Biochemistry and Genetics of Starch Synthesis

被引:157
作者
Keeling, Peter L. [1 ]
Myers, Alan M.
机构
[1] NSF Engn Res Ctr Biorenewable Chem, Ames, IA 50011 USA
来源
ANNUAL REVIEW OF FOOD SCIENCE AND TECHNOLOGY, VOL 1 | 2010年 / 1卷
关键词
amylopectin; amylose; glucan; biology; genes; yield; ADP-GLUCOSE PYROPHOSPHORYLASE; POTATO SOLANUM-TUBEROSUM; MUTATOR INSERTIONAL MUTANTS; ENDOSPERM BRANCHING ENZYMES; DEVELOPING MAIZE ENDOSPERM; WX-CONTAINING GENOTYPES; SYNTHASE-I; AMYLOPECTIN STRUCTURE; UDP-GLUCOSE; ANTISENSE INHIBITION;
D O I
10.1146/annurev.food.102308.124214
中图分类号
TS2 [食品工业];
学科分类号
0832 ;
摘要
Enormous progress has been made in understanding the genetics and biochemistry of starch synthesis in crop plants. Furthermore, starch remains at the very epicenter of the world's food and feed chains and has even now become one of the world's most important sources of biorenewable energy (biofuel). Yet, despite this remarkable progress and the obvious economic importance, very little has been achieved in terms of adding value to starch or increasing starch yield, particularly in cereal crops. Here, we review the genetics and biochemistry of starch synthesis in crop plants, particularly maize. With all this know-how in place and a chasm of opportunity ahead, the time is right to see science deliver progress into a new frontier. Thus, in our view the stage is set for a new era of changes in starch synthesis, delivering enhancements in functionality and yield.
引用
收藏
页码:271 / 303
页数:33
相关论文
共 195 条
[21]   The Carbohydrate-Active EnZymes database (CAZy): an expert resource for Glycogenomics [J].
Cantarel, Brandi L. ;
Coutinho, Pedro M. ;
Rancurel, Corinne ;
Bernard, Thomas ;
Lombard, Vincent ;
Henrissat, Bernard .
NUCLEIC ACIDS RESEARCH, 2009, 37 :D233-D238
[22]  
CAO HP, 1995, PHYSIOL PLANTARUM, V95, P176, DOI 10.1111/j.1399-3054.1995.tb00825.x
[23]   BRENDA, AMENDA and FRENDA the enzyme information system: new content and tools in 2009 [J].
Chang, Antje ;
Scheer, Maurice ;
Grote, Andreas ;
Schomburg, Ida ;
Schomburg, Dietmar .
NUCLEIC ACIDS RESEARCH, 2009, 37 :D588-D592
[24]   Rice UDP-glucose pyrophosphorylase1 is essential for pollen callose deposition and its cosuppression results in a new type of thermosensitive genic male sterility [J].
Chen, Rongzhi ;
Zhao, Xiao ;
Shao, Zhe ;
Wei, Zhe ;
Wang, Yuanyuan ;
Zhu, Lili ;
Zhao, Jie ;
Sun, Mengxiang ;
He, Ruifeng ;
He, Guangcun .
PLANT CELL, 2007, 19 (03) :847-861
[25]   Genetic evidence that the two isozymes of sucrose synthase present in developing maize endosperm are critical, one for cell wall integrity and the other for starch biosynthesis [J].
Chourey, PS ;
Taliercio, EW ;
Carlson, SJ ;
Ruan, YL .
MOLECULAR AND GENERAL GENETICS, 1998, 259 (01) :88-96
[26]   Chain-length specificities of maize starch synthase I enzyme: studies of glucan affinity and catalytic properties [J].
Commuri, PD ;
Keeling, PL .
PLANT JOURNAL, 2001, 25 (05) :475-486
[27]   The evolution of the starch biosynthetic pathway in cereals and other grasses [J].
Comparot-Moss, Sylviane ;
Denyer, Kay .
JOURNAL OF EXPERIMENTAL BOTANY, 2009, 60 (09) :2481-2492
[28]   Transcriptional and metabolic adjustments in ADP-glucose pyrophosphorylase-deficient bt2 maize kernels [J].
Cossegal, Magalie ;
Chambrier, Pierre ;
Mbelo, Sylvie ;
Balzergue, Sandrine ;
Martin-Magniette, Marie-Laure ;
Moing, Annick ;
Deborde, Catherine ;
Guyon, Virginie ;
Perez, Pascual ;
Rogowsky, Peter .
PLANT PHYSIOLOGY, 2008, 146 (04) :1553-1570
[29]   Mutations in the gene encoding starch synthase II profoundly alter amylopectin structure in pea embryos [J].
Craig, J ;
Lloyd, JR ;
Tomlinson, K ;
Barber, L ;
Edwards, A ;
Wang, TL ;
Martin, C ;
Hedley, CL ;
Smith, AM .
PLANT CELL, 1998, 10 (03) :413-426
[30]   The action of starch synthase II on 6′"-α-maltotriosyl-maltohexaose comprising the branch point of amylopectin [J].
Damager, I ;
Denyer, K ;
Motawia, MS ;
Moller, BL ;
Blennow, A .
EUROPEAN JOURNAL OF BIOCHEMISTRY, 2001, 268 (18) :4878-4884
12345678910