Ceramide Synthase 6: Comparative Analysis, Phylogeny and Evolution

Ceramide synthase 6 (CerS6, also known as LASS6) is one of the six members of ceramide synthase gene family in humans. Comparisons of CerS6 amino acid sequences and structures as well as of CerS6 gene structures/locations were conducted using data from several vertebrate genome projects. A specific...

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Main Authors: Roger S. Holmes, Keri A. Barron, Natalia I. Krupenko
Format: Article
Language:English
Published: MDPI AG 2018-10-01
Series:Biomolecules
Subjects:
Online Access:http://www.mdpi.com/2218-273X/8/4/111
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spelling doaj-52fbfe8dc8214bb29046ef44876c117e2020-11-24T21:24:58ZengMDPI AGBiomolecules2218-273X2018-10-018411110.3390/biom8040111biom8040111Ceramide Synthase 6: Comparative Analysis, Phylogeny and EvolutionRoger S. Holmes0Keri A. Barron1Natalia I. Krupenko2Griffith Research Institute for Drug Discovery and School of Environment and Science, Griffith University, Nathan, QLD 4111, AustraliaDepartment of Nutrition, UNC-Chapel Hill, UNC Nutrition Research Institute, Kannapolis, NC 28081, USADepartment of Nutrition, UNC-Chapel Hill, UNC Nutrition Research Institute, Kannapolis, NC 28081, USACeramide synthase 6 (CerS6, also known as LASS6) is one of the six members of ceramide synthase gene family in humans. Comparisons of CerS6 amino acid sequences and structures as well as of CerS6 gene structures/locations were conducted using data from several vertebrate genome projects. A specific role for the CerS6 gene and protein has been identified as the endoplasmic reticulum C14- and C16-ceramide synthase. Mammalian CerS6 proteins share 90–100% similarity among different species, but are only 22–63% similar to other CerS family members, suggesting that CerS6 is a distinct gene family. Sequence alignments, predicted transmembrane, lumenal and cytoplasmic segments and N-glycosylation sites were also investigated, resulting in identification of the key conserved residues, including the active site as well as C-terminus acidic and serine residues. Mammalian CerS6 genes contain ten exons, are primarily located on the positive strands and transcribed as two major isoforms. The human CERS6 gene promoter harbors a large CpG island (94 CpGs) and multiple transcription factor binding sites (TFBS), which support precise transcriptional regulation and signaling functions. Additional regulation is conferred by 15 microRNA (miRNA) target sites identified in the CERS6 3′-UTR region. Phylogenetic analysis of the vertebrate CerS1–6 gene families relationships supports a major role for the CerS6 enzyme that is strongly conserved throughout vertebrate evolution.http://www.mdpi.com/2218-273X/8/4/111ceramide synthaseCerS6enzymesgeneshumanmousevertebratesinvertebratesyeast
collection DOAJ
language English
format Article
sources DOAJ
author Roger S. Holmes
Keri A. Barron
Natalia I. Krupenko
spellingShingle Roger S. Holmes
Keri A. Barron
Natalia I. Krupenko
Ceramide Synthase 6: Comparative Analysis, Phylogeny and Evolution
Biomolecules
ceramide synthase
CerS6
enzymes
genes
human
mouse
vertebrates
invertebrates
yeast
author_facet Roger S. Holmes
Keri A. Barron
Natalia I. Krupenko
author_sort Roger S. Holmes
title Ceramide Synthase 6: Comparative Analysis, Phylogeny and Evolution
title_short Ceramide Synthase 6: Comparative Analysis, Phylogeny and Evolution
title_full Ceramide Synthase 6: Comparative Analysis, Phylogeny and Evolution
title_fullStr Ceramide Synthase 6: Comparative Analysis, Phylogeny and Evolution
title_full_unstemmed Ceramide Synthase 6: Comparative Analysis, Phylogeny and Evolution
title_sort ceramide synthase 6: comparative analysis, phylogeny and evolution
publisher MDPI AG
series Biomolecules
issn 2218-273X
publishDate 2018-10-01
description Ceramide synthase 6 (CerS6, also known as LASS6) is one of the six members of ceramide synthase gene family in humans. Comparisons of CerS6 amino acid sequences and structures as well as of CerS6 gene structures/locations were conducted using data from several vertebrate genome projects. A specific role for the CerS6 gene and protein has been identified as the endoplasmic reticulum C14- and C16-ceramide synthase. Mammalian CerS6 proteins share 90–100% similarity among different species, but are only 22–63% similar to other CerS family members, suggesting that CerS6 is a distinct gene family. Sequence alignments, predicted transmembrane, lumenal and cytoplasmic segments and N-glycosylation sites were also investigated, resulting in identification of the key conserved residues, including the active site as well as C-terminus acidic and serine residues. Mammalian CerS6 genes contain ten exons, are primarily located on the positive strands and transcribed as two major isoforms. The human CERS6 gene promoter harbors a large CpG island (94 CpGs) and multiple transcription factor binding sites (TFBS), which support precise transcriptional regulation and signaling functions. Additional regulation is conferred by 15 microRNA (miRNA) target sites identified in the CERS6 3′-UTR region. Phylogenetic analysis of the vertebrate CerS1–6 gene families relationships supports a major role for the CerS6 enzyme that is strongly conserved throughout vertebrate evolution.
topic ceramide synthase
CerS6
enzymes
genes
human
mouse
vertebrates
invertebrates
yeast
url http://www.mdpi.com/2218-273X/8/4/111
work_keys_str_mv AT rogersholmes ceramidesynthase6comparativeanalysisphylogenyandevolution
AT keriabarron ceramidesynthase6comparativeanalysisphylogenyandevolution
AT nataliaikrupenko ceramidesynthase6comparativeanalysisphylogenyandevolution
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