Imaging molecular chemistry of Pioneer corn.

Synchrotron Fourier transform infrared (FTIR) microspectroscopy as a rapid, direct, and nondestructive analytical technique can explore molecular chemical features of the microstructure of biological samples. The objective of this study was to use synchrotron FTIR microspectroscopy to image the molecular chemistry of corn (cv. Pioneer 39P78) to reveal spatial intensity and distribution of chemical functional groups in corn tissue. This experiment was performed at the U2B station of the National Synchrotron Light Source in Brookhaven National Laboratory (NSLS-BNL, Upton, NY). The Pioneer corn tissue was imaged from the pericarp, seed coat, aleurone, and endosperm under peaks at 1736 (carbonyl C=O ester), 1510 (aromatic compound), 1650 (amide I), 1550 (amide II), 1246 (cellulosic material), 1160 (CHO), 1150 (CHO), 1080 (CHO), 929 (CHO), 860 (CHO), 3350 (OH and NH stretching), 2929 (CH(2) stretching band), and 2885 cm(-1) (CH(3) stretching band). The results showed that with synchrotron FTIR microspectroscopy, the images of the molecular chemistry of Pioneer corn could be generated. Such information on the microstructural-chemical features of grain corn can also be used for corn breeding programs for selecting superior varieties of corn for targeted food and feed purposes and for prediction of corn quality and nutritive value for humans and animals.