This study investigates the properties of high-purity starches extracted from Polygonum multiflorum(PMS)and Smilax glabra(SGS).The starches were characterized by scanning electron microscopy,Fouriertransform infrared ...This study investigates the properties of high-purity starches extracted from Polygonum multiflorum(PMS)and Smilax glabra(SGS).The starches were characterized by scanning electron microscopy,Fouriertransform infrared spectroscopy,X-ray diffraction,high-performance anion-exchange chromatography,and differential scanning calorimetry.Significant differences were observed in their morphological,physicochemical,and functional properties.PMS had a smaller particle size(13.68 μm),irregular polygonal shape,A-type,lower water absorption(62.67 %),and higher oil absorption(51.17 %).In contrast,SGS exhibited larger particles(31.75 μm),a nearly spherical shape,B-type,higher crystallinity(50.66 %),and greater amylose content(21.54 %),with superior thermal stability,shear resistance,and gelatinization enthalpy.SGS also contained higher resistant starch(83.28 %) and longer average chain length(20.58 %),but showed lower solubility,swelling power,light transmittance,and freeze-thaw stability.The physicochemical properties differences in crystal pattern and particle morphology between PMS and SGS lead to distinct behaviors during in vitro digestion and fermentation.These findings highlight the potential of medicinal plant starches in functional ingredients and industrial processes.展开更多
Millets,nutrient-rich grains packed with complex carbohydrates,dietary fiber,essential proteins,lipids,and antioxidant phytochemicals,are gaining recognition as valuable dietary components.Various processing technique...Millets,nutrient-rich grains packed with complex carbohydrates,dietary fiber,essential proteins,lipids,and antioxidant phytochemicals,are gaining recognition as valuable dietary components.Various processing techniques,including roasting,extrusion,germination,and hydrothermal treatment,have been employed to enhance nutritional bioavailability and consumer appeal.These processing,which involves the application of heat and moisture,induces specific transformations in millet components.Starch undergoes gelatinization,a process in which its crystalline structure is disrupted,leading to increased digestibility and viscosity.Proteins undergo denaturation,altering their structure and potentially improving their digestibility and functionality.Lipids may also undergo modifications,impacting their stability and interactions with other food components.These changes facilitate the release of bioactive compounds such as phenolics,flavonoids,and tannins.These processes effectively reduce anti-nutritional factors,further boosting nutrient availability.This review provides a comprehensive analysis of various hydrothermal methods,including steaming and heat-moisture treatment,and critically evaluates their impact on the physicochemical properties,nutritional profile,and potential health benefits of millet.Steaming,a gentler method involves cooking millet in a steamer basket above boiling water,preserving its delicate texture and nutty flavor while still promoting starch gelatinization and nutrient retention.Heat-moisture treatment,a more specialized technique,involves exposing millet to elevated temperatures and controlled moisture levels,inducing specific changes in starch properties without causing complete gelatinization.This review examines how hydrothermal methods affect the nutritional and functional properties of millet to inspire the development of innovative,nutritious millet-based food products.展开更多
基金supported by the National Natural Science Foundation of China (No.82174074)。
文摘This study investigates the properties of high-purity starches extracted from Polygonum multiflorum(PMS)and Smilax glabra(SGS).The starches were characterized by scanning electron microscopy,Fouriertransform infrared spectroscopy,X-ray diffraction,high-performance anion-exchange chromatography,and differential scanning calorimetry.Significant differences were observed in their morphological,physicochemical,and functional properties.PMS had a smaller particle size(13.68 μm),irregular polygonal shape,A-type,lower water absorption(62.67 %),and higher oil absorption(51.17 %).In contrast,SGS exhibited larger particles(31.75 μm),a nearly spherical shape,B-type,higher crystallinity(50.66 %),and greater amylose content(21.54 %),with superior thermal stability,shear resistance,and gelatinization enthalpy.SGS also contained higher resistant starch(83.28 %) and longer average chain length(20.58 %),but showed lower solubility,swelling power,light transmittance,and freeze-thaw stability.The physicochemical properties differences in crystal pattern and particle morphology between PMS and SGS lead to distinct behaviors during in vitro digestion and fermentation.These findings highlight the potential of medicinal plant starches in functional ingredients and industrial processes.
基金the Indian Council of Agriculture Research,All India Coordinated Research Project on Postharvest Engineering and Technology(ICAR-AICRP on PHET)Chaudhary Charan Singh Haryana Agricultural University,Hisar,for providing technical and financial support for the research.
文摘Millets,nutrient-rich grains packed with complex carbohydrates,dietary fiber,essential proteins,lipids,and antioxidant phytochemicals,are gaining recognition as valuable dietary components.Various processing techniques,including roasting,extrusion,germination,and hydrothermal treatment,have been employed to enhance nutritional bioavailability and consumer appeal.These processing,which involves the application of heat and moisture,induces specific transformations in millet components.Starch undergoes gelatinization,a process in which its crystalline structure is disrupted,leading to increased digestibility and viscosity.Proteins undergo denaturation,altering their structure and potentially improving their digestibility and functionality.Lipids may also undergo modifications,impacting their stability and interactions with other food components.These changes facilitate the release of bioactive compounds such as phenolics,flavonoids,and tannins.These processes effectively reduce anti-nutritional factors,further boosting nutrient availability.This review provides a comprehensive analysis of various hydrothermal methods,including steaming and heat-moisture treatment,and critically evaluates their impact on the physicochemical properties,nutritional profile,and potential health benefits of millet.Steaming,a gentler method involves cooking millet in a steamer basket above boiling water,preserving its delicate texture and nutty flavor while still promoting starch gelatinization and nutrient retention.Heat-moisture treatment,a more specialized technique,involves exposing millet to elevated temperatures and controlled moisture levels,inducing specific changes in starch properties without causing complete gelatinization.This review examines how hydrothermal methods affect the nutritional and functional properties of millet to inspire the development of innovative,nutritious millet-based food products.
