Aimee Anido scite author profile

We found a significant positive association of repeat size with ovarian dysfunction, but have preliminary evidence that this relationship is non-linear. We suggest that FMR1 repeat size in the lower range (<80 repeats) contributes to the variation in age at menopause; thus, FMR1 could be considered a quantitative trait locus. More importantly, when repeat size exceeds this threshold, the increase in risk for ovarian dysfunction is clinically significant. Intriguingly, this risk appears to plateau, or perhaps decrease, among women with very high repeats (> or =100 repeats).

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An Epilepsy Mutation in the Sodium ChannelSCN1AThat Decreases Channel Excitability

Barela

Waddy

Lickfett

et al. 2006

J. Neurosci.

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Mutations in three voltage-gated sodium channel genes, SCN1A, SCN2A, and SCN1B, and two GABA A receptor subunit genes, GABRG2 and GABRD, have been identified in families with generalized epilepsy with febrile seizures plus (GEFSϩ). A novel mutation, R859C, in the Na v 1.1 sodium channel was identified in a four-generation, 33-member Caucasian family with a clinical presentation consistent with GEFSϩ. The mutation neutralizes a positively charged arginine in the domain 2 S4 voltage sensor of the Na v 1.1 channel ␣ subunit. This residue is conserved in mammalian sodium channels as well as in sodium channels from lower organisms. When the mutation was placed in the rat Na v 1.1 channel and expressed in Xenopus oocytes, the mutant channel displayed a positive shift in the voltage dependence of sodium channel activation, slower recovery from slow inactivation, and lower levels of current compared with the wild-type channel. Computational analysis suggests that neurons expressing the mutant channel have higher thresholds for firing a single action potential and for firing multiple action potentials, along with decreased repetitive firing. Therefore, this mutation should lead to decreased neuronal excitability, in contrast to most previous GEFSϩ sodium channel mutations, which have changes predicted to increase neuronal firing.

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Women's Attitudes Toward Testing for Fragile X Carrier Status: A Qualitative Analysis

Anido

Carlson

Taft

et al. 2005

Journal of Genetic Counseling

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Fragile X syndrome (FXS) is primarily due to a repeat expansion mutation found in the FMR1 X-linked gene. We have conducted a qualitative analysis of responses from women concerning their attitudes toward testing for carrier status of the fragile X mutation among reproductive-age women. We obtained responses from focus groups including women with and without FXS in their families. We found the following themes: (1) mothers of children with FXS have difficulty formulating their opinions on population screening because of their unique experiences surrounding their own carrier diagnosis and their relationship with their children with FXS, (2) the motivation for carrier testing and need for information differ by family history of FXS and parental status, and (3) the timing of carrier testing with respect to a woman's life stage dictates whether carrier information will be viewed as beneficial or detrimental. There was evidence that non-carrier women from the general population would be wholly unprepared for positive carrier results. These findings have significant implications for genetic counseling as well as for population screening.

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Four ARF GAPs in Saccharomyces cerevisiae have both overlapping and distinct functions

Zhang

Bowzard

Anido

et al. 2003

Yeast

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Previous studies in yeast have revealed the presence of four proteins with a conserved, cysteine-rich, ARF GAP domain that share the ability to suppress the conditional growth defect of the arf1-3 mutant. Three of these proteins have been shown previously to be ADP-ribosylation factor (ARF) GTPase-activating proteins (GAPs). We now demonstrate that the fourth also exhibits in vitro ARF GAP activity and correlates the suppressor and ARF GAP activities for all four. Because the four ARF GAP proteins are quite diverse outside the ARF GAP domain, a genetic analysis was undertaken to define the level of functional cross-talk between them. A large number of synthetic defects were observed that point to a high degree of functional overlap among the four ARF GAPs. However, several differences were also noted in the ability of each gene to suppress the synthetic defects of others and in the impact of single or combined deletions on assays of membrane traffic. We interpret these results as supportive evidence for roles of ARF GAPs in a number of distinct, essential cellular processes that include cell growth, protein secretion, endocytosis and cell cycling. The description of the specificities of the ARF GAPs for the different responses is viewed as a necessary first step in dissecting biologically relevant pathways through a functionally overlapping family of signalling proteins.

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Aimee Anido

Association of FMR1 repeat size with ovarian dysfunction

An Epilepsy Mutation in the Sodium ChannelSCN1AThat Decreases Channel Excitability

Women's Attitudes Toward Testing for Fragile X Carrier Status: A Qualitative Analysis

Four ARF GAPs in Saccharomyces cerevisiae have both overlapping and distinct functions

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