Salmonella enterica is one of the pathogenic bacteria that cause the worldwide food-borne desease. One strain, Salmonella Typhimurium LT2, its genome has been sequenced with a similarity to Escherichia coli. Salmonella enterica is more toxicity in mice than in human, and it can be used for an epidemiological study of human pathogens. However, Salmonella Typhimurium LT2, itself, can be used as a model microorganism for its physiological study. Methionine is an essential amino acid for the bacteria, and in the methionine biosynthesis, the last step was modulated by MetE, which is a key enzyme in this biosynthetic pathway. Here, a set of deletion mutations in metE leader sequences were made; using Western blotting and the assays of β-galactosidase acitivity to analyze metE gene expression. In addition, we also tested whether it is related to the regulation of riboswitch or is controlled by small RNA FnrS. Our results showed that a metE 5’ untranslated region with bp +30 to +68 deletion causes the metE gene expression decrease. Therefore, metE 5’ untranslated region is necessary for its gene expsresion, and this decrease is not affected by repressor MetJ. Howerer, the mechanism was different from the riboswitch of Bacillus clause. In addition, we also found that Hfq and FnrS are related to metE expression, and an v overexpression of FnrS inhibits the metE expression. The distortion of any secondary structure of fnrS or metE gene, has an effect on the expression of metE. Through our study, the regulation of Salmonella enterica metE gene were extensively studied and it would be very helpful for understanding of the regulation of other gene expression, which have a similar regulatory mechanism.