Banana, one of important fruits in economic in Taiwan, is a very typical climacteric fruit. It softens during ripening due to the first pectinesterase (PE) reaction and the subsequent polygalacturonase (PG) and cellulose actions. Many substances exhibiting PE inhibitory activity, PE inhibitor (PEI), in fruits and vegetables have been reported. In the present study, isolation and purification of banana PEI and its inhibition mechanisms on PEs were conducted using affinity gel chromatographies, ELISA, SDS-PAGE, and western blotting. Green banana with a peel color index (PCI) 1 were divided into low-temperature (10°C) storage group (for up to 18 days) and low-temperature room temperature (25 ± 2 °C) storage group (for 18 days first then 7 days at room temperature) to investigate the changes in PE and PEI activities. In room temperature storage group, PE activity was undetectable until on the14th day and it reached a maximum on the 16th day. In low-temperature storage group, PE activity was not detected and PEI activity decreased with the increasing storage days throughout the 18-day storage. PEI activity remains high during low-temperature storage for up to 18 days, while it was almost undetectable during room-temperature storage for the same period of time. Total phenol content in banana changed slightly during storage so as to be considered irrelevant to the PE activity change during ripening process. Pectate lyase (PAL) activity was detected in ripe banana. From which, two isozymes were isolated by high-methoxylated cross-linked alcohol insoluble-substance (CL-AIS) affinity column. PEI from water extract of green banana (PCI 1) by Sepharose CN-PE affinity chromatography was determined to be a polysaccharide, while PEI from extract of PCI 3 banana by the same chromatographic method was one single protein band with a molecular weight is 23.2 kDa with the aid of Western blotting analysis. It revealed that PEI in banana was in various forms and displayed PE inhibitory activity in different IV ripening processes. Competitive inhibition of banana PEI on both banana and citrus PEs were determined. Crude PEI powder from PCI 1 green banana was diluted to be 0-100µg/mL to detect and construct the calibration curve of ELISA value versus PEI activity to evaluate the PEI activity change during banana ripening. Results showed that PEI activity and concentration decreased with increasing storage period of time. Storage factors such as temperature strongly influenced the PEI activity.