Search results for TTLL10

Showing 4 results out of 4

×

Species

Types

Compartments

Search properties

Species

Types

Compartments

Search properties

Protein (1 results from a total of 1)

Identifier: R-HSA-8867398
Species: Homo sapiens
Compartment: cytosol
Primary external reference: UniProt: TTLL10: Q6ZVT0

Reaction (2 results from a total of 2)

Identifier: R-HSA-8867370
Species: Homo sapiens
Compartment: cytosol
Tubulin is modified by glutamylation and glycylation, the additon of peptide branches made of glutamyl or glycyl residues respectively, which are attached to the gamma-carboxyl group of glutamic acids within the C-terminal tail domains of alpha- and beta-tubulin. They are added by members of the tubulin tyrosine ligase (TTL family). TTLL3, 8, and 10 are glycylases (Ikegami et al. 2008, Ikegami and Setou, 2009; Rogowski et al. 2009; Wloga et al. 2009) with TTLL3 and 8 serving as initiases, and TTLL10 serving as an elongase. In this event polyglycation is arbitrarily shown on only one tubulin protofilament within the microtubule.
Identifier: R-HSA-8865774
Species: Homo sapiens
Compartment: cytosol
Tubulin is modified by glutamylation and glycylation, the additon of peptide branches made of glutamyl or glycyl residues respectively, which are attached to the gamma-carboxyl group of glutamic acids within the C-terminal tail domains of alpha- and beta-tubulin. Glutamylation, the most prevalent tubulin posttranslational modification, marks stable microtubules and regulates recruitment and activity of microtubule-interacting proteins. Hyperglutamylation in Purkinje cell degeneration (pcd) mice leads to neurodegeneration (Rogowski et al. 2010).

Nine enzymes of the tubulin tyrosine ligase-like (TTLL) family catalyze glutamylation (Garhnam & Roll-Mecak 2012, Garnham et al. 2015). TTLLs can have a preference for either alpha- or beta-tubulin, although many are able to modify either (Janke et al. 2005, Ikegami et al. 2006, van Dijk et al. 2007). Initial characterization of the mouse TTLL family showed that TTLL1, 5, 6, 11, and 13 preferentially poly-glutamylate alpha-tubulin, while TTLL4 and 7 prefer beta-tubulin. While TTLL1 has a preference for alpha-tubulin (Janke et al. 2005), TTLL1 knockout mice displayed decreased glutamylation on alpha- and beta-tubulin (Ikegami et al. 2010). The molecular determinants for specificity are poorly understood and specificity can differ between organisms, preventing an unambiguous classification of TTLLs by their alpha/beta preference. TTLL4, 5, and 7 have been described as initiases, adding a branched glutamic acid to the tubulin tail, while TTLL6, 11, and 13 were suggested to be elongases, adding poly-Glu chains of variable lengths to the branched glutamic acid (Garhnam & Roll-Mecak 2012). The specificity of mammalian TTLL2, 9, and TTLL12 are unknown.

TTLL3, 8, and 10 are glycylases that glycate rather than glutamylate tubulin (Ikegami et al. 2008, Ikegami & Setou 2009, Rogowski et al. 2009, Wloga et al. 2009), with TTLL3 and 8 serving as initiases, and TTLL10 serving as an elongase.

TTLL7, the most abundant glutamylase in neurons, modifies both alpha- and beta-tubulin tail peptides in isolation but shows a preference for beta-tubulin when presented with microtubules. TTLL7 catalyzes the initiatial glutamylation of Beta-tubulin glutamates at multiple internal positions in the Beta-tail, and also the addition of subsequent glutamates to existing branched glutamates (Mukai et al. 2009).

Set (1 results from a total of 1)

Identifier: R-HSA-8867449
Species: Homo sapiens
Compartment: cytosol
Cite Us!