Electrophoresis is one of the most important electrokinetic phenomena in the region of colloidal science and has been applied to small devices such as biosensors, drug delivery, and DNA sequencing recently. Therefore, a more thorough analysis to mimic the electrophoretic behaviors of biocolloids is necessary. In this study, the assumption of soft particle is adopted, which is widely used to simulate the behaviors of bio-particles. In addition, we assume the porous layer is charge-regulated and the liquid phase of the system contains multiple ionic species, making the problem considered here is closer to reality. Focusing on the electrophoretic behavior of this study, boundary effect, variations of the functional groups density, background concentration, and the thickness of membrane are utilized to discuss. We also discover the nature of self-induced nonuniform surface charge density for a zwitterionic particle, the influences of the nonuniform charge density and the types of background electrolyte are discussed. This research not only provides reasonable explanations behind special observation in experiments but possibly predicts extraordinary phenomena in future studies.