Jinfa Zhang1, Yingzhi Lu1, Mingxiong Pang1, Sarah Higbie1, Doug Hinchliffe1, Chen Niu1, Youlu Yuan2, and Shuxun Yu2. (1) New Mexico State University, Department of Agronomy and Horticulture, Skeen Hall, Las Cruces, NM 88003, (2) Cotton Research Institute of Chinese Academy of Agricultural Sciences;Key Laboratory of Cotton Genetic Improvement, Ministry of Agriculture, P R China, Yellow River Road, Development District, Anyang, Henan, HI 455004, China
Molecular markers such as RFLP, RAPD, AFLP, SSR, and SNP have been developed and used in numerous plants including cotton (Gossypium hirsutum L.) for fingerprinting, linkage map construction, gene/QTL mapping, and genetic diversity studies. However, many of the marker systems have some limitations in terms of polymorphism levels, high throughput-ness, and anonymousness. Markers such as cDNA-RFLP, EST-SSR, and SNPs are gene sequence specific, but the level of DNA polymorphism within certain plant species including cotton is low, limiting their utilization in the development of genome-wide linkage maps and gene discovery. Our current research focuses on the development of new DNA marker systems using array-based hybridization and PCR-based techniques. High throughput marker systems were developed based on conserved DNA sequences for promoters, cis-acting elements, disease resistant gene analogous, microRNA genes, untranslated regions, and introns. To profile start codon regions, an ATG-anchored AFLP analysis was devised and proved to be reliable. Oligonucleotide arrays, initially designed for expression analysis, were also successfully used to detect allelic variation via direct hybridization of labeled genomic DNA. Single base changes (SNP) or insertion/deletion (Indel) within oligonucleotide region in an array produce differential hybridization signals, called single-feature polymorphism (SFP). The array-based marker technology is very powerful in that numerous markers can be assayed at once that can provide genome-wide coverage. Compared with the traditional molecular markers, the modified and new marker systems are highly cost effective and gene-regions or regulatory regions targeted. They can better resolve genetic relationships between genotypes, rendering a higher discriminatory power.
See more of Cotton Improvement Conference - Session A1
See more of Cotton Improvement Conference
See more of The Beltwide Cotton Conferences, January 3-6 2006