Second harmonic generation imaging - A new method for unraveling molecular information of starch
Journal
Journal of Structural Biology
Journal Volume
171
Journal Volume
171
Journal Issue
1
Journal Issue
1
Pages
88-94
Start Page
88
End Page
94
ISSN
10958657
Date Issued
2010-07
Author(s)
Zhuo, Zong-Yan
Liao, Chien-Sheng
Huang, Chen-Han
Yu, Jiun-Yann
Tzeng, Yu-Yi
Lo, Wen
Chui, Hsiang-Chen
Huang, Yu-Chan
Abstract
We present a new method, second harmonic generation (SHG) imaging for the study of starch structure. SHG imaging can provide the structural organization and molecular orientation information of bio-tissues without centrosymmetry. In recent years, SHG has proven its capability in the study of crystallized bio-molecules such as collagen and myosin. Starch, the most important food source and a promising future energy candidate, has, for a decade, been shown to exhibit strong SHG response. By comparing SHG intensity from different starch species, we first identified that the SHG-active molecule is amylopectin, which accounts for the crystallinity in starch granules. With the aid of SHG polarization anisotropy, we extracted the complete χ (2) tensor of amylopectin, which reflects the underlying molecular details. Through χ (2) tensor analysis, three-dimensional orientation and packing symmetry of amylopectin are determined. The helical angle of the double-helix in amylopectin is also deduced from the tensor, and the value corresponds well to previous X-ray studies, further verifying amylopectin as SHG source. It is noteworthy that the nm-sized structure of amylopectin inside a starch granule can be determined by this far-field optical method with 1-μm excitation wavelength. Since SHG is a relatively new tool for plant research, a detailed understanding of SHG in starch structure will be useful for future high-resolution imaging and quantitative analyses for food/energy applications.
Subjects
Amylopectin
Molecular orientation
Nonlinear optics
Polarization anisotropy
Tensor analysis
Three-dimensional imaging
Type
journal article