Isolation and analyses of genes preferentially expressed during early cotton fiber development by subtractive PCR and cDNA array

doi:10.1093/nar/gkg358

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Nucleic Acids Research, 2003, Vol. 31, No. 10 2534-2543
© 2003 Oxford University Press

Isolation and analyses of genes preferentially expressed during early cotton fiber development by subtractive PCR and cDNA array

Sheng-Jian Ji, Ying-Chun Lu, Jian-Xun Feng, Gang Wei, Jun Li, Yong-Hui Shi, Qiang Fu, Di Liu¹, Jing-Chu Luo¹ and Yu-Xian Zhu

National Laboratory of Protein Engineering and Plant Genetic Engineering and Peking-Yale Joint Center for Plant Molecular Genetics and Agro-Biotechnology and ¹ Center for Bioinformatics, College of Life Sciences, Peking University, Beijing 100871, China

⁺CB350396–CB350561, AY189968–AY189972, AY207316, AY218846

Cotton fibers are differentiated epidermal cells originatingfrom the outer integuments of the ovule. To identify genes involvedin cotton fiber elongation, we performed subtractive PCR usingcDNA prepared from 10 days post anthesis (d.p.a.) wild-typecotton fiber as tester and cDNA from a fuzzless-lintless (fl)mutant as driver. We recovered 280 independent cDNA fragmentsincluding most of the previously published cotton fiber-relatedgenes. cDNA macroarrays showed that 172 genes were significantlyup-regulated in elongating cotton fibers as confirmed by insitu hybridization in representative cases. Twenty-nine cDNAs,including a putative vacuolar (H⁺)-ATPase catalytic subunit,a kinesin-like calmodulin binding protein, several arabinogalactanproteins and key enzymes involved in long chain fatty acid biosynthesis,accumulated to greater than 50-fold in 10 d.p.a. fiber cellswhen compared to that in 0 d.p.a. ovules. Various upstream pathways,such as auxin signal transduction, the MAPK pathway and profilin-and expansin-induced cell wall loosening, were also activatedduring the fast fiber elongation period. This report constitutesthe first systematic analysis of genes involved in cotton fiberdevelopment. Our results suggest that a concerted mechanisminvolving multiple cellular pathways is responsible for cottonfiber elongation.

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