Shih-Kwang Wu scite author profile

Rab GDP-dissociation inhibitors (GDI) are evolutionarily conserved proteins that play an essential role in the recycling of Rab GTPases required for vesicular transport through the secretory pathway. We have found mutations in the GDI1 gene (which encodes uGDI) in two families affected with X-linked non-specific mental retardation. One of the mutations caused a non-conservative substitution (L92P) which reduced binding and recycling of RAB3A, the second was a null mutation. Our results show that both functional and developmental alterations in the neuron may account for the severe impairment of learning abilities as a consequence of mutations in GDI1, emphasizing its critical role in development of human intellectual and learning abilities.

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Structure and mutational analysis of Rab GDP-dissociation inhibitor

Schalk

Zeng

et al. 1996

Nature

163

204

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The crystal structure of the bovine alpha-isoform of Rab GDP-dissociation inhibitor (GDI), which functions in vesicle-membrane transport to recycle and regulate Rab GTPases, has been determined to a resolution of 1.81 A. GDI is constructed of two main structural units, a large complex multisheet domain I and a smaller alpha-helical domain II. The structural organization of domain I is surprisingly closely related to FAD-containing monooxygenases and oxidases. Sequence-conserved regions common to GDI and the choroideraemia gene product, which delivers Rab to catalytic subunits of Rab geranylgeranyltransferase II, are clustered on one face of the molecule. The two most sequence-conserved regions, which form a compact structure at the apex of GDI, are shown by site-directed mutagenesis to play a critical role in the binding of Rab proteins.

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Structural insights into the function of the Rab GDI superfamily

Wu¹,

Zeng²,

Wilson³

et al. 1996

Trends in Biochemical Sciences

104

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A Structure-Function Study of Bovine Pancreatic Phospholipase A2 Using Polymerized Mixed Liposomes

Dua

Cho

1995

Journal of Biological Chemistry

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Human immunodeficiency virus (HIV-1) is able to recombine by transfer of the growing DNA strand from internal regions of one genome to another. The strand transfer reaction, catalyzed by HIV-1 reverse transcriptase (RT), was conducted in vitro between donor and acceptor RNA templates that were derived from natural HIV-1 nef genes. The donor and acceptor templates shared a nearly homologous region where strand transfer could occur, differing only in that the acceptor had a 36-nucleotide insertion and 6 widely spaced base substitutions compared with the donor. We sequenced elongated primers that underwent transfer. The position of transfer was revealed by the change of sequence from that of the donor to that of the acceptor. Results showed a positive correlation between positions where the RT paused during synthesis and enhancement of strand transfer. Elimination of a pause site, with a minimal change in sequence, decreased the frequency of strand transfer in the immediate area. Analysis of the sequence of DNA products resulting from transfer at a frequently used site showed that mutations had been introduced into the DNA at about the point of transfer. Remarkably, approximately 30% of the products contained mutations. Base substitutions, short additions and deletions were observed. Mutations did not appear in DNA products extended on the donor template without transfer. The identity of the mutations suggests that they were caused by a combination of slippage and non-template-directed nucleotide addition. These results indicated that the detected mutations were related to the process of strand transfer.

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Molecular Role for the Rab Binding Platform of Guanine Nucleotide Dissociation Inhibitor in Endoplasmic Reticulum to Golgi Transport

Luan

Matteson

et al. 1998

Journal of Biological Chemistry

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Guanine nucleotide dissociation inhibitor (GDI) regulates the recycling of Rab GTPases involved in vesicle targeting and fusion. We have analyzed the requirement for conserved amino acid residues in the binding of Rab1A and the function of GDI in transport of cargo between the endoplasmic reticulum (ER) and the Golgi apparatus. Using a new approach to monitor GDI-Rab interactions based on the change in fluorescence associated with the release of methylanthraniloyl guanosine di(tri)phosphate-GDP (mGDP) from Rab, we show that residues previously implicated in the binding of the synapse-specific Rab3A, including Gln-236, Arg-240, and Thr-248, are essential for the binding of Rab1A. Mutation of each of these residues has potent effects on the ability of GDI to remove Rab1A from membranes and inhibit ER to Golgi transport in vitro. Given the sequence divergence between Rab1A and 3A (35% identity), these residues are proposed to play a general role in GDI function in the cell. In contrast, several other residues found within or flanking the Rab-binding region were found to have differential effects in the recognition and recycling of Rab1A and 3A, and therefore direct selective interaction of GDI with individual Rab proteins. Intriguingly, mutation of one residue, Arg-70, led to a reduction of Rab1A binding, failed to extract Rab1A from membranes in vitro, yet bound membranes tightly and potently inhibited ER to Golgi transport. These results provide evidence that novel membrane-associated factor(s) mediate Rab-independent GDI interaction with membranes.

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Shih-Kwang Wu

Mutations in GDI1 are responsible for X-linked non-specific mental retardation

Structure and mutational analysis of Rab GDP-dissociation inhibitor

Structural insights into the function of the Rab GDI superfamily

A Structure-Function Study of Bovine Pancreatic Phospholipase A2 Using Polymerized Mixed Liposomes

Molecular Role for the Rab Binding Platform of Guanine Nucleotide Dissociation Inhibitor in Endoplasmic Reticulum to Golgi Transport

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