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| Main Authors: | , , , , , |
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| Format: | Artículo científico |
| Language: | en |
| Published: |
International journal of molecular sciences
2024
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| Subjects: | |
| Online Access: | https://pubmed.ncbi.nlm.nih.gov/39684591/ |
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| _version_ | 1868266268209971201 |
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| author | Baldaev, Sergey N Chausova, Viktoria E Isaeva, Ksenia V Boyko, Alexey V Stonik, Valentin A Isaeva, Marina P |
| author_facet | Baldaev, Sergey N Chausova, Viktoria E Isaeva, Ksenia V Boyko, Alexey V Stonik, Valentin A Isaeva, Marina P Baldaev, Sergey N Chausova, Viktoria E Isaeva, Ksenia V Boyko, Alexey V Stonik, Valentin A Isaeva, Marina P |
| collection | PubMed - marine biology |
| contents | Structure of Genes Encoding Oxidosqualene Cyclases-Key Enzymes of Triterpenoid Biosynthesis from Sea Cucumber . Baldaev, Sergey N Chausova, Viktoria E Isaeva, Ksenia V Boyko, Alexey V Stonik, Valentin A Isaeva, Marina P Animals Intramolecular Transferases Triterpenes Sea Cucumbers Phylogeny Amino Acid Sequence Cloning, Molecular Oxidosqualene cyclases (OSCs) are enzymes responsible for converting linear triterpenes into tetracyclic ones, which are known as precursors of other important and bioactive metabolites. Two OSCs genes encoding parkeol synthase and lanostadienol synthase have been found in representatives of the genera and (family Stichopodidae, order Synallactida). As a limited number of sea cucumber OSCs have been studied thus far, OSCs encoding gene(s) of the sea cucumber (family Sclerodactylidae, order Dendrochirotida) were investigated to fill this gap. Here, we employed RACEs, molecular cloning, and Oxford Nanopore Technologies to identify candidate OSC mRNAs and genes. The assembled cDNAs were 2409 bp () and 3263 bp (), which shared the same CDS size of 2163 bp encoding a 721-amino-acid protein. The . OSC1 and OSC2 had higher sequence identity similarity to each other (77.5%) than to other holothurian OSCs (64.7-71.0%). According to the sequence and molecular docking analyses, OSC1 with L436 is predicted to be parkeol synthase, while OSC2 with Q439 is predicted to be lanostadienol synthase. Based on the phylogenetic analysis, OSCs cDNAs clustered with other holothurian OSCs, forming the isolated branch. As a result of gene analysis, the high polymorphism and larger size of the OSC1 gene suggest that this gene may be an ancestor of the OSC2 gene. These results imply that the genome contains two OSC genes whose evolutionary pathways are different from those of the OSC genes in Stichopodidae. |
| format | Artículo científico |
| id | pubmed_39684591 |
| institution | PubMed |
| language | en |
| publishDate | 2024 |
| publisher | International journal of molecular sciences |
| record_format | pubmed |
| spellingShingle | Structure of Genes Encoding Oxidosqualene Cyclases-Key Enzymes of Triterpenoid Biosynthesis from Sea Cucumber . Baldaev, Sergey N Chausova, Viktoria E Isaeva, Ksenia V Boyko, Alexey V Stonik, Valentin A Isaeva, Marina P Animals Intramolecular Transferases Triterpenes Sea Cucumbers Phylogeny Amino Acid Sequence Cloning, Molecular Structure of Genes Encoding Oxidosqualene Cyclases-Key Enzymes of Triterpenoid Biosynthesis from Sea Cucumber . Baldaev, Sergey N Chausova, Viktoria E Isaeva, Ksenia V Boyko, Alexey V Stonik, Valentin A Isaeva, Marina P Animals Intramolecular Transferases Triterpenes Sea Cucumbers Phylogeny Amino Acid Sequence Cloning, Molecular Oxidosqualene cyclases (OSCs) are enzymes responsible for converting linear triterpenes into tetracyclic ones, which are known as precursors of other important and bioactive metabolites. Two OSCs genes encoding parkeol synthase and lanostadienol synthase have been found in representatives of the genera and (family Stichopodidae, order Synallactida). As a limited number of sea cucumber OSCs have been studied thus far, OSCs encoding gene(s) of the sea cucumber (family Sclerodactylidae, order Dendrochirotida) were investigated to fill this gap. Here, we employed RACEs, molecular cloning, and Oxford Nanopore Technologies to identify candidate OSC mRNAs and genes. The assembled cDNAs were 2409 bp () and 3263 bp (), which shared the same CDS size of 2163 bp encoding a 721-amino-acid protein. The . OSC1 and OSC2 had higher sequence identity similarity to each other (77.5%) than to other holothurian OSCs (64.7-71.0%). According to the sequence and molecular docking analyses, OSC1 with L436 is predicted to be parkeol synthase, while OSC2 with Q439 is predicted to be lanostadienol synthase. Based on the phylogenetic analysis, OSCs cDNAs clustered with other holothurian OSCs, forming the isolated branch. As a result of gene analysis, the high polymorphism and larger size of the OSC1 gene suggest that this gene may be an ancestor of the OSC2 gene. These results imply that the genome contains two OSC genes whose evolutionary pathways are different from those of the OSC genes in Stichopodidae. |
| title | Structure of Genes Encoding Oxidosqualene Cyclases-Key Enzymes of Triterpenoid Biosynthesis from Sea Cucumber . |
| topic | Animals Intramolecular Transferases Triterpenes Sea Cucumbers Phylogeny Amino Acid Sequence Cloning, Molecular |
| url | https://pubmed.ncbi.nlm.nih.gov/39684591/ |