SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2021060147> ?p ?o ?g. }

Showing items 1 to 100 of ±126 with 100 items per page.

W2021060147 endingPage "24425" @default.
W2021060147 startingPage "24417" @default.
W2021060147 abstract "Biotin carboxylase (BC) activity is shared among biotin-dependent carboxylases and catalyzes the Mg-ATP-dependent carboxylation of biotin using bicarbonate as the CO2 donor. BC has been studied extensively over the years by structural, kinetic, and mutagenesis analyses. Here we report three new crystal structures of Escherichia coli BC at up to 1.9 Å resolution, complexed with different ligands. Two structures are wild-type BC in complex with two ADP molecules and two Ca2+ ions or two ADP molecules and one Mg2+ ion. One ADP molecule is in the position normally taken by the ATP substrate, whereas the other ADP molecule occupies the binding sites of bicarbonate and biotin. One Ca2+ ion and the Mg2+ ion are associated with the ADP molecule in the active site, and the other Ca2+ ion is coordinated by Glu-87, Glu-288, and Asn-290. Our kinetic studies confirm that ATP shows substrate inhibition and that this inhibition is competitive against bicarbonate. The third structure is on the R16E mutant in complex with bicarbonate and Mg-ADP. Arg-16 is located near the dimer interface. The R16E mutant has only a 2-fold loss in catalytic activity compared with the wild-type enzyme. Analytical ultracentrifugation experiments showed that the mutation significantly destabilized the dimer, although the presence of substrates can induce dimer formation. The binding modes of bicarbonate and Mg-ADP are essentially the same as those to the wild-type enzyme. However, the mutation greatly disrupted the dimer interface and caused a large re-organization of the dimer. The structures of these new complexes have implications for the catalysis by BC. Biotin carboxylase (BC) activity is shared among biotin-dependent carboxylases and catalyzes the Mg-ATP-dependent carboxylation of biotin using bicarbonate as the CO2 donor. BC has been studied extensively over the years by structural, kinetic, and mutagenesis analyses. Here we report three new crystal structures of Escherichia coli BC at up to 1.9 Å resolution, complexed with different ligands. Two structures are wild-type BC in complex with two ADP molecules and two Ca2+ ions or two ADP molecules and one Mg2+ ion. One ADP molecule is in the position normally taken by the ATP substrate, whereas the other ADP molecule occupies the binding sites of bicarbonate and biotin. One Ca2+ ion and the Mg2+ ion are associated with the ADP molecule in the active site, and the other Ca2+ ion is coordinated by Glu-87, Glu-288, and Asn-290. Our kinetic studies confirm that ATP shows substrate inhibition and that this inhibition is competitive against bicarbonate. The third structure is on the R16E mutant in complex with bicarbonate and Mg-ADP. Arg-16 is located near the dimer interface. The R16E mutant has only a 2-fold loss in catalytic activity compared with the wild-type enzyme. Analytical ultracentrifugation experiments showed that the mutation significantly destabilized the dimer, although the presence of substrates can induce dimer formation. The binding modes of bicarbonate and Mg-ADP are essentially the same as those to the wild-type enzyme. However, the mutation greatly disrupted the dimer interface and caused a large re-organization of the dimer. The structures of these new complexes have implications for the catalysis by BC." @default.
W2021060147 created "2016-06-24" @default.
W2021060147 creator A5004904484 @default.
W2021060147 creator A5008759489 @default.
W2021060147 date "2011-07-01" @default.
W2021060147 modified "2023-10-11" @default.
W2021060147 title "Structural and Biochemical Studies on the Regulation of Biotin Carboxylase by Substrate Inhibition and Dimerization" @default.
W2021060147 cites W1501151523 @default.
W2021060147 cites W1539796472 @default.
W2021060147 cites W1555143316 @default.
W2021060147 cites W1965737130 @default.
W2021060147 cites W1965939933 @default.
W2021060147 cites W1966261014 @default.
W2021060147 cites W1974094677 @default.
W2021060147 cites W1975317507 @default.
W2021060147 cites W1979736292 @default.
W2021060147 cites W1980896503 @default.
W2021060147 cites W1981362747 @default.
W2021060147 cites W1995017064 @default.
W2021060147 cites W2000413455 @default.
W2021060147 cites W2001925176 @default.
W2021060147 cites W2013083986 @default.
W2021060147 cites W2020775577 @default.
W2021060147 cites W2032660941 @default.
W2021060147 cites W2038710863 @default.
W2021060147 cites W2038840577 @default.
W2021060147 cites W2040265511 @default.
W2021060147 cites W2042804352 @default.
W2021060147 cites W2059611038 @default.
W2021060147 cites W2059790242 @default.
W2021060147 cites W2068464412 @default.
W2021060147 cites W2070386767 @default.
W2021060147 cites W2070874375 @default.
W2021060147 cites W2072493172 @default.
W2021060147 cites W2073245396 @default.
W2021060147 cites W2074688004 @default.
W2021060147 cites W2077154796 @default.
W2021060147 cites W2077710242 @default.
W2021060147 cites W2081314530 @default.
W2021060147 cites W2087103327 @default.
W2021060147 cites W2099340095 @default.
W2021060147 cites W2102110209 @default.
W2021060147 cites W2145958122 @default.
W2021060147 cites W2149696442 @default.
W2021060147 cites W2157759312 @default.
W2021060147 cites W2160378687 @default.
W2021060147 cites W2162816788 @default.
W2021060147 cites W2163341755 @default.
W2021060147 cites W2170696850 @default.
W2021060147 doi "https://doi.org/10.1074/jbc.m111.220517" @default.
W2021060147 hasPubMedCentralId "https://www.ncbi.nlm.nih.gov/pmc/articles/3129220" @default.
W2021060147 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/21592965" @default.
W2021060147 hasPublicationYear "2011" @default.
W2021060147 type Work @default.
W2021060147 sameAs 2021060147 @default.
W2021060147 citedByCount "17" @default.
W2021060147 countsByYear W20210601472012 @default.
W2021060147 countsByYear W20210601472013 @default.
W2021060147 countsByYear W20210601472014 @default.
W2021060147 countsByYear W20210601472015 @default.
W2021060147 countsByYear W20210601472017 @default.
W2021060147 countsByYear W20210601472018 @default.
W2021060147 countsByYear W20210601472020 @default.
W2021060147 countsByYear W20210601472021 @default.
W2021060147 crossrefType "journal-article" @default.
W2021060147 hasAuthorship W2021060147A5004904484 @default.
W2021060147 hasAuthorship W2021060147A5008759489 @default.
W2021060147 hasBestOaLocation W20210601471 @default.
W2021060147 hasConcept C104317684 @default.
W2021060147 hasConcept C107824862 @default.
W2021060147 hasConcept C140137476 @default.
W2021060147 hasConcept C143065580 @default.
W2021060147 hasConcept C166342909 @default.
W2021060147 hasConcept C178790620 @default.
W2021060147 hasConcept C181199279 @default.
W2021060147 hasConcept C185592680 @default.
W2021060147 hasConcept C18903297 @default.
W2021060147 hasConcept C2777289219 @default.
W2021060147 hasConcept C2778204606 @default.
W2021060147 hasConcept C2779546866 @default.
W2021060147 hasConcept C2781112554 @default.
W2021060147 hasConcept C41183919 @default.
W2021060147 hasConcept C55493867 @default.
W2021060147 hasConcept C71240020 @default.
W2021060147 hasConcept C86803240 @default.
W2021060147 hasConceptScore W2021060147C104317684 @default.
W2021060147 hasConceptScore W2021060147C107824862 @default.
W2021060147 hasConceptScore W2021060147C140137476 @default.
W2021060147 hasConceptScore W2021060147C143065580 @default.
W2021060147 hasConceptScore W2021060147C166342909 @default.
W2021060147 hasConceptScore W2021060147C178790620 @default.
W2021060147 hasConceptScore W2021060147C181199279 @default.
W2021060147 hasConceptScore W2021060147C185592680 @default.
W2021060147 hasConceptScore W2021060147C18903297 @default.
W2021060147 hasConceptScore W2021060147C2777289219 @default.
W2021060147 hasConceptScore W2021060147C2778204606 @default.
W2021060147 hasConceptScore W2021060147C2779546866 @default.
W2021060147 hasConceptScore W2021060147C2781112554 @default.