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Literature DB >> 31161264

Overexpression of AtAGT1 promoted root growth and development during seedling establishment.

Rui Wang¹, Lin Yang², Xiaofang Han¹, Yuhong Zhao¹, Ling Zhao¹, Beibei Xiang³, Yerong Zhu¹, Yanling Bai¹, Yong Wang⁴.

Abstract

KEY MESSAGE: Arabidopsis photorespiratory gene AtAGT1 is important for the growth and development of root, the non-photosynthetic organ, and it is involved in a complex metabolic network and salt resistance. AtAGT1 in Arabidopsis encodes an aminotransferase that has a wide range of donor:acceptor combinations, including Asn:glyoxylate. Although it is one of the photorespiratory genes, its encoding protein has been suggested to function also in roots to metabolize Asn. However, experimental data are still lacking. In this study, we investigated experimentally the function of AtAGT1 in roots and our results uncovered its importance in root development during seedling establishment after seed germination. Overexpression of AtAGT1 in roots promoted both the growth of primary root and outgrowth of lateral roots. To further elucidate the molecular mechanisms underlying, amino acid content and gene expression in roots were analyzed, and results revealed that AtAGT1 is involved in a complex metabolic network and salt resistance of roots.

Entities: Chemical

Keywords: ABA signaling; Asn; AtAGT1; Salt tolerance; Seedling establishment; Ser

Mesh：

Substances：

Year: 2019 PMID： 31161264 DOI： 10.1007/s00299-019-02435-9

Source DB: PubMed Journal: Plant Cell Rep ISSN： 0721-7714 Impact factor: 4.570

63 in total

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Authors: A H Liepman; L J Olsen
Journal: Plant J Date: 2001-03 Impact factor: 6.417

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6. Postgerminative growth and lipid catabolism in oilseeds lacking the glyoxylate cycle.

Authors: P J Eastmond; V Germain; P R Lange; J H Bryce; S M Smith; I A Graham
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1. New Insight into Aspartate Metabolic Pathways in Populus: Linking the Root Responsive Isoenzymes with Amino Acid Biosynthesis during Incompatible Interactions of Fusarium solani.

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1 in total