Toward a photosynthetic microbial platform for terpenoid engineering

详细信息    查看全文

• 作者：Fiona K. Davies (1)
  Robert E. Jinkerson (1)
  Matthew C. Posewitz (1)
  
• 关键词：Terpenoid ; Cyanobacteria ; Metabolic engineering ; Terpene synthase ; MVA pathway ; MEP pathway
• 刊名：Photosynthesis Research
• 出版年：2015
• 出版时间：March 2015
• 年：2015
• 卷：123
• 期：3
• 页码：265-284
• 全文大小：2,879 KB
• 参考文献：1. Agranoff BW, Eggerer H, Henning U, Lynen F (1959) Isopentenyl pyrophosphate isomerase. J Am Chem Soc 81:1254鈥?255
  2. Agranoff BW, Eggerer H, Henning U, Lynen F (1960) Biosynthesis of terpenes. VII. Isopentenyl pyrophosphate isomerase. J Biol Chem 235:326鈥?32
  3. Ajikumar PK, Tyo K, Carlsen S, Mucha O, Phon TH, Stephanopoulos G (2008) Terpenoids: opportunities for biosynthesis of natural product drugs using engineered microorganisms. Mol Pharm 5:167鈥?90
  4. Ajikumar PK, Xiao WH, Tyo KEJ, Wang Y, Simeon F, Leonard E, Mucha O, Phon TH, Pfeifer B, Stephanopoulos G (2010) Isoprenoid pathway optimization for taxol precursor overproduction in / Escherichia coli. Science 330:70鈥?4
  5. Albertsen L, Chen Y, Bach LS, Rattleff S, Maury J, Brix S, Nielsen J, Mortensen UH (2011) Diversion of flux toward sesquiterpene production in / Saccharomyces cerevisiae by fusion of host and heterologous enzymes. Appl Environ Microbiol 77:1033鈥?040
  6. Albrecht M, Misawa N, Sandmann G (1999) Metabolic engineering of the terpenoid biosynthetic pathway of / Escherichia coli for production of the carotenoids beta-carotene and zeaxanthin. Biotechnol Lett 21:791鈥?95
  7. Alonso WR, Rajaonarivony JIM, Gershenzon J, Croteau R (1992) Purification of 4 / S-limonene synthase, a monoterpene cyclase from the glandular trichomes of peppermint ( / Mentha x / piperita) and spearmint ( / Mentha spicata). J Biol Chem 267:7582鈥?587
  8. Alonso-Gutierrez J, Chan R, Batth TS, Adams PD, Keasling JD, Petzold CJ, Lee TS (2013) Metabolic engineering of / Escherichia coli for limonene and perillyl alcohol production. Metab Eng 19:33鈥?1
  9. Balmer Y, Koller A, del Val G, Manieri W, Schurmann P, Buchanan BB (2003) Proteomics gives insight into the regulatory function of chloroplast thioredoxins. Proc Natl Acad Sci USA 100:370鈥?75
  10. Behnke K, Ehlting B, Teuber M, Bauerfeind M, Louis S, Hasch R, Polle A, Bohlmann J, Schnitzler JP (2007) Transgenic, non-isoprene emitting poplars don鈥檛 like it hot. Plant J 51:485鈥?99
  11. Bentley FK, Melis A (2012) Diffusion-based process for carbon dioxide uptake and isoprene emission in gaseous/aqueous two-phase photobioreactors by photosynthetic microorganisms. Biotechnol Bioeng 109:100鈥?09
  12. Bentley FK, Garc铆a-Cerd谩n JG, Chen H-C (2013) Paradigm of monoterpene (尾-phellandrene) hydrocarbons production via photosynthesis in cyanobacteria. BioEnergy Res 6:917鈥?29
  13. Bentley FK, Zurbriggen A, Melis A (2014) Heterologous expression of the mevalonic acid pathway in cyanobacteria enhances endogenous carbon partitioning to isoprene. Mol Plant 7:71鈥?6
  14. Bohlmann J, Keeling CI (2008) Terpenoid biomaterials. Plant J 54:656鈥?69
  15. Breitmaier E (2006) Terpenes: flavors, fragrances, pharmaca, pheromones. Wiley-VCH, Weinheim
  16. Byrne CM, Allen SD, Lobkovsky EB, Coates GW (2004) Alternating copolymerization of limonene oxide and carbon dioxide. J Am Chem Soc 126:11404鈥?1405
  17. Carretero-Paulet L, Lipska A, Perez-Gil J, Sangari FJ, Albert VA, Rodriguez-Concepcion M (2013) Evolutionary diversification and characterization of the eubacterial gene family encoding DXR type II, an alternative isoprenoid biosynthetic enzyme. BMC Evol Biol 13:180鈥?97
  18. Carrieri D, Paddock T, Maness PC, Seibert M, Yu JP (2012) Photo-catalytic conversion of carbon dioxide to organic acids by a recombinant cyanobacterium incapable of glycogen storage. Energy Environ Sci 5:9457鈥?461
  19. Carter OA, Peters RJ, Croteau R (2003) Monoterpene biosynthesis pathway construction in / Escherichia coli. Phytochemistry 64:425鈥?33
  20. Chen F, Tholl D, Bohlmann J, Pichersky E (2011) The family of terpene synthases in plants: a mid-size family of genes for specialized metabolism that is highly diversified throughout the kingdom. Plant 66:212鈥?29
  21. Colby SM, Alonso WR, Katahira EJ, McGarvey DJ, Croteau R (1993) 4 / S-limonene synthase from the oil glands of spearmint ( / Mentha spicata). cDNA isolation, characterization, and bacterial expression of the catalytically active monoterpene cyclase. J Biol Chem 268:23016鈥?3024
  22. Conrado RJ, Wu GC, Boock JT, Xu HS, Chen SY, Lebar T, Turnsek J, Tomsic N, Avbelj M, Gaber R, Koprivnjak T, Mori J, Glavnik V, Vovk I, Bencina M, Hodnik V, Anderluh G, Dueber JE, Jerala R, DeLisa MP (2012) DNA-guided assembly of biosynthetic pathways promotes improved catalytic efficiency. Nucleic Acids Res 40:1879鈥?889
  23. Cordoba E, Porta H, Arroyo A, Roman CS, Medina L, Rodriguez-Concepcion M, Leon P (2011) Functional characterization of the three genes encoding 1-deoxy-D-xylulose 5-phosphate synthase in maize. J Exp Bot 62:2023鈥?038
  24. Doshi R, Nguyen T, Chang G (2013) Transporter-mediated biofuel secretion. Proc Nat Acad Sci USA 110:7642鈥?647
  25. Ducat DC, Avelar-Rivas JA, Way JC, Silver PA (2012) Rerouting carbon flux to enhance photosynthetic productivity. Appl Environ Microbiol 78:2660鈥?668
  26. Dueber JE, Wu GC, Malmirchegini GR, Moon TS, Petzold CJ, Ullal AV, Prather KLJ, Keasling JD (2009) Synthetic protein scaffolds provide modular control over metabolic flux. Nat Biotechnol 27:753鈥?59
  27. Dunlop MJ, Dossani ZY, Szmidt HL, Chu HC, Lee TS, Keasling JD, Hadi MZ, Mukhopadhyay A (2011) Engineering microbial biofuel tolerance and export using efflux pumps. Mol Syst Biol 7:487鈥?93
  28. Eaton-Rye JJ (2011) Construction of gene interruptions and gene deletions in the cyanobacterium / Synechocystis sp. strain PCC 6803. Methods Mol Biol 684:295鈥?12
  29. Erb TJ, Evans BS, Cho K, Warlick BP, Sriram J, Wood BM, Imker HJ, Sweedler JV, Tabita FR, Gerlt JA (2012) A RubisCO-like protein links SAM metabolism with isoprenoid biosynthesis. Nat Chem Biol 8:926鈥?32
  30. Ershov YV, Gantt RR, Cunningham FX, Gantt E (2002) Isoprenoid biosynthesis in / Synechocystis sp strain PCC6803 is stimulated by compounds of the pentose phosphate cycle but not by pyruvate or deoxyxylulose-5-phosphate. J Bacteriol 184:5045鈥?051
  31. Farmer WR, Liao JC (2000) Improving lycopene production in / Escherichia coli by engineering metabolic control. Nat Biotechnol 18:533鈥?37
  32. Farmer WR, Liao JC (2001) Precursor balancing for metabolic engineering of lycopene production in / Escherichia coli. Biotechnol Prog 17:57鈥?1
  33. Felsenstein J (1985) Confidence-limits on phylogenies鈥攁n approach using the bootstrap. Evolution 39:783鈥?91
  34. Firdaus M, de Espinosa LM, Meier MAR (2011) Terpene-based renewable monomers and polymers via thiol-ene additions. Macromolecules 44:7253鈥?262
  35. Frenz L, Ubersax J (2012) Methods and compositions for detecting microbial production of water-immiscible compounds. Patent WO2012158466 A1
  36. Frigaard NU, Sakuragi Y, Bryant DA (2004) Gene inactivation in the cyanobacterium / Synechococcus sp. PCC 7002 and the green sulfur bacterium / Chlorobium tepidum using in vitro-made DNA constructs and natural transformation. Methods Mol Biol 274:325鈥?40
  37. Gabrielsen M, Rohdich F, Eisenreich W, Grawert T, Hecht S, Bacher A, Hunter WN (2004) Biosynthesis of isoprenoids鈥攁 bifunctional IspDF enzyme from / Campylobacter jejuni. Eur J Biochem 271:3028鈥?035
  38. Geer LY, Domrachev M, Lipman DJ, Bryant SH (2002) CDART: protein homology by domain architecture. Genome Res 12:1619鈥?623
  39. Ghirardo A, Gutknecht J, Zimmer I, Bruggemann N, Schnitzler JP (2011) Biogenic volatile organic compound and respiratory CO₂ emissions after ¹³C-Labeling: online tracing of C translocation dynamics in poplar plants. PLoS ONE 6:e17393
  40. Go YM, Jones DP (2013) The redox proteome. J Biol Chem 288:26512鈥?6520
  41. Grundel M, Scheunemann R, Lockau W, Zilliges Y (2012) Impaired glycogen synthesis causes metabolic overflow reactions and affects stress responses in the cyanobacterium / Synechocystis sp PCC 6803. Microbiol SGM 158:3032鈥?043
  42. Guenther A, Karl T, Harley P, Wiedinmyer C, Palmer PI, Geron C (2006) Estimates of global terrestrial isoprene emissions using MEGAN (model of emissions of gases and aerosols from nature). Atmos Chem Phys 6:3181鈥?210
  43. Guenther AB, Jiang X, Heald CL, Sakulyanontvittaya T, Duhl T, Emmons LK, Wang X (2012) The model of emissions of gases and aerosols from nature version 2.1 (MEGAN2.1): an extended and updated framework for modeling biogenic emissions. Geosci Model Dev 5:1471鈥?492
  44. Hale I, O鈥橬eill PM, Berry NG, Odom A, Sharma R (2012) The MEP pathway and the development of inhibitors as potential anti-infective agents. Medchemcomm 3:418鈥?33
  45. Harker M, Bramley PM (1999) Expression of prokaryotic 1-deoxy-D-xylulose-5-phosphatases in Escherichia coli increases carotenoid and ubiquinone biosynthesis. FEBS Lett 448:115鈥?19
  46. Hedl M, Sutherlin A, Wilding EI, Mazzulla M, McDevitt D, Lane P, Burgner JW, Lehnbeuter KR, Stauffacher CV, Gwynn MN, Rodwell VW (2002) / Enterococcus faecalis acetoacetyl-coenzyme A thiolase/3-hydroxy-3-methylglutaryl-coenzyme A reductase, a dual-function protein of isopentenyl diphosphate biosynthesis. J Bacteriol 184:2116鈥?122
  47. Hellier P, Al-Haj L, Talibi M, Purton S, Ladommatos N (2013) Combustion and emissions characterization of terpenes with a view to their biological production in cyanobacteria. Fuel 111:670鈥?88
  48. Hemmerlin A (2013) Post-translational events and modifications regulating plant enzymes involved in isoprenoid precursor biosynthesis. Plant Sci 203:41鈥?4
  49. Hemmerlin A, Harwood JL, Bach TJ (2012) A raison d鈥檈tre for two distinct pathways in the early steps of plant isoprenoid biosynthesis? Prog Lipid Res 51:95鈥?48
  50. Hezari M, Lewis NG, Croteau R (1995) Purification and characterization of taxa-4(5),11(12)-diene synthase from Pacific yew ( / Taxus brevifolia) that catalyzes the first committed step of taxol biosynthesis. Arch Biochem Biophys 322:437鈥?44
  51. Hickman JW, Kotovic KM, Miller C, Warrener P, Kaiser B, Jurista T, Budde M, Cross F, Roberts JM, Carleton M (2013) Glycogen synthesis is a required component of the nitrogen stress response in / Synechococcus elongatus PCC 7942. Algal Res 2:98鈥?06
  52. Huang HH, Lindblad P (2013) Wide-dynamic-range promoters engineered for cyanobacteria. J Biol Eng 7:10鈥?1
  53. Huang QL, Roessner CA, Croteau R, Scott AI (2001) Engineering / Escherichia coli for the synthesis of taxadiene, a key intermediate in the biosynthesis of taxol. Bioorg Med Chem 9:2237鈥?242
  54. Huang HH, Camsund D, Lindblad P, Heidorn T (2010) Design and characterization of molecular tools for a synthetic biology approach towards developing cyanobacterial biotechnology. Nucleic Acids Res 38:2577鈥?593
  55. Huang SQ, Chen L, Te RG, Qiao JJ, Wang JX, Zhang WW (2013) Complementary iTRAQ proteomics and RNA-seq transcriptomics reveal multiple levels of regulation in response to nitrogen starvation in / Synechocystis sp PCC 6803. Mol BioSyst 9:2565鈥?574
  56. Hyatt DC, Youn BY, Zhao YX, Santhamma B, Coates RM, Croteau RB, Kang CH (2007) Structure of limonene synthase, a simple model for terpenoid cyclase catalysis. Proc Natl Acad Sci USA 104:5360鈥?365
  57. Immethun CM, Hoynes-O鈥機onnor AG, Balassy A, Moon TS (2013) Microbial production of isoprenoids enabled by synthetic biology. Front Microbiol 4:75
  58. Jinkerson RE, Radakovits R, Posewitz MC (2013) Genomic insights from the oleaginous model alga / Nannochloropsis gaditana. Bioengineered 4:37鈥?3
  59. Kajiwara S, Fraser PD, Kondo K, Misawa N (1997) Expression of an exogenous isopentenyl diphosphate isomerase gene enhances isoprenoid biosynthesis in / Escherichia coli. Biochem J 324:421鈥?26
  60. Kamatou GPP, Vermaak I, Viljoen AM, Lawrence BM (2013) Menthol: a simple monoterpene with remarkable biological properties. Phytochemistry 96:15鈥?5
  61. Kaneda K, Kuzuyama T, Takagi M, Hayakawa Y, Seto H (2001) An unusual isopentenyl diphosphate isomerase found in the mevalonate pathway gene cluster from / Streptomyces sp strain CL190. Proc Nat Acad Sci USA 98:932鈥?37
  62. Keasling JD (2012) Synthetic biology and the development of tools for metabolic engineering. Metab Eng 14:189鈥?95
  63. Kesselmeier J, Staudt M (1999) Biogenic volatile organic compounds (VOC): an overview on emission, physiology and ecology. J Atmos Chem 33:23鈥?8
  64. Kirby J, Keasling JD (2009) Biosynthesis of plant isoprenoids: perspectives for microbial engineering. Annu Rev Plant Biol 60:335鈥?55
  65. Kobayashi S, Lu C, Hoye TR, Hillmyer MA (2009) Controlled polymerization of a cyclic diene prepared from the ring-closing metathesis of a naturally occurring monoterpene. J Am Chem Soc 131:7960鈥?961
  66. Koksal M, Zimmer I, Schnitzler JP, Christianson DW (2010) Structure of isoprene synthase illuminates the chemical mechanism of teragram atmospheric carbon emission. J Mol Biol 402:363鈥?73
  67. Kung Y, Runguphan W, Keasling JD (2012) From fields to fuels: recent advances in the microbial production of biofuels. ACS Synth Biol 1:498鈥?13
  68. Lanekoff I, Geydebrekht O, Pinchuk GE, Konopka AE, Laskin J (2013) Spatially resolved analysis of glycolipids and metabolites in living / Synechococcus sp PCC 7002 using nanospray desorption electrospray ionization. Analyst 138:1971鈥?978
  69. Lange BM, Rujan T, Martin W, Croteau R (2000) Isoprenoid biosynthesis: the evolution of two ancient and distinct pathways across genomes. Proc Nat Acad Sci USA 97:13172鈥?3177
  70. Langenheim JH (1994) Higher plant terpenoids: a phytocentric overview of their ecological roles. J Chem Ecol 20:1223鈥?280
  71. Laupitz R, Hecht S, Amslinger S, Zepeck F, Kaiser J, Richter G, Schramek N, Steinbacher S, Huber R, Arigoni D, Bacher A, Eisenreich W, Rohdich F (2004) Biochemical characterization of / Bacillus subtilis type II isopentenyl diphosphate isomerase, and phylogenetic distribution of isoprenoid biosynthesis pathways. Eur J Biochem 271:2658鈥?669
  72. Legere E, Mantecon E, Moll B, Unamunzaga C, Woods RP (2008) Closed photobioreactor system for production of ethanol. Patent WO2008055190 A3
  73. Lemaire SD, Guillon B, Le Marechal P, Keryer E, Miginiac-Maslow M, Decottignies P (2004) New thioredoxin targets in the unicellular photosynthetic eukaryote / Chlamydomonas reinhardtii. Proc Nat Acad Sci USA 101:7475鈥?480
  74. Lherbet C, Pojer F, Richard SB, Noel JP, Poulter CD (2006) Absence of substrate channeling between active sites in the / Agrobacterium tumefaciens IspDF and IspE enzymes of the methyl erythritol phosphate pathway. Biochemistry 45:3548鈥?553
  75. Lichtenthaler HK (1999) The 1-deoxy-D-xylulose-5-phosphate pathway of isoprenoid biosynthesis in plants. Annu Rev Plant Physiol Plant Mol Biol 50:47鈥?5
  76. Lindberg P, Park S, Melis A (2010) Engineering a platform for photosynthetic isoprene production in cyanobacteria, using / Synechocystis as the model organism. Metab Eng 12:70鈥?9
  77. Lombard J, Moreira D (2011) Origins and early evolution of the mevalonate pathway of isoprenoid biosynthesis in the three domains of life. Mol Biol Evol 28:87鈥?9
  78. Lucker J, El Tamer MK, Schwab W, Verstappen FWA, van der Plas LHW, Bouwmeester HJ, Verhoeven HA (2002) Monoterpene biosynthesis in lemon ( / Citrus limon)鈥攃DNA isolation and functional analysis of four monoterpene synthases. Eur J Biochem 269:3160鈥?171
  79. Ludwig M, Bryant DA (2012) Acclimation of the global transcriptome of the cyanobacterium Synechococcus sp. strain PCC 7002 to nutrient limitations and different nitrogen sources. Front Microbiol 3:145
  80. Macek B, Gnad F, Soufi B, Kumar C, Olsen JV, Mijakovic I, Mann M (2008) Phosphoproteome analysis of / E. coli reveals evolutionary conservation of bacterial Ser/Thr/Tyr phosphorylation. Mol Cell Proteomics 7:299鈥?07
  81. Martin VJJ, Pitera DJ, Withers ST, Newman JD, Keasling JD (2003) Engineering a mevalonate pathway in / Escherichia coli for production of terpenoids. Nat Biotechnol 21:796鈥?02
  82. Matsushima D, Jenke-Kodama H, Sato Y, Fukunaga Y, Sumimoto K, Kuzuyama T, Matsunaga S, Okada S (2012) The single cellular green microalga / Botryococcus braunii, race B possesses three distinct 1-deoxy-D-xylulose 5-phosphate synthases. Plant Sci 185:309鈥?20
  83. McGarvey DJ, Croteau R (1995) Terpenoid metabolism. Plant Cell 7:1015鈥?026
  84. Melis A (2013) Carbon partitioning in photosynthesis. Curr Opin Chem Biol 17:453鈥?56
  85. Metzger P, Berkaloff C, Casadevall E, Cout茅 A (1985) Alkadiene-producing and botryococcene-producing races of wild strains of / Botryococcus braunii. Phytochemistry 24:2305鈥?312
  86. Mgalobilishvili MP, Khetsuriani ND, Kalandadze AN, Sanadze GA (1978) Localization of isoprene biosynthesis in poplar leaf chloroplasts. Fiziol Rast 25:1055鈥?061
  87. Misawa N, Nakagawa M, Kobayashi K, Yamano S, Izawa Y, Nakamura K, Harashima K (1990) Elucidation of the / Erwinia uredovora carotenoid biosynthetic pathway by functional analysis of gene products expressed in / Escherichia coli. J Bacteriol 172:6704鈥?712
  88. Miura Y, Kondo K, Saito T, Shimada H, Fraser PD, Misawa N (1998) Production of the carotenoid lycopene, beta-carotene, and astaxanthin in the food yeast / Candida utilis. Appl Environ Microbiol 64:1226鈥?229
  89. Miziorko HM (2011) Enzymes of the mevalonate pathway of isoprenoid biosynthesis. Arch Biochem Biophys 505:131鈥?43
  90. Mohamed A, Eriksson J, Osiewacz HD, Jansson C (1993) Differential expression of the / psbA genes in the cyanobacterium / Synechocystis 6803. Mol Gen Genet 238:161鈥?68
  91. Morrone D, Lowry L, Determan MK, Hershey DM, Xu MM, Peters RJ (2010) Increasing diterpene yield with a modular metabolic engineering system in / E. coli: comparison of MEV and MEP isoprenoid precursor pathway engineering. Appl Microbiol Biotechnol 85:1893鈥?906
  92. Okada K, Hase T (2005) Cyanobacterial non-mevalonate pathway鈥?E)-4-hydroxy-3-methylbut-2-enyl diphosphate synthase interacts with ferredoxin in / Thermosynechococcus elongatus BP-1. J Biol Chem 280:20672鈥?0679
  93. Okada S, Murakami M, Yamaguchi K (1995) Hydrocarbon composition of newly isolated strains of the green microalga / Botryococcus braunii. J Appl Phycol 7:555鈥?59
  94. Peralta-Yahya PP, Ouellet M, Chan R, Mukhopadhyay A, Keasling JD, Lee TS (2011) Identification and microbial production of a terpene-based advanced biofuel. Nat Commun 2:483
  95. Perez-Gil J, Bergua M, Boronat A, Imperial S (2010) Cloning and functional characterization of an enzyme from / Helicobacter pylori that catalyzes two steps of the methylerythritol phosphate pathway for isoprenoid biosynthesis. Biochim Biophys Acta 1800:919鈥?28
  96. Phillips MA, Walter MH, Ralph SG, Dabrowska P, Luck K, Uros EM, Boland W, Strack D, Rodriguez-Concepcion M, Bohlmann J, Gershenzon J (2007) Functional identification and differential expression of 1-deoxy-D-xylulose 5-phosphate synthase in induced terpenoid resin formation of Norway spruce ( / Picea abies). Plant Mol Biol 65:243鈥?57
  97. Poliquin K, Ershov YV, Cunningham FX, Woreta TT, Gantt RR, Gantt E (2004) Inactivation of / sll1556 in / Synechocystis strain PCC 6803 impairs isoprenoid biosynthesis from pentose phosphate cycle substrates in vitro. J Bacteriol 186:4685鈥?693
  98. Puan KJ, Wang H, Dairi T, Kuzuyama T, Morita CT (2005) / fldA is an essential gene required in the 2- / C-methyl-D-erythritol 4-phosphate pathway for isoprenoid biosynthesis. FEBS Lett 579:3802鈥?806
  99. Pulido P, Toledo-Ortiz G, Phillips MA, Wright LP, Rodr铆guez-Concepci贸n M (2013) / Arabidopsis J-protein J20 delivers the first enzyme of the plastidial isoprenoid pathway to protein quality control. Plant Cell 25:4183鈥?194
  100. Puskas JE, Gautriaud E, Deffieux A, Kennedy JP (2006) Natural rubber biosynthesis鈥攁 living carbocationic polymerization? Prog Polym Sci 31:533鈥?48
  101. Radakovits R, Jinkerson RE, Fuerstenberg SI, Tae H, Settlage RE, Boore JL, Posewitz MC (2012) Draft genome sequence and genetic transformation of the oleaginous alga / Nannochloropis gaditana. Nat Commun 3:686
  102. Rajaonarivony JIM, Gershenzon J, Croteau R (1992) Characterization and mechanism of (4 / S)-limonene synthase, a monoterpene cyclase from the glandular trichomes of peppermint ( / Mentha 脳 / piperita). Arch Biochem Biophys 296:49鈥?7
  103. Reiland S, Messerli G, Baerenfaller K, Gerrits B, Endler A, Grossmann J, Gruissem W, Baginsky S (2009) Large-scale / Arabidopsis phosphoproteome profiling reveals novel chloroplast kinase substrates and phosphorylation networks. Plant Physiol 150:889鈥?03
  104. Reinsvold RE, Jinkerson RE, Radakovits R, Posewitz MC, Basu C (2011) The production of the sesquiterpene 尾-caryophyllene in a transgenic strain of the cyanobacterium / Synechocystis. J Plant Physiol 168:848鈥?52
  105. Ro DK, Paradise EM, Ouellet M, Fisher KJ, Newman KL, Ndungu JM, Ho KA, Eachus RA, Ham TS, Kirby J, Chang MCY, Withers ST, Shiba Y, Sarpong R, Keasling JD (2006) Production of the antimalarial drug precursor artemisinic acid in engineered yeast. Nature 440:940鈥?43
  106. Rohmer M, Knani M, Simonin P, Sutter B, Sahm H (1993) Isoprenoid biosynthesis in bacteria: A novel pathway for the early steps leading to isopentenyl diphosphate. Biochem J 295:517鈥?24
  107. Rohmer M, Seemann M, Horbach S, BringerMeyer S, Sahm H (1996) Glyceraldehyde 3-phosphate and pyruvate as precursors of isoprenic units in an alternative non-mevalonate pathway for terpenoid biosynthesis. J Am Chem Soc 118:2564鈥?566
  108. Ruzicka L (1953) The isoprene rule and the biogenesis of terpenic compounds. Experientia 9:357鈥?67
  109. Sadler NC, Melnicki MR, Serres MH, et al (2013) Live cell chemical profiling of temporal redox dynamics in a photoautotrophic cyanobacterium. ACS Chem Biol. doi:10.1021/cb400769v
  110. Saitou N, Nei M (1987) The neighbor-joining method鈥攁 new method for reconstructing phylogenetic trees. Mol Biol Evol 4:406鈥?25
  111. Sanadze GA (1969) Light-dependent excretion of molecular isoprene. Prog Photosynth Res 2:701鈥?07
  112. Sanadze GA, Dzhaiani GI, Tevzadze IM (1972) Incorporating into the isoprene molecule of carbon from ¹³CO₂ assimilated during photosynthesis. Fisiol Rast 19:17鈥?0
  113. Sangari FJ, Perez-Gil J, Carretero-Paulet L, Garcia-Lobo JM, Rodriguez-Concepcion M (2010) A new family of enzymes catalyzing the first committed step of the methylerythritol 4-phosphate (MEP) pathway for isoprenoid biosynthesis in bacteria. Proc Nat Acad Sci USA 107:14081鈥?4086
  114. Sasaki K, Ohara K, Yazaki K (2005) Gene expression and characterization of isoprene synthase from / Populus alba. FEBS Lett 579:2514鈥?518
  115. Sasaki K, Saito T, Lamsa M, Oksman-Caldentey KM, Suzuki M, Ohyama K, Muranaka T, Ohara K, Yazaki K (2007) Plants utilize isoprene emission as a thermotolerance mechanism. Plant Cell Physiol 48:1254鈥?262
  116. Sauret-Gueto S, Uros EM, Ibanez E, Boronat A, Rodriguez-Concepcion M (2006) A mutant pyruvate dehydrogenase E1 subunit allows survival of / Escherichia coli strains defective in 1-deoxy-D-xylulose 5-phosphate synthase. FEBS Lett 580:736鈥?40
  117. Schnitzler JP, Zimmer I, Bachl A, Arend M, Fromm J, Fischbach RJ (2005) Biochemical properties of isoprene synthase in poplar ( / Populus 脳 / canescens). Planta 222:777鈥?86
  118. Schnitzler JP, Louis S, Behnke K, Loivamaki M (2010) Poplar volatiles鈥攂iosynthesis, regulation and (eco)physiology of isoprene and stress-induced isoprenoids. Plant Biol 12:302鈥?16
  119. Seemann M, Bui BTS, Wolff M, Miginlac-Maslow M, Rohmer M (2006) Isoprenoid biosynthesis in plant chloroplasts via the MEP pathway: direct thylakoid/ferredoxin-dependent photoreduction of GcpE/IspG. FEBS Lett 580:1547鈥?552
  120. Sharkey TD, Singsaas EL (1995) Why plants emit isoprene. Nature 374:769
  121. Sharkey TD, Yeh SS (2001) Isoprene emission from plants. Annu Rev Plant Physiol Plant Mol Biol 52:407鈥?36
  122. Sharkey TD, Wiberley AE, Donohue AR (2008) Isoprene emission from plants: why and how. Ann Bot 101:5鈥?8
  123. Shimada H, Kondo K, Fraser PD, Miura Y, Saito T, Misawa N (1998) Increased carotenoid production by the food yeast / Candida utilis through metabolic engineering of the isoprenoid pathway. Appl Environ Microbiol 64:2676鈥?680
  124. Silver GM, Fall R (1995) Characterization of aspen isoprene synthase, an enzyme responsible for leaf isoprene emission to the atmosphere. J Biol Chem 270:13010鈥?3016
  125. Singsaas EL, Lerdau M, Winter K, Sharkey TD (1997) Isoprene increases thermotolerance of isoprene-emitting species. Plant Physiol 115:1413鈥?420
  126. Tamura K, Peterson D, Peterson N, Stecher G, Nei M, Kumar S (2011) MEGA5: molecular evolutionary genetics analysis using maximum likelihood, evolutionary distance, and maximum parsimony methods. Mol Biol Evol 28:2731鈥?739
  127. Testa CA, Lherbet C, Pojer F, Noel JP, Poulter CD (2006) Cloning and expression of IspDF from / Mesorhizobium loti. Characterization of a bifunctional protein that catalyzes non-consecutive steps in the methylerythritol phosphate pathway. Biochim Biophys Acta 1764:85鈥?6
  128. Thulasiram HV, Erickson HK, Poulter CD (2007) Chimeras of two isoprenoid synthases catalyze all four coupling reactions in isoprenoid biosynthesis. Science 316:73鈥?6
  129. Tritsch D, Hemmerlin A, Bach TJ, Rohmer M (2010) Plant isoprenoid biosynthesis via the MEP pathway: in vivo IPP/DMAPP ratio produced by (E)-4-hydroxy-3-methylbut-2-enyl diphosphate reductase in tobacco BY-2 cell cultures. FEBS Lett 584:129鈥?34
  130. Tuskan GA, DiFazio S, Jansson S et al (2006) The genome of black cottonwood, / Populus trichocarpa (Torr. & Gray). Science 313:1596鈥?604
  131. Vadali RV, Fu YC, Bennett GN, San KY (2005) Enhanced lycopene productivity by manipulation of carbon flow to isopentenyl diphosphate in / Escherichia coli. Biotechnol Prog 21:1558鈥?561
  132. van Beillen JB, Poirier Y (2007) Gunyule and Russian dandelion as alternative sources of natural rubber. Crit Rev Biotechnol 27:217鈥?31
  133. Wagschal K, Savage TJ, Croteau R (1991) Isotopically sensitive branching as a tool for evaluating multiple product formation by monoterpene cyclases. Tetrahedron 47:5933鈥?944
  134. Walter MH, Hans J, Strack D (2002) Two distantly related genes encoding 1-deoxy-D-xylulose 5-phosphate synthases: differential regulation in shoots and apocarotenoid-accumulating mycorrhizal roots. Plant J 31:243鈥?54
  135. Wang CW, Oh MK, Liao JC (1999) Engineered isoprenoid pathway enhances astaxanthin production in / Escherichia coli. Biotechnol Bioeng 62:235鈥?41
  136. Wang C, Yoon SH, Jang HJ, Chung YR, Kim JY, Choi ES, Kim SW (2011) Metabolic engineering of / Escherichia coli for alpha-farnesene production. Metab Eng 13:648鈥?55
  137. Webb H, Lanfear R, Hamill J, Foley WJ, Kulheim C (2013) The yield of essential oils in / Melaleuca alternifolia (Myrtaceae) is regulated through transcript abundance of genes in the MEP pathway. PLoS ONE 8:e60631
  138. Weise SE, Li ZR, Sutter AE, Corrion A, Banerjee A, Sharkey TD (2013) Measuring dimethylallyl diphosphate available for isoprene synthesis. Anal Biochem 435:27鈥?4
  139. Whited GM, Feher FJ, Benko DA, Cervin MA, Chotani GK, McAuliffe JC, LaDuca RJ, Ben-Shoshan EA, Sanford KJ (2010) Development of a gas-phase bioprocess for isoprene-monomer production using metabolic pathway engineering. Ind Biotechnol 6:152鈥?63
  140. Wilbon PA, Chu FX, Tang CB (2013) Progress in renewable polymers from natural terpenes, terpenoids, and rosin. Macromol Rapid Commun 34:8鈥?7
  141. Williams DC, McGarvey DJ, Katahira EJ, Croteau R (1998) Truncation of limonene synthase preprotein provides a fully active 鈥楶seudomature鈥?form of this monoterpene cyclase and reveals the function of the amino-terminal arginine pair. Biochemistry 37:12213鈥?2220
  142. Work VH, D鈥橝damo S, Radakovits R, Jinkerson RE, Posewitz MC (2012) Improving photosynthesis and metabolic networks for the competitive production of phototroph-derived biofuels. Curr Opin Biotechnol 23:290鈥?97
  143. Xu Y, Alvey RM, Byrne PO, Graham JE, Shen G, Bryant DA (2011) Expression of genes in cyanobacteria: adaptation of endogenous plasmids as platforms for high level gene expression in / Synechococcus sp. PCC 7002. Methods Mol Biol 684:273鈥?93
  144. Yang JM, Nie QJ, Ren M, Feng HR, Jiang XL, Zheng YN, Liu M, Zhang HB, Xian M (2013a) Metabolic engineering of / Escherichia coli for the biosynthesis of alpha-pinene. Biotechnol Biofuels 6:60
  145. Yang MK, Qiao ZX, Zhang WY, Xiong Q, Zhang J, Li T, Ge F, Zhao JD (2013b) Global phosphoproteomic analysis reveals diverse functions of serine/threonine/tyrosine phosphorylation in the model cyanobacterium / Synechococcus sp strain PCC 7002. J Proteome Res 12:1909鈥?923
  146. Zhang C, Chen X, Zou R, Zhou K, Gregory Stephanopoulos1, Too H-P (2013) Combining genotype improvement and statistical media optimization for isoprenoid production in / E. coli. PLoS One. doi:10.1371/journal.pone.0075164
  147. Zhao LS, Chang WC, Xiao YL, Liu HW, Liu PH (2013) Methylerythritol phosphate pathway of isoprenoid biosynthesis. Annu Rev Biochem 82:497鈥?30
  148. Zhou K, Zou RY, Stephanopoulos G, Too HP (2012) Metabolite profiling identified methylerythritol cyclodiphosphate efflux as a limiting step in microbial isoprenoid production. PLoS ONE 7:e47513
  149. Zhou CF, Li ZR, Wiberley-Bradford AE, Weise SE, Sharkey TD (2013a) Isopentenyl diphosphate and dimethylallyl diphosphate/isopentenyl diphosphate ratio measured with recombinant isopentenyl diphosphate isomerase and isoprene synthase. Anal Biochem 440:130鈥?36
  150. Zhou Y, Nambou K, Wei L, Cao J, Imanaka T, Hua Q (2013b) Lycopene production in recombinant strains of / Escherichia coli is improved by knockout of the central carbon metabolism gene coding for glucose-6-phosphate dehydrogenase. Biotechnol Lett 35:2137鈥?145
  151. Zuckerkandl E, Pauling L (1965) Evolutionary divergence and convergence in proteins. Evolving Genes and Proteins Academic Press, New York
  152. Zurbriggen A, Kirst H, Melis A (2012) Isoprene production via the mevalonic acid pathway in / Escherichia coli (bacteria). Bioenergy Res 5:814鈥?28
  
• 作者单位：Fiona K. Davies (1)
  Robert E. Jinkerson (1)
  Matthew C. Posewitz (1)
  
  1. Department of Chemistry and Geochemistry, Colorado School of Mines, Golden, CO, 80401, USA
  
• 刊物类别：Biomedical and Life Sciences
• 刊物主题：Life Sciences
  Plant Physiology
  
• 出版者：Springer Netherlands
• ISSN：1573-5079

文摘

Plant terpenoids are among the most diverse group of naturally-occurring organic compounds known, and several are used in contemporary consumer products. Terpene synthase enzymes catalyze complex rearrangements of carbon skeleton precursors to yield thousands of unique chemical structures that range in size from the simplest five carbon isoprene unit to the long polymers of rubber. Such chemical diversity has established plant terpenoids as valuable commodity chemicals with applications in the pharmaceutical, neutraceutical, cosmetic, and food industries. More recently, terpenoids have received attention as a renewable alternative to petroleum-derived fuels and as the building blocks of synthetic biopolymers. However, the current plant- and petrochemical-based supplies of commodity terpenoids have major limitations. Photosynthetic microorganisms provide an opportunity to generate terpenoids in a renewable manner, employing a single consolidated host organism that is able to use solar energy, H2O and CO2 as the primary inputs for terpenoid biosynthesis. Advances in synthetic biology have seen important breakthroughs in microbial terpenoid engineering, traditionally via fermentative pathways in yeast and Escherichia coli. This review draws on the knowledge obtained from heterotrophic microbial engineering to propose strategies for the development of microbial photosynthetic platforms for industrial terpenoid production. The importance of utilizing the wealth of genetic information provided by nature to unravel the regulatory mechanisms of terpenoid biosynthesis is highlighted.