Huda Abdel-Hamid scite author profile

Huda Abdel-Hamid

4Publications

58Citation Statements Received

243Citation Statements Given

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University of Toronto

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Importance of the αC-helix in the cyclic nucleotide binding domain for the stable channel regulation and function of cyclic nucleotide gated ion channels in Arabidopsis

Chin¹,

Moeder²,

Abdel-Hamid³

et al. 2010

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The involvement of cyclic nucleotide gated ion channels (CNGCs) in the signal transduction of animal light and odorant perception is well documented. Although plant CNGCs have recently been revealed to mediate multiple stress responses and developmental pathways, studies that aim to elucidate their structural and regulatory properties are still very much in their infancy. The structure–function relationship of plant CNGCs was investigated here by using the chimeric Arabidopsis AtCNGC11/12 gene that induces multiple defence responses in the Arabidopsis mutant constitutive expresser of PR genes 22 (cpr22) for the identification of functionally essential residues. A genetic screen for mutants that suppress cpr22-conferred phenotypes identified over 20 novel mutant alleles in AtCNGC11/12. One of these mutants, suppressor S58 possesses a single amino acid substitution, arginine 557 to cysteine, in the αC-helix of the cyclic nucleotide-binding domain (CNBD). The suppressor S58 lost all cpr22 related phenotypes, such as spontaneous cell death formation under ambient temperature conditions. However, these phenotypes were recovered at 16 °C suggesting that the stability of channel function is affected by temperature. In silico modelling and site-directed mutagenesis analyses suggest that arginine 557 in the αC-helix of the CNBD is important for channel regulation, but not for basic function. Furthermore, another suppressor mutant, S136 that lacks the entire αC-helix due to a premature stop codon, lost channel function completely. Our data presented here indicate that the αC-helix is functionally important in plant CNGCs.

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A Suppressor Screen of the Chimeric AtCNGC11/12 Reveals Residues Important for Intersubunit Interactions of Cyclic Nucleotide-Gated Ion Channels

Abdel-Hamid

Chin

Moeder

et al. 2013

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To investigate the structure-function relationship of plant cyclic nucleotide-gated ion channels (CNGCs), we identified a total of 29 mutant alleles of the chimeric AtCNGC11/12 gene that induces multiple defense responses in the Arabidopsis (Arabidopsis thaliana) mutant, constitutive expresser of PR genes22 (cpr22). Based on computational modeling, two new alleles, S100 (AtCNGC11/12:G459R) and S137 (AtCNGC11/12:R381H), were identified as counterparts of human CNGA3 (a human CNGC) mutants. Both mutants lost all cpr22-mediated phenotypes. Transient expression in Nicotiana benthamiana as well as functional complementation in yeast (Saccharomyces cerevisiae) showed that both AtCNGC11/12:G459R and AtCNGC11/12:R381H have alterations in their channel function. Site-directed mutagenesis coupled with fast-protein liquid chromatography using recombinantly expressed C-terminal peptides indicated that both mutations significantly influence subunit stoichiometry to form multimeric channels. This observation was confirmed by bimolecular fluorescence complementation in planta. Taken together, we have identified two residues that are likely important for subunit interaction for plant CNGCs and likely for animal CNGCs as well.

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High throughput chemical screening supports the involvement of Ca²⁺in cyclic nucleotide-gated ion channel-mediated programmed cell death in Arabidopsis

Abdel-Hamid

Chin

Moeder

et al. 2011

Plant Signaling & Behavior

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Calmodulin binding to Arabidopsis cyclic nucleotide gated ion channels

Abdel-Hamid

Chin

Shahinas

et al. 2010

Plant Signaling & Behavior

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Huda Abdel-Hamid

Importance of the αC-helix in the cyclic nucleotide binding domain for the stable channel regulation and function of cyclic nucleotide gated ion channels in Arabidopsis

A Suppressor Screen of the Chimeric AtCNGC11/12 Reveals Residues Important for Intersubunit Interactions of Cyclic Nucleotide-Gated Ion Channels

High throughput chemical screening supports the involvement of Ca²⁺in cyclic nucleotide-gated ion channel-mediated programmed cell death in Arabidopsis

Calmodulin binding to Arabidopsis cyclic nucleotide gated ion channels

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Huda Abdel-Hamid

Importance of the αC-helix in the cyclic nucleotide binding domain for the stable channel regulation and function of cyclic nucleotide gated ion channels in Arabidopsis

A Suppressor Screen of the Chimeric AtCNGC11/12 Reveals Residues Important for Intersubunit Interactions of Cyclic Nucleotide-Gated Ion Channels

High throughput chemical screening supports the involvement of Ca2+in cyclic nucleotide-gated ion channel-mediated programmed cell death in Arabidopsis

Calmodulin binding to Arabidopsis cyclic nucleotide gated ion channels

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High throughput chemical screening supports the involvement of Ca²⁺in cyclic nucleotide-gated ion channel-mediated programmed cell death in Arabidopsis