Basic HTML Version
唐维等
, 2011,
甘薯淀粉合成关键酶及其基因结构与功能的研究进展
,
分子植物育种
Vol.9 No.65 (doi: 10.5376/mpb.cn.2011.09.0065)
1484
starch: Understanding the biogenesis of the plant starch
granule, Annual Review Plant Biology, 54: 207-233
Buleon A., Colonna P., Planchot V., and Ball S., 1998, Starch
granules: structure and biosynthesis, International Journal
of Biological Macromolecules, 23(2): 85-112
Burton R.A., Jenner H., Carrangis L., Fahy B., Fincher G.B.,
Hylton C., Laurie D.A., Parker M., Waite D., van Wegen
S., Verhoeven T., and Denyer K., 2002, Starch granule
initiation and growth are altered in barley mutants that
lack isoamylase activity, Plant Journal, 31(1): 97-112
Chen Y.X., 2008, Studies on the effect of the agronomic
measures in sweet potato with different dry matter, Master
degree dissertation, Southsest University, Supervisor:
Wang J.C., pp.26-28 (
陈宇星
, 2008,
干物质差异甘薯的
农艺调控效应研究
,
硕士学位论文
,
西南大学
,
导师
:
王季春
, pp.26-28)
Craig J., Lloyd J.R., Tomlinson K., Barber L., Edwards A.,
Wang T.L., Martin C., Hedley C.L., and Smith A.M., 1998,
Mutation in the gene encoding starch synthase II
profoundly alter amylopectin structure in pea embryos,
Plant Cell, 10(3): 413-426
Delatte T., Trevisan M., Parker M.L., and Zeeman S.C., 2005,
Arabidopsis
mutants Atisa1 and Atisa2 have identical
phenotypes and lack the same multimeric isoamylase,
which influences the branch point distribution of
amylopectin during starch synthesis, Plant Journal, 41(6):
815-830
Fujita N., Kubo A., Suh D.S., Wong K.S., Jane J.L., Ozawa K.,
Takaiwa F., Inaba Y., and Nakamura Y., 2003, Antisense
inhibition of isoamylase alters the structure of amylopectin
and the physicochemical properties of starch in rice
endosperm, Plant Cell, 44(6): 607-618
Hamada T., Kim S.H., and Shimada T., 2006, Starch-branching
enzyme I gene (
IbSBEI
) from sweet potato (
Ipomoea
batatas
); molecular cloning and expression analysis,
Biotechnology Letters, 28(16): 1255-1261
Harn C.H., Bae J.M., Lee S.S., Min S.R., and Liu J.R., 2000,
Presence of multiple cDNAs encoding an isoform of
ADP-glucose pyrophosphorylase large subunit from sweet
potato and characterization of expression levels, Plant Cell
Physiology, 41(11): 1235-1242
Hussain H., Mant A., Seale R., Zeeman S., Hinchliffe E.,
Edwards A., Hylton C., Bornemann S., Smith A.M.,
Martin C., and Bustos R., 2003, Three isoforms of
isoamylase contribute different catalytic properties for the
debranching of potato glucans, Plant Cell, 15(1): 133-149
James M.G., Robertson D.S., and Myers A.M., 1995,
Characterization of the maize gene sugary1, a determinant
of starch composition in kernels, Plant Cell, 7(4): 417-429
Jobling S.A., Schwall G.P., Westcott R.J., Sidebottom C.M.,
Debet M., Gidley M.J., Jeffcoat R., and Safford R., 1999,
A minor form of starch branching enzyme in potato
(
Solanum tuberosum
L.) tubers has a major effect on
starch structure: cloning and characterization of multiple
forms of SBE A, Plant Journal, 18(2): 163-171
Kim S.H., Hamada T., Otani M., and Shimada T., 2005,
Cloning and characterization of sweetpotato
isoamylase
gene (
IbIsa1
) isolated from tuberous root, Breeding
Science, 55(4): 453-458
Kim S.H., Mizuno K., Sawada S., Fujimura T., 2002c,
Regulation of tuber formation and ADP-glucose
pyrophosphorylase (AGPase) in sweet potato (
Ipomoea
batatas
(L.) Lam.) by nitrate, Plant Growth Regulation,
37(3): 207-213
Kimura T., and Saito A., 2010, Heterogeneity of poly(A) sites
in the granule-bound starch synthase I gene in sweet
potato (
Ipomoea batatas
(L.) Lam), Bioscience
Biotechnology Biochemistry, 74(3): 667-669
Kimura T., Ideta O., and Saito A., 2000, Identification of the
gene encoding granule-bound starch synthase I in sweet
potato (
Ipomoea batatas
(L.) Lam.), Plant Biotechnology,
17(3): 247-252
Kimura T., Otani M., Noda T., Ideta O., Shimada T., and Saito
A., 2001, Absence of amylose in sweet potato (
Ipomoea
batatas
(L.) Lam.) following the introduction of
granule-bound starch synthase I cDNA, Plant Cell Reports,
20(7): 663-666
Kitahara K., Hamasuna K., Nozuma K., Otani M., Hamada T.,
Shimada T., Fujita K., and Suganuma T., 2007,
Physicochemical properties of amylose-free and
high-amylose starches from transgenic sweetpotatoes
modified by RNA interference, Carbohydrate Polymer,
69(2): 233-240
Kossmann J., and Lloyd J., 2000, Understanding and
Influencing starch biochemistry, Critical Reviews in
Biochemistry Molecular Biology, 35(3): 141-196
Kwak M.S., Noh S.A., Oh M.J., Huh G.H., Kim K.N., Lee S.W.,
Shin J.S., and Bae J.M., 2006, Two sweetpotato
ADP-glucose pyrophosphorylase isoforms are regulated
antagonistically in response to sucrose content in storage
roots, Gene, 366(1): 87-96
Kwak M.S., Oh M.J., Lee S.W., Shin J.S., Paek K.H., and Bae
J.M., 2007, A strong constitutive gene expression system
derived from
ibAGP1
promoter and its transit peptide,
Plant Cell Reports, 26(8): 1253-1262