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Merck
  • Relationship of source and sink in determining kernel composition of maize.

Relationship of source and sink in determining kernel composition of maize.

Journal of experimental botany (2009-11-18)
Juliann R Seebauer, George W Singletary, Paulette M Krumpelman, Matías L Ruffo, Frederick E Below
초록

The relative role of the maternal source and the filial sink in controlling the composition of maize (Zea mays L.) kernels is unclear and may be influenced by the genotype and the N supply. The objective of this study was to determine the influence of assimilate supply from the vegetative source and utilization of assimilates by the grain sink on the final composition of maize kernels. Intermated B73xMo17 recombinant inbred lines (IBM RILs) which displayed contrasting concentrations of endosperm starch were grown in the field with deficient or sufficient N, and the source supply altered by ear truncation (45% reduction) at 15 d after pollination (DAP). The assimilate supply into the kernels was determined at 19 DAP using the agar trap technique, and the final kernel composition was measured. The influence of N supply and kernel ear position on final kernel composition was also determined for a commercial hybrid. Concentrations of kernel protein and starch could be altered by genotype or the N supply, but remained fairly constant along the length of the ear. Ear truncation also produced a range of variation in endosperm starch and protein concentrations. The C/N ratio of the assimilate supply at 19 DAP was directly related to the final kernel composition, with an inverse relationship between the concentrations of starch and protein in the mature endosperm. The accumulation of kernel starch and protein in maize is uniform along the ear, yet adaptable within genotypic limits, suggesting that kernel composition is source limited in maize.

MATERIALS
제품 번호
브랜드
제품 설명

Roche
Amyloglucosidase, from Aspergillus niger
Sigma-Aldrich
α-Amylase from Bacillus licheniformis, lyophilized powder, 500-1,500 units/mg protein, 93-100% (SDS-PAGE)