中文摘要：

细胞分裂素几乎参与调控了植物生活周期中所有的生长发育过程，细胞分裂素氧化／脱氢酶（CKX）是降解细胞分裂素的关键酶。本研究采用同源克隆结合文库筛选的方法，分离得到普通小麦的TaCKX2基因（与水稻OsCKX11直向同源），针对基因序列开发出SSR标记TaCKX2_SSR，使用缺体-四体和RILs群体将TaCKX2定位于7B、7D染色体。分离得到的TaCKX2基因及其作图信息将为今后进行小麦CKX基因的功能研究以及小麦重要农艺性状的遗传改良奠定基础。

英文摘要：

Phytohormone cytokinin （CK） has been shown to influence various aspects of plant growth and developmental events including shoot and root branching, leaf development, the release of buds from apical dominance, the delay of senescence, the promotion of seed germination, and chloroplast formation. Cytokinin oxidase/dehydrogenases （CKX） catalyze the irreversible degradation of the cytokinins isopentenyladenine, zeatin, and their ribosides in a single enzymatic step by cleavage of the unsaturated N^6-isoprenoid side chains. This enzyme probably plays the principal role in controlling CK levels in plant tissues. So it is conceivable that genetic manipulation of CKX improves agricultural traits, such as yield attributes or adaptation to environmental stress in crops. In the present work, a novel gene that encodes cytokinin oxidase/ dehydrogenase （ TaCKX2 ） was cloned from hexaploid wheat （ Triticum aestivum） through the homologous cloning method, and a SSR marker for TaCKX2 was developed according to 3＇-UTR sequence of TaCKX2. Sequence analysis showed that the complete ORF of TaCKX2 was 1 554 bp, and encodes a putative protein composed of 517 amino acids. Sequence alignment proved TaCKX2 shared the highest homology with rice OsCKX11 （85.3% cDNA sequence identity） instead of OsCKX6 as previously reported. A series of ‘Chinese Spring＇ nulli-tetrasomic stocks were employed to ascertain the chromosomal location of TaCKX2, the result showed that TaCKX2 was on wheat chromosome 7B and 7D. Using a population of 199 recombinant inbred lines from the cross Yanzhanl × Neixiang188, TaCKX2 was mapped between SSR markers Wmc316 and Wmc276 on chromosome 7B, and the map distance was 26.7 cM and 6.9 cM respectively. Sequence alignment, structure analysis, and comparative mapping all showed that TaCKX2 was highly homologous to OsCKXll in rice. From the closely evolutionary relationship of orthologous CKX genes, we considered that CKX genes may be very conservative in cereals.