3.B.1.1.7 Na+-pumping glutaconyl-CoA decarboxylase, Gcd, with subunits A4/B2/C11/C21/D2 (The stoichiometry of the subunits is given by the subscripts.). Gcd drives the endergonic translocation of Na+ across the membrane with the exergonic decarboxylation of glutaconyl-CoA (ΔG0’ ≈−30 kJ/mol) to crotonyl-CoA. Vitt et al. 2020 reported on the molecular characterization of Gcd from Clostridium symbiosum. The subunit composition is four GcdA
(65 kDa), two GcdB (35 kDa), one GcdC1 (15 kDa), one GcdC2 (14 kDa), and two GcdD
(10 kDa). Low-resolution structural information was achieved by electron microscopic (EM) measurements, which resulted in a
3D reconstruction model based on negative-stained particles. The Gcd
structure is built up of a membrane-spanning base primarily composed of
the GcdB dimer and a solvent-exposed head with the GcdA tetramer as the
major component. These two globular parts are bridged by a linker presumably
built up of segments of GcdC1, GcdC2 and the 2 GcdDs. The structure of
the highly mobile Gcd complex represents a template for the global
architecture of the Bdc family (Vitt et al. 2020).
|
Accession Number: | B7TVP3 |
Protein Name: | Acetyl-CoA carboxylase biotin carboxyl carrier protein subunit |
Length: | 139 |
Molecular Weight: | 13842.00 |
Species: | Clostridium symbiosum [1512] |
Substrate |
sodium(1+) |
---|
1: MKYTATLNGK QYDVELERIG EYEPIPRYGE AAPAPAAPIT APAAAPAPVA AAPAPAPAPA
61: APAPAPAAGG TTVEAPMPGK VLDVKVAAGQ AVKFGQVVIT MEAMKMETEI VAPADGTVAQ
121: ILVKAGDAVE TGTAMVVLN