Literature summary extracted from

Ivashkin, E.; Melnikova, V.; Kurtova, A.; Brun, N.R.; Obukhova, A.; Khabarova, M.Y.; Yakusheff, A.; Adameyko, I.; Gribble, K.E.; Voronezhskaya, E.E.
Transglutaminase activity determines nuclear localization of serotonin immunoreactivity in the early embryos of invertebrates and vertebrates (2019), ACS Chem. Neurosci., 10, 3888-3899 .

Inhibitors

EC Number	Inhibitors	Comment	Organism	Structure
2.3.2.13	cystamine	-	Mesocentrotus nudus
2.3.2.13	cystamine	-	Paracentrotus lividus
2.3.2.13	cystamine	-	Scaphechinus mirabilis
2.3.2.13	Monodansylcadaverine	-	Mesocentrotus nudus
2.3.2.13	Monodansylcadaverine	-	Paracentrotus lividus
2.3.2.13	Monodansylcadaverine	-	Scaphechinus mirabilis

Localization

EC Number	Localization	Comment	Organism	GeneOntology No.	Textmining
2.3.2.13	additional information	fluorescence immunohistochemical localization, overview. Brightest 5-HT-ir spots appear at the apical region of all ectodermal cells, and are not associated with nuclei of any cells	Mesocentrotus nudus	-	-
2.3.2.13	additional information	fluorescence immunohistochemical localization, overview. Brightest 5-HT-ir spots appear at the apical region of all ectodermal cells, and are not associated with nuclei of any cells	Scaphechinus mirabilis	-	-
2.3.2.13	additional information	fluorescence immunohistochemical localization, overview. Most anti-5-HT staining is associated with nuclear material	Paracentrotus lividus	-	-
2.3.2.13	nucleus	-	Paracentrotus lividus	5634	-

Natural Substrates/ Products (Substrates)

EC Number	Natural Substrates	Organism	Comment (Nat. Sub.)	Natural Products	Comment (Nat. Pro.)	Rev.	Reac.
2.3.2.13	protein glutamine + 5-hydroxytryptamine	Mesocentrotus nudus	-	protein N5-(5-hydroxy)tryptaminyl-glutamine + NH3	-	?
2.3.2.13	protein glutamine + 5-hydroxytryptamine	Paracentrotus lividus	-	protein N5-(5-hydroxy)tryptaminyl-glutamine + NH3	-	?
2.3.2.13	protein glutamine + 5-hydroxytryptamine	Scaphechinus mirabilis	-	protein N5-(5-hydroxy)tryptaminyl-glutamine + NH3	-	?
2.3.2.13	protein glutamine + alkylamine	Mesocentrotus nudus	-	protein N5-alkylglutamine + NH3	-	?
2.3.2.13	protein glutamine + alkylamine	Paracentrotus lividus	-	protein N5-alkylglutamine + NH3	-	?
2.3.2.13	protein glutamine + alkylamine	Scaphechinus mirabilis	-	protein N5-alkylglutamine + NH3	-	?

Organism

EC Number	Organism	UniProt	Comment	Textmining
2.3.2.13	Mesocentrotus nudus	-	-	-
2.3.2.13	Paracentrotus lividus	Q8T316	-	-
2.3.2.13	Scaphechinus mirabilis	-	-	-

Source Tissue

EC Number	Source Tissue	Comment	Organism	Textmining
2.3.2.13	blastula	-	Mesocentrotus nudus	-
2.3.2.13	blastula	-	Paracentrotus lividus	-
2.3.2.13	blastula	-	Scaphechinus mirabilis	-
2.3.2.13	ectoderm	-	Mesocentrotus nudus	-
2.3.2.13	ectoderm	-	Scaphechinus mirabilis	-
2.3.2.13	embryo	-	Mesocentrotus nudus	-
2.3.2.13	embryo	-	Paracentrotus lividus	-
2.3.2.13	embryo	-	Scaphechinus mirabilis	-
2.3.2.13	additional information	enzyme expression analysis and fluorescence histochemical localization, overview	Mesocentrotus nudus	-
2.3.2.13	additional information	enzyme expression analysis and fluorescence histochemical localization, overview	Paracentrotus lividus	-
2.3.2.13	additional information	enzyme expression analysis and fluorescence histochemical localization, overview	Scaphechinus mirabilis	-

Substrates and Products (Substrate)

EC Number	Substrates	Comment Substrates	Organism	Products	Comment (Products)	Rev.	Reac.
2.3.2.13	protein glutamine + 5-hydroxytryptamine	-	Mesocentrotus nudus	protein N5-(5-hydroxy)tryptaminyl-glutamine + NH3	-	?
2.3.2.13	protein glutamine + 5-hydroxytryptamine	-	Paracentrotus lividus	protein N5-(5-hydroxy)tryptaminyl-glutamine + NH3	-	?
2.3.2.13	protein glutamine + 5-hydroxytryptamine	-	Scaphechinus mirabilis	protein N5-(5-hydroxy)tryptaminyl-glutamine + NH3	-	?
2.3.2.13	protein glutamine + 5-hydroxytryptamine	immunohistochemic detection of 5-HT	Mesocentrotus nudus	protein N5-(5-hydroxy)tryptaminyl-glutamine + NH3	-	?
2.3.2.13	protein glutamine + 5-hydroxytryptamine	immunohistochemic detection of 5-HT	Paracentrotus lividus	protein N5-(5-hydroxy)tryptaminyl-glutamine + NH3	-	?
2.3.2.13	protein glutamine + 5-hydroxytryptamine	immunohistochemic detection of 5-HT	Scaphechinus mirabilis	protein N5-(5-hydroxy)tryptaminyl-glutamine + NH3	-	?
2.3.2.13	protein glutamine + alkylamine	-	Mesocentrotus nudus	protein N5-alkylglutamine + NH3	-	?
2.3.2.13	protein glutamine + alkylamine	-	Paracentrotus lividus	protein N5-alkylglutamine + NH3	-	?
2.3.2.13	protein glutamine + alkylamine	-	Scaphechinus mirabilis	protein N5-alkylglutamine + NH3	-	?

Synonyms

EC Number	Synonyms	Comment	Organism
2.3.2.13	transglutaminase	-	Mesocentrotus nudus
2.3.2.13	transglutaminase	-	Paracentrotus lividus
2.3.2.13	transglutaminase	-	Scaphechinus mirabilis
2.3.2.13	transglutaminase-like protein	UniProt	Paracentrotus lividus

General Information

EC Number	General Information	Comment	Organism
2.3.2.13	physiological function	serotonin (5-hydroxytryptamine, 5-HT) is a key player in many physiological processes in both the adult organism and developing embryo. One of the mechanisms for 5-HT-mediated effects is covalent binding of 5-HT to the target proteins catalyzed by transglutaminases (serotonylation). In some cases, protein serotonylation (or generally monoaminylation) may lead to the formation of an active or inactive molecule that remains stable until its proteolytic degradation	Mesocentrotus nudus
2.3.2.13	physiological function	serotonin (5-hydroxytryptamine, 5-HT) is a key player in many physiological processes in both the adult organism and developing embryo. One of the mechanisms for 5-HT-mediated effects is covalent binding of 5-HT to the target proteins catalyzed by transglutaminases (serotonylation). In some cases, protein serotonylation (or generally monoaminylation) may lead to the formation of an active or inactive molecule that remains stable until its proteolytic degradation	Paracentrotus lividus
2.3.2.13	physiological function	serotonin (5-hydroxytryptamine, 5-HT) is a key player in many physiological processes in both the adult organism and developing embryo. One of the mechanisms for 5-HT-mediated effects is covalent binding of 5-HT to the target proteins catalyzed by transglutaminases (serotonylation). In some cases, protein serotonylation (or generally monoaminylation) may lead to the formation of an active or inactive molecule that remains stable until its proteolytic degradation	Scaphechinus mirabilis

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Release 2023.1 (January 2023)