TY - JOUR
T1 - Mutation of the maize sbe1a and ae genes alters morphology and physical behavior of wx-type endosperm starch granules
AU - Li, Ji Hong
AU - Guiltinan, Mark J.
AU - Thompson, Donald B.
N1 - Funding Information:
This research was funded by a grant (DE-FG02-96ER20234) from The Energy Biosciences Program, the US Department of Energy. J.H.L. is also supported by a Post-Doctoral Fellowship from the Natural Sciences and Engineering Research Council of Canada (NSERC). Acknowledgment goes to Dr. Y. Yao for his significant work on the characterization of the sbe maize mutants, which were used as the source for this study, to H. Xia for the excellent technical assistances in breeding, and to O. Tapanapunnitikul in the Department of Food Science, the Pennsylvania State University, for X-ray diffraction analysis.
PY - 2007/12/10
Y1 - 2007/12/10
N2 - In maize, three isoforms of starch-branching enzyme, SBEI, SBEIIa, and SBEIIb, are encoded by the Sbe1a, Sbe2a, and Amylose extender (Ae) genes, respectively. The objective of this research was to explore the effects of null mutations in the Sbe1a and Ae genes alone and in combination in wx background on kernel characteristics and on the morphology and physical behavior of endosperm starch granules. Differences in kernel morphology and weight, starch accumulation, starch granule size and size distribution, starch microstructure, and thermal properties were observed between the ae wx and sbe1a ae wx plants but not between the sbe1a wx mutants when compared to wx. Starch from sbe1a ae wx plants exhibited a larger granule size with a wider gelatinization temperature range and a lower endotherm enthalpy than ae wx. Microscopy shows weaker iodine staining in sbe1a ae wx starch granules. X-ray diffraction revealed A-type crystallinity in wx and sbe1a wx starches and B-type in sbe1a ae wx and ae wx. This study suggests that, while the SBEIIb isoform plays a dominant role in maize endosperm starch synthesis, SBEI also plays a role, which is only observable in the presence of the ae mutation.
AB - In maize, three isoforms of starch-branching enzyme, SBEI, SBEIIa, and SBEIIb, are encoded by the Sbe1a, Sbe2a, and Amylose extender (Ae) genes, respectively. The objective of this research was to explore the effects of null mutations in the Sbe1a and Ae genes alone and in combination in wx background on kernel characteristics and on the morphology and physical behavior of endosperm starch granules. Differences in kernel morphology and weight, starch accumulation, starch granule size and size distribution, starch microstructure, and thermal properties were observed between the ae wx and sbe1a ae wx plants but not between the sbe1a wx mutants when compared to wx. Starch from sbe1a ae wx plants exhibited a larger granule size with a wider gelatinization temperature range and a lower endotherm enthalpy than ae wx. Microscopy shows weaker iodine staining in sbe1a ae wx starch granules. X-ray diffraction revealed A-type crystallinity in wx and sbe1a wx starches and B-type in sbe1a ae wx and ae wx. This study suggests that, while the SBEIIb isoform plays a dominant role in maize endosperm starch synthesis, SBEI also plays a role, which is only observable in the presence of the ae mutation.
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U2 - 10.1016/j.carres.2007.07.019
DO - 10.1016/j.carres.2007.07.019
M3 - Article
C2 - 17765880
AN - SCOPUS:35448932382
SN - 0008-6215
VL - 342
SP - 2619
EP - 2627
JO - Carbohydrate Research
JF - Carbohydrate Research
IS - 17
ER -