Mj Dehoop scite author profile

Mj Dehoop

2Publications

12Citation Statements Received

31Citation Statements Given

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University of Groningen

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Mutations in the FAD-binding fold of alcohol oxidase from Hansenula polymorpha

Dehoop¹,

Asgeirsdottir²,

Blaauw³

et al. 1991

Protein Eng Des Sel

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Alcohol oxidase of methylotrophic yeast is an FAD-containing enzyme. When in its active form, the enzyme is an octamer and located in the peroxisomes. To study the importance of FAD-binding on the activity, octamerization and intracellular localization of the enzyme, alcohol oxidase of Hansenula polymorpha was mutated in its presumed nucleotide-binding domain, which is formed by the N-terminal sequence. Whereas mutations of a glutamic acid residue (E42) reduced the stability of the octamer, it hardly affected enzyme activity and expression. However, replacements of three conserved glycines (G13, G15 and G18) and a conserved glutamic acid (E39) within the fold had severe effects. The mutations not only resulted in loss of enzyme activity but in reduced protein levels as well, probably due to decreased stability of the mutant alcohol oxidase. However, octamerization of the protein still occurred. The existence of inactive octameric proteins provides information about the formation pathway of this octameric flavoprotein.

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Peroxisomal amine oxidase of Hansenula polymorpha does not require its SRL‐containing C‐terminal sequence for targeting

Faber

Haima

Dehoop

et al. 1993

Yeast

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Amine oxidase (AMO) is a peroxisomal matrix protein of Hansenula polymorpha, which is induced during growth of the yeast in media containing primary amines as a sole nitrogen source. The deduced amino acid sequence of the protein contains an SRL sequence at nine amino acids from the C-terminus. In this study, we have examined the possible role of the SRL motif in sorting of AMO to peroxisomes by mutating the corresponding gene sequence. For this purpose, we have developed a DNA construct that is specifically integrated into the AMO locus of the H. polymorpha genome, placing the mutant gene under the control of the endogenous AMO promoter and eliminating expression of the wild-type gene. Analysis of a stable transformant, containing the desired gene configuration, showed that mutation of the C-terminal sequence neither interfered with correct targeting of the protein into the peroxisome nor displayed significant effects on its activity. From this, it was concluded that the SRL-containing C-terminus is not essential for peroxisomal targeting of AMO in H. polymorpha.

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Mj Dehoop

Mutations in the FAD-binding fold of alcohol oxidase from Hansenula polymorpha

Peroxisomal amine oxidase of Hansenula polymorpha does not require its SRL‐containing C‐terminal sequence for targeting

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