Functional validation of Capsicum frutescens aminotransferase gene involved in vanillylamine biosynthesis using Agrobacterium mediated genetic transformation studies in Nicotiana tabacum and Capsicum frutescens calli cultures.

[1]  K. Kobata,et al.  Studies on the metabolism and toxicology of emerging capsinoids , 2011, Expert opinion on drug metabolism & toxicology.

[2]  F. Vázquez-Flota,et al.  Phospholipidic signaling and vanillin production in response to salicylic acid and methyl jasmonate in Capsicum chinense J. cells. , 2011, Plant physiology and biochemistry : PPB.

[3]  E. González-Mondragón,et al.  Chemical and Pharmacological Aspects of Capsaicin , 2011, Molecules.

[4]  N. Ochoa-Alejo,et al.  Molecular biology of capsaicinoid biosynthesis in chili pepper (Capsicum spp.) , 2011, Plant Cell Reports.

[5]  Yoshiyuki Tanaka,et al.  Novel loss-of-function putative aminotransferase alleles cause biosynthesis of capsinoids, nonpungent capsaicinoid analogues, in mildly pungent chili peppers (Capsicum chinense). , 2010, Journal of agricultural and food chemistry.

[6]  M. Setou,et al.  Visualization of spatial distribution of gamma-aminobutyric acid in eggplant (Solanum melongena) by matrix-assisted laser desorption/ionization imaging mass spectrometry. , 2010, Analytical sciences : the international journal of the Japan Society for Analytical Chemistry.

[7]  P. Desai,et al.  Production of heterologous proteins in plants: strategies for optimal expression. , 2010, Biotechnology advances.

[8]  Yoshiyuki Tanaka,et al.  Newly mutated putative-aminotransferase in nonpungent pepper (Capsicum annuum) results in biosynthesis of capsinoids, capsaicinoid analogues. , 2010, Journal of agricultural and food chemistry.

[9]  S. Kachhwaha,et al.  Chilli peppers--a review on tissue culture and transgenesis. , 2010, Biotechnology advances.

[10]  A. Saba,et al.  Capsaicin: a novel chemopreventive molecule and its underlying molecular mechanisms of action. , 2010, Indian journal of cancer.

[11]  Yoshiyuki Tanaka,et al.  Functional loss of pAMT results in biosynthesis of capsinoids, capsaicinoid analogs, in Capsicum annuum cv. CH-19 Sweet. , 2009, The Plant journal : for cell and molecular biology.

[12]  L. Mueller,et al.  A Dynamic Interface for Capsaicinoid Systems Biology1[C][W][OA] , 2009, Plant Physiology.

[13]  Jürgen Breitenbach,et al.  Transgenic multivitamin corn through biofortification of endosperm with three vitamins representing three distinct metabolic pathways , 2009, Proceedings of the National Academy of Sciences.

[14]  A. Nebenführ,et al.  The FAST technique: a simplified Agrobacterium-based transformation method for transient gene expression analysis in seedlings of Arabidopsis and other plant species , 2009, Plant Methods.

[15]  D. Shibata,et al.  Biochemical mechanism on GABA accumulation during fruit development in tomato. , 2008, Plant & cell physiology.

[16]  Yoko Iijima,et al.  Screening for γ-aminobutyric Acid (GABA)-rich Tomato Varieties , 2008 .

[17]  R. Mullen,et al.  Identification and characterization of a plastid-localized Arabidopsis glyoxylate reductase isoform: comparison with a cytosolic isoform and implications for cellular redox homeostasis and aldehyde detoxification , 2008, Journal of experimental botany.

[18]  G. Yè,et al.  A Built-In Strategy for Containment of Transgenic Plants: Creation of Selectively Terminable Transgenic Rice , 2008, PloS one.

[19]  Mercedes G. López,et al.  Virus-induced silencing of Comt, pAmt and Kas genes results in a reduction of capsaicinoid accumulation in chili pepper fruits , 2008, Planta.

[20]  M. Roberts Does GABA Act as a Signal in Plants? Hints from Molecular Studies , 2007, Plant signaling & behavior.

[21]  M. Mazourek,et al.  Genetic control of pungency in C. chinense via the Pun1 locus. , 2007, Journal of experimental botany.

[22]  Chul-Sa Kim,et al.  Nitrogenous Ovipositional Deterrents in the Leaves of Sweet Pepper (Capsicum annuum) at the Mature Stage against the Leafminer, Liriomyza trifolii (Burgess) , 2007, Bioscience, biotechnology, and biochemistry.

[23]  D. Faure,et al.  Extracellular γ-Aminobutyrate Mediates Communication between Plants and Other Organisms1 , 2006, Plant Physiology.

[24]  Y. Bahk,et al.  A differentially expressed proteomic analysis in placental tissues in relation to pungency during the pepper fruit development , 2006, Proteomics.

[25]  Vinod Kumar,et al.  Valine pathway is more crucial than phenyl propanoid pathway in regulating capsaicin biosynthesis in Capsicum frutescens mill. , 2006, Journal of agricultural and food chemistry.

[26]  P. Beyer,et al.  Metabolic engineering of potato tuber carotenoids through tuber-specific silencing of lycopene epsilon cyclase , 2006, BMC Plant Biology.

[27]  K. Kobata,et al.  Capsinoid Is Biosynthesized from Phenylalanine and Valine in a Non-Pungent Pepper, Capsicum annuum L. cv. CH-19 Sweet , 2006, Bioscience, biotechnology, and biochemistry.

[28]  Vinod Kumar,et al.  Influence of 8-methyl-nonenoic acid on capsaicin biosynthesis in in-vivo and in-vitro cell cultures of Capsicum spp. , 2006, Journal of agricultural and food chemistry.

[29]  A. D. Leonardis,et al.  A first pilot study to produce a food antioxidant from sunflower seed shells (Helianthus annuus) , 2005 .

[30]  Kede Liu,et al.  The Pun1 gene for pungency in pepper encodes a putative acyltransferase. , 2005, The Plant journal : for cell and molecular biology.

[31]  H. Jung,et al.  Biotransformation and impact of ferulic acid on phenylpropanoid and capsaicin levels in Capsicum annuum L. cv. P1482 cell suspension cultures. , 2005, Journal of agricultural and food chemistry.

[32]  Gokare A. Ravishankar,et al.  Methyl jasmonate modulated biotransformation of phenylpropanoids to vanillin related metabolites using Capsicum frutescens root cultures. , 2005, Plant physiology and biochemistry : PPB.

[33]  Gokare A. Ravishankar,et al.  Capsaicin , 2005 .

[34]  C. Ritzenthaler,et al.  Silencing of Hydroxycinnamoyl-Coenzyme A Shikimate/Quinate Hydroxycinnamoyltransferase Affects Phenylpropanoid Biosynthesis , 2004, The Plant Cell Online.

[35]  D. Preuss,et al.  Pollen Tube Growth and Guidance Is Regulated by POP2, an Arabidopsis Gene that Controls GABA Levels , 2003, Cell.

[36]  M. Aluru,et al.  Differential expression of fatty acid synthase genes, Acl, Fat and Kas, in Capsicum fruit. , 2003, Journal of experimental botany.

[37]  A. Minassi,et al.  Non-pungent capsaicinoids from sweet pepper , 2003, European journal of nutrition.

[38]  M. Kim,et al.  Isolation of cDNA clones differentially accumulated in the placenta of pungent pepper by suppression subtractive hybridization. , 2001, Molecules and cells.

[39]  N. Ochoa-Alejo,et al.  In vitro chili pepper biotechnology , 2001, In Vitro Cellular & Developmental Biology - Plant.

[40]  S. Rao,et al.  Biotransformation of isoeugenol to vanilla flavour metabolites and capsaicin in suspended and immobilized cell cultures of Capsicum frutescens: study of the influence of β-cyclodextrin and fungal elicitor , 1999 .

[41]  M. Aluru,et al.  Transcripts for possible capsaicinoid biosynthetic genes are differentially accumulated in pungent and non-pungent Capsicum spp , 1999 .

[42]  K. Livingstone,et al.  Genome mapping in capsicum and the evolution of genome structure in the solanaceae. , 1999, Genetics.

[43]  A. Boudet,et al.  Impact of different levels of cinnamyl alcohol dehydrogenase down-regulation on lignins of transgenic tobacco plants , 1997, Planta.

[44]  D. M. Reid,et al.  [gamma]-Aminobutyric Acid Stimulates Ethylene Biosynthesis in Sunflower , 1997, Plant physiology.

[45]  A. Cornu,et al.  Cell Wall Degradability of Transgenic Tobacco Stems in Relation to Their Chemical Extraction and Lignin Quality , 1996 .

[46]  Donghern Kim Handbook of Molecular and Cellular Methods in Biology and Medicine , 1995 .

[47]  P. Hasegawa,et al.  Abscisic Acid Stimulated Osmotic Adjustment and Its Involvement in Adaptation of Tobacco Cells to NaCl. , 1987, Plant physiology.

[48]  V. Govindarajan Capsicum--production, technology, chemistry, and quality--Part II. Processed products, standards, world production and trade. , 1986, Critical reviews in food science and nutrition.

[49]  G. Church,et al.  Genomic sequencing. , 1993, Methods in molecular biology.

[50]  K. Iwai,et al.  Intracellular Distributions of Enzymes and Intermediates Involved in Biosynthesis of Capsaicin and Its Analogues in Capsicum Fruits , 1982 .

[51]  T. Kawada,et al.  The Precursors Affecting the Composition of Capsaicin and Its Analogues in the Fruits of Capsicum annuum var. annuum cv. Karayatsubusa , 1981 .

[52]  E. Leete,et al.  Biosynthesis of capsaicin and dihydrocapsaicin in Capsicum frutescens. , 1968, Journal of the American Chemical Society.

[53]  D. J. Bennett,et al.  Constitution and biosynthesis of capsaicin , 1968 .

[54]  F. Skoog,et al.  A revised medium for rapid growth and bio assays with tobacco tissue cultures , 1962 .

[55]  O. H. Lowry,et al.  Protein measurement with the Folin phenol reagent. , 1951, The Journal of biological chemistry.