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Reviews - 1q3r mentioned but not cited (1)
- Chaperonins: Nanocarriers with Biotechnological Applications. Pipaón S, Gragera M, Bueno-Carrasco MT, García-Bernalt Diego J, Cantero M, Cuéllar J, Fernández-Fernández MR, Valpuesta JM. Nanomaterials (Basel) 11 503 (2021)
Articles - 1q3r mentioned but not cited (6)
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- A human CCT5 gene mutation causing distal neuropathy impairs hexadecamer assembly in an archaeal model. Min W, Angileri F, Luo H, Lauria A, Shanmugasundaram M, Almerico AM, Cappello F, de Macario EC, Lednev IK, Macario AJ, Robb FT. Sci Rep 4 6688 (2014)
Reviews citing this publication (6)
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Articles citing this publication (48)
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- Crystal structures of a group II chaperonin reveal the open and closed states associated with the protein folding cycle. Pereira JH, Ralston CY, Douglas NR, Meyer D, Knee KM, Goulet DR, King JA, Frydman J, Adams PD. J Biol Chem 285 27958-27966 (2010)
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- On the evolutionary origin of the chaperonins. Dekker C, Willison KR, Taylor WR. Proteins 79 1172-1192 (2011)
- ATP dependent rotational motion of group II chaperonin observed by X-ray single molecule tracking. Sekiguchi H, Nakagawa A, Moriya K, Makabe K, Ichiyanagi K, Nozawa S, Sato T, Adachi S, Kuwajima K, Yohda M, Sasaki YC. PLoS One 8 e64176 (2013)
- Structure of the human TRiC/CCT Subunit 5 associated with hereditary sensory neuropathy. Pereira JH, McAndrew RP, Sergeeva OA, Ralston CY, King JA, Adams PD. Sci Rep 7 3673 (2017)
- An ensemble of cryo-EM structures of TRiC reveal its conformational landscape and subunit specificity. Jin M, Han W, Liu C, Zang Y, Li J, Wang F, Wang Y, Cong Y. Proc Natl Acad Sci U S A 116 19513-19522 (2019)
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- Molecular characterization of the group II chaperonin from the hyperthermophilic archaeum Pyrococcus horikoshii OT3. Okochi M, Matsuzaki H, Nomura T, Ishii N, Yohda M. Extremophiles 9 127-134 (2005)
- Sequential action of ATP-dependent subunit conformational change and interaction between helical protrusions in the closure of the built-in lid of group II chaperonins. Kanzaki T, Iizuka R, Takahashi K, Maki K, Masuda R, Sahlan M, Yébenes H, Valpuesta JM, Oka T, Furutani M, Ishii N, Kuwajima K, Yohda M. J Biol Chem 283 34773-34784 (2008)
- A modulator domain controlling thermal stability in the Group II chaperonins of Archaea. Luo H, Robb FT. Arch Biochem Biophys 512 111-118 (2011)
- Crystal structures of hydrogenase maturation protein HypE in the Apo and ATP-bound forms. Shomura Y, Komori H, Miyabe N, Tomiyama M, Shibata N, Higuchi Y. J Mol Biol 372 1045-1054 (2007)
- An engineered chaperonin caging a guest protein: Structural insights and potential as a protein expression tool. Furutani M, Hata J, Shomura Y, Itami K, Yoshida T, Izumoto Y, Togi A, Ideno A, Yasunaga T, Miki K, Maruyama T. Protein Sci 14 341-350 (2005)
- Contribution of the C-terminal region to the thermostability of the archaeal group II chaperonin from Thermococcus sp. strain KS-1. Yoshida T, Kanzaki T, Iizuka R, Komada T, Zako T, Suzuki R, Maruyama T, Yohda M. Extremophiles 10 451-459 (2006)
- Expression and characterization of the chaperonin molecular machine from the hyperthermophilic archaeon Pyrococcus furiosus. Chen HY, Chu ZM, Ma YH, Zhang Y, Yang SL. J Basic Microbiol 47 132-137 (2007)
- Asymmetry in the function and dynamics of the cytosolic group II chaperonin CCT/TRiC. Yamamoto YY, Uno Y, Sha E, Ikegami K, Ishii N, Dohmae N, Sekiguchi H, Sasaki YC, Yohda M. PLoS One 12 e0176054 (2017)
- Dissection of the ATP-dependent conformational change cycle of a group II chaperonin. Nakagawa A, Moriya K, Arita M, Yamamoto Y, Kitamura K, Ishiguro N, Kanzaki T, Oka T, Makabe K, Kuwajima K, Yohda M. J Mol Biol 426 447-459 (2014)
- Flexible interwoven termini determine the thermal stability of thermosomes. Zhang K, Wang L, Liu Y, Chan KY, Pang X, Schulten K, Dong Z, Sun F. Protein Cell 4 432-444 (2013)
- Asp-52 in combination with Asp-398 plays a critical role in ATP hydrolysis of chaperonin GroEL. Koike-Takeshita A, Mitsuoka K, Taguchi H. J Biol Chem 289 30005-30011 (2014)
- Indole-3-glycerol-phosphate synthase is recognized by a cold-inducible group II chaperonin in Thermococcus kodakarensis. Gao L, Danno A, Fujii S, Fukuda W, Imanaka T, Fujiwara S. Appl Environ Microbiol 78 3806-3815 (2012)
- Chaperonins from an Antarctic archaeon are predominantly monomeric: crystal structure of an open state monomer. Pilak O, Harrop SJ, Siddiqui KS, Chong K, De Francisci D, Burg D, Williams TJ, Cavicchioli R, Curmi PM. Environ Microbiol 13 2232-2249 (2011)
- Structural and mechanistic characterization of an archaeal-like chaperonin from a thermophilic bacterium. An YJ, Rowland SE, Na JH, Spigolon D, Hong SK, Yoon YJ, Lee JH, Robb FT, Cha SS. Nat Commun 8 827 (2017)
- DockStar: a novel ILP-based integrative method for structural modeling of multimolecular protein complexes. Amir N, Cohen D, Wolfson HJ. Bioinformatics 31 2801-2807 (2015)
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- Inter-ring communication is dispensable in the reaction cycle of group II chaperonins. Yamamoto YY, Abe Y, Moriya K, Arita M, Noguchi K, Ishii N, Sekiguchi H, Sasaki YC, Yohda M. J Mol Biol 426 2667-2678 (2014)
- A Mutant Chaperonin That Is Functional at Lower Temperatures Enables Hyperthermophilic Archaea To Grow under Cold-Stress Conditions. Gao L, Imanaka T, Fujiwara S. J Bacteriol 197 2642-2652 (2015)
- Adaptation of a hyperthermophilic group II chaperonin to relatively moderate temperatures. Kanzaki T, Ushioku S, Nakagawa A, Oka T, Takahashi K, Nakamura T, Kuwajima K, Yamagishi A, Yohda M. Protein Eng Des Sel 23 393-402 (2010)
- Beta-strand interfaces of non-dimeric protein oligomers are characterized by scattered charged residue patterns. Feverati G, Achoch M, Zrimi J, Vuillon L, Lesieur C. PLoS One 7 e32558 (2012)
- Oligomerization of an archaeal group II chaperonin is mediated by N-terminal salt bridges. Luo H, Zhang P, Robb FT. Biochem Biophys Res Commun 413 389-394 (2011)
- The dynamic conformational cycle of the group I chaperonin C-termini revealed via molecular dynamics simulation. Dalton KM, Frydman J, Pande VS. PLoS One 10 e0117724 (2015)
- Construction and characterization of the hetero-oligomer of the group II chaperonin from the hyperthermophilic archaeon, Thermococcus sp. strain KS-1. Sahlan M, Kanzaki T, Yohda M. Extremophiles 13 437-445 (2009)
- Single-molecule fluorescence polarization study of conformational change in archaeal group II chaperonin. Iizuka R, Ueno T, Morone N, Funatsu T. PLoS One 6 e22253 (2011)
- Function of a thermophilic archaeal chaperonin is enhanced by electrostatic interactions with its targets. Gao L, Hidese R, Fujiwara S. J Biosci Bioeng 124 283-288 (2017)
- NSiteMatch: Prediction of Binding Sites of Nucleotides by Identifying the Structure Similarity of Local Surface Patches. Sun J, Chen K, Chen K. Comput Math Methods Med 2017 5471607 (2017)
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- Comparative analysis of the protein folding activities of two chaperonin subunits of Thermococcus strain KS-1: the effects of beryllium fluoride. Yoshida T, Iizuka R, Itami K, Yasunaga T, Sakuraba H, Ohshima T, Yohda M, Maruyama T. Extremophiles 11 225-235 (2007)
- Time-Resolved Measurement of the ATP-Dependent Motion of the Group II Chaperonin by Diffracted Electron Tracking. Ogawa N, Yamamoto YY, Abe K, Sekiguchi H, Sasaki YC, Ishikawa A, Frydman J, Yohda M. Int J Mol Sci 19 E950 (2018)
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- Crystallization and preliminary X-ray characterization of archaeal group II chaperonin alpha-subunit from Thermococcus strain KS-1. Shomura Y, Yoshida T, Maruyama T, Yohda M, Miki K Acta Crystallogr. D Biol. Crystallogr. 58 1830-1832 (2002)