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131.
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Ryutaro Satou Akimasa Miyanaga Hiroki Ozawa Nobutaka Funa Yohei Katsuyama Ken-ichi Miyazono Masaru Tanokura Yasuo Ohnishi Sueharu Horinouchi 《The Journal of biological chemistry》2013,288(47):34146-34157
Type III polyketide synthases (PKSs) show diverse cyclization specificity. We previously characterized two Azotobacter type III PKSs (ArsB and ArsC) with different cyclization specificity. ArsB and ArsC, which share a high sequence identity (71%), produce alkylresorcinols and alkylpyrones through aldol condensation and lactonization of the same polyketomethylene intermediate, respectively. Here we identified a key amino acid residue for the cyclization specificity of each enzyme by site-directed mutagenesis. Trp-281 of ArsB corresponded to Gly-284 of ArsC in the amino acid sequence alignment. The ArsB W281G mutant synthesized alkylpyrone but not alkylresorcinol. In contrast, the ArsC G284W mutant synthesized alkylresorcinol with a small amount of alkylpyrone. These results indicate that this amino acid residue (Trp-281 of ArsB or Gly-284 of ArsC) should occupy a critical position for the cyclization specificity of each enzyme. We then determined crystal structures of the wild-type and G284W ArsC proteins at resolutions of 1.76 and 1.99 Å, respectively. Comparison of these two ArsC structures indicates that the G284W substitution brings a steric wall to the active site cavity, resulting in a significant reduction of the cavity volume. We postulate that the polyketomethylene intermediate can be folded to a suitable form for aldol condensation only in such a relatively narrow cavity of ArsC G284W (and presumably ArsB). This is the first report on the alteration of cyclization specificity from lactonization to aldol condensation for a type III PKS. The ArsC G284W structure is significant as it is the first reported structure of a microbial resorcinol synthase. 相似文献
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Ascidian larvae develop mesenchyme cells in their trunk. A fibroblast growth factor (FGF9/16/20) is essential and sufficient for induction of the mesenchyme in Ciona savignyi. We have identified two basic helix-loop-helix (bHLH) genes named Twist-like1 and Twist-like2 as downstream factors of this FGF. These two genes are phylogenetically closely related to each other, and were expressed specifically in the mesenchymal cells after the 110-cell stage. Gene-knockdown experiments using a specific morpholino oligonucleotide demonstrated that Twist-like1 plays an essential role in determination of the mesenchyme and that Twist-like2 is a downstream factor of Twist-like1. In addition, both overexpression and misexpression of Twist-like1 converts non-mesenchymal cells to mesenchymal cells. We also demonstrate that the upstream regulatory mechanisms of Twist-like1 are different between B-line mesenchymal cells and the A-line mesenchymal cells called 'trunk lateral cells'. FGF9/16/20 is required for the expression of Twist-like1 in B-line mesenchymal precursor cells, whereas FGF, FoxD and another novel bHLH factor called NoTrlc are required for Twist-like1 to be expressed in the A-line mesenchymal precursor cells. Therefore, two different but partially overlapping mechanisms are required for the expression of Twist-like1 in the mesenchymal precursors, which triggers the differentiation of the mesenchyme in Ciona embryos. 相似文献
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Mao W Warren MS Black DS Satou T Murata T Nishino T Gotoh N Lomovskaya O 《Molecular microbiology》2002,46(3):889-901
Tripartite efflux systems of Gram-negative bacteria that contain an inner membrane transporter belonging to the resistance nodulation division (RND) superfamily can extrude a large variety of structurally diverse compounds. To gain an insight into the molecular mechanisms of substrate recognition by these multidrug resistance (MDR) transporters, we isolated spontaneous mutations that altered the substrate specificity of the MexCD-OprJ pump from Pseudomonas aeruginosa. These mutations enabled the pump to extrude the normally non-transported beta-lactam antibiotic carbenicillin. All amino acid substitutions were mapped to the large periplasmic loops (LPLs) of the RND proper, MexD. Q34K, E89K, A292V and P328L were found in the first LPL, located between transmembrane domains (TMD) 1 and 2, whereas F608S and N673K were contained in the second LPL, located between TMD7 and TMD8. These mutations also had a substantial impact on the MexCD-OprJ-mediated transport of numerous other substrates. Subsequent replacement of amino acid residues identified above by cysteines rendered MexCD-OprJ susceptible to inhibition by a thiol-reactive agent, MIANS. Interestingly, MIANS inhibited the transport of some (pyronin, EtBr) but not other (ANS, Leu-Nap) substrates of the pump. Our results suggest that the precise structure of the periplasmic loops of MexD determines the rate of transport of individual substrates. These results are consistent with the hypothesis that, in the case of RND transporters, the LPLs are directly implicated in substrate recognition and contain multiple sites of interaction for various structurally diverse compounds. 相似文献
138.
Narusaka Y Narusaka M Park P Kubo Y Hirayama T Seki M Shiraishi T Ishida J Nakashima M Enju A Sakurai T Satou M Kobayashi M Shinozaki K 《Molecular plant-microbe interactions : MPMI》2004,17(7):749-762
When challenged with the crucifer pathogen Colletotrichum higginsianum, Arabidopsis thaliana ecotype Columbia (Col-0) was colonized by the fungus within 2 to 3 days, developing brown necrotic lesions surrounded by a yellow halo. Lesions spread from the inoculation site within 3 to 4 days, and subsequently continued to expand until they covered the entire leaf. Electron microscopy confirmed that C. higginsianum is a hemibiotroph on Arabidopsis, feeding initially on living cells as a biotroph before switching to a necrotrophic mode of growth. A collection of 37 ecotypes of Arabidopsis varied in their responses to infection by C. higginsianum. The ecotype Eil-0 was highly resistant, with symptoms limited to necrotic flecking and with only very limited fungal colonization. Analyses suggested that the hypersensitive response and reactive oxygen species may be important in this defense response. Expression analyses with cDNA microarrays indicated that the defense reaction depends primarily on the jasmonic acid- and ethylene-dependent signaling pathways and, to a lesser extent, on the salicylate-dependent pathway. Crosses between the Eil-0 and Col-0 ecotypes suggested that the resistance in Eil-0 was dominant and was conferred by a single locus, which we named RCH1. RCH1 is the first resistance locus to be identified from Arabidopsis against the hemibiotrophic fungus genus Colletotrichum. 相似文献
139.
The central and peripheral nervous systems (CNS and PNS) of the ascidian tadpole larva are comparatively simple, consisting of only about 350 cells. However, studies of the expression of neural patterning genes have demonstrated overall similarity between the ascidian CNS and the vertebrate CNS, suggesting that the ascidian CNS is sufficiently complex to be relevant to those of vertebrates. Recent progress in the Ciona intestinalis genome project and cDNA project together with considerable EST information has made Ciona an ideal model for investigating molecular mechanisms underlying the formation and function of the chordate nervous system. Here, we characterized 56 genes specific to the nervous system by determining their full-length cDNA sequences and confirming their spatial expression patterns. These genes included those that function in the nervous systems of other animals, especially those involved in photoreceptor-mediated signaling and neurotransmitter release. Thus, the nervous system-specific genes in Ciona larvae will provide not only probes for determining their function but also clues for exploring the complex network of nervous system-specific genes. 相似文献
140.