Crinipellin A

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Crinipellin A
Category Bioactive by-products
Catalog number BBF-01073
CAS 97294-60-5
Molecular Weight 330.42
Molecular Formula C20H26O4

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Description

It is produced by the strain of Crinipellis stipitaria. It has anti-gram-positive bacteria and Aldrin ascites carcinoma activity.

Specification

Synonyms (1R,3R,6S,8R,9S,11R,12R,13R)-8-hydroxy-7a,9a-dimethyl-3-methylidene-7-(propan-2-yl)hexahydro-1aH,5H-pentaleno[6a',1':5,6]pentaleno[1,6a-b]oxirene-2,9(3H,9aH)-dione
IUPAC Name (1R,3R,6S,8R,9S,11R,12R,13R)-11-hydroxy-9,12-dimethyl-4-methylidene-13-propan-2-yl-7-oxapentacyclo[7.6.0.01,12.03,8.06,8]pentadecane-5,10-dione
Canonical SMILES CC(C)C1CCC23C1(C(C(=O)C2(C45C(C3)C(=C)C(=O)C4O5)C)O)C
InChI InChI=1S/C20H26O4/c1-9(2)11-6-7-19-8-12-10(3)13(21)16-20(12,24-16)18(19,5)15(23)14(22)17(11,19)4/h9,11-12,14,16,22H,3,6-8H2,1-2,4-5H3/t11-,12-,14+,16-,17+,18+,19-,20+/m1/s1
InChI Key SMSLZJPICPCPGQ-MTJBCBHESA-N

Properties

Appearance Crystal
Antibiotic Activity Spectrum Gram-positive bacteria; Neoplastics (Tumor)
Melting Point 148 °C
Solubility Soluble in Chloroform

Reference Reading

1. Synthetic Strategies to Diverse Polyquinanes via Olefin Metathesis: Access to the Basic Core of Crinipellin, Presilphiperfolanol, and Cucumin
Sambasivarao Kotha, Ramakrishna Reddy Keesari, Ambareen Fatma, Rama Gunta J Org Chem. 2020 Jan 17;85(2):851-863. doi: 10.1021/acs.joc.9b02829. Epub 2019 Dec 19.
A rapid and useful synthetic approach to various polyquinane-based natural products was accomplished efficiently by employing ring-rearrangement metathesis and ring-closing metathesis as key steps. Here, we report the synthesis of stereochemically well-defined cis-anti-cis triquinanes (1, 2), tetraquinanes (3, 4), a novel pentaquinane 5, and fused [5-5-5-6] tetracyclic systems (6, 7) that are present in crinipellin, presilphiperfolanol, cucumin, etc. Hence, the current strategy may be suitable for the synthesis of various complex natural and unnatural cyclopentanoid targets. Moreover, our approach to the newly synthesized pentaquinane 5 has paved the way for various complex polyquinanes/molecules having significant applications in theoretical and medicinal chemistry.
2. A Modular Approach to Angularly Fused Polyquinanes via Ring-Rearrangement Metathesis: Synthetic Access to Cameroonanol Analogues and the Basic Core of Subergorgic Acid and Crinipellin
Sambasivarao Kotha, Ramakrishna Reddy Keesari J Org Chem. 2021 Dec 3;86(23):17129-17155. doi: 10.1021/acs.joc.1c02258. Epub 2021 Nov 17.
We describe a modular approach to angularly fused polyquinanes that are core units of many natural products such as cameroonanol, subergorgic acid, and crinepellin, etc. in excellent yields by employing atom-economic ring-rearrangement metathesis as a key step. Our work highlights, the synthesis of cameroonanol analogues 1-6 and their ester derivatives by using the stereoselective reduction of the carbonyl group by using DIBAL-H- and DCC-mediated coupling as the key reactions. The subergorgic acid core 7 was produced by LDA-mediated kinetically controlled regio- and stereoselective ring-junction allylation as a critical step. Moreover, it is worth mentioning that the present strategy relies on a less explored exo-dicyclopentadiene-1-one (8) and produces highly congested polycyclic frameworks containing up to seven contiguous stereogenic centers including quaternary carbons up to two. All of the new molecules were characterized by NMR data. The structure and relative stereochemistry of some compounds were confirmed by chemical methods and further supported by single-crystal X-ray diffraction studies. The newly reported tri- and tetraquinane skeletons are present in many naturally occurring bioactive polyquinanes. Hence, this strategy is useful for designing various "druglike molecules" and expands the chemical space of cyclopentanoids that are useful in medicinal chemistry.
3. Navigating the Pauson-Khand Reaction in Total Syntheses of Complex Natural Products
Zhen Yang Acc Chem Res. 2021 Feb 2;54(3):556-568. doi: 10.1021/acs.accounts.0c00709. Epub 2021 Jan 7.
"Total synthesis endeavors provide wonderful opportunities to discover and invent new synthetic reactions as a means to advance organic synthesis in general. Such discoveries and inventions can occur when the practitioner faces intransigent problems that cannot be solved by known methods and/or when method improvements are desired in terms of elegance, efficiency, cost-effectiveness, practicality, or environmental friendliness" (K. C. Nicolaou et al. from their review in CCS Chem. 2019, 1, 3-37). To date tens of thousands of bioactive compounds have been isolated from plants, microbes, marine invertebrates, and other sources. These chemical structures have been studied by chemists who scanned the breadth of natural diversity toward drug discovery efforts. Drug-likeness of natural products often possesses common features including molecular complexity, protein-binding ability, structural rigidity, and three-dimensionality. Considering certain biologically important natural products are scarce from natural supply, total synthesis may provide an alternative solution to generating these compounds and their derivatives for the purpose of probing their biological functions. Natural products bearing quaternary carbon stereocenters represent a group of biologically important natural entities that are lead compounds in the development of pharmacological agents and biological probes. However, the stereocontrolled introduction of quaternary carbons, with vicinal patterns that substantially expand the complexity of molecular architectures and chemical space in particular, presents distinct challenges because of the high steric repulsion between substituents. Though remarkable advance has been seen for quaternary carbon stereocenter generation, the process remains a daunting challenge given that the formation of highly congested stereocenters increases the difficulty in achieving orbital overlap.In the past two decades, our group has initiated a program to develop synthetic strategies and methods with the aim of advancing the frontiers of the total syntheses of biologically important complex natural products bearing all-carbon quaternary stereogenic centers. Typical endeavors have involved the use of a Pauson-Khand (PK) reaction as a key step in constructing core structures with all-carbon quaternary stereogenic center(s), with the aid of well-orchestrated thiourea-Co- and thiourea-Pd-catalyzed PK reactions. These methodological advances have enabled us to achieve total syntheses of a series of topologically complex natural products with diverse structural features. These methods will enable the assembly of molecules with improved biological functions and provide tool compounds for elucidation of mechanism of action or identification of potential cellular targets.

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