Joanne Dunn scite author profile

Doublecortin (DCX) is a 40 kDa microtubule-associated protein required for normal neural migration and cortical layering during development. Mutations in the human DCX gene cause a disruption of cortical neuronal migration. Defects in cdk5 (cyclindependent kinase 5) also cause defects in neural migration and cortical layering. DCX is a substrate for cdk5 in vitro and in vivo and the major site of in vitro phosphorylation is Ser-297. We used a highly developed MS strategy to identify the cdk5 phosphorylation sites and determine the major and minor sites. Several phosphopeptides were identified from a tryptic digest of 32 Plabelled, cdk5-phosphorylated DCX using a combination of offline HPLC and matrix-assisted laser-desorption ionization-MS with alkaline phosphatase treatment. Tandem MS/MS enabled the identification of seven phosphorylation sites for cdk5. Monitoring of 32 P label indicated that there was one major site, Ser-28, at the N-terminus, and a major site, Ser-339, in the serine/prolinerich domain at the C-terminus. Five other sites, Ser-287, Thr-289, Ser-297, Thr-326 and Ser-332, were also found in the tail. Sitedirected mutagenesis largely supported these findings. Single mutation of Ser-28 reduced but did not abolish phosphorylation. Double, rather than single, mutation for Ser-332 and Ser-339 was required to reduce overall phosphorylation, suggesting an interaction between these sites. Truncations of the tail produced a significant reduction in cdk5 phosphorylation of DCX. These results do not support Ser-297 as the major cdk5 phosphorylation site in DCX, but indicate that DCX is subject to complex multisite phosphorylation. This illustrates the importance of a well-developed MS strategy to identify phosphorylation sites.

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Expression of doublecortin (DCX) and doublecortin‐like kinase (DCLK) within the developing chick brain

Capes‐Davis

Tolhurst

Dunn

et al. 2004

Developmental Dynamics

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Doublecortin (DCX) is a microtubule-associated protein widely expressed in the developing mammalian nervous system and important for neuronal migration. DCX is known to belong to a novel protein family defined by sequence homology and the presence of a conserved microtubule-binding domain, but the functions of other members of this family are still undefined. In this study, we describe the cloning of the chick ortholog of doublecortin-like kinase (DCLK), a member of this family, and assess the expression of DCX and DCLK in the layered regions of the developing chick brain. DCX and DCLK are widely expressed in pallial and subpallial structures, including the telencephalon, optic tectum, and cerebellum, in similar distribution patterns. In addition to their expression in migrating cells, both proteins were also detected in the ventricular zone and in postmigratory Purkinje cells. Finally, DCX and DCLK were found to be coexpressed in all areas examined. In postmigratory Purkinje cells, DCX and DCLK both colocalized to the cell membrane, although DCLK was also distributed more generally throughout the cell soma. These data are consistent with multiple roles for DCX and DCLK in the developing chicken brain and suggest that the chick cerebellum will be an intriguing system to explore the effects of DCX and DCLK on postmigratory neuronal function. Developmental Dynamics 232:457-467, 2005.

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CROC-4: A Novel Brain Specific Transcriptional Activator of c-fos Expressed from Proliferation through to Maturation of Multiple Neuronal Cell Types

Jeffrey

Capes‐Davis

Dunn

et al. 2000

Molecular and Cellular Neuroscience

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Psychological processes in chronic embitterment: The potential contribution of rumination.

Dunn

Sensky

2018

Psychological Trauma: Theory, Research, Practice, and Policy

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Previous research has demonstrated that rumination impairs executive functions and problem-solving. The association of affective rumination with embitterment may contribute to the explanation for why embitterment becomes chronic and is often difficult to alleviate. However, this association also opens up possibilities of intervention, in light of research evidence of the effectiveness of rumination-focused therapies. (PsycINFO Database Record

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Expression of doublecortin correlates with neuronal migration and pattern formation in diverse regions of the developing chick brain

Hannan¹,

Henke²,

Seeto³

et al. 1999

J. Neurosci. Res.

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The development of functional layers in the brain involves spatially and temporally regulated gene expression. Through cDNA library screening, we have identified genes that are expressed in a neural-specific manner during brain development. Sequencing and expression data indicate that one of the clones, 18C15, is the chick homologue of doublecortin, a human X-linked gene found to be mutated in subcortical laminar heterotopia (double cortex syndrome) and lissencephaly. The 18C15 mRNA contains multiple motifs that are known to regulate mRNA stability in response to inductive signals, and these motifs are conserved between the chick and human sequences. Doublecortin is found to be expressed at peak levels during early development of the cerebellum and forebrain, and is expressed in other regions including the tectum, spinal cord, and dorsal root ganglia. This study demonstrates both spatial and temporal regulation of doublecortin expression in the chick, which is associated with early events in brain development, including neuronal migration.

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Joanne Dunn

Multisite phosphorylation of doublecortin by cyclin-dependent kinase 5

Expression of doublecortin (DCX) and doublecortin‐like kinase (DCLK) within the developing chick brain

CROC-4: A Novel Brain Specific Transcriptional Activator of c-fos Expressed from Proliferation through to Maturation of Multiple Neuronal Cell Types

Psychological processes in chronic embitterment: The potential contribution of rumination.

Expression of doublecortin correlates with neuronal migration and pattern formation in diverse regions of the developing chick brain

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