Pseudaminic acid (Pse) belongs to the family of sugars called nonulosonic acids and has known for participating in pathogenic process of bacteria, including suppression of host immune response. Currently, Pse has been found on the exopolysaccharide (EPS) of Acinetobacter baumannii that commonly caused nosocomial infection with multiple antibiotic resistance, resulting in global health threat. In the clinical study, Pse was possibly acting as a virulence factor associated with biofilm formation and antibiotic therapy. Patients infected by Ab with Pse might have higher mortality than Ab without Pse. Therefore, the requirement of a probe that can detect the Pse on the bacterial surface is urgent. In our previous study, Pse was found on the EPS of A. baumannii strain 54149 (Ab-54149) and displayed the significant antigenicity toward Ab-54149 EPS derived glycoconjugate boosted serum as a candidate of probe. Here, we purified the antibody from boosted serum and then was conjugated with fluorophore Dylight-488 through an NHS-based linker for detection. Upon Ab-54149 treatment, the linear relationship between the fluorescence intensity and the OD value indicated the feasibility of the strategy. Moreover, this probe enables to detect the surface Pse on not only other A. baumannii clinical strains but also Enterobacter cloacae. This Pse probe is cost-effective with slight technical restriction, leading to wide usage compared to the conventional method. These efforts benefit the early diagnosis in the clinic that patients might be treated by antibiotics timely.