Maltose binding protein

Maltose-Binding Protein (MBP) is a part of the maltose/maltodextrin system of Escherichia coli, which is responsible for the uptake and efficient catabolism of maltodextrins. It is a complex regulatory and transport system involving many proteins and protein complexes. MBP has an approximate molecular mass of 42.5 kilodaltons.

MBP is encoded by the malE gene of Escherichia coli. The malE gene codes for a precursor polypeptide (396 amino acid residues) which yields the mature MBP (370 residues) upon cleavage of the NH₂-terminal extension (26 residues). The precursor and mature forms of MBP do not contain any cysteine residue.

MBP is a monomeric protein. Crystal structures have shown that MBP is divided into two distinct globular domains that are connected by three short polypeptide segments. The two domains are separated by a deep groove that contains the maltose/maltodextrins binding site. Comparison of the structures of the liganded and unliganded forms of MBP has shown that the binding of maltose induces a major conformational change that closes the groove by a rigid motion of the two domains around the linking polypeptide hinge.

Both precursor and mature forms of MBP are functional for the binding of maltose. The NH₂-terminal extension decreases the folding rate of the precursor form of MBP relative to its mature form by at least 5 fold, but it has no effect on the unfolding rate. The equilibrium unfolding of MBP can be modelled by a two-state mechanism with a stability ∆G(H₂O) equal to 9.45 kcal mol⁻¹ at 25 °C, pH 7.6.

MBP is exported into the periplasmic space of E. coli. The NH₂-terminal extension of MBP, also termed signal peptide, has two roles: (i) it slows down folding of the newly synthesized polypeptide, and (ii) it directs this polypeptide to the membrane and SecYEG translocon. Once folded, the precursor can no more enter the translocation pathway. The introduction of a charged amino-acid residue or a proline residue within the hydrophobic core of the signal peptide is sufficient to block export. The defective exports of the mutant MBPs are consistent with the alpha-helical conformation and hydrophobic interactions of the signal peptide in its interaction with the translocon motor protein SecA.

The malE gene, coding for MBP, belongs to the Mal regulon of E. coli, which consists of ten genes whose products are geared for the efficient uptake and utilization of maltose and maltodextrins. All the gene involved in the transport of maltose/maltodextrin, including malE, are clustered in the malB region of E. coli and organized in two divergent operons: malE-malF-malG and malK-lamB. The transcription start sites at the malEp and malKp promoters are distant of 271 base pairs.

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