PathBank

Pathway Description

5-Deoxystrigol Biosynthesis

Arabidopsis thaliana

Category:

Metabolite Pathway

Sub-Category:

Metabolic

Created: 2017-02-08

Last Updated: 2019-09-12

5-Deoxystrigol Biosynthesis is a pathway that has not yet become fully elucidated. Beginning in the chloroplast and potentially finishing in the cytosol, the pathway follows the synthesis of 5-deoxystrigol from beta-carotene. 5-Deoxystrigol is a strigolactone, a plant hormone that stimulates the branching and growth of symbiotic arbuscular mycorrhizal fungi and inhibits plant shoot branching. Strigolactones share a common C19 structure composed of a tricyclic lactone (A, B, and C rings) connected to a second lactone (D ring) by an enol ether bridge. 5-deoxystrigol is the precursor of other beta-oriented C-ring strigolactones (strigol-configured strigolactones) (PMID: 25425668). First, beta-carotene isomerase catalyzes the conversion of beta-carotene into 9-cis-beta-carotene with the help of an iron cofactor. Second, 9-cis-beta-carotene 9',10'-cleavage dioxygenase converts 9-cis-beta-carotene and oxygen to 9-cis-10'-apo-beta-carotenal and beta-ionone with the help of an Fe2+ cofactor. Third, carlactone synthase converts 9-cis-10'-apo-beta-carotenal and oxygen to carlactone and (2E,4E,6E)-7-hydroxy-4-methylhepta-2,4,6-trienal with the help of an Fe2+ cofactor. The final two reactions are not completely understood and may occur in the cytosol. Cytochrome P450 monooxygenase is theorized to catalyze the fourth reaction whereby carlactone is conveted into carlactone carboxylate. It requires heme as a cofactor. This same enzyme could possibly also catalyze the fifth reaction in which 5-deoxystrigol is made.

References

5-Deoxystrigol Biosynthesis References

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Pubmed: 22422982

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Pubmed: 25425668

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Pubmed: 27194725

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Pubmed: 11130712

Cheng CY, Krishnakumar V, Chan AP, Thibaud-Nissen F, Schobel S, Town CD: Araport11: a complete reannotation of the Arabidopsis thaliana reference genome. Plant J. 2017 Feb;89(4):789-804. doi: 10.1111/tpj.13415. Epub 2017 Feb 10.

Pubmed: 27862469

Yamada K, Lim J, Dale JM, Chen H, Shinn P, Palm CJ, Southwick AM, Wu HC, Kim C, Nguyen M, Pham P, Cheuk R, Karlin-Newmann G, Liu SX, Lam B, Sakano H, Wu T, Yu G, Miranda M, Quach HL, Tripp M, Chang CH, Lee JM, Toriumi M, Chan MM, Tang CC, Onodera CS, Deng JM, Akiyama K, Ansari Y, Arakawa T, Banh J, Banno F, Bowser L, Brooks S, Carninci P, Chao Q, Choy N, Enju A, Goldsmith AD, Gurjal M, Hansen NF, Hayashizaki Y, Johnson-Hopson C, Hsuan VW, Iida K, Karnes M, Khan S, Koesema E, Ishida J, Jiang PX, Jones T, Kawai J, Kamiya A, Meyers C, Nakajima M, Narusaka M, Seki M, Sakurai T, Satou M, Tamse R, Vaysberg M, Wallender EK, Wong C, Yamamura Y, Yuan S, Shinozaki K, Davis RW, Theologis A, Ecker JR: Empirical analysis of transcriptional activity in the Arabidopsis genome. Science. 2003 Oct 31;302(5646):842-6. doi: 10.1126/science.1088305.

Pubmed: 14593172

Booker J, Auldridge M, Wills S, McCarty D, Klee H, Leyser O: MAX3/CCD7 is a carotenoid cleavage dioxygenase required for the synthesis of a novel plant signaling molecule. Curr Biol. 2004 Jul 27;14(14):1232-8. doi: 10.1016/j.cub.2004.06.061.

Pubmed: 15268852

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Pubmed: 10617197

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Pubmed: 10617198

Lazar G, Goodman HM: MAX1, a regulator of the flavonoid pathway, controls vegetative axillary bud outgrowth in Arabidopsis. Proc Natl Acad Sci U S A. 2006 Jan 10;103(2):472-6. doi: 10.1073/pnas.0509463102. Epub 2005 Dec 30.

Pubmed: 16387852

	(2E,4E,6E)-7-hydroxy-4-methylhepta-2,4,6-trienal
	5-deoxystrigol
	9-cis-10'-apo-β-carotenal
	9-cis-β-Carotene
	B-Carotene
	carlactone
	carlactone carboxylate
	Fe2+
	Heme
	Hydrogen Ion
	Iron
	Oxygen
	β-Ionone

		(2E,4E,6E)-7-hydroxy-4-methylhepta-2,4,6-trienal
		5-deoxystrigol
		9-cis-10'-apo-β-carotenal
		9-cis-β-Carotene
		B-Carotene
		carlactone
		carlactone carboxylate
		Fe2+
		Heme
		Hydrogen Ion
		Iron
		Oxygen
		β-Ionone

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5-Deoxystrigol Biosynthesis

5-Deoxystrigol Biosynthesis References