Analysis of genes involved in methanol oxidation in methylobacterium extorquens
In: University of Southampton; (2001)
Online
Elektronische Ressource
In methylotrophic bacteria such as Methvlobacterium extorauens methanol is oxidised to Armaldehyde by methanol dehydrogenase (MDH) located in the periplasm. From MDH the electrons are passed along an electron transport chain including 2 cytochromes (cytochrome Cl and cytochrome ch) and finally to a terminal oxidase. The protons released from methanol oxidation form a proton motive force that can be utilised by ATP synthase to produce ATP for the energy requirements of the bacteria. Methanol dehydrogenase has a aiPz configuration. The X-ray structure of this enzyme showed that the active site is found in the a-subunit and contains the prosthetic group pyrrolo- quinoline quinone (PQQ). PQQ is sandwiched between the 'ceiling' of the active site formed by a unique disulphide bridge between adjacent cysteines (Cys 103, Cys 104) and the 'floor' of the active site formed by tryptophan 243. The active site of MDH also contains a calcium atom co-ordinated to both PQQ and 2 protein groups (Glu 177, Asn 261). The mechanism by which MDH catalyses the oxidation of methanol is poorly understood but an active site base (Asp 303) has been implicated in the reaction mechanism. There are at least 32 genes implicated in methanol oxidation. Most of these were identified in two species; Methvlobacterium extorquens and Paracoccus denitrificans. Although the functions of some of these genes have been determined many have not. This thesis describes work carried out to produce a site directed mutation in MDH changing aspartate 303 to a glutamate (D303E). Attempts to make mutations at other amino acids of MDH including active site residues (Arg331, Asn261, Glu 177 and Trp243) and a residue implicated in the interaction of MDH with cytochrome CL (Lys205) were unsuccessful probably due to the high GC content of the mxaP gene. To determine the roles of several methanol oxidation genes found in the large operon (mxaFJGIR(S)ACKLDB) in M.extorquens characterisation of mutants strains was undert
Titel: |
Analysis of genes involved in methanol oxidation in methylobacterium extorquens
|
---|---|
Autor/in / Beteiligte Person: | Stevens, Martin. |
Link: | |
Quelle: | University of Southampton; (2001) |
Veröffentlichung: | 2001 |
Medientyp: | Elektronische Ressource |
Schlagwort: |
|
Sonstiges: |
|