Deoxyhypusine/hypusine formation on a 21 000-dalton cellular protein in a Neurospora crassa mutant in vivo and in vitro

Hypusine formation on an 18 000-dalton cellular protein is a unique spermidine-dependent, post-translational modification that appears to be ubiquitous in mammalian cells. To determine whether this modification also exists in lower eukaryotes, we examined possible labeling in vitro and in vivo of ce...

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Published in	Biochimica et biophysica acta Vol. 1033; no. 2; pp. 133 - 138
Main Authors	Yun Chung Yang, Kuang Yu Chen, Seyfzadeh, Manouchehr, Davis, Rowland H.
Format	Journal Article
Language	English
Published	Netherlands Elsevier B.V 26.02.1990
Subjects	Deoxyhypusine Electrophoresis, Polyacrylamide Gel Fungal Proteins - metabolism Hypusine Isoelectric Focusing Lysine - analogs & derivatives Lysine - metabolism Mutation Neurospora - metabolism Neurospora crassa - genetics Neurospora crassa - metabolism Neurospora crassa mutant Polyamines - metabolism Post-translational modification Post-translational modification 4D Neurospora crassa mutant eIF-4D Deoxyhypusine IEF/SDS DFMO Hypusine
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ISSN	0304-4165 0006-3002 1872-8006
DOI	10.1016/0304-4165(90)90003-F

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Abstract	Hypusine formation on an 18 000-dalton cellular protein is a unique spermidine-dependent, post-translational modification that appears to be ubiquitous in mammalian cells. To determine whether this modification also exists in lower eukaryotes, we examined possible labeling in vitro and in vivo of cellular protein(s) by [ 3H]spermidine in a mutant strain of Neurospora crassa (arge-12 ota aga) in which ornithine and polyamine synthesis could be nutritionally manipulated. Because of poor uptake of polyamines in this organism, [ 3H]ornithine, the immediate precursor of polymines, was used for the in vivo labeling experiment. Both in vitro and in vivo labeling resulted in a specific labeling of a 21 000-dalton protein. Radioactive hypusine was recovered from radiolabeled 21 000-dalton protein following acid hydrolysis. The in vitro labeling of the 21 000-dalton protein was dramatically stimulated by NAD + and NADP +, but not by FMN or FAD, suggesting that an NAD +/NADP +-dependent oxidative cleavage of spermidine is involved in deoxyhypusine formation. Isoelectric focusing/sodium dodecyl sulate two-dimensional gel analysis revealed three isoforms of the in vitro labeled 21 000-dalton protein, with p I values ranging from 5.2 to 6.5. In contrast, the 21 000-dalton protein metabolically labeled in vivo gave only one spot with a p I value of approx. 3.5.
AbstractList	Hypusine formation on an 18 000-dalton cellular protein is a unique spermidine-dependent, post-translational modification that appears to be ubiquitous in mammalian cells. To determine whether this modification also exists in lower eukaryotes, we examined possible labeling in vitro and in vivo of cellular protein(s) by [ 3H]spermidine in a mutant strain of Neurospora crassa (arge-12 ota aga) in which ornithine and polyamine synthesis could be nutritionally manipulated. Because of poor uptake of polyamines in this organism, [ 3H]ornithine, the immediate precursor of polymines, was used for the in vivo labeling experiment. Both in vitro and in vivo labeling resulted in a specific labeling of a 21 000-dalton protein. Radioactive hypusine was recovered from radiolabeled 21 000-dalton protein following acid hydrolysis. The in vitro labeling of the 21 000-dalton protein was dramatically stimulated by NAD + and NADP +, but not by FMN or FAD, suggesting that an NAD +/NADP +-dependent oxidative cleavage of spermidine is involved in deoxyhypusine formation. Isoelectric focusing/sodium dodecyl sulate two-dimensional gel analysis revealed three isoforms of the in vitro labeled 21 000-dalton protein, with p I values ranging from 5.2 to 6.5. In contrast, the 21 000-dalton protein metabolically labeled in vivo gave only one spot with a p I value of approx. 3.5. Hypusine formation on an 18,000-dalton cellular protein is a unique spermidine-dependent, post-translational modification that appears to be ubiquitous in mammalian cells. To determine whether this modification also exists in lower eukaryotes, we examined possible labeling in vitro and in vivo of cellular protein(s) by [3H]spermidine in a mutant strain of Neurospora crassa (arge-12 ota aga) in which ornithine and polyamine synthesis could be nutritionally manipulated. Because of poor uptake of polyamines in this organism, [3H]ornithine, the immediate precursor of polyamines, was used for the in vivo labeling experiment. Both in vitro and in vivo labeling resulted in a specific labeling of a 21,000-dalton protein. Radioactive hypusine was recovered from radiolabeled 21,000-dalton protein following acid hydrolysis. The in vitro labeling of the 21,000-dalton protein was dramatically stimulated by NAD+ and NADP+, but not by FMN or FAD, suggesting that an NAD+/NADP(+)-dependent oxidative cleavage of spermidine is involved in deoxyhypusine formation. Isoelectric focusing/sodium dodecyl sulfate two-dimensional gel analysis revealed three isoforms of the in vitro labeled 21,000-dalton protein, with pI values ranging from 5.2 to 6.5. In contrast, the 21,000-dalton protein metabolically labeled in vivo gave only one spot with a pI value of approx. 3.5.Hypusine formation on an 18,000-dalton cellular protein is a unique spermidine-dependent, post-translational modification that appears to be ubiquitous in mammalian cells. To determine whether this modification also exists in lower eukaryotes, we examined possible labeling in vitro and in vivo of cellular protein(s) by [3H]spermidine in a mutant strain of Neurospora crassa (arge-12 ota aga) in which ornithine and polyamine synthesis could be nutritionally manipulated. Because of poor uptake of polyamines in this organism, [3H]ornithine, the immediate precursor of polyamines, was used for the in vivo labeling experiment. Both in vitro and in vivo labeling resulted in a specific labeling of a 21,000-dalton protein. Radioactive hypusine was recovered from radiolabeled 21,000-dalton protein following acid hydrolysis. The in vitro labeling of the 21,000-dalton protein was dramatically stimulated by NAD+ and NADP+, but not by FMN or FAD, suggesting that an NAD+/NADP(+)-dependent oxidative cleavage of spermidine is involved in deoxyhypusine formation. Isoelectric focusing/sodium dodecyl sulfate two-dimensional gel analysis revealed three isoforms of the in vitro labeled 21,000-dalton protein, with pI values ranging from 5.2 to 6.5. In contrast, the 21,000-dalton protein metabolically labeled in vivo gave only one spot with a pI value of approx. 3.5. Hypusine formation on an 18,000-dalton cellular protein is a unique spermidine-dependent, post-translational modification that appears to be ubiquitous in mammalian cells. To determine whether this modification also exists in lower eukaryotes, we examined possible labeling in vitro and in vivo of cellular protein(s) by [3H]spermidine in a mutant strain of Neurospora crassa (arge-12 ota aga) in which ornithine and polyamine synthesis could be nutritionally manipulated. Because of poor uptake of polyamines in this organism, [3H]ornithine, the immediate precursor of polyamines, was used for the in vivo labeling experiment. Both in vitro and in vivo labeling resulted in a specific labeling of a 21,000-dalton protein. Radioactive hypusine was recovered from radiolabeled 21,000-dalton protein following acid hydrolysis. The in vitro labeling of the 21,000-dalton protein was dramatically stimulated by NAD+ and NADP+, but not by FMN or FAD, suggesting that an NAD+/NADP(+)-dependent oxidative cleavage of spermidine is involved in deoxyhypusine formation. Isoelectric focusing/sodium dodecyl sulfate two-dimensional gel analysis revealed three isoforms of the in vitro labeled 21,000-dalton protein, with pI values ranging from 5.2 to 6.5. In contrast, the 21,000-dalton protein metabolically labeled in vivo gave only one spot with a pI value of approx. 3.5.
Author	Seyfzadeh, Manouchehr Davis, Rowland H. Yun Chung Yang Kuang Yu Chen
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Snippet	Hypusine formation on an 18 000-dalton cellular protein is a unique spermidine-dependent, post-translational modification that appears to be ubiquitous in... Hypusine formation on an 18,000-dalton cellular protein is a unique spermidine-dependent, post-translational modification that appears to be ubiquitous in...
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SubjectTerms	Deoxyhypusine Electrophoresis, Polyacrylamide Gel Fungal Proteins - metabolism Hypusine Isoelectric Focusing Lysine - analogs & derivatives Lysine - metabolism Mutation Neurospora - metabolism Neurospora crassa - genetics Neurospora crassa - metabolism Neurospora crassa mutant Polyamines - metabolism Post-translational modification
Title	Deoxyhypusine/hypusine formation on a 21 000-dalton cellular protein in a Neurospora crassa mutant in vivo and in vitro
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