https://www.selleckchem.com/products/gsk2636771.html Antarctic krill protein (AKP) was extracted from Antarctic krill by an alkali dissolution-isoelectric precipitation method and then it was phosphorylated with sodium tripolyphosphate. The phosphorylated Antarctic krill protein (P-AKP) powder was obtained by spray-drying (SD), freeze-drying (FD), and hot-air drying (AD), and the effects of these drying methods on the structures and functional properties of proteins were investigated. The P-AKP powder dried by SD had the best sensory performance, and its particle size was much smaller than that of FD and AD. Scanning electron microscope displayed a uniform particle size of SD powder and the particles were uniformly dispersed. X-ray diffraction analysis showed a higher crystallinity of SD sample than AD and FD. Differential scanning calorimeter analysis revealed that SD sample had the best thermal stability and less protein denaturation (ΔH = 210.80 J/g), followed by FD (ΔH = 80.48 J/g) and AD (ΔH = 73.94 J/g; P less then 0.05). Fourier transform infrared shows production of P-AKP powders with better functionalities. This research can provide theoretical guidance for the further processing and utilization of P-AKP, and offer technical reference for food processing and preservation.There have been ongoing debates as to how, or even whether, we should clinically classify gender diversity in children through clinical classification manuals. So-called 'depathologizing' is argued as being vital to address the stigma that these children are somehow disordered or sick. Yet one argument in favour of continued clinical classification for transgender and gender non-conforming children is that it better facilitates access to specialist psychological support. I argue that whilst continued clinical classification offers a seemingly pragmatic solution to ensuring access, it does in fact obscure our understanding of the individual needs of these children. In this paper I address fu