The chemistry of marine pulmonate gastropods.

The chemistry of marine pulmonate gastropods.

Secondary metabolites from pulmonate molluscs of the genera Siphonaria, Onchidium, and Trimusculus are described. Siphonaria and Onchidium biosynthesize mostly propionate-based metabolites whereas Trimusculus yields diterpene derivatives with a single type of labdane skeleton. The 42 regular polypropionates reported to date from Siphonaria are divided into two classes (class I, class II), based on their observed structural and stereochemical analogy. The strong resemblance between class I and cephalaspidean metabolites and between class II and onchidiid metabolites as well as the structural features of Trimusculus, in relation to the other pulmonates, encourage speculation about their biosynthetic and phylogenetic relationship. Class I metabolites could be suitable material to evidence that type I PKS modules are perhaps used iteratively in their biosynthesis.

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Bibliographic Details
Main Authors: Darias, José, Cueto, Mercedes, Díaz-Marrero, Ana R.
Format: capítulo de libro biblioteca
Published: Springer 2006
Subjects:Absolute configuration, Total Synthesis, Marine Mollusc, Enantioselective Synthesis, Relative Stereochemistry,
Online Access:http://hdl.handle.net/10261/211800
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spelling dig-ipna-es-10261-2118002021-08-25T10:10:55Z The chemistry of marine pulmonate gastropods. Darias, José Cueto, Mercedes Díaz-Marrero, Ana R. Absolute configuration Total Synthesis Marine Mollusc Enantioselective Synthesis Relative Stereochemistry Secondary metabolites from pulmonate molluscs of the genera Siphonaria, Onchidium, and Trimusculus are described. Siphonaria and Onchidium biosynthesize mostly propionate-based metabolites whereas Trimusculus yields diterpene derivatives with a single type of labdane skeleton. The 42 regular polypropionates reported to date from Siphonaria are divided into two classes (class I, class II), based on their observed structural and stereochemical analogy. The strong resemblance between class I and cephalaspidean metabolites and between class II and onchidiid metabolites as well as the structural features of Trimusculus, in relation to the other pulmonates, encourage speculation about their biosynthetic and phylogenetic relationship. Class I metabolites could be suitable material to evidence that type I PKS modules are perhaps used iteratively in their biosynthesis. 2020-05-21T08:02:22Z 2020-05-21T08:02:22Z 2006 2020-05-21T08:02:22Z capítulo de libro http://purl.org/coar/resource_type/c_3248 doi: 10.1007/978-3-540-30880-5_5 isbn: 978-3-540-30879-9 Progress in Molecular and Subcellular Biology 43: 105-131 (2006) http://hdl.handle.net/10261/211800 10.1007/978-3-540-30880-5_5 Postprint http://dx.doi.org/10.1007/978-3-540-30880-5_5 Sí none Springer
institution IPNA ES
collection DSpace
country España
countrycode ES
component Bibliográfico
access En linea
databasecode dig-ipna-es
tag biblioteca
region Europa del Sur
libraryname Biblioteca del IPNA España
topic Absolute configuration
Total Synthesis
Marine Mollusc
Enantioselective Synthesis
Relative Stereochemistry
Absolute configuration
Total Synthesis
Marine Mollusc
Enantioselective Synthesis
Relative Stereochemistry
spellingShingle Absolute configuration
Total Synthesis
Marine Mollusc
Enantioselective Synthesis
Relative Stereochemistry
Absolute configuration
Total Synthesis
Marine Mollusc
Enantioselective Synthesis
Relative Stereochemistry
Darias, José
Cueto, Mercedes
Díaz-Marrero, Ana R.
The chemistry of marine pulmonate gastropods.
description Secondary metabolites from pulmonate molluscs of the genera Siphonaria, Onchidium, and Trimusculus are described. Siphonaria and Onchidium biosynthesize mostly propionate-based metabolites whereas Trimusculus yields diterpene derivatives with a single type of labdane skeleton. The 42 regular polypropionates reported to date from Siphonaria are divided into two classes (class I, class II), based on their observed structural and stereochemical analogy. The strong resemblance between class I and cephalaspidean metabolites and between class II and onchidiid metabolites as well as the structural features of Trimusculus, in relation to the other pulmonates, encourage speculation about their biosynthetic and phylogenetic relationship. Class I metabolites could be suitable material to evidence that type I PKS modules are perhaps used iteratively in their biosynthesis.
format capítulo de libro
topic_facet Absolute configuration
Total Synthesis
Marine Mollusc
Enantioselective Synthesis
Relative Stereochemistry
author Darias, José
Cueto, Mercedes
Díaz-Marrero, Ana R.
author_facet Darias, José
Cueto, Mercedes
Díaz-Marrero, Ana R.
author_sort Darias, José
title The chemistry of marine pulmonate gastropods.
title_short The chemistry of marine pulmonate gastropods.
title_full The chemistry of marine pulmonate gastropods.
title_fullStr The chemistry of marine pulmonate gastropods.
title_full_unstemmed The chemistry of marine pulmonate gastropods.
title_sort chemistry of marine pulmonate gastropods.
publisher Springer
publishDate 2006
url http://hdl.handle.net/10261/211800
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