Warning: Undefined array key "mm" in /www/wwwroot/www.ai-bt.com/si.php on line 10 Deprecated: trim(): Passing null to parameter #1 ($string) of type string is deprecated in /www/wwwroot/www.ai-bt.com/si.php on line 10 Genetic controls on starch amylose content in wheat and rice grains.

Literature DB >> 24840849

Genetic controls on starch amylose content in wheat and rice grains.

Parviz Fasahat¹, Sadequr Rahman, Wickneswari Ratnam.

Abstract

Starch accumulates in plants as granules in chloroplasts of source organs such as leaves (transitory starch) or in amyloplasts of sink organs such as seeds, tubers and roots (storage starch). Starch is composed of two types of glucose polymers: the essentially linear polymer amylose and highly branched amylopectin. The amylose content of wheat and rice seeds is an important quality trait, affecting the nutritional and sensory quality of two of the world's most important crops. In this review, we focus on the relationship between amylose biosynthesis and the structure, physical behaviour and functionality of wheat and rice grains. We briefly describe the structure and composition of starch and then in more detail describe what is known about the mechanism of amylose synthesis and how the amount of amylose in starch might be controlled. This more specifically includes analysis of GBSS alleles, the relationship between waxy allelic forms and amylose, and related quantitative trait loci. Finally, different methods for increasing or lowering amylose content are evaluated.

Entities: Chemical Species

Mesh：

Substances：
Starch
Amylose

Year: 2014 PMID： 24840849 DOI： 10.1007/s12041-014-0325-8

Source DB: PubMed Journal: J Genet ISSN： 0022-1333 Impact factor: 1.166

66 in total

Review 1. Resistant starch: metabolic effects and potential health benefits.

Authors: Janine A Higgins
Journal: J AOAC Int Date: 2004 May-Jun Impact factor: 1.913

2. Nucleotide sequence of rice waxy gene.

Authors: Z Y Wang; Z L Wu; Y Y Xing; F G Zheng; X L Guo; W G Zhang; M M Hong
Journal: Nucleic Acids Res Date: 1990-10-11 Impact factor: 16.971

3. Formation of semi-compound C-type starch granule in high-amylose rice developed by antisense RNA inhibition of starch-branching enzyme.

Authors: Cunxu Wei; Fengling Qin; Weidong Zhou; Yifang Chen; Bin Xu; Youping Wang; Minghong Gu; Qiaoquan Liu
Journal: J Agric Food Chem Date: 2010-09-24 Impact factor: 5.279

4. Aberrant splicing of intron 1 leads to the heterogeneous 5' UTR and decreased expression of waxy gene in rice cultivars of intermediate amylose content.

Authors: X L Cai; Z Y Wang; Y Y Xing; J L Zhang; M M Hong
Journal: Plant J Date: 1998-05 Impact factor: 6.417

5. Comparison of starch-branching enzyme genes reveals evolutionary relationships among isoforms. Characterization of a gene for starch-branching enzyme IIa from the wheat genome donor Aegilops tauschii.

Authors: S Rahman; A Regina; Z Li; Y Mukai; M Yamamoto; B Kosar-Hashemi; S Abrahams; M K Morell
Journal: Plant Physiol Date: 2001-03 Impact factor: 8.340

Review 6. QTL mapping in rice.

Authors: S R McCouch; R W Doerge
Journal: Trends Genet Date: 1995-12 Impact factor: 11.639

7. Mutation of the plastidial alpha-glucan phosphorylase gene in rice affects the synthesis and structure of starch in the endosperm.

Authors: Hikaru Satoh; Kensuke Shibahara; Takashi Tokunaga; Aiko Nishi; Mikako Tasaki; Seon-Kap Hwang; Thomas W Okita; Nanae Kaneko; Naoko Fujita; Mayumi Yoshida; Yuko Hosaka; Aya Sato; Yoshinori Utsumi; Takashi Ohdan; Yasunori Nakamura
Journal: Plant Cell Date: 2008-07-11 Impact factor: 11.277

8. Dosage effects of the three Wx genes on amylose synthesis in wheat endosperm.

Authors: H Miura; A Sugawara
Journal: Theor Appl Genet Date: 1996-11 Impact factor: 5.699

Review 9. Towards a better understanding of the metabolic system for amylopectin biosynthesis in plants: rice endosperm as a model tissue.

Authors: Yasunori Nakamura
Journal: Plant Cell Physiol Date: 2002-07 Impact factor: 4.927