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关于水稻独脚金内酯生物合成酶DWARF27的底物特异性

On the substrate specificity of the rice strigolactone biosynthesis enzyme DWARF27.

作者信息

Bruno Mark, Al-Babili Salim

机构信息

Faculty of Biology, Albert-Ludwigs University of Freiburg, Schaenzlestr. 1, 79104, Freiburg, Germany.

BESE Division, King Abdullah University of Science and Technology (KAUST), 4700, 23955-6900, Thuwal, Kingdom of Saudi Arabia.

出版信息

Planta. 2016 Jun;243(6):1429-40. doi: 10.1007/s00425-016-2487-5. Epub 2016 Mar 5.

DOI:10.1007/s00425-016-2487-5
PMID:26945857
Abstract

The β-carotene isomerase OsDWARF27 is stereo- and double bond-specific. It converts bicyclic carotenoids with at least one unsubstituted β-ionone ring. OsDWARF27 may contribute to the formation of α-carotene-based strigolactone-like compounds. Strigolactones (SLs) are synthesized from all-trans-β-carotene via a pathway involving the β-carotene isomerase DWARF27, the carotenoid cleavage dioxygenases 7 and 8 (CCD7, CCD8), and cytochrome P450 enzymes from the 711 clade (MAX1 in Arabidopsis). The rice enzyme DWARF27 was shown to catalyze the reversible isomerization of all-trans- into 9-cis-β-carotene in vitro. β-carotene occurs in different cis-isomeric forms, and plants accumulate other carotenoids, which may be substrates of DWARF27. Here, we investigated the stereo and substrate specificity of the rice enzyme DWARF27 in carotenoid-accumulating E. coli strains and in in vitro assays performed with heterologously expressed and purified enzyme. Our results suggest that OsDWARF27 is strictly double bond-specific, solely targeting the C9-C10 double bond. OsDWARF27 did not introduce a 9-cis-double bond in 13-cis- or 15-cis-β-carotene. Substrates isomerized by OsDWARF27 are bicyclic carotenoids, including β-, α-carotene and β,β-cryptoxanthin, that contain at least one unsubstituted β-ionone ring. Accordingly, OsDWARF27 did not produce the abscisic acid precursors 9-cis-violaxanthin or -neoxanthin from the corresponding all-trans-isomers, excluding a direct role in the formation of this carotenoid derived hormone. The conversion of all-trans-α-carotene yielded two different isomers, including 9'-cis-α-carotene that might be the precursor of strigolactones with an ε-ionone ring, such as the recently identified heliolactone.

摘要

β-胡萝卜素异构酶OsDWARF27具有立体和双键特异性。它能转化具有至少一个未取代β-紫罗兰酮环的双环类胡萝卜素。OsDWARF27可能有助于基于α-胡萝卜素的独脚金内酯类化合物的形成。独脚金内酯(SLs)是由全反式β-胡萝卜素通过一条涉及β-胡萝卜素异构酶DWARF27、类胡萝卜素裂解双加氧酶7和8(CCD7、CCD8)以及711进化枝中的细胞色素P450酶(拟南芥中的MAX1)的途径合成的。水稻酶DWARF27在体外被证明能催化全反式β-胡萝卜素可逆异构化为9-顺式β-胡萝卜素。β-胡萝卜素以不同的顺式异构体形式存在,并且植物积累其他类胡萝卜素,它们可能是DWARF27的底物。在此,我们在积累类胡萝卜素的大肠杆菌菌株中以及在使用异源表达和纯化的酶进行的体外试验中研究了水稻酶DWARF27的立体和底物特异性。我们的结果表明,OsDWARF27具有严格的双键特异性,仅靶向C9-C10双键。OsDWARF27不会在13-顺式或15-顺式β-胡萝卜素中引入9-顺式双键。被OsDWARF27异构化的底物是双环类胡萝卜素,包括β-、α-胡萝卜素和β,β-隐黄质,它们含有至少一个未取代的β-紫罗兰酮环。因此,OsDWARF27不会从相应的全反式异构体产生脱落酸前体9-顺式紫黄质或新黄质,排除了其在这种类胡萝卜素衍生激素形成中的直接作用。全反式α-胡萝卜素的转化产生了两种不同的异构体,包括9'-顺式α-胡萝卜素,它可能是具有ε-紫罗兰酮环的独脚金内酯的前体,例如最近鉴定出的半日花内酯。

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