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Literature DB >> 12940548

Engineering fructan metabolism in plants.

Abstract

Fructans, or polyfructosylsucroses, are storage carbohydrates present in many higher plants. They are also considered healthy food ingredients. Engineering crops into high level production of specific fructan molecules is one of the mayor strategic research goals. Understanding the properties of fructosyltransferases is important, in order to direct the synthesis of fructans. In plants at least two fructosyltransferases are needed to synthesise fructans. One enzyme synthesises the fructan trisaccharide 1-kestose, the next enzyme uses 1-kestose for elongation and/or modification, producing longer fructans. The specificity of fructosyltransferases determines the type of glycosidic bond formed and the donor and acceptor substrates used. This enables the synthesis of many structurally diverse fructans. The production of these molecules in crops such as sugar beet and potato makes the commercial use of fructans feasible.

Entities: Chemical Species

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Year: 2003 PMID： 12940548 DOI： 10.1078/0176-1617-01029

Source DB: PubMed Journal: J Plant Physiol ISSN： 0176-1617 Impact factor: 3.549

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Cited

17 in total

1. Crystal structures of Aspergillus japonicus fructosyltransferase complex with donor/acceptor substrates reveal complete subsites in the active site for catalysis.

Authors: Phimonphan Chuankhayan; Chih-Yu Hsieh; Yen-Chieh Huang; Yi-You Hsieh; Hong-Hsiang Guan; Yin-Cheng Hsieh; Yueh-Chu Tien; Chung-De Chen; Chien-Min Chiang; Chun-Jung Chen
Journal: J Biol Chem Date: 2010-05-13 Impact factor: 5.157

2. Fructosyltransferase mutants specify a function for the beta-fructosidase motif of the sucrose-binding box in specifying the fructan type synthesized.

Authors: Tita Ritsema; Auke Verhaar; Irma Vijin; Sjef Smeekens
Journal: Plant Mol Biol Date: 2004-04 Impact factor: 4.076

3. Distinct regulation of sucrose: sucrose-1-fructosyltransferase (1-SST) and sucrose: fructan-6-fructosyltransferase (6-SFT), the key enzymes of fructan synthesis in barley leaves: 1-SST as the pacemaker.

Authors: Vinay J Nagaraj; Denise Altenbach; Virginie Galati; Marcel Lüscher; Alain D Meyer; Thomas Boller; Andres Wiemken
Journal: New Phytol Date: 2004-01-14 Impact factor: 10.151

4. Cloning and functional characterization of two abiotic stress-responsive Jerusalem artichoke (Helianthus tuberosus) fructan 1-exohydrolases (1-FEHs).

Authors: Huanhuan Xu; Mingxiang Liang; Li Xu; Hui Li; Xi Zhang; Jian Kang; Qingxin Zhao; Haiyan Zhao
Journal: Plant Mol Biol Date: 2014-10-22 Impact factor: 4.076

5. Production of bimodal molecular weight levan by a Lactobacillus reuteri isolate from fish gut.

Authors: Waqar Ahmad; Anam Nasir; Fazal Sattar; Iram Ashfaq; Ming-Hsu Chen; Azam Hayat; Mujaddad Ur Rehman; Sainan Zhao; Shazia Khaliq; Muhammad Afzal Ghauri; Munir Ahmad Anwar
Journal: Folia Microbiol (Praha) Date: 2021-08-28 Impact factor: 2.099

6. Cloning of TaSST genes associated with water soluble carbohydrate content in bread wheat stems and development of a functional marker.

Authors: Yan Dong; Yan Zhang; Yonggui Xiao; Jun Yan; Jindong Liu; Weie Wen; Yong Zhang; Ruilian Jing; Xianchun Xia; Zhonghu He
Journal: Theor Appl Genet Date: 2016-02-16 Impact factor: 5.699

7. Fructan active enzymes (FAZY) activities and biosynthesis of fructooligosaccharides in the vacuoles of Agave tequilana Weber Blue variety plants of different age.

Authors: Erika Mellado-Mojica; Luis E González de la Vara; Mercedes G López
Journal: Planta Date: 2016-10-11 Impact factor: 4.116