Literature DB >> 9880358

An in vitro system from maize seedlings for tryptophan-independent indole-3-acetic acid biosynthesis

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Abstract

The enzymatic synthesis of indole-3-acetic acid (IAA) from indole by an in vitro preparation from maize (Zea mays L.) that does not use tryptophan (Trp) as an intermediate is described. Light-grown seedlings of normal maize and the maize mutant orange pericarp were shown to contain the necessary enzymes to convert [14C]indole to IAA. The reaction was not inhibited by unlabeled Trp and neither [14C]Trp nor [14C]serine substituted for [14C]indole in this in vitro system. The reaction had a pH optimum greater than 8.0, required a reducing environment, and had an oxidation potential near that of ascorbate. The results obtained with this in vitro enzyme preparation provide strong, additional evidence for the presence of a Trp-independent IAA biosynthesis pathway in plants.

Entities:  

Year:  1999        PMID: 9880358      PMCID: PMC32217          DOI: 10.1104/pp.119.1.173

Source DB:  PubMed          Journal:  Plant Physiol        ISSN: 0032-0889            Impact factor:   8.340


  15 in total

1.  The maize auxotrophic mutant orange pericarp is defective in duplicate genes for tryptophan synthase beta.

Authors:  A D Wright; C A Moehlenkamp; G H Perrot; M G Neuffer; K C Cone
Journal:  Plant Cell       Date:  1992-06       Impact factor: 11.277

2.  AN INDOLE OXIDASE ISOLATED FROM THE LEAVES OF TECOMA STANS.

Authors:  P M NAIR; C S VAIDYANATHAN
Journal:  Biochim Biophys Acta       Date:  1964-03-09

3.  Preparation of extracts from plants.

Authors:  P Gegenheimer
Journal:  Methods Enzymol       Date:  1990       Impact factor: 1.600

4.  Stable Isotope Labeling, in Vivo, of d- and l-Tryptophan Pools in Lemna gibba and the Low Incorporation of Label into Indole-3-Acetic Acid.

Authors:  B G Baldi; B R Maher; J P Slovin; J D Cohen
Journal:  Plant Physiol       Date:  1991-04       Impact factor: 8.340

5.  Analysis of Indole-3-acetic Acid Metabolism in Zea mays Using Deuterium Oxide as a Tracer.

Authors:  W L Pengelly; R S Bandurski
Journal:  Plant Physiol       Date:  1983-10       Impact factor: 8.340

6.  An in Vitro System of Indole-3-Acetic Acid Formation from Tryptophan in Maize (Zea mays) Coleoptile Extracts.

Authors:  T. Koshiba; H. Matsuyama
Journal:  Plant Physiol       Date:  1993-08       Impact factor: 8.340

7.  Metabolism and Synthesis of Indole-3-Acetic Acid (IAA) in Zea mays (Levels of IAA during Kernel Development and the Use of in Vitro Endosperm Systems for Studying IAA Biosynthesis).

Authors:  P. J. Jensen; R. S. Bandurski
Journal:  Plant Physiol       Date:  1994-09       Impact factor: 8.340

8.  AUXIN BIOSYNTHESIS.

Authors:  Bonnie Bartel
Journal:  Annu Rev Plant Physiol Plant Mol Biol       Date:  1997-06

9.  The van urk-Salkowski reagent--a sensitive and specific chromogenic reagent for silica gel thin-layer chromatographic detection and identification of indole derivatives.

Authors:  A Ehmann
Journal:  J Chromatogr       Date:  1977-02-11

10.  Indole-3-Acetic Acid Biosynthesis in the Mutant Maize orange pericarp, a Tryptophan Auxotroph.

Authors:  A D Wright; M B Sampson; M G Neuffer; L Michalczuk; J P Slovin; J D Cohen
Journal:  Science       Date:  1991-11-15       Impact factor: 47.728
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  13 in total

Review 1.  Channelling auxin action: modulation of ion transport by indole-3-acetic acid.

Authors:  Dirk Becker; Rainer Hedrich
Journal:  Plant Mol Biol       Date:  2002 Jun-Jul       Impact factor: 4.076

Review 2.  Biosynthesis, conjugation, catabolism and homeostasis of indole-3-acetic acid in Arabidopsis thaliana.

Authors:  Karin Ljung; Anna K Hull; Mariusz Kowalczyk; Alan Marchant; John Celenza; Jerry D Cohen; Göran Sandberg
Journal:  Plant Mol Biol       Date:  2002 Jun-Jul       Impact factor: 4.076

Review 3.  Biosynthesis, conjugation, catabolism and homeostasis of indole-3-acetic acid in Arabidopsis thaliana.

Authors:  Karin Ljun; Anna K Hul; Mariusz Kowalczyk; Alan Marchant; John Celenza; Jerry D Cohen; Göran Sandberg
Journal:  Plant Mol Biol       Date:  2002-09       Impact factor: 4.076

Review 4.  Auxin dynamics: the dazzling complexity of a small molecule's message.

Authors:  Carolin Delker; Anja Raschke; Marcel Quint
Journal:  Planta       Date:  2008-02-26       Impact factor: 4.116

5.  Tryptophan-dependent auxin biosynthesis is required for HD-ZIP III-mediated xylem patterning.

Authors:  Robertas Ursache; Shunsuke Miyashima; Qingguo Chen; Anne Vatén; Keiji Nakajima; Annelie Carlsbecker; Yunde Zhao; Ykä Helariutta; Jan Dettmer
Journal:  Development       Date:  2014-03       Impact factor: 6.868

6.  The Arabidopsis YUCCA1 flavin monooxygenase functions in the indole-3-pyruvic acid branch of auxin biosynthesis.

Authors:  Anna N Stepanova; Jeonga Yun; Linda M Robles; Ondrej Novak; Wenrong He; Hongwei Guo; Karin Ljung; Jose M Alonso
Journal:  Plant Cell       Date:  2011-11-22       Impact factor: 11.277

7.  Auxin biosynthesis in maize kernels.

Authors:  E Glawischnig; A Tomas; W Eisenreich; P Spiteller; A Bacher; A Gierl
Journal:  Plant Physiol       Date:  2000-07       Impact factor: 8.340

8.  Indole-3-acetic acid metabolism in Lemna gibba undergoes dynamic changes in response to growth temperature.

Authors:  Francesca Rapparini; Yuen Yee Tam; Jerry D Cohen; Janet P Slovin
Journal:  Plant Physiol       Date:  2002-04       Impact factor: 8.340

9.  The Nitrilase ZmNIT2 converts indole-3-acetonitrile to indole-3-acetic acid.

Authors:  Woong June Park; Verena Kriechbaumer; Axel Möller; Markus Piotrowski; Robert B Meeley; Alfons Gierl; Erich Glawischnig
Journal:  Plant Physiol       Date:  2003-09-04       Impact factor: 8.340

10.  Constitutively wilted 1, a member of the rice YUCCA gene family, is required for maintaining water homeostasis and an appropriate root to shoot ratio.

Authors:  Young-Min Woo; Hee-Jin Park; Mukhamad Su'udi; Jung-Il Yang; Jong-Jin Park; Kyoungwhan Back; Yong-Mok Park; Gynheung An
Journal:  Plant Mol Biol       Date:  2007-07-06       Impact factor: 4.076
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