<\/p>\n
Wu, C.; Chartrand, E.; Nikookar, H.; Zaks, J.; Zeng, M.F.; Bell, S.; Zheng, M.; Kamal, S.; Jetter<\/strong> R.; Rogak, S.N.; Bertram, A.K. (2025) Viscosity variability from smoldering Eucalyptus smoke: From high viscosity tar balls to low viscosity organic aerosol. ACS ES&T Air<\/em>, Article ASAP DOI: 10.1021\/acsestair.5c00271<\/p>\n Tiloca, G.; Neuner, G.; Jetter<\/strong>, R.; Gierlinger, N. (2025) Raman micro-spectroscopy uncovers complex structural and chemical adaptations of alpine azalea leaf surface. Microchemical Journal <\/em>213, 113690.<\/p>\n Fleetwood, S.K.; Bell<\/u>, S.; Jetter<\/strong>, R.; Foster, E.J. (2024) Water-repellent spray for textiles using plant waste from conifer trees. ACS Appl. Eng. Materials<\/em> 2, 1288-1297.<\/p>\n Zhang<\/u>, Z.; Mistry<\/u>, D.; Jetter<\/strong>, R. (2024) Micromorphological and chemical characterization of Drimys winteri <\/em>leaf surfaces: The secondary alcohols forming epicuticular wax crystals are accompanied by alkanediol, alkanetriol and ketol derivatives. Plant and Cell Physiology <\/em>65, 1245-1260.<\/p>\n Zhang<\/u>, Z.; Gozdzik<\/u>, J.; Jetter,<\/strong> R. (2024) Characterization of the closely related Arabidopsis thaliana <\/em>\u03b2-ketoacyl-CoA synthases KCS3, KCS12 and KCS19. The Plant Journal <\/em>119, 490-507.<\/p>\n Chomicki, G.; Busta<\/u>, L.; Gozdzik<\/u>, J.; Jetter<\/strong>, R.; Mortimer, B.; Bauer, U. (2024) Convergence in carnivorous pitcher plants reveals mechanism for composite trait evolution. Science <\/em>383, 108-113. [Cover Image].<\/p>\n Wu, D.; Tian, H.; Xu, F.; Yang, J.; Feng, W.; Bell<\/u>, S.; Gozdzik<\/u>, J.; Gao, F.; Jetter<\/strong>, R.; Zhang, Y. (2023) The prodomain of Arabidopsis <\/em>Metacaspase 2 positively regulates immune signaling mediated by pattern recognition receptors. New Phytologist <\/em>241, <\/em>430-443.<\/p>\n Sun<\/u>, Y.; Ruiz Orduna<\/u>, A.; Zhang<\/u>, Z.; Feakins, S.J.; Jetter<\/strong>, R. (2023) Biosynthesis of barley wax \u03b2-diketones: a type-III polyketide synthase condensing two fatty acyl units. Nature Communications <\/em>14, 7283.<\/p>\n Fleetwood, S.K.; Bell<\/u>, S.; Jetter<\/strong>, R.; Foster, E.J. (2023) Plant-based, aqueous, water-repellent sprays for coating textiles. Soft Matter<\/em> 19: 7020-7032.<\/p>\n Gozdzik<\/u>, J.; Busta<\/u>, L.; Jetter<\/strong>, R. (2023) Leaf cuticular waxes of wild-type Welsh onion (Allium fistulosum<\/em> L.) and a wax-deficient mutant: Compounds with terminal and mid-chain functionalities. Plant Physiology and Biochemistry <\/em>198, 107679.<\/p>\n \u00a0<\/em>Yang, J; Busta<\/u>, L.; Jetter<\/strong>, R.; Sun, Y.; Wang, T.; Zhang, W.; Ni, Y.; Guo, Y. (2023) Diversified chemical profiles of cuticular wax on alpine meadow plants of the Qinghai-Tibet plateau. Planta <\/em>257, 74.<\/p>\n Zhang, X.; Xu, D.; Busta<\/span>, L.; Xiao, Y.; Li, Y.; Yao, L.; Huang, L.; Xiao, Q.; Jetter<\/strong>, R.; Ni, Y.; Guo, Y. (2021) Integrative analysis of the cuticular lipidome and transcriptome of Sorghum bicolor <\/em>reveals cultivar differences in drought tolerance. Plant Physiology and Biochemistry<\/em> 163, 285-295.<\/p>\n Sun<\/u>, Y.; Hegebarth<\/u>, D.; Jetter<\/strong>, R. (2021) Acyl-CoA desaturase ADS4.2 is involved in formation of characteristic wax alkenes in young Arabidopsis leaves. Plant Physiology<\/em> 186, 1812-1831.<\/p>\n Wang, Y.; Xu, J.; He, Z.; Hu, N.; Luo, W.; Liu, X.; Shi, X.; Liu, T.; Jiang, Q.; An, P.; Liu, L.; Sun<\/u>, Y.; Jetter<\/strong>, R.; Li, C.; Wang, Z. (2021) BdFAR4, a root-specific fatty acyl-coenzyme A reductase, is involved in fatty alcohol synthesis of root suberin polyester in Brachypodium distachyon. The Plant Journal<\/em> 106, 1468-1483.<\/p>\n Liu, Y.; Sun, T.; Sun<\/u>, Y.; Zhang, Y.; Radoji\u010di\u0107, A.; Ding, Y.; Tian, H.: Huang, X.; Lan, J.; Chen, S.; Ruiz Orduna<\/u>, A.; Zhang, K.; Jetter<\/strong>, R.; Li, X.; Zhang, Y. (2020) Diverse roles of the salicylic acid receptors NPR1 and NPR3\/NPR4 in plant immunity. Plant Cell<\/em> 32, 4002-4016.<\/p>\n Yuan, Z.; Jiang, Y.; Liu, Y.; Xu, Y.; Li, S.; Guo<\/u>, Y.; Jetter<\/strong>, R.; Ni, Y. (2020) Exogenous hormones influence Brassica napus<\/em> leaf cuticular wax deposition and cuticle function. Peer Journal<\/em> 8, 9264.<\/p>\n Busta<\/u>, L.; Serra, O.; Kim<\/u>, O.-T.; Molinas, M.; Per\u00e9-Fossoul, I.; Figueras, M.; Jetter<\/strong>, R. (2020) Oxidosqualene cyclases involved in the biosynthesis of triterpenoids in Quercus suber<\/em> cork. Scientific Reports<\/em> 10, 8011.<\/p>\n Sun<\/u>, Y.; Yao<\/u>, R.; Ji<\/u>, X.; Wu, H.; Luna<\/u>, A.; Wang, Z.; Jetter<\/strong>, R. (2020) Characterization of an alkylresorcinol synthase that forms phenolics accumulating in the cuticular wax on various organs of rye (Secale cereale<\/em>). The Plant Journal<\/em> 102, 1294-1312.<\/p>\n Diretto, G.; Frusciante, S.; Fabbri, C.; Schauer, N.; Busta<\/u>, L.; Wang<\/u>, Z.; Matas, A.J.; Fiore, A.; Rose, J.K.C.; Fernie, A.R.; Jetter<\/strong>, R.; Mattei, B.; Giovannoni, J.; Giuliano, G. (2020) Manipulation of \u03b2-carotene levels in tomato fruits results in increased ABA content and extended shelf life. Plant Biotechnology Journal<\/em> 18, 1185\u20131199.<\/p>\n Sun, T.; Huang, J.; Xu, Y.; Verma, V.; Jing, B.; Sun<\/u>, Y.; Ruiz Orduna<\/u>, A.; Tian, H.; Huang, X.; Xia, S.; Schafer, L.; Jetter<\/strong>, R.; Zhang, Y.; Li, X. (2020) Redundant CAMTA transcription factors negatively regulate the biosynthesis of salicylic acid and N-hydroxypipecolic acid by modulating the expression of SARD1<\/em> and CBP60g. Molecular Plant<\/em> 13, 144-156.<\/p>\n Li, T.; Sun<\/u>, Y.; Liu, T.; Wu, H.; An. P.; Shui, Z.; Wang, J.; Zhu, Y.; Li, C.; Wang, Y.; Jetter<\/strong>, R.; Wang, Z. (2019) TaCER1<\/em>\u2010<\/em>1A<\/em> is involved in cuticular wax alkane biosynthesis in hexaploid wheat and responds to plant abiotic stresses. Plant Cell and Environment<\/em> 42, 3077-3091.<\/p>\n \u00a0<\/em>Zhao, X.; Huang, L.; Kang, L.; Jetter<\/strong>, R.; Yao, L.; Li, Y.; Xiao, Y.; Wang, D.; Xiao, Q.; Ni, Y.; Guo, Y. (2019) Comparative analyses of cuticular waxes on various organs of faba bean (Vicia faba <\/em>L.). Plant Physiology and Biochemistry<\/em> 139, 102-112.<\/p>\n Huang, J.; Sun<\/u>, Y.; Ruiz Orduna<\/u>, A.; Jetter<\/strong>, R.; Li, X. (2019) The Mediator kinase module is required for salicylic acid accumulation and systemic acquired resistance in Arabidopsis. The Plant Journal <\/em>98, 842-852.<\/em><\/p>\n Chen, R.; Wan, Y.; Wu, W.; Yang, C.; He, J.-H.; Cheng, J.; Jetter<\/strong>, R.; Ko, F.K.; Chen, Y. (2019) A lotus effect-inspired flexible and breathable membrane with hierarchical electrospinning micro\/nanofibers and ZnO nanowires. Materials and Design<\/em> 162, 246-248.<\/p>\n Guo, Y.; Li, J.J.<\/u>; Busta, L.<\/u>; Jetter<\/strong>, R. (2018) Coverage and composition of cuticular waxes on the fronds of the temperate ferns Pteridium aquilinum, Cryptogramma crispa<\/em>, Polypodium glycyrrhiza, Polystichum munitum <\/em>and Gymnocarpium dryopteris. Annals of Botany<\/em> 122, 555-568.<\/p>\n Kim, O.T.; Um, Y.; Jin, M.L.; Kim, J.U.; Hegebarth, D.; Busta, L.; Racovita, R.C.<\/u>; Jetter<\/strong>, R. (2018) Transcriptomic analysis of methyl jasmonate-elicited Centella asiatica<\/em> leaves and characterization of multifunctional C-23 and C-28 oxidases involved in centelloside biosynthesis. Plant Cell Physiology<\/em> 59, 1200-1213.<\/p>\n Wang, Y.; Sun, Y.<\/u>; You, Q.; Luo, W.; Wang, C.; Zhao, S.; Chai, G.; Li, T.; Shi, X.; Li, C.; Jetter<\/strong>, R.; Wang, Z. (2018) Three fatty acyl-Coenzyme A reductases, BdFAR1, BdFAR2 and BdFAR3, are involved in cuticular wax primary alcohol biosynthesis in Brachypodium distachyon<\/em>. Plant Cell Physiology<\/em> 59, 527-543.<\/p>\n Kim, O.T.; Jin, M.L.; Lee, D.Y.; Jetter<\/strong>, R. (2017) Characterization of the asiatic acid glucosyltransferase, UGT73AH1, involved in asiaticoside biosynthesis in Centella asiatica<\/em> (L.) Urban. Int. J. Mol. Sci. <\/em>18, 2630\/doi:10.3390\/ijms18122630<\/p>\n Busta, L.<\/u>; Jetter<\/strong>, R. (2017) Moving beyond the ubiquitous: the diversity and biosynthesis of specialty compounds in plant cuticular waxes. Phytochemistry Reviews<\/em> 17, 1275-1304.<\/p>\n Sun, T.; Busta, L.<\/u>; Ding, P., Jetter<\/strong>,, <\/sup>R.; Zhang, Y. (2018) TGACG\u2010BINDING FACTOR 1 (TGA1) and TGA4 regulate salicylic acid and pipecolic acid biosynthesis by modulating the expression of SYSTEMIC ACQUIRED RESISTANCE DEFICIENT 1<\/em> (SARD1<\/em>) and CALMODULIN<\/em>\u2010<\/em>BINDING PROTEIN 60g<\/em> (CBP60g<\/em>). New Phytologist<\/em> 217, 344-354.<\/p>\n Hegebarth, D.<\/u>; Jetter<\/strong>, R. (2017) Cuticular waxes of Arabidopsis thaliana<\/em> shoots: cell-type-specific composition and biosynthesis. PLANTS <\/em>doi:10.3390\/plants6030027.<\/p>\n Guo, Y.; Jetter<\/strong>, R. (2017) Comparative analyses of cuticular waxes on various organs of potato (Solanum tuberosum<\/em> L.). J. Agricultural and Food Chemistry<\/em> 65, 3926-3933.<\/p>\n Hegebarth, D.<\/u>; Buschhaus, C.<\/u>; Joubes, J.; Thoraval, D.; Bird, D.; Jetter<\/strong>, R. (2017) Arabidopsis ketoacyl-CoA synthase 16 forms C36<\/sub>\/C38<\/sub> acyl precursors for leaf trichome and pavement surface wax. Plant Cell and Environment<\/em> 40, 1761-1776.<\/p>\n Jung, S.J.; Kim, Y.C.; Um, Y.; Jin, M.L.; Jetter<\/strong>, R.; Kim, O.T. (2017) Fusion of ginseng farnesyl diphosphate synthase and the Centella<\/em> asiatica<\/em> squalene synthase involved in triterpenoid biosynthesis. Current Science<\/em> 113, 785-790.<\/p>\n Busta, L.<\/u>; Jetter<\/strong>, R. (2017) Structure and biosynthesis of branched wax compounds on wild type and wax biosynthesis mutants of Arabidopsis thaliana<\/em>. Plant Cell Physiology<\/em> 58, 1059-1074.<\/p>\n Guo, Y.; Busta, L.<\/u>; Jetter<\/strong>, R. (2017) Cuticular wax coverage and composition differ among organs of Taraxacum officinale<\/em>. Plant Physiology and Biochemistry 115<\/em>, 372-379.<\/p>\n Busta, L.<\/u>; Hegebarth, D.<\/u>; Kroc, E.; Jetter<\/strong>, R. (2017) Changes in cuticular wax coverage and composition on developing Arabidopsis leaves are influenced by wax biosynthesis gene expression levels and trichome density. Planta<\/em> 245: 297-311.<\/p>\n Racovita, R.C.<\/u>; Jetter<\/strong>, R. (2016) Identification of in-chain-functionalized compounds and methyl-branched alkanes in cuticular waxes of Triticum aestivum<\/em> cv. Bethlehem. PLoS One<\/em>, 11(11): e0165827.<\/p>\n Racovita, R.C.<\/u>; Jetter<\/strong>, R. (2016) Identification of polyketides in the cuticular waxes of Triticum aestivum <\/em>cv. Bethlehem. Lipids <\/em>51:1407\u20131420.<\/p>\n Ding, P.; Rekhter, D.; Ding, Y.; Feussner, K.; Busta, L.<\/u>; Haroth, S.; Xu, S.; Li, X.; Jetter<\/strong>, R.; Feussner, I.; Zhang, Y. (2016) Systemic Acquired Resistance Deficient 4 encodes a key enzymefor pipecolic acid biosynthesis. Plant Cell <\/em>28: 2603-2615.<\/p>\n Hegebarth, D.<\/u>; Buschhaus, C.<\/u>; Wu, M.<\/u>; Bird, D.; Jetter<\/strong>, R. (2016) The composition of surface wax on trichomes of Arabidopsis thaliana<\/em> differs from wax on other epidermal cells. The Plant Journal<\/em> 88, 762-774.<\/p>\n Wigzell, J.M.; Racovita, R.C.<\/u>; Stentiford, B.G.; Wilson, M.; Harris, M.T.; Fletcher, I.W.; Mosquin, D.P.K.; Justice, D.; Beaumont, S.K.; Jetter<\/strong>, R.; Badyal, J.P.S. (2016) Smart water channelling through dual wettability by leaves of the bamboo Phyllostachys aurea<\/em>. Colloids and Surfaces A: Physicochemical and Engineering Aspects<\/em> 506, 344-355.<\/p>\n Racovita, R.<\/u>; Jetter<\/strong>, R. (2016) Composition of the epicuticular waxes coating the adaxial side of Phyllostachys<\/em> aurea <\/em>leaves: Identification of very-long-chain primary amides. Phytochemistry <\/em>130, 252-261.<\/p>\n Sorigu\u00e9, D.; L\u00e9geret, B.; Cuin\u00e9, S.; Morales, P.; Mirabella, B.; Gu\u00e9deney, G.; Li-Beisson, Y.; Jetter<\/strong>, R.; Peltier, G.; Beisson, F. (2016) Microalgae synthesize hydrocarbons from long-chain fatty acids via a light-dependent pathway. Plant Physiology <\/em>171, 2393-2405.<\/p>\n Hen-Avivi, S.; Savin, O.; Racovita, R.C.<\/u>; Lee, W.-S.; Adamski, N.; Malitsky, S.; Almekias-Siegl, E.; Levy, M.; Vautrin, S.; Berg\u00e8s, H.; Friedlander, G.; Kartvelishvily, E.; Ben-Zvi, G.; Alkan, N.; Uauy, C.; Kanyuka, K.; Jetter<\/strong>, R.; Distelfeld, A.; Aharoni, A. (2016) A metabolic gene cluster in the wheat w1 <\/em>and the barley cer-cqu <\/em>loci determines \u03b2<\/em>-diketone biosynthesis and glaucousness. Plant Cell <\/em>28, 1440-1460.<\/p>\n Busta, L.<\/u>; Budke, J.M.; Jetter<\/strong>, R. (2016) The moss Funaria hygrometrica<\/em> has cuticular wax similar to vascular plants, with distinct composition on leafy gametophyte, calyptra, and sporophyte capsule surfaces. Annals of Botany <\/em>118, 511-522.<\/p>\n Racovita, R.C.<\/u>; Hen-Avivi, S.; Fernandez-Moreno, J.-P.; Granell, A.; Aharoni, A.; Jetter<\/strong>, R. (2016) Composition of cuticular waxes coating flag leaf blades and peduncles of Triticum aestivum <\/em>cv. Bethlehem. Phytochemistry <\/em>130, 182-192.<\/p>\n Wang, M.; Wang, Y.; Li, T.; Wu, H.; Xu, J.; Hegebarth<\/u>, D.<\/u>; Jetter<\/strong>, R.; Wang, Z. (2016) Three wheat fatty acyl-coenzyme A reductases, TaFAR2, TaFAR3 and TaFAR4, are involved in the biosynthesis of primary alcohols. Scientific Reports <\/em>6, 25008.<\/p>\n