding author, IF = 5.122)

​

2021

​

[78] M. Ehsan, H. Wang, C. Cecchetti, Y. Du, J. S. Mortensen, P. Hariharan, A. Nygaard, H. J. Lee, L. Ghani, L. Guan, C. J. Loland, B. Byrne, B. K. Kobilka, P. S. Chae* “Maltoside-bis(hydroxymethyl)phenol (MBPs) and Maltose tris(hydroxymethyl)phenol (MTPs) amphiphiles for membrane protein stability" ACS Chem. Biol. 2021, 16, 1779-1790 (Corresponding author, IF = 5.100).  

 

[77] A. Sadaf, S.-H. Kim, H. E. Bae, H. Wang, A. Nygaard, Y. Uegaki, Y. Du, C. F. Munk, S. Katsube, H. S. Lee, J.-N. Bae, C. W. Choi, H.-J. Choi, B. Byrne, S. H. Gellman, L. Guan, C. J. Loland, B. K. Kobilka, W.-P. Im, P. S. Chae* “Conformationally flexible core-bearing detergents with a hydrophobic or hydrophilic pendant: Effect of pendant polarity on detergent conformation and membrane protein stability" Acta Biomaterialia  2021,128, 393-407 (Corresponding author, IF = 10.633).  

 

[76]  A. Kumar,* W. Hur, G. H. Seong, P. S. Chae*, “Sensitive detection of DMSO/DMF in water, human urine and blood plasma using novel 1,8-naphthalimide-based amphiphilic spectroscopic probes" Dyes & Pigments 2021,189, 109240 (Corresponding author, IF = 4.889)

​

2020

​

[75] M. Das, F. Mahler, P. Hariharan, H. Wang, Y. Du, J. S. Mortensen, E. Perez, L. Ghani, D. Gluck, H. J. Lee, B. Byrne, C. J. Loland, L. Guan, Brian. K. Kobilka, S. Keller, P. S. Chae* “Diastereomeric Cyclopentane-based Maltosides (CPMs) as Tools for Membrane Protein Study" J. Am. Chem. Soc. 2020, 142, 21382-21392 (corresponding author, IF = 14.612).

 

[74] A. Kumar,* S. Kumar,*  P. S. Chae*, “A novel anthrapyridone diamine-based probe for selective and distinctive Cu2+ and Hg2+ sensing in aqueous solution; utility as molecular logic gates" Dyes & Pigments 2020,181, 108522 (Corresponding author, IF = 4.613)

​

[73] H. E. Bae, C. Cecchetti, Y. Du, S. Katsube, J. S. Mortensen, W. Huang, S. Rehan, H. J. Lee, C. J. Loland, L. Guan, B. K. Kobilka, B. Byrne, P. S. Chae* “Pendant-bearing glucose-neopentyl glycol (P-GNG) amphiphiles for membrane protein manipulation: Importance of detergent pendant chain for protein stabilization” Acta Biomaterialia  2020,112, 250-261 (Corresponding author, IF = 8.947).  

​

[72] B. Choi, M. Cha, G. S. Eun, D. H. Lee, S. Lee, M. Ehsan, P. S. Chae, W. D. Heo, Y.-K. Park, T.-Y. Yoon “Single-molecule functional anatomy of endogenous HER2-HER3 heterodimers" eLife 2020,9, e53934 (IF = 7.080)  

​

[71] M. Ehsan, S. Katsube, C. Cecchetti, Y. Du, J. S. Mortensen, Haoqing Wang, A. Nygaard, L. Ghani, C. J. Loland, B. K. Kobilka, B. Byrne, L. Guan, P. S. Chae* “New malonate-derived tetraglucoside detergents for membrane protein stability” ACS Chem. Biol.  2020, 15, 1697-1707 (Corresponding author, IF = 4.434).

​

[70]  A. Kumar,* P. S. Chae,*  S. Kumar,* “A dual-responsive anthrapyridone-triazole-based probe for selective detection of Ni2+ and Cu2+: A mimetic system for molecular logic gates based on color change” Dyes & Pigments 2020, 174, 1080092 (Corresponding author, IF = 4.613).

​

[69]  A. Kumar,* V.  Vanita, A. Walia, P. S. Chae*,  S. Kumar,* “Pyridoanthrone-based chromo-fluorigenic amphiphiles for selective CN- detection and their bioimaging application” Sensors & Actuators B: Chemical  2020, 304, 127396 (Corresponding author, IF = 7.100).

​

2019

​

[68] L. Ghani, C. F. Munk, X. Zhang, S. Katsube, Y. Du, C. Cecchetti, W. Huang, H. E. Bae, S. Saourous, M. Ehsan, L. Guan, X. Liu, C. J. Loland, B. K. Kobilka, B. Byrne, P. S. Chae* “1,3,5-Triazine-cored maltoside amphiphiles for membrane protein extraction and stabilization” J. Am. Chem. Soc. 2019, 141, 19677-19687 (corresponding author, IF = 14.695).

​

[67] M. Ehsan, Y. Du, P. Hariharan, KJ. S. Mortensen, P. Hariharan, Q. Qu, L. Ghani, M. Das, A. Grethen, B. Byrne, G. Skiniotis, S. Keller, C. J. Loland, L. Guan, B. K. Kobilka, P. S. Chae* “Self‐Assembly Behavior and Application of Terphenyl‐Cored Trimaltosides for Membrane‐Protein Studies: Impact of Detergent Hydrophobic Group Geometry on Protein Stability” Chem. Eur. J.  2019, 25, 11545-11554 (Corresponding author, IF = 5.2).

[66] A. Sadaf, M. Ramos, J. S. Mortensen, Y. Du, H. E. Bae, C. F. Munk, P. Hariharan, B. Byrne, B. K. Kobilka, C. J. Loland, L. Guan, P. S. Chae* “Conformationally restricted monosaccharide-cored glycoside amphiphiles: the effect of detergent head group variation on membrane protein stability” ACS Chem. Biol.  2019, 14, 1717-1726 (Corresponding author, IF = 4.7).

​

[65] M. Ehsan, A. Kumar, J. S. Mortensen, Y. Du, P. Hariharan, K. K. Kumar, B. Ha, B. Byrne, L. Guan, B. K. Kobilka, C. J. Loland, P. S. Chae* “Self‐Assembly Behaviors of a Penta‐Phenylene Maltoside and Its Application for Membrane Protein Study” Chem. Asian. J.  2019, 14, 1926-1931 (Corresponding author, IF = 3.7).

​

[64] M. Das, Y. Du, J. S. Mortensen, M. Ramos, L. Ghani, H. J. Lee, H. E. Bae, B. Byrne, L. Guan, C. J. Loland, B. K. Kobilka, P. S. Chae* “Trehalose-cored amphiphiles for membrane protein stabilization: importance of the detergent micelle size in GPCR stability” Org. Biomol. Chem. 2019, 17, 3249-3257 (Corresponding author, IF = 3.5).

​

[63]  A. Kumar*, P. S. Chae* “Fluorescence tunable thiophene-bis(benzimidazole)-based probes forcascade detection of Hg2+ and lysine: a molecular switch mimic” Sensors & Actuators B: Chemical 2019, 281, 933-944 (Corresponding author, IF = 5.66)

​

[62]  E. Jeong, S. Yoon, H. S. Lee, A. Kumar*, P. S. Chae* “TURN-ON fluorescence detection of cyanide using an ensemble system
consisting of a dansyl-based cationic probe and dicyanovinyl derivative” Dyes & Pigments 2019, 162, 348-357 (Corresponding author, IF = 4.0).

​

[61] H. E. Bae, Y. Du, P. Hariharan, J. S. Mortensen, K. K. Kumar, B. Ha., M. Das., H. S. Lee, C. J. Loland, L. Guan, B. K. Kobilka, P. S. Chae* “Asymmetric maltose neopentyl glycol amphiphiles for membrane protein study: Effect of detergent asymmetricity on protein stability” Chem. Sci.  2019,10, 1107-1116 (Corresponding author, IF = 9.6).

​

2018

​

[60] H. Hussain, T. Helton, Y. Du, J. S. Mortensen, P. Hariharan, M. Ehsan, B. Byrne, C. J. Loland, B. K. Kobilka, L. Guan, P. S. Chae*, “A comparative study of branched and linear mannitol-based amphiphiles on membrane protein stability” Analyst 2018, 142, 3889-3898 (Corresponding author, IF = 4.0).

 

[59] M. Das, Y. Du, J. S. Mortensen, P. Hariharan, H. S. Lee, B. Byrne, C. J. Loland, L. Guan, B. K. Kobilka, P. S. Chae* “Rationally engineered tandem facial amphiphiles for improved membrane protein stabilization efficacy" ChemBioChem 2018, 19, 2225-2232 (Corresponding author, IF = 2.8).

​

[58] M. Das, Y. Du, J. S. Mortensen, H. E. Bae, B. Byrne, C. J. Loland, B. K. Kobilka, P. S. Chae* “An engineered lithocholate‐based facial amphiphile stabilizes membrane proteins: assessing the impact of detergent customizability on protein stability” Chem. Eur. J. 2018, 24, 9860-9868 (Corresponding author, IF = 5.3).

​

[57] M. Ehsan, M. Das, V. Stern, Y. Du, J. S. Mortensen, P. Hariharan, B. Byrne, C. J. Loland, B. K. Kobilka, L. Guan, P. S. Chae* “Steroid-based amphiphiles for membrane protein study: Importance of alkyl spacer for protein stability”  ChemBioChem 2018, 19, 1433-1443 (Corresponding author, IF = 2.8).

​

[56] A. Kumar*, P. S. Chae*, “Aggregation induced emission enhancement behavior of conformationally rigid pyreneamide-based probe for ultra-trace detection of picric acid (PA)” Dyes & Pigments 2018, 156, 307-317(Corresponding author, IF = 4.0).

​

[55] M. Ehsan, Y. Du, I. Molist, A. B. Seven, P. Hariharan, J. S. Mortensen, L. Ghani, C. J. Loland, G. Skiniotis, L. Guan, B. Byrne, B. K. Kobilka, P. S. Chae* “Vitamin-E-based glycoside amphiphiles for membrane protein structural studies” Org. Biomol. Chem 2018, 16, 2489-2498 (Corresponding author, IF = 3.5).

​

2017

​

[54] A. Sadaf, Y. Du, C. Santillan, J. S. Mortensen, I. Molist, A. B. Seven, P. Hariharan, G. Skiniotis, C. J. Loland, B. K. Kobilka, L. Guan, B. Byrne, P. S. Chae* “Dendronic trimaltoside amphiphiles (DTMs) for membrane protein study” Chem. Sci.  2017, 8, 8315-8324 (Corresponding author, IF = 9.0).

​

[53] A. Kumar*, P. S. Chae*, “Pyreneamide-based dipodal probes for ultra-sensitive and selective detection of 3,5-dinitrosalicylic acid in an aqueous solution” Dyes and Pigments 2017, 147, 400-412 (Corresponding author, IF = 4.0).

​

[52] M. Ehsan, L. Ghani, Y. Du, P. Hariharan, J. S. Mortensen, O. Ribeiro, H. Hu, G. Skiniotis, C. J. Loland, B. K. Kobilka, B. Byrne, P. S. Chae* “New Penta-saccharide-bearing tripod amphiphiles for membrane protein studies” Analyst 2017, 142, 3889-3898 (Corresponding author, IF = 4.0).

[51] A. Kumar*, P. S. Chae*, “A simple and dual responsive ultrasensitive thioether-functionalized pyrenesulfonamide for the cascade detection of mercury ion and dithiouracil, a mimetic system for molecular logic gates” Sensors & Actuators B: Chemical 2017, 251, 416-426 (Corresponding author, IF = 5.66).

​

[50] H. Hussain, J. S. Mortensen, Y. Du, C. Santillan, O. Ribeiro, J. Go, P. Hariharan, C. J. Loland, L. Guan, B. K. Kobilka, B. Byrne, P. S. Chae*, “Tandem malonate-based glucosides (TMGs) for membrane protein structural studies” Sci. Rep. 2017, 7, 3963.

​

[49] M. Das, Y. Du, O. Ribeiro, P. Hariharan, J. S. Mortensen, D. Patra, G. Skiniotis, C. J. Loland, L. Guan, B. K. Kobilka, B. Byrne, P. S. Chae*, “Conformationally preorganized diastereomeric norbornane-based maltosides (NBMs) for membrane protein study: Implications of detergent kink for micellar properties” J. Am. Chem. Soc. 2017, 139, 3072-3081. (Corresponding author, IF = 14.3).

​

[48] A. Kumar*, P. S. Chae*, “Electronically tuned sulfonamide-based probes with ultra-sensitivity for Ga3+ or Al3+ detection in aqueous solution” Anal. Chim. Acta 2017, 958, 38-50. (Corresponding author, IF = 4.7).

​

[47] H. Hussain, Y. Du, E. Tikhonova, J. S. Mortensen, O. Ribeiro, C. Santillan, M. Das, M. Ehsan, C. J. Loland, L. Guan, B. K. Kobilka, B. Byrne, P. S. Chae*, “Resorcinarene-based glycosides for membrane protein study” Chem. Eur. J. 2017, 23, 6724-6729 (Corresponding author, IF = 5.8).

​

[46] A. Kumar*, P. S. Chae*, “New 1,8-naphthalimide-conjugated sulfonamide probes for TNP sensing in water” Sensors & Actuators B: Chemical 2017, 240, 1-9. (Corresponding author, IF = 5.66).

​

[45] M. Das, Y. Du, N J. S. Mortensen, O. Ribeiro, E. Tikhonova, P. Hariharan, L. Guan, C. J. Loland, B. K. Kobilka, B. Byrne, P. S. Chae*, “Butane-1,2,3,4-tetraol-based amphiphilic stereoisomers for membrane protein study: Importance of chirality in the linker region” Chem. Sci. 2017, 8, 1169-1177. (Corresponding author, IF = 9.0).

​

2016

​

[44] K. H. Cho, O. Ribeiro, Y. Du, E. Tikhonova, J. S. Mortensen, K. Markham, P. Hariharan, C. J. Loland, L. Guan, B. K. Kobilka, B. Byrne, and P. S. Chae*, “Mesitylene-cored glucoside amphiphiles (MGAs) for membrane protein studies: importance of alkyl chain density in detergent efficacy” Chem. Eur. J. 2016, 22, 18833-18839 (Corresponding author, IF = 5.8).

​

[43] K. H. Cho, P. Hariharan, J. S. Mortensen, Y. Du, A. K. Nielsen, B. Byrne, B. K. Kobilka, C. J. Loland, L. Guan, and P. S. Chae*, “Isomeric detergent comparison for membrane protein stability: importance of inter alkyl chain distance and alkyl chain length”, ChemBioChem 2016, 17, 2334-2339. (Corresponding author, IF = 3.0).

​

[42] H. E. Bae, N J. S. Mortensen, O. Ribeiro, Y. Du, M. Ehsan, B. K. Kobilka, C. J. Loland, B. Byrne, P. S. Chae*, “Tandem neopentyl glycol maltosides (TNMs) for membrane protein stabilization” Chem. Commun. 2016, 52, 12104-12107 (Corresponding author, IF = 6.8).

​

[41] M. Ehsan, Y. Du, N. J. Scull, E. Tikhonova, J. S. Mortensen, J. Tarrasch, G. Skiniotis, C. J. Loland, L. Guan, B. Byrne, B. K. Kobilka, P. S. Chae* “Highly branched penta-saccharide-bearing amphiphiles for membrane protein studies” J. Am. Chem. Soc. 2016, 138 (11), 3789–3796. (Corresponding author, IF = 13.1).

​

[40] H. Hussain, Y. Du, N. J. Scull, J. S. Mortensen, J. Tarrasch, C. J. Loland, B. Byrne, B. K. Kobilka, P. S. Chae* “Accessible mannitol-based amphiphiles (MNAs) for membrane protein solubilization and stabilization” Chem. Eur.J. 2016, 22, 7068 –7073. (Corresponding author, IF = 5.8).

​

[39] A. Sadaf, S. Capaldi, E. Tikhonova, J. S. Mortensen, C. J. Loland, L. Guan, B. Byrne, P. S. Chae* “A Class of Rigid Linker-bearing Glucosides for Membrane Protein Structural Study” Chem. Sci. 2016, 7, 1933–1939. (Corresponding author, IF = 9.2).

​

2015

​

[38] A. Aimn, P. Hariharan, P. S. Chae, L. Guan* “Effect of detergents on Galactoside Binding by Melibiose Permeases” Biochemistry 2015, 54(38), 5849-5855.

​

[37] B. Yoo, J. Lee, S. Choi, J. Ryu, H. Lee, P. S. Chae, S. U. Lee, M. Maeda, D. Sohn* “Behavior of maltose-neopentyl glycol-3 (MNG-3) at the air/aqueous interface” Colloids and Surf A: Physicochem. Eng. Aspects 2015, 484, 184-189.

​

[36] A. Byun, J. Shim, S. W. Han, B. Kim, P. S. Chae, H. S. Shin, J. W. Kim* “One-pot microfluidic fabrication of graphene oxide-patched hollow hydrogel microcapsules with remarkable shell impermeability” Chem. Commun. 2015, 51, 12756-12759.

​

[35] P. S. Chae, “Accessible Steroid-based Amphiphiles for Membrane Protein Solubilization and Stabilization” Bull. Korean Chem. Soc. 2015, 36, 1955-1956.

​

[34] M. Das, H. E. Bae, H. J. Lee, J. Go and P. S. Chae*, “Accessible glyco-tripod amphiphiles for membrane protein analysis”, Anal. Methods 2015, 7, 5808-5813. (Corresponding author, IF = 1.9).

​

[33] K. H. Cho, Y. Du, N. Scull, P. Hariharan, K. Gotfryd, C. J. Loland, L. Guan, B. Byrne, B. K. Kobilka and P. S. Chae*, “Novel Xylene-linked Maltoside Amphihiles (XMAs) for Membrane Protein Stabilisation”, Chem. Eur. J. 2015, 21, 10008-10013. (Corresponding author, IF = 5.7).

​

[32] H. E. Bae, K. Gotfryd, J. Pacyna, H. Hussain, M. Ehsan, C. J. Loland, B. Byrne and P. S. Chae*, “Doxycholate-based Glycosides (DCGs) for Membrane Protein Stabilisation”, ChemBioChem, 2015, 16, 1454-1459. (Corresponding author, IF = 3.1).

​

[31] K. Shin, J. W. Kim, H. Park, H. S. Choi, P. S. Chae, Y. S. Nam* and J. W. Kim*, “Fabrication and stabilization of nanoscale emulsions by formation of a thin polymer membrane at the oil–water interface” RSC Adv. 2015, 5, 46276-46281.

​

[30] K. H. Cho, M. Husri, A. Amin, K. Gotfryd, H. J. Lee, J. Go, C. J. Loland, L. Guan, B. Byrne, P. S. Chae*, “MNG-3 Analogues for Membrane Protein Study, Analyst 2015, 140, 3157-3163. (Corresponding author, IF = 3.97).

​

2014

​

[29] E. S. Jeong, H. A. Son, M. K. Kim, K.-H. Park, S. Kay, P. S. Chae and J. W. Kim,* “Fabrication of mondisperse liposome-in-microgel hybrid micropaticles in capillary-based microfluidic devices”, Colloids and Surf B: Biointerface 2014, 123, 339-344.

​

[28] P. S. Chae*, H. E. Bae, M. Ehsan, H. Hussain and J. W. Kim, “New Ganglio-tripod Amphiphiles (TPAs) for Membrane Protein Solubilization and Stabilization: Implications for Detergent Structure-Property Relationships”, Org. Biomol. Chem. 2014, 12, 8480-8487. (Corresponding author, IF = 3.5)

​

[27] P. S. Chae*, H. E. Bae, M. Das, “Adamantane-based Amphiphiles (ADAs) for Membrane Protein Study: Importance of a Detergent Hydrophobic Group in Membrane Protein Solubilisation”, Chem. Commun. 2014, 50, 12300-12303. (Corresponding author, IF = 6.7)

​

[26] P. S. Chae*, K. H. Cho, H. E. Bae “Heavy Atom-bearing Tripod Amphiphiles for Membrane Protein Study”, New J. Chem. 2014, 38(6), 2354-2361. (Corresponding author, IF = 3.0)

​

[25] K. H. Cho, H. E. Bae, M. Das, S. H. Gellman, P. S. Chae*, “Improved Glucose-Neopentyl Glycol (GNG) Amphiphiles for Membrane Protein Solubilization and Stabilization”, Chem. Asian. J. 2014, 9, 632-638. (Corresponding author, IF = 4.6)

​

[24] P. S. Chae,* K. H. Cho, M. J. Wander, H. E. Bae, S. H. Gellman, P. D. Laible*, “Hydrophobic Variants of Ganglio-tripod Amphiphiles for Membrane Protein Manipulation”, Biochim. Biophys. Acta 2014, 1838, 278-286. (Corresponding author, IF = 3.3)

​

[23] P. S. Chae,* A. Sadaf, S. H. Gellman, “Hydrophobic Variations of N-Oxide Amphiphiles for Membrane Protein Manipulation: Importance of Non-hydrocarbon Groups in the Hydrophobic Portion”, Chem. Asian. J. 2014, 9, 110-116. (Corresponding author, IF = 4.6)

​

2013

​

[22] P. S. Chae,* A. C. Kruse, K. Gotfryd, R. R. Rana, K. H. Cho, S. G. F. Rasmussen, H. E. Bae, U. Gether, L. Guan, C. J. Loland, B. Byrne, B. K. Kobilka,  S. H. Gellman,* “New Tripod Amphiphiles for Membrane Protein Analysis”, Chem. Eur. J. 2013, 19, 15645-15651. (Corresponding author, IF = 5.9)

​

[21] N. Bertheleme P. S. Chae, S. Singh, D. Mossakowska, M. M. Hann, K. J. Smith, J. A. Hubbard, S. J. Dowell, B. Byrne*, “Unlocking the secrets of the gatekeeper: Methods for stabilizing and crystallizaing GPCRs”, Biochim. Biophys. Acta, 2013, 1828, 2583-2591. (IF = 3.3)

​

[20] P. S. Chae*, M. J. Wander, K. H. Cho, P. D. Laible, S. H. Gellman*, “Carbohydrate-containing Triton X-100 Analogues for Membrane Protein Solubilization and Stabilization”, Mol. BioSyst. 2013, 9, 626-629. (Corresponding author, IF = 3.5)

​

[19] K. H. Cho, B. Byrne, P. S. Chae*, “Hemifluorinated MNG amphiphiles for Membrane Protein Stabilization”, ChemBioChem, 2013, 14, 452-455. (Corresponding author, IF = 3.9)

​

[18] P. S. Chae*, R. R. Rana, K. Gotfryd,  S.G.F. Rasmussen, , A.C. Kruse, K. H. Cho,  S. Capaldi, E. Carlsso, B. Kobilka, C.J. Loland, U. Gether, S. Banerjee, B. Byrne*, J. K. Lee*, S.H. Gellman*, “Glucose-Neopentyl Glycol (GNG) Amphiphiles for Membrane Protein Solubilization, Stabilization and Crystallization”, Chem. Commun. 2013, 49, 2287-2289. (cover) (Corresponding author, IF = 6.3)

 

2012

​

[17] P. S. Chae*, S.G.F. Rasmussen, R. R. Rana, K. Gotfryd, A.C. Kruse, K. H. Cho, S. Nurva, U. Gether, L. Guan, C.J. Loland, B. Byrne, B.K. Kobilka, S.H. Gellman, “A new class of amphiphiles bearing rigid hydrophobic groups for solubilization and stabilization of membrane proteins”, Chem. Eur. J. 2012, 18, 9485-9490. (cover) (Corresponding author, IF = 5.9)

​

[16] A. C. Kruse, J. Hu, A. C. Pan, D. H. Arlow, D. M. Rosenbaum, E. Rosemond, H. F. Green, T. Liu, P. S. Chae, R. O. Dror, D. E. Shaw, W. I. Weis, J. Wess, B. Kobilka, “Structure and Dynamics of the M3 Muscarinic Acetylcholine Receptor”, Nature 2012, 382, 552-556.

​

[15] K.-H. Jeong*, H.R. Cho, S.H. Choi, Y.-K. Park, P. S. Chae “Protective effects of cleavage agents on INS-1 cells against h-IAPP-induced apoptosis”, Chem. Commun. 2012, 48, 588-590.

​

2011

​

[14] K. Y. Chung, S. G. F. Rasmussen,  T. Liu, S. Li, B. T. DeVree, P. S. Chae, D. Calinski, B. K. Kobilka*, V. L. Woods Jr.*, R. K. Sunnahara*, “Conformational changes in the G protein Gs induced by the β2 adrenergic receptor”, Nature 2011, 477, 611-615.

​

[13] G. Westfied,  S. G. F. Rasmussen,  Min Su, S. Dutta, B. T. DeVree, K. Y. Chung, D. Calinski, G. Velez-Ruiz, A. N. Oleskie, E. Pardon, P. S. Chae, T. Liu, S. Li, V. L. Woods Jr., J. Steyaert, B. K. Kobilka*,  R. K. Sunnahara*, G. Skiniotis*, “Structural flexibility of the Gas a-helical domain in the β2 -adrenoceptor Gs complex“, Proc. Natl. Acad. Sci. USA 2011, 108, 16086-16091.

​

[12] S. G. F. Rasmussen, B. T. DeVree, Y. Zou, A. C. Kruse, K. Y. Chung, T. S. Kobilka, F. S. Thian, P. S. Chae, E. Pardon, D. Calinski, J. M. Mathiesen, S. T. A. Shah, J. A. Lyons, M. Caffrey, S. H. Gellman, J. Steyaert, G. Skiniotis, W. I. Weis*, R. K. Sunnahara*, B. K. Kobilka*, “Crystal structure of the b2 Adrenergic Receptor-Gs protein complex“, Nature 2011, 477, 549-555. (cover)

​

[11] T. T. Selao, R. Branca, P. S. Chae, J. Lehtio, S. H. Gellman, S. G. F. Rasmussen, S. Nordlund & A. Noren*, “Identification of the Chromatophore Membrane  Protein Complexes Formed under Different  Nitrogen Availability Conditions in  Rhodospirillum rubrum ", J. Proteome Res. 2011, 10 (6), 2703-2714.

​

[10] D. M. Rosenbaum, C. Zhang, J. Lyons, R. Holl, D. Aragao, D. H. Arlow, S. G. F. Rasmussen, H. -J. Choi, B. T. DeVree, R. K. Sunahara, P. S. Chae,  S. H. Gellman,  R. O. Dror, D. E. Shwa,  W. I. Weis, M. Caffrey*, P. Gmeiner* & B. K. Kobilka*, “Structure and Function of an Irreversible Agonist-β2 Adrenoceptor Complex", Nature 2011, 469, 175-180.  

​

[9] S. G. F.  Rasmussen, H. -J. Choi, J. -J Fung, P.  Casarosa, E.  Pardon, P. S. Chae,  B. T. DeVree, D. M. Rosenbaum, F. S. Thian, T. S. Kobilka,  R. K. Sunahara,  S. H. Gellman,  A. Pautsch,  J. Steyaert,  W. I. Weis* & B. K. Kobilka*, “Structure of a Nanobody-stabilized Active State of the b2 Adrenoceptor", Nature 2011, 469, 236-240.

​

2010

​

[8] Chae, P. S.; Gotfryd, K.; Pacyna, J.; Miercke, L. J.; Rasmussen, S. G.; Robbins, R. A.; Rana, R. R.; Loland, C. J.; Kobilka, B.; Stroud, R.; Byrne, B.; Gether, U. and Gellman, S. H., “Tandem Facial Amphiphiles for Membrane Protein Stabilization",. J. Am. Chem. Soc. 2010, 132 (47), 16750–16752.

​

[7] Chae, P. S.; Rasmussen, S. G.;Rana, R. R.; Gotfryd, K.; Chandra, R.; Goren, M. A.; Kruse, A. C.; Nurva, S.; Loland, C. J.; Pierre, Y.; Drew, D.; Popot, J. L.; Picot, D.; Fox, B. G.; Guan, L.; Gether, U.; Byrne, B.; Kobilka, B. and Gellman, S. H., “Maltose-neopentyl Glycol (MNG) Amphiphiles for Solubilization, Stabilization and Crystallization of Membrane Proteins",. Nat. Methods 2010, 7, 1003-1008.

​

[6] P. S. Chae, I. A. Guzei & S. H. Gellman*, “Crystallographic Characterization of N-Oxide Tripod Amphiphiles", J. Am. Chem. Soc. 2010, 132, 1953-1959.

​

[5] P. S. Chae, P. D. Laible* & S. H. Gellman*, “Tripod Amphiphiles for Membrane Protein Manipulation ", Mol. BioSyst. 2010, 6, 89-94.

​

2003-2009  

​

[4] P. S. Chae, M. J. Wander, A. P. Bowling, P. D. Laible & S. H. Gellman*, “Glycotripod Amphiphiles for Solubilization and Stabilization of a Membrane Protein Superssembly: Importance of Branching in the hydrophilic portion", ChemBioChem. 2008, 9, 1706-1709.

​

[3] J. Suh, S. H. Yoo, M. G. Kim, K. Jeong, J. Y. Ahn, M. Kim, P. S. Chae, T. Y Lee, J. Lee, “Cleavage Agents for Soluble Oligomers of Amyloid b Peptides ", Angew. Chemie Intern. Ed. 2007, 119, 7194-7197.

​

[2] P. S. Chae, M. Kim, C. S. Jeung, S. D. Lee, H. Park, S. Lee, J. Suh, “Peptide-cleaving Catalysts Selective for Peptide Deformylase ", J. Am. Chem. Soc. 2005, 127, 2396-2397.

​

[1] C. E. Yoo, P. S. Chae, J. E. Kim, E J. Jeong, J. Suh, “Degradation of Myoglobin by Polymeric Articficial Metalloproteases Containing Catalytic Modules with Various Catalytic Group Densities: Site Selectivity in Peptide Bond Cleavage ", J. Am. Chem. Soc. 2003, 125, 1670-16752.

​

Book Chapter

[1] A. Sadaf, K. H. Cho, B. Byrne, and P. S. Chae*, “Chapter Four-Amphipathic Agents for Membrane Protein Study” Methods in Enzymology 2015, 557, 57-94

​

​