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Literature DB >> 16656975

Biogenesis of oxalate in plant tissues.

Abstract

Red beet root discs aerated in potassium phosphate for 2 to 3 days and young spinach leaves actively produce oxalate. A series of labeled compounds was supplied to each of these tissues to determine the extent of conversion to oxalate. Similar results were obtained with the 2 tissues except that in the leaf tissue glyoxylate and glycolate were outstandingly good precursors. Carbon from glucose, acetate, and particularly from some acids of the tricarboxylic acid cycle was recovered in oxalate. Extracts from both tissues were found to contain an enzyme which converts oxaloacetate to oxalate and acetate. The enzyme was partially purified and some of its properties are described. A pathway of oxalate synthesis which does not include glycolate or its oxidase is therefore proposed.

Entities: Chemical Species

Year: 1968 PMID： 16656975 PMCID： PMC1087084 DOI： 10.1104/pp.43.11.1821

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

3 in total

1. Oxidation of glyoxylic acid to oxalic acid by glycolic acid oxidase.

Authors: K E RICHARDSON; N E TOLBERT
Journal: J Biol Chem Date: 1961-05 Impact factor: 5.157

2. Oxalic acid synthesis in shoots of Oxalis pes-caprae. The precursors of glycollic acid and glyoxylic acid.

Authors: A Millerd; R K Morton; J R Wells
Journal: Biochem J Date: 1963-08 Impact factor: 3.857

3. Oxalyl-coenzyme A synthetase from pea seeds.

Authors: J Giovanelli
Journal: Biochim Biophys Acta Date: 1966-04-12

3 in total

16 in total

1. Cell-mediated crystallization of calcium oxalate in plants

Authors:
Journal: Plant Cell Date: 1999-04 Impact factor: 11.277

2. Synthesis of oxalic Acid by enzymes from lettuce leaves.

Authors: D D Davies; H Asker
Journal: Plant Physiol Date: 1983-05 Impact factor: 8.340

3. A previously unknown oxalyl-CoA synthetase is important for oxalate catabolism in Arabidopsis.

Authors: Justin Foster; Hyun Uk Kim; Paul A Nakata; John Browse
Journal: Plant Cell Date: 2012-03-23 Impact factor: 11.277

4. On the formation of the pattern of crystal idioblasts - in Canavalia ensiformis DC : IV. The fine structure of the crystal cells.

Authors: E Frank; W A Jensen
Journal: Planta Date: 1970-09 Impact factor: 4.116

5. Vacuolar Deposition of Ascorbate-derived Oxalic Acid in Barley.

Authors: G J Wagner
Journal: Plant Physiol Date: 1981-03 Impact factor: 8.340

6. Glyoxylate rather than ascorbate is an efficient precursor for oxalate biosynthesis in rice.

Authors: Le Yu; Jingzhe Jiang; Chan Zhang; Linrong Jiang; Nenghui Ye; Yusheng Lu; Guozheng Yang; Ee Liu; Changlian Peng; Zhenghui He; Xinxiang Peng
Journal: J Exp Bot Date: 2010-03-01 Impact factor: 6.992

7. Metabolic Conversion of l-Ascorbic Acid to Oxalic Acid in Oxalate-accumulating Plants.

Authors: J C Yang; F A Loewus
Journal: Plant Physiol Date: 1975-08 Impact factor: 8.340

8. Reduction of oxalate levels in tomato fruit and consequent metabolic remodeling following overexpression of a fungal oxalate decarboxylase.

Authors: Niranjan Chakraborty; Rajgourab Ghosh; Sudip Ghosh; Kanika Narula; Rajul Tayal; Asis Datta; Subhra Chakraborty
Journal: Plant Physiol Date: 2013-03-12 Impact factor: 8.340

9. Absence of CeCl3-detectable peroxisomal glycolate-oxidase activity in developing raphide crystal idioblasts in leaves of Psychotria punctata Vatke and roots of Yucca torreyi L.

Authors: A P Kausch; H T Horner
Journal: Planta Date: 1985-05 Impact factor: 4.116

10. Over-expression of the Arabidopsis formate dehydrogenase in chloroplasts enhances formaldehyde uptake and metabolism in transgenic tobacco leaves.

Authors: Ru Wang; Zhidong Zeng; Hongxia Guo; Hao Tan; Ang Liu; Yan Zhao; Limei Chen
Journal: Planta Date: 2017-10-07 Impact factor: 4.116