Crenomytilus grayanus lectin (CGL) was isolated from mussel and was unique on the phylogenic tree with no conservation to most identified lectin except MytiLec family. From structural analysis, CGL formed a stable β strand structure as dimer and had three glycan-binding sites on each monomer. Interestingly, CGL represented substrate multivalency toward galactose (Gal), N-acetyl galactosamine (GalNAc) and globotriose, thereby being regarded as a member of galactose-binding lectin family. In addition, a number of studies demonstrated that the changes of non-reducing end Gal/GalNAc antigens on the cell surface were highly associated with disease progression, blood cell aging, and platelet senescence. Therefore, the feature of CGL inspired us to develop a probe for detecting the dynamics of cell surface Gal/GalNAc that benefit the clinical diagnosis. In this report, we determined the pH stability and thermo-stability of CGL. The Tm value of CGL was 60 – 70℃ in the pH range of 6 – 9 and CGL became unstable with undetermined Tm at lower pH environment. However, the Tm can be measured in lower pH value while CGL had bound to galactose. On substrate specificity, CGL was found to recognize most glycans with galactose and galactose derivatives with C-2 modification exposed on the non-reducing end by glycan array except Galβ1-3GalNAc antigen (TF antigen) and most of Lewis glycans. CGL also failed to recognize the glycans with terminal sialic acid, glucose, N-acetyl glucosamine and mannose. With respect to the probe, we aimed to monitor the galactose by conjugating biotin or fluorescence on CGL through NHS-based linker. ESI-LC-MS/MS results and CGL structure confirmed that labeling sites were six lysines (Lys7, Lys13, Lys29, Lys55, Lys142 and Lys 144) on the surface of CGL which did not spatially interfere with substrate binding of CGL. Owing to the known structure of HeLa cell surface glycans, we tested the CGL probe to detect galactose that was exposed while the terminal sialic acid was removed. Indeed, we observed that the signal of CGL probe dramatically increased after neuraminidase treatment by using flow cytometry and enzyme-linked lectin assay (ELLA). These efforts provide well-characterized and facile manipulated CGL based probe and shed light on a precise diagnosis.