2.1.1.317: sphingolipid C9-methyltransferase

This is an abbreviated version!
For detailed information about sphingolipid C9-methyltransferase, go to the full flat file.

Reaction

a 9-methyl-(4E,8E)-sphinga-4,8-dienine ceramide

Synonyms

C9-methyltransferase for sphingolipid 1, MTS1, SMT1, smtA, SmtB

ECTree

2 Transferases

2.1 Transferring one-carbon groups

2.1.1 Methyltransferases

2.1.1.317 sphingolipid C9-methyltransferase

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Results	in table
10	AA Sequence
3	Cloned(Commentary)
2	Cofactor
22	General Information
2	Localization
3	Natural Substrates/ Products (Substrates)
15	Organism
5	Protein Variants
1	Reaction
7	Reference
3	Substrates and Products (Substrate)
5	Synonyms
1	Systematic Name

Reference

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Reference on EC 2.1.1.317 - sphingolipid C9-methyltransferase

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733757

Ramamoorthy, V.; Cahoon, E.; Thokala, M.; Kaur, J.; Li, J.; Shah, D.

Sphingolipid C-9 methyltransferases are important for growth and virulence but not for sensitivity to antifungal plant defensins in Fusarium graminearum

Eukaryot. Cell

217-229

2009

Fusarium graminearum, Fusarium graminearum PH-1

19028992

734154

Ternes, P.; Sperling, P.; Albrecht, S.; Franke, S.; Cregg, J.M.; Warnecke, D.; Heinz, E.

Identification of fungal sphingolipid C9-methyltransferases by phylogenetic profiling

J. Biol. Chem.

281

5582-5592

2006

Komagataella pastoris (Q2QJ12), Komagataella pastoris, Komagataella pastoris GS115 (Q2QJ12)

16339149

734640

Oura, T.; Kajiwara, S.

Candida albicans sphingolipid C9-methyltransferase is involved in hyphal elongation

Microbiology

156

1234-1243

2010

Candida albicans

20019081

756318

Singh, A.; Rella, A.; Schwacke, J.; Vacchi-Suzzi, C.; Luberto, C.; Del Poeta, M.

Transmembrane transporter expression regulated by the glucosylceramide pathway in Cryptococcus neoformans

BMC Res. Notes

861

2015

Cryptococcus neoformans var. grubii

26572681

757682

Fernandes, C.; de Castro, P.; Singh, A.; Fonseca, F.; Pereira, M.; Vila, T.; Atella, G.; Rozental, S.; Savoldi, M.; Del Poeta, M.; Goldman, G.; Kurtenbach, E.

Functional characterization of the Aspergillus nidulans glucosylceramide pathway reveals that LCB DELTA8-desaturation and C9-methylation are relevant to filamentous growth, lipid raft localization and Psd1 defensin activity

Mol. Microbiol.

102

488-505

2016

Aspergillus nidulans (Q5AWF5), Aspergillus nidulans (Q5B192)

27479571