In recent years, with the dramatically advance of the next generation sequencing (NGS), the sequencing cost and the time required for experiments and analysis have been largely saved. Thus, completely sequencing new organisms become popular and universal. Recently, many assembly algorithms have been developed. In addition, the demands of automated gene annotation and the analysis of genome and transcriptome data are urgently desired. This study is divided into two parts. The first part is concerning the comparison of different assembly tools. In this research, the Bactrocera dorsalis short reads were assembled sing three well-known assembly tools. After that, we aligned the assembled sequences with 20 Bactrocera dorsalis complete mRNA sequences from NCBI and the protein sequences of Drosophila melanogaster, the closet model species that can be found currently. The advantages and disadvantages of assembly tools were discussed by evaluating the quality of assembled sequences. The second part is the analysis of assembled sequences. In this part, we assembled the short reads from three different conditions with respect insecticide: sensitive, resistant, and recovered, respectively. In the end, this study characterizes the assembled sequences in terms of Gene Ontology (GO), differentially expressed genes (DEGs), enzyme prediction, and single nucleotide mutation.