Differential expression and functional analysis of two short-chain alcohol dehydrogenases/reductases in Hedychium coronarium

Baez, D., Pino, J. A., and Morales, D. (2011). Floral scent composition in Hedychium coronarium J. Koenig analyzed by SPME. Journal of Essential Oil Research, 23, 64–67.BaezD.PinoJ. A.MoralesD.2011Floral scent composition in Hedychium coronarium J. Koenig analyzed by SPMEJournal of Essential Oil Research23646710.1080/10412905.2011.9700460Search in Google Scholar

Chaw, S. M., Liu, Y. C., Wu, Y. W., Wang, H. Y., Lin, C. Y. I., Wu, C. S., Ke, H. M., Chang, L. Y., Hsu, C. Y., Yang, H. T., Sudianto, E., Hsu, M. H., Wu, K. P., Wang, L. N., Leebens-Mack, J. H., and Tsai, I. J. (2019). Stout camphor tree genome fills gaps in understanding of flowering plant genome evolution. Nature Plants, 5, 63–73.ChawS. M.LiuY. C.WuY. W.WangH. Y.LinC. Y. I.WuC. S.KeH. M.ChangL. Y.HsuC. Y.YangH. T.SudiantoE.HsuM. H.WuK. P.WangL. N.Leebens-MackJ. H.TsaiI. J.2019Stout camphor tree genome fills gaps in understanding of flowering plant genome evolutionNature Plants5637310.1038/s41477-018-0337-0678488330626928Search in Google Scholar

Chen, H., Yue, Y. C., Yu, R. C., and Fan, Y. P. (2019). A Hedychium coronarium short chain alcohol dehydrogenase is a player in allo-ocimene biosynthesis. Plant Molecular Biology, 101, 297–313.ChenH.YueY. C.YuR. C.FanY. P.2019A Hedychium coronarium short chain alcohol dehydrogenase is a player in allo-ocimene biosynthesisPlant Molecular Biology10129731310.1007/s11103-019-00904-z31368003Search in Google Scholar

Chen, X., and Facchini, P. J. (2013). Short-chain dehydrogenase/reductase catalyzing the final step of noscapine biosynthesis is localized to laticifers in opium poppy. The Plant Journal, 77, 173–184.ChenX.FacchiniP. J.2013Short-chain dehydrogenase/reductase catalyzing the final step of noscapine biosynthesis is localized to laticifers in opium poppyThe Plant Journal7717318410.1111/tpj.1237924708518Search in Google Scholar

Chen, X. M., Kobayashi, H., Sakai, M., Hirata, H., Asai, T., Ohnishi, T., Baldermann, S., and Watanabe, N. (2011). Functional characterization of rose phenylacetaldehyde reductase (Par), an enzyme involved in the biosynthesis of the scent compound 2-phenylethanol. Journal of Plant Physiology, 168, 88–95.ChenX. M.KobayashiH.SakaiM.HirataH.AsaiT.OhnishiT.BaldermannS.WatanabeN.2011Functional characterization of rose phenylacetaldehyde reductase (Par), an enzyme involved in the biosynthesis of the scent compound 2-phenylethanolJournal of Plant Physiology168889510.1016/j.jplph.2010.06.01120650544Search in Google Scholar

Cheng, W. H., Endo, A., Zhou, L., Penney, J., Chen, H. C., Arroyo, A., Leon, P., Nambata, E., Asami, T., Seo, M., Koshiba, T., and Sheen, J. (2002). A unique short-chain dehydrogenase/reductase in Arabidopsis glucose signaling and abscisic acid biosynthesis and functions. Plant Cell, 14, 2723–2743.ChengW. H.EndoA.ZhouL.PenneyJ.ChenH. C.ArroyoA.LeonP.NambataE.AsamiT.SeoM.KoshibaT.SheenJ.2002A unique short-chain dehydrogenase/reductase in Arabidopsis glucose signaling and abscisic acid biosynthesis and functionsPlant Cell142723274310.1105/tpc.00649415272312417697Search in Google Scholar

Fan, Y. P., Wang, X. R., Yu, R. C., and Yang, P. (2007). Analysis on the aroma components in several species of Hedychium. Acta Horticulturae Sinica, 34, 231–234.FanY. P.WangX. R.YuR. C.YangP.2007Analysis on the aroma components in several species of HedychiumActa Horticulturae Sinica34231234Search in Google Scholar

Filling, C., Berndt, K. D., Benach, J., Knapp, S., Prozorovski, T., Nordling, E., Ladenstein, R., Jörnvall, H., and Oppermann, U. (2002). Critical residues for structure and catalysis in short-chain dehydrogenases/reductases (SDR). The Journal of Biological Chemistry, 277, 25677–25684.FillingC.BerndtK. D.BenachJ.KnappS.ProzorovskiT.NordlingE.LadensteinR.JörnvallH.OppermannU.2002Critical residues for structure and catalysis in short-chain dehydrogenases/reductases (SDR)The Journal of Biological Chemistry277256772568410.1074/jbc.M20216020011976334Search in Google Scholar

Hamid, N. A. A., Zainal, Z., and Ismail, I. (2018). Two members of unassigned type of short-chain dehydrogenase/reductase superfamily (SDR) isolated from Persicaria minor show response towards ABA and drought stress. Journal of Plant Biochemistry and Biotechnology, 27, 260–271.HamidN. A. A.ZainalZ.IsmailI.2018Two members of unassigned type of short-chain dehydrogenase/reductase superfamily (SDR) isolated from Persicaria minor show response towards ABA and drought stressJournal of Plant Biochemistry and Biotechnology2726027110.1007/s13562-017-0436-4Search in Google Scholar

Hassan, M., Maarof, N. D., Aliz, M., Noor, N. M., Othman, R., and Mori, N. (2012). Monoterpene alcohol metabolism: Identification, purification, and characterization of two geraniol dehydrogenase isoenzymes from Polygonum minus leaves. Bioscience, Biotechnology, and Biochemistry, 76, 1463–1470.HassanM.MaarofN. D.AlizM.NoorN. M.OthmanR.MoriN.2012Monoterpene alcohol metabolism: Identification, purification, and characterization of two geraniol dehydrogenase isoenzymes from Polygonum minus leavesBioscience, Biotechnology, and Biochemistry761463147010.1271/bbb.12013722878188Search in Google Scholar

Joernvall, H., Persson, B., Krook, M., and Atrian, S. (1995). Short-chain dehydrogenases/reductases (SDR). Biochemistry, 34, 6003–6013.JoernvallH.PerssonB.KrookM.AtrianS.1995Short-chain dehydrogenases/reductases (SDR)Biochemistry346003601310.1021/bi00018a0017742302Search in Google Scholar

Kallberg, Y., Oppermann, U., Jornvall, H., and Persson, B. (2002). Short-chain dehydrogenase/reductase (SDR) relationships: A large family with eight clusters common to human, animal, and plant genomes. Protein Science, 11, 636–641.KallbergY.OppermannU.JornvallH.PerssonB.2002Short-chain dehydrogenase/reductase (SDR) relationships: A large family with eight clusters common to human, animal, and plant genomesProtein Science1163664110.1110/ps.26902237348311847285Search in Google Scholar

Kallberg, Y., Oppermann, U., Jornvall, H., and Persson, B. (2002). Short-chain dehydrogenases/reductases (SDRS)-Coenzyme-based functional assignments in completed genomes. European Journal of Biochemistry, 269, 4409–4417.KallbergY.OppermannU.JornvallH.PerssonB.2002Short-chain dehydrogenases/reductases (SDRS)-Coenzyme-based functional assignments in completed genomesEuropean Journal of Biochemistry2694409441710.1046/j.1432-1033.2002.03130.x12230552Search in Google Scholar

Kavanagh, K. L., Jornvall, H., Persson, B., and Pooermann, U. (2008). Medium- and short-chain dehydrogenase/reductase gene and protein families: The SDR superfamily: Functional and structural diversity within a family of metabolic and regulatory enzymes. Cellular and Molecular Life Sciences, 65, 3895–3906.KavanaghK. L.JornvallH.PerssonB.PooermannU.2008Medium- and short-chain dehydrogenase/reductase gene and protein families: The SDR superfamily: Functional and structural diversity within a family of metabolic and regulatory enzymesCellular and Molecular Life Sciences653895390610.1007/s00018-008-8588-y279233719011750Search in Google Scholar

Keiner, R., Kaiser, H., Nakajima, K., Hashimoto, T., and Drager, B. (2002). Molecular cloning, expression and characterization of tropinone reductase ii, an enzyme of the SDR family in Solanum Tuberosum (L.). Plant Molecular Biology, 48, 299–308.KeinerR.KaiserH.NakajimaK.HashimotoT.DragerB.2002Molecular cloning, expression and characterization of tropinone reductase ii, an enzyme of the SDR family in Solanum Tuberosum (L.)Plant Molecular Biology4829930810.1023/A:1013315110746Search in Google Scholar

Kiem, P. V., Thuy, N. T. K., Anh, H. L. T., Nhiem, N. X., Minh, C. V., Yen, P. H., Ban, N. K., Hang, D. T., Tai, B. H., Tuyen, N. V., Mathema, V. B., Koh, Y. S., and Kim, Y. H. (2011). Chemical constituents of the rhizomes of Hedychium coronarium and their inhibitory effect on the pro-inflammatory cytokines production LPS-stimulated in bone marrow-derived dendritic cells. Bioorganic & Medicinal Chemistry Letters, 21, 7460–7465.KiemP. V.ThuyN. T. K.AnhH. L. T.NhiemN. X.MinhC. V.YenP. H.BanN. K.HangD. T.TaiB. H.TuyenN. V.MathemaV. B.KohY. S.KimY. H.2011Chemical constituents of the rhizomes of Hedychium coronarium and their inhibitory effect on the pro-inflammatory cytokines production LPS-stimulated in bone marrow-derived dendritic cellsBioorganic & Medicinal Chemistry Letters217460746510.1016/j.bmcl.2011.09.12922071304Search in Google Scholar

Kim, J., Kang, H. G., Jun, S. H., Lee, J., Yim, J., and An, G. (2003). CvADH1, a member of short-chain alcohol dehydrogenase family, is inducible by gibberellin and sucrose in developing watermelon seeds. Plant and Cell Physiol, 44, 85–92.KimJ.KangH. G.JunS. H.LeeJ.YimJ.AnG.2003CvADH1, a member of short-chain alcohol dehydrogenase family, is inducible by gibberellin and sucrose in developing watermelon seedsPlant and Cell Physiol44859210.1093/pcp/pcg01312552151Search in Google Scholar

Kim, Y. J., Shim, J. S., Lee, J. H., Jung, D. Y., Sun, H., In, J. G., and Yang, D. C. (2009). Isolation and characterization of a novel short-chain alcohol dehydrogenase gene from Panax ginseng. BMB Reports, 42, 673–678.KimY. J.ShimJ. S.LeeJ. H.JungD. Y.SunH.InJ. G.YangD. C.2009Isolation and characterization of a novel short-chain alcohol dehydrogenase gene from Panax ginsengBMB Reports4267367810.5483/BMBRep.2009.42.10.673Search in Google Scholar

Kitaoka, N., Wu, Y., Zi, J., and Peters, R. J. (2016). Investigating inducible short-chain alcohol dehydrogenases/reductases clarifies rice oryzalexin biosynthesis. The Plant Journal, 88, 271–279.KitaokaN.WuY.ZiJ.PetersR. J.2016Investigating inducible short-chain alcohol dehydrogenases/reductases clarifies rice oryzalexin biosynthesisThe Plant Journal8827127910.1111/tpj.13249511807327337377Search in Google Scholar

Kumar, S., Tamura, K., and Nei, M. (2004). MEGA3: Integrated software for molecular evolutionary genetics analysis and sequence alignment. Briefings in Bioinformatics, 5, 150–163.KumarS.TamuraK.NeiM.2004MEGA3: Integrated software for molecular evolutionary genetics analysis and sequence alignmentBriefings in Bioinformatics515016310.1093/bib/5.2.15015260895Search in Google Scholar

Lan, J. B., Yu, R. C., Yu, Y. Y., and Fan, Y. P. (2013). Molecular cloning and expression of Hedychium coronarium farnesyl pyrophosphate synthase gene and its possible involvement in the biosynthesis of floral and wounding/herbivory induced leaf volatile sesquiterpenoids. Gene, 518, 360–367.LanJ. B.YuR. C.YuY. Y.FanY. P.2013Molecular cloning and expression of Hedychium coronarium farnesyl pyrophosphate synthase gene and its possible involvement in the biosynthesis of floral and wounding/herbivory induced leaf volatile sesquiterpenoidsGene51836036710.1016/j.gene.2013.01.00723333605Search in Google Scholar

Li, R. H., and Fan, Y. P. (2011). Molecular cloning and expression analysis of a terpene synthase gene, HcTPS2, in Hedychium coronarium. Plant Molecular Biology Reporter, 29, 35–42.LiR. H.FanY. P.2011Molecular cloning and expression analysis of a terpene synthase gene, HcTPS2, in Hedychium coronariumPlant Molecular Biology Reporter29354210.1007/s11105-010-0205-1Search in Google Scholar

Liu, X. B., Liu, Y. S., Huang, P., Ma, Y. S., Qing, Z. X., Tang, Q., Cao, H. F., Cheng, P., Zheng, Y. J., Yuan, Z. J., Zhou, Y., Liu, J. F., Tang, Z. S., Zhuo, Y. X., Zhang, Y. C., Yu, L. L., H J. L., Yang, P., Peng, Q., and Zhang, J. B. (2017). The genome of medicinal plant Macleaya cordata provides new insights into benzylisoquinoline alkaloids metabolism. Molecular Plant, 10, 975–989.LiuX. B.LiuY. S.HuangP.MaY. S.QingZ. X.TangQ.CaoH. F.ChengP.ZhengY. J.YuanZ. J.ZhouY.LiuJ. F.TangZ. S.ZhuoY. X.ZhangY. C.YuL. L.HJ. L.YangP.PengQ.ZhangJ. B.2017The genome of medicinal plant Macleaya cordata provides new insights into benzylisoquinoline alkaloids metabolismMolecular Plant1097598910.1016/j.molp.2017.05.00728552780Search in Google Scholar

Loh, S. C., Thottathil, G. P., and Othman, A. S. (2016). Identification of differentially expressed genes and signalling pathways in bark of Hevea brasiliensis seedlings associated with secondary laticifer differentiation using gene expression microarray. Plant Physiology and Biochemistry, 107, 45–55.LohS. C.ThottathilG. P.OthmanA. S.2016Identification of differentially expressed genes and signalling pathways in bark of Hevea brasiliensis seedlings associated with secondary laticifer differentiation using gene expression microarrayPlant Physiology and Biochemistry107455510.1016/j.plaphy.2016.05.01127236227Search in Google Scholar

Malcomber, S. T., and Kellogg, E. A. (2006). Evolution of unisexual flowers in grasses (Poaceae) and the putative sex-determination gene, TASSELSEED2 (TS2). New Phytologist, 170, 885–899.MalcomberS. T.KelloggE. A.2006Evolution of unisexual flowers in grasses (Poaceae) and the putative sex-determination gene, TASSELSEED2 (TS2)New Phytologist17088589910.1111/j.1469-8137.2006.01726.x16684246Search in Google Scholar

Manríquez, D., El-Sharkawy, I., Flores, F. B., El-Yahyaoui, F., Tegad, F., Bouzayen, M., Latche, A., and Pech, J. C. (2006). Two highly divergent alcohol dehydrogenases of melon exhibit fruit ripening-specific expression and distinct biochemical characteristics. Plant Molecular Biology, 61, 675–685.ManríquezD.El-SharkawyI.FloresF. B.El-YahyaouiF.TegadF.BouzayenM.LatcheA.PechJ. C.2006Two highly divergent alcohol dehydrogenases of melon exhibit fruit ripening-specific expression and distinct biochemical characteristicsPlant Molecular Biology6167568510.1007/s11103-006-0040-916897483Search in Google Scholar

Moummou, H., Tonfack, L. B., Chervin, C., Benichou, M., Youmbi, E., Ginies, C., Latche, A., Pech, J. C., and Wan Der Rest, B. (2012). Functional characterization of SlscADH1, a fruit-ripening-associated short-chain alcohol dehydrogenase of tomato. Journal of Plant Physiology, 169, 1435–1444.MoummouH.TonfackL. B.ChervinC.BenichouM.YoumbiE.GiniesC.LatcheA.PechJ. C.Wan Der RestB.2012Functional characterization of SlscADH1, a fruit-ripening-associated short-chain alcohol dehydrogenase of tomatoJournal of Plant Physiology1691435144410.1016/j.jplph.2012.06.00722818888Search in Google Scholar

Naseron, N. A. H., Lim, K. A., Teh, S. L., Teo, S. S., Leow, A. T. C., Namasivayam, P., and Ho, C. L. (2014). Molecular characterization and homology modeling of a short-chain reductase/dehydrogenase from Gracilaria changii (Rhodophyta). Journal of Applied Phycology, 26, 665–674.NaseronN. A. H.LimK. A.TehS. L.TeoS. S.LeowA. T. C.NamasivayamP.HoC. L.2014Molecular characterization and homology modeling of a short-chain reductase/dehydrogenase from Gracilaria changii (Rhodophyta)Journal of Applied Phycology2666567410.1007/s10811-013-0137-xSearch in Google Scholar

Okamoto, S., Yu, F., Harada, H., Okajima, T., Hattan, J., Misawa, N., and Utsumi, R. (2011). A short-chain dehydrogenase involved in terpene metabolism from Zingiber zerumbet. The FEBS Journal, 278, 2892–2900.OkamotoS.YuF.HaradaH.OkajimaT.HattanJ.MisawaN.UtsumiR.2011A short-chain dehydrogenase involved in terpene metabolism from Zingiber zerumbetThe FEBS Journal2782892290010.1111/j.1742-4658.2011.08211.x21668645Search in Google Scholar

Oppermann, U. C., Filling, C., Berndt, K. D., Persson, B., Benach, J., Ladenstein, R., and Jornvall, H. (1997). Active site directed mutagenesis of 3 beta/17 beta-hydroxysteroid dehydrogenase establishes differential effects on short-chain dehydrogenase/reductase reactions. Biochemistry, 36, 34–40.OppermannU. C.FillingC.BerndtK. D.PerssonB.BenachJ.LadensteinR.JornvallH.1997Active site directed mutagenesis of 3 beta/17 beta-hydroxysteroid dehydrogenase establishes differential effects on short-chain dehydrogenase/reductase reactionsBiochemistry36344010.1021/bi961803v8993315Search in Google Scholar

Pan, H. Y., Zhou, R., Louie, G. V., Muhlemann, J. K., Bomati, E. K., Bowman, M. E., Dudateva, N., Dixon, R. A., Noel, J. P., and Wang, X. Q. (2014). Structural studies of cinnamoyl-CoA reductase and cinnamyl-alcohol dehydrogenase, key enzymes of monolignol biosynthesis. The Plant Cell, 26, 3709–3727.PanH. Y.ZhouR.LouieG. V.MuhlemannJ. K.BomatiE. K.BowmanM. E.DudatevaN.DixonR. A.NoelJ. P.WangX. Q.2014Structural studies of cinnamoyl-CoA reductase and cinnamyl-alcohol dehydrogenase, key enzymes of monolignol biosynthesisThe Plant Cell263709372710.1105/tpc.114.127399421315225217505Search in Google Scholar

Pang, Y., Song, W. Q., Chen, F. Y., and Qin, Y. M. (2010). A new cotton SDR family gene encodes a polypeptide possessing aldehyde reductase and 3-ketoacyl-Coa reductase activities. Biochemistry (Moscow), 75, 320–326.PangY.SongW. Q.ChenF. Y.QinY. M.2010A new cotton SDR family gene encodes a polypeptide possessing aldehyde reductase and 3-ketoacyl-Coa reductase activitiesBiochemistry (Moscow)7532032610.1134/S0006297910030089Search in Google Scholar

Persson, B., Kallberg, Y., Bray, J. E., Bruford, E., Dellaporta, S. L., Favia, A. D., Duarte, R. G., Jörnvall, H., Kavanagh, K. L., Kedishvili, N., Kisiela, M., Maser, E., Mindnich, R., Orchard, S., Penning, T. M., Thornton, J. M., Adamski, J., and Oppermann, U. (2009). The SDR (short-chain dehydrogenase/reductase and related enzymes) nomenclature initiative. Chemico-Biological Interactions, 178, 94–98.PerssonB.KallbergY.BrayJ. E.BrufordE.DellaportaS. L.FaviaA. D.DuarteR. G.JörnvallH.KavanaghK. L.KedishviliN.KisielaM.MaserE.MindnichR.OrchardS.PenningT. M.ThorntonJ. M.AdamskiJ.OppermannU.2009The SDR (short-chain dehydrogenase/reductase and related enzymes) nomenclature initiativeChemico-Biological Interactions178949810.1016/j.cbi.2008.10.040289674419027726Search in Google Scholar

Polichuk, D. R., Zhang, Y. S., Reed, D. W., Schmidt, J. F., and Covello, P. S. (2010). A glandular trichome-specific monoterpene alcohol dehydrogenase from Artemisia annua. Phytochemistry, 71, 1264–1269.PolichukD. R.ZhangY. S.ReedD. W.SchmidtJ. F.CovelloP. S.2010A glandular trichome-specific monoterpene alcohol dehydrogenase from Artemisia annuaPhytochemistry711264126910.1016/j.phytochem.2010.04.02620621795Search in Google Scholar

Sato, Y., Morita, R., Katsuma, S., Nishimura, M., Tanaka, A., and Kusaba, M. (2008). Two short-chain dehydrogenase/reductases, NON-YELLOW COLORING 1 and NYC1-LIKE, are required for chlorophyll b and light-harvesting complex II degradation during senescence in rice. The Plant Journal, 57, 120–131.SatoY.MoritaR.KatsumaS.NishimuraM.TanakaA.KusabaM.2008Two short-chain dehydrogenase/reductases, NON-YELLOW COLORING 1 and NYC1-LIKE, are required for chlorophyll b and light-harvesting complex II degradation during senescence in riceThe Plant Journal5712013110.1111/j.1365-313X.2008.03670.x18778405Search in Google Scholar

Scherbak, N., Ala-Haivala, A., Brosche, M., Bawer, N., Strid, H., Gittins, J. R., Grahn, E., Eriksson, L. A., and Strid, A. (2011). The pea sad short-chain dehydrogenase/reductase: Quinone reduction, tissue distribution, and heterologous expression. Plant Physiology, 155, 1839–1850.ScherbakN.Ala-HaivalaA.BroscheM.BawerN.StridH.GittinsJ. R.GrahnE.ErikssonL. A.StridA.2011The pea sad short-chain dehydrogenase/reductase: Quinone reduction, tissue distribution, and heterologous expressionPlant Physiology1551839185010.1104/pp.111.173336309110621343423Search in Google Scholar

Shen, Q., Zhang, L. D., Liao, Z. H., Wang, S. Y., Yan, T. X., Shi, P., Liu, M., Fu, X. Q., Pan, Q. F., Wang, Y. L., Lv, Z. Y., Lu, X., Zhang, F. Y., Jiang, W. M., Ma, Y. N., Chen, M. H., Hao, X. L., Li, L., Tang, Y. L., Lv, G., Zhou, Y., Sun, X. F., Brodelius, P. E., Rose, J. K. C., and Tang, K. X. (2018). The genome of Artemisia annua provides insight into the evolution of asteraceae family and artemisinin biosynthesis. Molecular Plant, 11, 776–788.ShenQ.ZhangL. D.LiaoZ. H.WangS. Y.YanT. X.ShiP.LiuM.FuX. Q.PanQ. F.WangY. L.LvZ. Y.LuX.ZhangF. Y.JiangW. M.MaY. N.ChenM. H.HaoX. L.LiL.TangY. L.LvG.ZhouY.SunX. F.BrodeliusP. E.RoseJ. K. C.TangK. X.2018The genome of Artemisia annua provides insight into the evolution of asteraceae family and artemisinin biosynthesisMolecular Plant1177678810.1016/j.molp.2018.03.01529703587Search in Google Scholar

Sonawane, P. D., Heiniq, U., Panda, S., Gilboa, N. S., Yona, M., Kumar, S. P., Alkan, N., Unger, T., Bocobza, S., Pliner, M., Malitsky, S., Tkachev, M., Meir, S., Rogachev, I., and Aharoni, A. (2018). Short-chain dehydrogenase/reductase governs steroidal specialized metabolites structural diversity and toxicity in the genus Solanum. Proceedings of the National Academy of Sciences of the United States of America, 115, E5419–E5428.SonawaneP. D.HeiniqU.PandaS.GilboaN. S.YonaM.KumarS. P.AlkanN.UngerT.BocobzaS.PlinerM.MalitskyS.TkachevM.MeirS.RogachevI.AharoniA.2018Short-chain dehydrogenase/reductase governs steroidal specialized metabolites structural diversity and toxicity in the genus SolanumProceedings of the National Academy of Sciences of the United States of America115E5419E542810.1073/pnas.1804835115600334729784829Search in Google Scholar

Stavrinides, A. K., Tatsis, E. C., Dang, T. T., Caputi, L., Stevenson, C. E. M., Lawson, D. M., Schneider, B., and O’connor, S. E. (2018). Discovery of a short chain dehydrogenase from Catharanthus roseus that produces a novel monoterpene indole alkaloid. ChemBioChem, 19, 940–948.StavrinidesA. K.TatsisE. C.DangT. T.CaputiL.StevensonC. E. M.LawsonD. M.SchneiderB.O’connorS. E.2018Discovery of a short chain dehydrogenase from Catharanthus roseus that produces a novel monoterpene indole alkaloidChemBioChem1994094810.1002/cbic.201700621600310429424954Search in Google Scholar

Vainstein, A., Lewinsohn, E., Pichersky, E., and Weiss, D. (2001). Floral fragrance. New inroads Into an old commodity. Plant Physiology, 127, 1383–1389.VainsteinA.LewinsohnE.PicherskyE.WeissD.2001Floral fragrance. New inroads Into an old commodityPlant Physiology1271383138910.1104/pp.010706Search in Google Scholar

Walter, M. H. (1992). Regulation of lignification in defense. In T. Boller and F. Meins (Eds.), Plant gene research: genes involved in plant defense (Vol. 8, pp. 327–352). Vienna, Austria: Springer-Verlag.WalterM. H.1992Regulation of lignification in defenseInBollerT.MeinsF.(Eds.),Plant gene research: genes involved in plant defense8327352Vienna, AustriaSpringer-Verlag10.1007/978-3-7091-6684-0_13Search in Google Scholar

Wang, H. B. (2014). Bioinformatics analysis of short-chain dehydrogenase/reductase family SDR110C and genetic transformation of CsSDR110C14 in cucumber. P31–33, Shandong Agricultural University, Jinan, China.WangH. B.2014Bioinformatics analysis of short-chain dehydrogenase/reductase family SDR110C and genetic transformation of CsSDR110C14 in cucumberP3133Shandong Agricultural UniversityJinan, ChinaSearch in Google Scholar

Weeden, N. F., and Provvidenti, R. (1988). A marker locus, adh-1, for resistance to pea enation mosaic virus in Pisum sativum. Journal of Heredity, 79, 128–131.WeedenN. F.ProvvidentiR.1988A marker locus, adh-1, for resistance to pea enation mosaic virus in Pisum sativumJournal of Heredity7912813110.1093/oxfordjournals.jhered.a110469Search in Google Scholar

Wu, T. L. (1994). Phytogeography of the Zingiberaceae. Journal of Tropical and Subtropical Botany, 2, 1–14.WuT. L.1994Phytogeography of the ZingiberaceaeJournal of Tropical and Subtropical Botany2114Search in Google Scholar

Wu, Z. Y., and Raven, H. P. (2001). Flora of China 24 (pp. 370–377). Saint Louis, USA: Missouri Botanical Garden Press.WuZ. Y.RavenH. P.2001Flora of China 24370377Saint Louis, USAMissouri Botanical Garden PressSearch in Google Scholar

Yu, F. N., Okamto, S., Nakasone, K., Adachi, K., Matsuda, S., Harada, H., Misawa, N., and Utsumi, R. (2008). Molecular cloning and functional characterization of alpha-humulene synthase, a possible key enzyme of zerumbone biosynthesis in shampoo ginger (Zingiber zerumbet). Planta, 227, 1291–1299.YuF. N.OkamtoS.NakasoneK.AdachiK.MatsudaS.HaradaH.MisawaN.UtsumiR.2008Molecular cloning and functional characterization of alpha-humulene synthase, a possible key enzyme of zerumbone biosynthesis in shampoo ginger (Zingiber zerumbet)Planta2271291129910.1007/s00425-008-0700-x18273640Search in Google Scholar

Yue, Y. C., Yu, R. C., and Fan, Y. P. (2014). Characterization of two monoterpene synthases involved in floral scent formation in Hedychium coronarium. Planta, 240, 745–762.YueY. C.YuR. C.FanY. P.2014Characterization of two monoterpene synthases involved in floral scent formation in Hedychium coronariumPlanta24074576210.1007/s00425-014-2127-x25056927Search in Google Scholar

Yue, Y. C., Yu, R. C., and Fan, Y. P. (2015). Transcriptome profiling provides new insights into the formation of floral scent in Hedychium coronarium. BMC Genomics, 16, 470.YueY. C.YuR. C.FanY. P.2015Transcriptome profiling provides new insights into the formation of floral scent in Hedychium coronariumBMC Genomics1647010.1186/s12864-015-1653-7447226126084652Search in Google Scholar

Zhang, Y. M., Zhou, W. Z., and Li, J. F. (2010). Comparative analysis of different RNA isolation methods for dissimilar tissues of sisal. Molecular Plant Breeding, 8, 201–208.ZhangY. M.ZhouW. Z.LiJ. F.2010Comparative analysis of different RNA isolation methods for dissimilar tissues of sisalMolecular Plant Breeding8201208Search in Google Scholar

Zhao, K. H., Zeng, J. L., Zhao, T. F., Zhang, H. X., Qiu, F., Yang, C. X., Zeng, L. J., Liu, X. Q., Chen, M., Lan, X. Z., and Liao, Z. H. (2017). Enhancing tropane alkaloid production based on the functional identification of tropine-forming reductase in Scopolia lurida, a Tibetan medicinal plant. Frontiers in Plant Science, 8, 1745.ZhaoK. H.ZengJ. L.ZhaoT. F.ZhangH. X.QiuF.YangC. X.ZengL. J.LiuX. Q.ChenM.LanX. Z.LiaoZ. H.2017Enhancing tropane alkaloid production based on the functional identification of tropine-forming reductase in Scopolia lurida, a Tibetan medicinal plantFrontiers in Plant Science8174510.3389/fpls.2017.01745565061229085381Search in Google Scholar

Zhou, L., Wang, Y., Ren, L., and Peng, Z. H. (2011). Cloning and expression analysis of dihydroflavonol 4-reductase gene PsDFR1 from tree peony (Paeonia suffruticosa Andr.). Plant Physiology Journal, 47, 885–892.ZhouL.WangY.RenL.PengZ. H.2011Cloning and expression analysis of dihydroflavonol 4-reductase gene PsDFR1 from tree peony (Paeonia suffruticosa Andr.)Plant Physiology Journal47885892Search in Google Scholar

Zhou, Y., Zhang, L., Gui, J. D., Dong, F., Cheng, S. H., Mei, X., Zhang, L. Y., Li, Y. Q., Su, X. G., Baldermann, S., Watanabe, N., and Yang, Z. Y. (2015). Molecular cloning and characterization of a short-chain dehydrogenase showing activity with volatile compounds isolated from Camellia sinensis. Plant Molecular Biology Reporter, 33, 253–263.ZhouY.ZhangL.GuiJ. D.DongF.ChengS. H.MeiX.ZhangL. Y.LiY. Q.SuX. G.BaldermannS.WatanabeN.YangZ. Y.2015Molecular cloning and characterization of a short-chain dehydrogenase showing activity with volatile compounds isolated from Camellia sinensisPlant Molecular Biology Reporter3325326310.1007/s11105-014-0751-zSearch in Google Scholar

Ziegler, J., Brandt, W., Geissler, R., and Facchini, P. J. (2009). Removal of substrate inhibition and increase in maximal velocity in the short chain dehydrogenase/reductase salutaridine reductase involved in morphine biosynthesis. Journal of Biological Chemistry, 284, 26758–26767.ZieglerJ.BrandtW.GeisslerR.FacchiniP. J.2009Removal of substrate inhibition and increase in maximal velocity in the short chain dehydrogenase/reductase salutaridine reductase involved in morphine biosynthesisJournal of Biological Chemistry284267582676710.1074/jbc.M109.030957278536419648114Search in Google Scholar

Ziegler, J., Facchini, P. J., Geissler, R., Schmidt, J., Ammer, C., Kramell, R., Voigtländer, S., Gesell, A., Pienkny, S., and Brandt, W. (2009). Evolution of morphine biosynthesis in opium poppy. Phytochemistry, 70, 1696–1707.ZieglerJ.FacchiniP. J.GeisslerR.SchmidtJ.AmmerC.KramellR.VoigtländerS.GesellA.PienknyS.BrandtW.2009Evolution of morphine biosynthesis in opium poppyPhytochemistry701696170710.1016/j.phytochem.2009.07.00619665152Search in Google Scholar