In Silico Study of Rett Syndrome Treatment-Related Genes, MECP2, CDKL5, and FOXG1, by Evolutionary Classification and Disordered Region Assessment

Fahmi, Muhamad; Yasui, Gen; Seki, Kaito; Katayama, Syouichi; Kaneko-Kawano, Takako; Inazu, Toshiyuki; Kubota, Yukihiko; Ito, Masahiro

doi:10.3390/ijms20225593

Cited by 12 publications

(11 citation statements)

References 86 publications

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“…Long consecutively disordered residues (>30) may function as entropic chains or can be involved in interactions using combinations of recognition motifs or domains [33]. We previously reported that residues within disordered regions that function as entropic chains evolve quickly, whereas those involved in protein-protein interactions tend to be constrained [13,14]. Thus, it may be relevant for some ancient glycoside hydrolases to harbour long stretches of disordered regions because the conformational plasticity of these regions enables the recognition of or binding to multiple partners, which is beneficial for identifying misfolded proteins.…”

Section: Discussionmentioning

confidence: 99%

“…This is supported by comparison of evolutionary rates between ordered and disordered structured proteins. Disordered regions commonly evolve faster than ordered structures [10][11][12][13][14] because of differences in the relative constraints that maintain folding interactions [15]. However, there are exceptions to this rule.…”

Section: Introductionmentioning

confidence: 99%

“…However, there are exceptions to this rule. For instance, specific functional binding and modification regions of a disordered structure are constrained [13,14,16], thus introducing heterogeneity into evolutionary rates.…”

Section: Introductionmentioning

confidence: 99%

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Genome-Wide Analysis of Whole Human Glycoside Hydrolases by Data-Driven Analysis in Silico

Nakamura

Fahmi

Tanaka

et al. 2019

IJMS

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Glycans are involved in various metabolic processes via the functions of glycosyltransferases and glycoside hydrolases. Analysing the evolution of these enzymes is essential for improving the understanding of glycan metabolism and function. Based on our previous study of glycosyltransferases, we performed a genome-wide analysis of whole human glycoside hydrolases using the UniProt, BRENDA, CAZy and KEGG databases. Using cluster analysis, 319 human glycoside hydrolases were classified into four clusters based on their similarity to enzymes conserved in chordates or metazoans (Class 1), metazoans (Class 2), metazoans and plants (Class 3) and eukaryotes (Class 4). The eukaryote and metazoan clusters included Nand O-glycoside hydrolases, respectively. The significant abundance of disordered regions within the most conserved cluster indicated a role for disordered regions in the evolution of glycoside hydrolases. These results suggest that the biological diversity of multicellular organisms is related to the acquisition of Nand O-linked glycans.

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Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Genome-Wide Analysis of Whole Human Glycoside Hydrolases by Data-Driven Analysis in Silico

Nakamura

Fahmi

Tanaka

et al. 2019

IJMS

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“…Its placement in the molecular phylogenetic tree of protein kinases indicates identity with the CDK and mitogen-activated protein kinase (MAPK) families (Figure 1(a)) [28]. The catalytic domain of the CDKL5 enzyme has a characteristic 12-subdomain structure of Ser/Thr kinases, the sequence of which is highly conserved across many species, from mammals to fish (Figure 1(b)) [32][33][34]. An activation loop, which includes the TEY sequence observed in MAPK family kinases, is present between subdomains VII and VIII of the catalytic domain.…”

Section: Cdkl5 and Its Transcriptsmentioning

confidence: 99%

Cyclin-Dependent Kinase-Like 5 (CDKL5): Possible Cellular Signalling Targets and Involvement in CDKL5 Deficiency Disorder

et al. 2020

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Cyclin-dependent kinase-like 5 (CDKL5, also known as STK9) is a serine/threonine protein kinase originally identified in 1998 during a transcriptional mapping project of the human X chromosome. Thereafter, a mutation in CDKL5 was reported in individuals with the atypical Rett syndrome, a neurodevelopmental disorder, suggesting that CDKL5 plays an important regulatory role in neuronal function. The disease associated with CDKL5 mutation has recently been recognised as CDKL5 deficiency disorder (CDD) and has been distinguished from the Rett syndrome owing to its symptomatic manifestation. Because CDKL5 mutations identified in patients with CDD cause enzymatic loss of function, CDKL5 catalytic activity is likely strongly associated with the disease. Consequently, the exploration of CDKL5 substrate characteristics and regulatory mechanisms of its catalytic activity are important for identifying therapeutic target molecules and developing new treatment. In this review, we summarise recent findings on the phosphorylation of CDKL5 substrates and the mechanisms of CDKL5 phosphorylation and dephosphorylation. We also discuss the relationship between changes in the phosphorylation signalling pathways and the Cdkl5 knockout mouse phenotype and consider future prospects for the treatment of mental and neurological disease associated with CDKL5 mutations.

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“…Fahmi, M. et al provided insight into the structural characteristics, evolution and interaction landscapes of those three proteins. They also reported the disordered structure properties and evolution of those proteins which may provide valuable information for the development of therapeutic strategies of RTT [35].…”

Section: Researchmentioning

confidence: 99%

Macromolecular Interactions of Disordered Proteins

Simon

2020

IJMS

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In Silico Study of Rett Syndrome Treatment-Related Genes, MECP2, CDKL5, and FOXG1, by Evolutionary Classification and Disordered Region Assessment

Cited by 12 publications

References 86 publications

Genome-Wide Analysis of Whole Human Glycoside Hydrolases by Data-Driven Analysis in Silico

Genome-Wide Analysis of Whole Human Glycoside Hydrolases by Data-Driven Analysis in Silico

Cyclin-Dependent Kinase-Like 5 (CDKL5): Possible Cellular Signalling Targets and Involvement in CDKL5 Deficiency Disorder

Macromolecular Interactions of Disordered Proteins

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