Spinosyn J

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Spinosyn J
Category New Products
Catalog number BBF-04659
CAS 131929-67-4
Molecular Weight 717.9
Molecular Formula C40H63NO10

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BBF-04659 1 mg $298 In stock

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Description

Spinosyn J is a component of Spinosyns, a group of compounds produced from fermentation of two species of Saccharopolyspora. It exhibits insecticidal activities against many commercially significant species that cause extensive damage to crops and other plants.

Specification

IUPAC Name (1S,2R,5S,7R,9R,10S,14R,15S,19S)-15-[(2R,5S,6R)-5-(dimethylamino)-6-methyloxan-2-yl]oxy-19-ethyl-7-[(2R,3R,4R,5R,6S)-4-hydroxy-3,5-dimethoxy-6-methyloxan-2-yl]oxy-14-methyl-20-oxatetracyclo[10.10.0.02,10.05,9]docosa-3,11-diene-13,21-dione
Canonical SMILES CCC1CCCC(C(C(=O)C2=CC3C4CC(CC4C=CC3C2CC(=O)O1)OC5C(C(C(C(O5)C)OC)O)OC)C)OC6CCC(C(O6)C)N(C)C
InChI InChI=1S/C40H63NO10/c1-9-25-11-10-12-33(51-35-16-15-32(41(5)6)22(3)47-35)21(2)36(43)31-19-29-27(30(31)20-34(42)49-25)14-13-24-17-26(18-28(24)29)50-40-39(46-8)37(44)38(45-7)23(4)48-40/h13-14,19,21-30,32-33,35,37-40,44H,9-12,15-18,20H2,1-8H3/t21-,22-,23+,24-,25+,26-,27-,28-,29-,30+,32+,33+,35+,37-,38+,39-,40+/m1/s1
InChI Key IHGXGNJRCONUAC-WNTSOVQUSA-N

Reference Reading

1. The biosynthesis of spinosyn in Saccharopolyspora spinosa: synthesis of the cross-bridging precursor and identification of the function of SpnJ
Rongson Pongdee, Hak Joong Kim, Lin Hong, Qingquan Wu, Hung-wen Liu J Am Chem Soc . 2007 Nov 28;129(47):14582-4. doi: 10.1021/ja076580i.
Spinosyns are glycosylated polyketide-derived macrolides possessing a perhydro-as-indacene core that is presumably formed via a series of intramolecular cross-bridging reactions. The unusual structure of the spinosyn aglycone suggests an intriguing biosynthetic pathway for its formation, which is expected to be initiated by the oxidation of the 15-OH group of the mature polyketide precursor and may involve a Diels-Alder-type [4 + 2] cycloaddition reaction. Three possible routes, which differ in the order of oxidation and cyclization events, can be envisioned for the biosynthesis of the core structure. Sequence analysis of the spinosyn biosynthetic gene cluster led to the speculation of spnJ as the possible oxidase gene. To explore the early stage of intramolecular ring formation, we cloned and expressed the spnJ gene and purified the SpnJ protein which shows the characteristics of flavoproteins. Two possible substrates for SpnJ, the linear mature polyketide precursor and the corresponding cyclized macrolactone, were also synthesized. TLC and HPLC analysis of the incubation mixture of these compounds with SpnJ revealed that only the synthesized macrolactone could be converted to the corresponding ketone. This result clearly indicated that macrolactone formation proceeds 15-OH oxidation since the linear polyketide is not a substrate for SpnJ. The experiments described herein detail a convergent synthesis of spinosyn macrolactone and validate the catalytic function of SpnJ as a flavin-dependent oxidase. More significantly, we have established the spinosyn macrolactone as the immediate precursor of the tricyclic nucleus of spinosyns.
2. Synthesis and insecticidal activity of spinosyn analogs functionally altered at the 2'-,3'- and 4'-positions of the rhamnose moiety
L C Creemer, T V Worden, J W Paschal, H A Kirst J Antibiot (Tokyo) . 2000 Feb;53(2):171-8. doi: 10.7164/antibiotics.53.171.
In an effort to increase the insecticidal activity of the spinosyn family of naturally occurring macrolides, the 2'-, 3'- and 4'-O-desmethyl-O-acetyl analogs and the 2'-, 3'-, and 4'-O-desmethoxy analogs have been synthesized. These analogs were prepared synthetically from the minor spinosyn factors H, J, K, L and Q either via direct acylation of the corresponding factor or deoxygenation of an intermediate xanthate. The acylated analogs were all more potent insecticides against Heliothis virescens larvae than their respective parent factors, but not as potent as spinosyns A or D. The deoxy analogs were also more potent insecticides than their respective parent factors. The 2'-desmethoxy analogs showed, for the first time, analogs with insecticidal potency against H. virescens greater than that of spinosyns A and D, indicating that polarity is not well tolerated in the rhamnose moiety of spinosyn A.
3. Recent advances in the biochemistry of spinosyns
Xuezhi Ding, Youming Zhang, Ke-xue Huang, James A Zahn, Liqiu Xia Appl Microbiol Biotechnol . 2009 Feb;82(1):13-23. doi: 10.1007/s00253-008-1784-8.
Spinosyn and its analogs, produced by Saccharopolyspora spinosa, are the active ingredients in a family of insect control agents. They are macrolides with a 21-carbon, 12-membered tetracyclic lactones that are attached to two deoxysugars, tri-O-methylrhamnose and forosamine. Labeling studies, analysis of the biosynthetically blocked mutants, and the genetic identification of the spinosyn gene cluster have provided detailed information concerning the mechanism of spinosyn biosynthesis and have enabled combinatorial biosynthesis of a large group of new spinosyns. The following developments have recently impacted the field of spinosyn biology: (1) A second-generation spinosyn called spinetoram (XDE-175) was launched in late 2007; it is a semisynthesized spinosyn derivative produced through the modification of 3'-O-methyl group of rhamnose and the double bond between C5 and C6 of spinosyn J and L. This molecule was shown to have improved insecticidal activity, enhanced duration of control, and an expanded pest spectrum. (2) A new class of spinosyns, the butenyl-spinosyns, was discovered from Saccharopolyspora pogona. The butenyl-spinosyns are similar to spinosyns, but differ in the length of the side chain at C-21. In addition to structural similarities with the spinosyns, the butenyl-spinosyns exhibit a high level of similarity in insecticidal activity to spinetoram. (3) Spinosyn analogs, 21-cyclobutyl-spinosyn A and 21-cyclobutyl-spinosyn D were generated by metabolic engineering of the spinosyn biosynthetic gene cluster. They showed better insecticidal activities against cotton aphid and tobacco budworm than that of spinosyn A and D. Future progress toward the development of more potent spinosad analogs, as well as enhancements in production yields will likely result from these recent advances in the genetics and biochemistry of spinosyns.

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