M. Yamamori et al., Genetic elimination of a starch granule protein, SGP-1, of wheat generatesan altered starch with apparent high amylose, THEOR A GEN, 101(1-2), 2000, pp. 21-29
A starch granule protein, SGP-1, is a starch synthase bound to starch granu
les in wheat endosperm. A wheat lacking SGP-1 was produced by crossing thre
e variants each deficient in one of three SGP-1 classes. namely SGP-A1, -B1
or -D1. This deficient wheat (SGP-1 null wheat) showed some alterations in
endosperm starch, meaning that SGP-1 is involved in starch synthesis. Elec
trophoretic experiments revealed that the levels of two starch granule prot
eins, SGP-2 and -3, decreased considerably in the SGP-1 null wheat though t
hat of the waxy protein (granule-bound starch synthase I) did not. The A-ty
pe starch granules were deformed. Apparent high amylose level (30.8-37.4%)
was indicated by colorimetric measurement, amperometric titration, and the
concanavalin A method. The altered structure of amylopectin was detected by
both highperformance size-exclusion chromatography and highperformance ani
on exchange chromatography. Levels of amylopectin chains with degrees of po
lymerization (DP) 6-10 increased, while DP 11-25 chains decreased. A low st
arch crystallinity was shown by both X-ray diffraction and differential sca
nning calorimetry (DSC) analyses because major peaks were absent. Abnormal
crystallinity was also suggested by the lack of a polarized cross in SGP-1
null starch. The above results suggest that SGP-1 is responsible for amylop
ectin synthesis. Since the SGP-1 null wheat produced novel starch which has
not been described before, it can be used to expand variation in wheat sta
rch.