17 X. P. Jia P. H. Dong F. Y. Yu J. Z. Quan H. Bai Z. P. Dong Journal of Animal and Plant Sciences JAPS 20152015/08/01 25 4 1191-1195 1018-7081 NA <p><em>Waxy</em>&nbsp;gene controls synthesis of amylose, having important application value in crop eating quality improvement. The&nbsp;<em>waxy</em>&nbsp;gene of foxtail millet has been cloned and sequenced. All the waxy and low-amylose types arose by the insertions of transposable elements into the&nbsp;<em>waxy</em>&nbsp;gene. Based on the sequence variation information caused by transposon insertions, 6 pairs of STS primers were designed to detect 10 allelic variation types of the&nbsp;<em>waxy</em>&nbsp;gene in eleven foxtail millet strains. The results showed that<em>&nbsp;waxy</em>&nbsp;allelic variation types of nine strains could be determined, they were &ldquo;Xinji&rdquo; sticky millet (IV/IV), Green sticky millet (IVa/ IVa), &ldquo;Shanxi&rdquo; sticky millet (VII/Wild), &ldquo;Anyanghong&rdquo; sticky millet (IV/IV), Jite5 (IV/III), Jigu30 (IV/V), Yellow sticky millet (IVa/ IVa), &ldquo;Linxian&rdquo; black sticky millet (IV/ VII), &ldquo;Xincai&rdquo; sticky millet (VII/ Wild). Two modern varieties Jigu19 and &ldquo;Early white waxy&rdquo; detected three allelic variation types (IVa, III, V), the real reason need be further investigated. No X, VI, VIII variation types were detected in the eleven foxtail millet strains. The developed STS markers were powerful in detecting which of the 10<em>&nbsp;waxy</em> allelic variation types existed in any foxtail millet strain though iodine blue staining amylose determination technology needed when distinguish homozygous variation types from heterozygotes of variation type and wild type because of dominant markers.</p> Foxtail millet, Eating quality, Waxy gene, Allelic variation, STS marker Pakistan Agricultural Scientists Forum https://thejaps.org.pk/AbstractView.aspx?mid=2015-JAPS-160