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Literature DB >> 19513239

Plant polyamine catabolism: The state of the art.

Panagiotis N Moschou¹, Konstantinos A Paschalidis, Kalliopi A Roubelakis-Angelakis.

Abstract

Polyamines have long been implicated in plant growth and development, as well as adaptation to abiotic and biotic stress. As a general rule of thumb the higher the polyamine titers the better. However, their molecular roles in plant stress responses still remain obscure. It has been postulated that they could act through their catabolism, which generates molecules which may act as secondary messengers signalling networks of numerous developmental and stress adaptation processes. Recently it was shown that plant and mammalian polyamine catabolism share critical features, giving new insight in plant polyamine catabolism. In this review, the advances in genes and proteins of polyamine catabolism in plants is presented and compared to other models.

Entities: Chemical Species

Keywords: ROS signaling; abiotic stress; polyamine catabolism; polyamine oxidase; polyamines

Year: 2008 PMID： 19513239 PMCID： PMC2634460 DOI： 10.4161/psb.3.12.7172

Source DB: PubMed Journal: Plant Signal Behav ISSN： 1559-2316

65 in total

1. Enhanced stress tolerance in transgenic pine expressing the pepper CaPF1 gene is associated with the polyamine biosynthesis.

Authors: Wei Tang; R J Newton; C Li; T M Charles
Journal: Plant Cell Rep Date: 2006-08-26 Impact factor: 4.570

Review 2. Involvement of polyamines in plant response to abiotic stress.

Authors: Rubén Alcázar; Francisco Marco; Juan C Cuevas; Macarena Patron; Alejandro Ferrando; Pedro Carrasco; Antonio F Tiburcio; Teresa Altabella
Journal: Biotechnol Lett Date: 2006-09-22 Impact factor: 2.461

3. Acetylderivatives as intermediates in polyamine catabolism.

Authors: F N Bolkenius; N Seiler
Journal: Int J Biochem Date: 1981

4. BUD2, encoding an S-adenosylmethionine decarboxylase, is required for Arabidopsis growth and development.

Authors: Chunmin Ge; Xia Cui; Yonghong Wang; Yuxin Hu; Zhiming Fu; Dongfen Zhang; Zhukuan Cheng; Jiayang Li
Journal: Cell Res Date: 2006-05 Impact factor: 25.617

Review 5. The polyamine oxidase inactivator MDL 72527.

Authors: Nikolaus Seiler; Benoit Duranton; Francis Raul
Journal: Prog Drug Res Date: 2002

6. Polyamine oxidase, a hydrogen peroxide-producing enzyme, is up-regulated by light and down-regulated by auxin in the outer tissues of the maize mesocotyl.

Authors: Alessandra Cona; Francesco Cenci; Manuela Cervelli; Rodolfo Federico; Paolo Mariottini; Sandra Moreno; Riccardo Angelini
Journal: Plant Physiol Date: 2003-02 Impact factor: 8.340

7. Wound healing in plants: Cooperation of copper amine oxidase and flavin-containing polyamine oxidase.

Authors: Alessandra Tisi; Riccardo Angelini; Alessandra Cona
Journal: Plant Signal Behav Date: 2008-03

Review 8. Polyamines and plant disease.

Authors: Dale R Walters
Journal: Phytochemistry Date: 2003-09 Impact factor: 4.072

9. Polyamine metabolism in maize tumors induced by Ustilago maydis.

Authors: Margarita Rodríguez-Kessler; Oscar A Ruiz; Santiago Maiale; José Ruiz-Herrera; Juan Francisco Jiménez-Bremont
Journal: Plant Physiol Biochem Date: 2008-06-04 Impact factor: 4.270

10. The alpha9beta1 integrin enhances cell migration by polyamine-mediated modulation of an inward-rectifier potassium channel.

Authors: Gregory W deHart; Taihao Jin; Diane E McCloskey; Anthony E Pegg; Dean Sheppard
Journal: Proc Natl Acad Sci U S A Date: 2008-05-14 Impact factor: 11.205

39 in total

1. Tissue-specific expression of olive S-adenosyl methionine decarboxylase and spermidine synthase genes and polyamine metabolism during flower opening and early fruit development.

Authors: Maria C Gomez-Jimenez; Miguel A Paredes; Mercedes Gallardo; Nieves Fernandez-Garcia; Enrique Olmos; Isabel M Sanchez-Calle
Journal: Planta Date: 2010-06-09 Impact factor: 4.116

2. Regulation of polyamine metabolism and biosynthetic gene expression during olive mature-fruit abscission.

Authors: Jose A Gil-Amado; Maria C Gomez-Jimenez
Journal: Planta Date: 2011-12-14 Impact factor: 4.116

3. Exogenous spermidine improves seed germination of sweet corn via involvement in phytohormone interactions, H₂O₂ and relevant gene expression.

Authors: Yutao Huang; Cheng Lin; Fei He; Zhan Li; Yajing Guan; Qijuan Hu; Jin Hu
Journal: BMC Plant Biol Date: 2017-01-03 Impact factor: 4.215

4. Polyamines interact with hydroxyl radicals in activating Ca(2+) and K(+) transport across the root epidermal plasma membranes.

Authors: Isaac Zepeda-Jazo; Ana María Velarde-Buendía; René Enríquez-Figueroa; Jayakumar Bose; Sergey Shabala; Jesús Muñiz-Murguía; Igor I Pottosin
Journal: Plant Physiol Date: 2011-10-06 Impact factor: 8.340

5. Polyamine metabolism influences antioxidant defense mechanism in foxtail millet (Setaria italica L.) cultivars with different salinity tolerance.

Authors: Chinta Sudhakar; Gounipalli Veeranagamallaiah; Ambekar Nareshkumar; Owku Sudhakarbabu; M Sivakumar; Merum Pandurangaiah; K Kiranmai; U Lokesh
Journal: Plant Cell Rep Date: 2014-10-29 Impact factor: 4.570