Abstract: The present disclosure discloses a calcium-based catalyst and a method for catalytically synthesizing an alkanolamide surfactant thereof, and belongs to the technical field of surfactant synthesis. In the present disclosure, the compounded calcium-based catalyst is prepared, and the calcium-based catalyst is utilized to catalyze reaction of fat and oil or fatty acid ester and alkanol amine to synthesize the alkanolamide surfactant with light color and less free alkanol amine, which facilitates application in daily chemicals.

Abstract: The disclosure discloses preparation and application of an alkylcyclohexanol polyoxyethylene ether emulsifier, and belongs to the technical field of surfactants. By performing ethylene oxide adducting on alkylcyclohexanol polyoxyethylene ether (1-3) and using a strong alkaline suspension dispersed in the solvent and alkylcyclohexanol polyoxyethylene ether (1-3) as a catalyst, nonionic surfactants alkylcyclohexanol polyoxyethylene ether (5-17) are synthesized. The products all have good characteristics of nonionic surfactants, and contain lower content of polyethylene. The products such as nonylcyclohexanol ethoxylate (7) and nonylcyclohexanol ethoxylate (9) have emulsifying properties similar to the emulsifying property of nonylphenol ethoxylate (10), and therefore can substitute for nonylphenol ethoxylate (10) as an emulsifier.

Abstract: The disclosure discloses a method to elevate the amount of steviol glycosides remained in the recrystallization mother liquor of Stevia extract, and belongs to the field of modification and extraction of natural compounds. The disclosure adopts lactase for highly specific catalytic hydrolysis of stevioside to convert stevioside into rubusoside which usually can only be obtained from leaves of Rubus suavissimus S. Lee; and meanwhile, after stevioside in the mother liquor glycosides is converted, since the polarity difference between rubusoside and rebaudioside A is far larger than the polarity difference between stevioside and rebaudioside A, rebaudioside A is more easily separated out of the mother liquor glycosides. A technology provided by the disclosure is also applicable to value increment of mixed steviol glycosides containing stevioside and is beneficial for separating out rebaudioside A from the mixed steviol glycosides.

Abstract: This disclosure concerns methods and compositions for identifying sunflower plants that have a low palmitic acid content phenotype. Some embodiments concern molecular markers to identify, select, and/or construct low palmitic acid content plants and germplasm, or to identify and counter-select relatively high palmitic acid content plants. This disclosure also concerns sunflower plants comprising a low palmitic acid content phenotype that are generated by methods utilizing at least one marker described herein.

Abstract: This disclosure concerns methods and compositions for identifying sunflower plants that have a low palmitic acid content phenotype. Some embodiments concern molecular markers to identify, select, and/or construct low palmitic acid content plants and germplasm, or to identify and counter-select relatively high palmitic acid content plants. This disclosure also concerns sunflower plants comprising a low palmitic acid content phenotype that are generated by methods utilizing at least one marker described herein.

Abstract: The present invention provides methods of marker-assisted selection for high oleic/low linolenic traits in canola and in other oil seed crop species, as well as isolated nucleic acids for use as molecular markers in such methods. In particular, molecular markers and Brassica nucleic acid corresponding to fad2 and fad3 gene mutations are disclosed. The markers of the present invention are highly useful for the direct selection of desirable fad2 and fad3 alleles during marker-assisted trait introgression and breeding. In one aspect of the embodiment, two single nucleotide polymorphism (SNP) markers are provided that correspond to the alleles. Thus, the present invention advantageously permits one of skill in the art to breed for the molecular markers described herein, or derivatives thereof, rather than breeding for a high oleic/low linolenic phenotype.

Abstract: The present invention provides methods of marker-assisted selection for high oleic/low linolenic traits in canola and in other oil seed crop species, as well as isolated nucleic acids for use as molecular markers in such methods. In particular, molecular markers and Brassica nucleic acid corresponding to fad2 and fad3 gene mutations are disclosed. The markers of the present invention are highly useful for the direct selection of desirable fad2 and fad3 alleles during marker-assisted trait introgression and breeding. In one aspect of the embodiment, two single nucleotide polymorphism (SNP) markers are provided that correspond to the alleles. Thus, the present invention advantageously permits one of skill in the art to breed for the molecular markers described herein, or derivatives thereof, rather than breeding for a high oleic/low linolenic phenotype.

Abstract: The present invention provides methods of marker-assisted selection for high oleic/low linolenic traits in canola and in other oil seed crop species, as well as isolated nucleic acids for use as molecular markers in such methods. In particular, molecular markers and Brassica nucleic acid corresponding to fad2 and fad3 gene mutations are disclosed. The markers of the present invention are highly useful for the direct selection of desirable fad2 and fad3 alleles during marker-assisted trait introgression and breeding. In one aspect of the embodiment, two single nucleotide polymorphism (SNP) markers are provided that correspond to the alleles. Thus, the present invention advantageously permits one of skill in the art to breed for the molecular markers described herein, or derivatives thereof, rather than breeding for a high oleic/low linolenic phenotype.

Abstract: This disclosure concerns methods and compositions for identifying sunflower plants that have a low palmitic acid content phenotype. Some embodiments concern molecular markers to identify, select, and/or construct low palmitic acid content plants and germplasm, or to identify and counter-select relatively high palmitic acid content plants. This disclosure also concerns sunflower plants comprising a low palmitic acid content phenotype that are generated by methods utilizing at least one marker described herein.

Abstract: The present invention provides methods of marker assisted selection for high oleic/low linolenic traits in canola and in other oil seed crop species, as well as isolated nucleic acids for use as molecular markers in such methods. In particular, molecular markers and Brassica nucleic acid corresponding to fad2 and fad3 gene mutations are disclosed. The markers of the present invention are highly useful for the direct selection of desirable fad2 and fad3 alleles during marker-assisted trait introgression and breeding. In a one aspect of the embodiment, two single nucleotide polymorphism (SNP) markers are provided which correspond to the alleles. Thus, the present invention advantageously permits one of skill in the art to breed for the molecular markers described herein, or derivatives thereof, rather than breeding for a high oleic/low linolenic phenotype.