Literature DB >> 7844115

Ascorbate and plant cell growth.

F Córdoba1, J A González-Reyes.   

Abstract

Ascorbate and related enzymes are involved in the control of several plant growth processes. Ascorbate modulates cell growth by controlling (i) the biosynthesis of hydroxyproline-rich proteins required for the progression of G1 and G2 phases of the cell cycle, (ii) the cross-linking of cell wall glycoproteins and other polymers, and (iii) redox reactions at the plasma membrane involved in elongation mechanisms. The effect of ascorbate on onion root elongation is reviewed here. The ascorbate free radical induces a high vacuolization responsible for elongation. This effect may be dependent on the activity of the redox system linked to the plasma membrane. Current data are discussed on the basis of the modulation of the plasma membrane energetic state derived from the ascorbate-induced hyperpolarization and the activity of an intrinsic transplasmalemma ascorbate-regenerating enzyme.

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Year:  1994        PMID: 7844115     DOI: 10.1007/bf00762781

Source DB:  PubMed          Journal:  J Bioenerg Biomembr        ISSN: 0145-479X            Impact factor:   2.945


  29 in total

1.  Transmembrane electron transport in ascorbate-loaded plasma membrane vesicles from higher plants involves a b-type cytochrome.

Authors:  H Asard; N Horemans; R J Caubergs
Journal:  FEBS Lett       Date:  1992-07-20       Impact factor: 4.124

2.  Ascorbic acid requirement for biosynthesis of hydroxyproline-containing proteins in plants.

Authors:  O Arrigoni; R Arrigoni-Liso; G Calabrese
Journal:  FEBS Lett       Date:  1977-10-01       Impact factor: 4.124

3.  Insolubilization of hydroxyproline-rich cell wall glycoprotein in aerated carrot root slices.

Authors:  J B Cooper; J E Varner
Journal:  Biochem Biophys Res Commun       Date:  1983-04-15       Impact factor: 3.575

4.  d-Glucosone and l-Sorbosone, Putative Intermediates of l-Ascorbic Acid Biosynthesis in Detached Bean and Spinach Leaves.

Authors:  K Saito; J A Nick; F A Loewus
Journal:  Plant Physiol       Date:  1990-11       Impact factor: 8.340

5.  Changes in the Ascorbate System during Seed Development of Vicia faba L.

Authors:  O Arrigoni; L De Gara; F Tommasi; R Liso
Journal:  Plant Physiol       Date:  1992-05       Impact factor: 8.340

6.  Formation of hydrogen peroxide by isolated cell walls from horseradish (Armoracia lapathifolia Gilib.).

Authors:  E F Elstner; A Heupel
Journal:  Planta       Date:  1976-01       Impact factor: 4.116

7.  Transplasma membrane redox system of HL-60 cells is controlled by cAMP.

Authors:  J C Rodríguez-Aguilera; K Nakayama; A Arroyo; J M Villalba; P Navas
Journal:  J Biol Chem       Date:  1993-12-15       Impact factor: 5.157

Review 8.  Tissue-mediated regeneration of ascorbic acid: is the process enzymatic?

Authors:  R C Rose; A M Bode
Journal:  Enzyme       Date:  1992

9.  Two distinct NAD(P)H-dependent redox enzymes isolated from onion root plasma membranes.

Authors:  A Serrano; J M Villalba; J A González-Reyes; P Navas; F Córdoba
Journal:  Biochem Mol Biol Int       Date:  1994-04

10.  Proton translocation in corn coleoptiles: ATPase or redox chain?

Authors:  M Böttger; M Bigdon; H J Soll
Journal:  Planta       Date:  1985-03       Impact factor: 4.116
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  13 in total

1.  Auxin metabolism in the root apical meristem.

Authors:  N M Kerk; K Jiang; L J Feldman
Journal:  Plant Physiol       Date:  2000-03       Impact factor: 8.340

2.  Dissecting the superoxide dismutase-ascorbate-glutathione-pathway in chloroplasts by metabolic modeling. Computer simulations as a step towards flux analysis.

Authors:  A Polle
Journal:  Plant Physiol       Date:  2001-05       Impact factor: 8.340

Review 3.  Metal/metalloid stress tolerance in plants: role of ascorbate, its redox couple, and associated enzymes.

Authors:  Naser A Anjum; Sarvajeet S Gill; Ritu Gill; Mirza Hasanuzzaman; Armando C Duarte; Eduarda Pereira; Iqbal Ahmad; Renu Tuteja; Narendra Tuteja
Journal:  Protoplasma       Date:  2014-03-29       Impact factor: 3.356

4.  Cortical tissue-specific accumulation of the root-specific ns-LTP transcripts in the bean (Phaseolus vulgaris) seedlings.

Authors:  J Y Song; D W Choi; J S Lee; Y M Kwon; S G Kim
Journal:  Plant Mol Biol       Date:  1998-11       Impact factor: 4.076

5.  Biosynthesis of ascorbic acid in kidney bean. L-galactono-gamma-lactone dehydrogenase is an intrinsic protein located at the mitochondrial inner membrane

Authors: 
Journal:  Plant Physiol       Date:  1999-07       Impact factor: 8.340

6.  Ascorbate biosynthesis and its involvement in stress tolerance and plant development in rice (Oryza sativa L.).

Authors:  Stefanie Höller; Yoshiaki Ueda; Linbo Wu; Yunxia Wang; Mohammad-Reza Hajirezaei; Mohammad-Reza Ghaffari; Nicolaus von Wirén; Michael Frei
Journal:  Plant Mol Biol       Date:  2015-07-01       Impact factor: 4.076

7.  L-Ascorbic acid is accumulated in source leaf phloem and transported to sink tissues in plants.

Authors:  Vincent R Franceschi; Nathan M Tarlyn
Journal:  Plant Physiol       Date:  2002-10       Impact factor: 8.340

8.  Zonal changes in ascorbate and hydrogen peroxide contents, peroxidase, and ascorbate-related enzyme activities in onion roots.

Authors:  María Del Carmen Córdoba-Pedregosa; Francisco Córdoba; José Manuel Villalba; José Antonio González-Reyes
Journal:  Plant Physiol       Date:  2003-02       Impact factor: 8.340

9.  Role of Apoplastic and Cell-Wall Peroxidases on the Stimulation of Root Elongation by Ascorbate.

Authors:  MdC. Cordoba-Pedregosa; J. A. Gonzalez-Reyes; MdS. Canadillas; P. Navas; F. Cordoba
Journal:  Plant Physiol       Date:  1996-11       Impact factor: 8.340

10.  A mutation in GDP-mannose pyrophosphorylase causes conditional hypersensitivity to ammonium, resulting in Arabidopsis root growth inhibition, altered ammonium metabolism, and hormone homeostasis.

Authors:  Carina Barth; Zachary A Gouzd; Hilary P Steele; Ryan M Imperio
Journal:  J Exp Bot       Date:  2009-12-10       Impact factor: 6.992
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