About: Knowledge on domain swapping in vitro is increasing, but domain swapping may not occur regularly in vivo, and its information in cells is limited. Herein, we show that domain-swapped oligomers of a thermostable c-type cytochrome, Hydrogenobacter thermophilus cyt c(552), are formed in E. coli which expresses cyt c(552). The region containing the N-terminal α-helix and heme was domain-swapped between protomers in the dimer formed in E. coli. The amount of cyt c(552) oligomers increased in E. coli as the cyt c(552) concentration was increased, whereas that of high-order oligomers decreased in the order of decrease in protein stability, indicating that domain swapping decreases in cells when the protein stability decreases. Apo cyt c(552) was detected in the cyt c(552) oligomer formed in E. coli, but not in that of the A5F/M11V/Y32F/Y41E/I76V mutant. The cyt c(552) oligomer containing its apo protein may form at the periplasm, since the apo protein detected by mass measurements did not contain the signal peptide. These results show that domain-swapped cyt c(552) oligomers were formed in E. coli, owing to the stability of the transient oligomer containing the apo protein before heme attachment. This is an indication that exceedingly stable proteins may have disadvantages forming domain-swapped oligomers in cells.

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About: Knowledge on domain swapping in vitro is increasing, but domain swapping may not occur regularly in vivo, and its information in cells is limited. Herein, we show that domain-swapped oligomers of a thermostable c-type cytochrome, Hydrogenobacter thermophilus cyt c(552), are formed in E. coli which expresses cyt c(552). The region containing the N-terminal α-helix and heme was domain-swapped between protomers in the dimer formed in E. coli. The amount of cyt c(552) oligomers increased in E. coli as the cyt c(552) concentration was increased, whereas that of high-order oligomers decreased in the order of decrease in protein stability, indicating that domain swapping decreases in cells when the protein stability decreases. Apo cyt c(552) was detected in the cyt c(552) oligomer formed in E. coli, but not in that of the A5F/M11V/Y32F/Y41E/I76V mutant. The cyt c(552) oligomer containing its apo protein may form at the periplasm, since the apo protein detected by mass measurements did not contain the signal peptide. These results show that domain-swapped cyt c(552) oligomers were formed in E. coli, owing to the stability of the transient oligomer containing the apo protein before heme attachment. This is an indication that exceedingly stable proteins may have disadvantages forming domain-swapped oligomers in cells. Goto Sponge NotDistinct Permalink

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type	abstract
value	Knowledge on domain swapping in vitro is increasing, but domain swapping may not occur regularly in vivo, and its information in cells is limited. Herein, we show that domain-swapped oligomers of a thermostable c-type cytochrome, Hydrogenobacter thermophilus cyt c(552), are formed in E. coli which expresses cyt c(552). The region containing the N-terminal α-helix and heme was domain-swapped between protomers in the dimer formed in E. coli. The amount of cyt c(552) oligomers increased in E. coli as the cyt c(552) concentration was increased, whereas that of high-order oligomers decreased in the order of decrease in protein stability, indicating that domain swapping decreases in cells when the protein stability decreases. Apo cyt c(552) was detected in the cyt c(552) oligomer formed in E. coli, but not in that of the A5F/M11V/Y32F/Y41E/I76V mutant. The cyt c(552) oligomer containing its apo protein may form at the periplasm, since the apo protein detected by mass measurements did not contain the signal peptide. These results show that domain-swapped cyt c(552) oligomers were formed in E. coli, owing to the stability of the transient oligomer containing the apo protein before heme attachment. This is an indication that exceedingly stable proteins may have disadvantages forming domain-swapped oligomers in cells.
subject	Oligomers Escherichia coli Neglected diseases Tropical diseases Protein structure »more»
part of	Domain swapping oligomerization of thermostable c-type cytochrome in E. coli cells
is abstract of	Domain swapping oligomerization of thermostable c-type cytochrome in E. coli cells
is hasSource of	covid:ann/target/02234248a05417aae62e725e8b8c29e6e07a636e covid:ann/target/1cdf6a627c7b3c1f890e9a07d313b33bdfba2375 covid:ann/target/2d5710f3d224bd05bbccd39ba71ce5652b9180c9 covid:ann/target/c432fdbae6db0b868fdf506eef68fca52de71119 covid:ann/target/d8530f48ffa885eb43a44e404fbaa52a98cf4f7d »more»

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