Abstract: The purpose of the present invention is to provide a method for producing active GcMAF more simply and at a high yield. The present invention is a method for producing active GcMAF comprising a step for culturing host cells which are transfected with a VDBP expression vector in serum-free medium. This culture is preferably a suspension culture. In addition, this method for producing active GcMAF is also characterized by not requiring an enzyme treatment step for deglycosylation.

Abstract: The present invention provides a lithium manganese-based composite oxide represented by the compositional formula: Li1+x(Mn1-m-nFemTin)1?xO2, wherein 0<x<?, 0?m?0.75, 0.01?n?0.75, and 0.01?m+n<1, and comprising a crystal phase of layered rock-salt type structure. The composite oxide is capable of maintaining an average discharge voltage of 3 V or more over long charge/discharge cycles. The composite oxide can be prepared using lower-cost starting materials, and exhibits improved charge/discharge characteristics over conventional low-cost positive electrode materials.

Abstract: The present invention provides a lithium manganese-based composite oxide represented by the compositional formula: Li1+x(Mnl-m-nFemTin)1-xO2, wherein 0<x<?, 0?m?0.75, 0.01?n?0.75, and 0.01?m+n<1, and comprising a crystal phase of layered rock-salt type structure. The composite oxide is capable of maintaining an average discharge voltage of 3 V or more over long charge/discharge cycles. The composite oxide can be prepared using lower-cost starting materials, and exhibits improved charge/discharge characteristics over conventional low-cost positive electrode materials.