Abdelghany A M, Zhang S, Azam M, Shaibu A S, Feng Y, Li Y, Tian Y, Hong H, Li B, Sun J. 2020. Profiling of seed fatty acid composition in 1025 Chinese soybean accessions from diverse ecoregions. The Crop Journal, 8, 635–644.
Agyenim-Boateng K G, Zhang S, Islam S, Gu Y, Li B, Azam M, Abdelghany A M, Qi J, Ghosh S, Shaibu A S, Gebregziabher B S, Feng Y, Li J, Li Y, Zhang C, Qiu L, Liu Z, Liang Q, Sun J. 2022. Profiling of naturally occurring folates in a diverse soybean germplasm by HPLC-MS/MS. Food Chemistry, 384, 132520.
Ashokkumar K, Diapari M, Jha A B, Tar’an B, Arganosa G, Warkentin T D. 2015. Genetic diversity of nutritionally important carotenoids in 94 pea and 121 chickpea accessions. Journal of Food Composition and Analysis, 43, 49–60.
Azam M, Zhang S, Abdelghany A M, Shaibu A S, Feng Y, Li Y, Tian Y, Hong H, Li B, Sun J. 2020. Seed isoflavone profiling of 1168 soybean accessions from major growing ecoregions in China. Food Research International, 130, 108957.
Britz S J, Kremer D F, Kenworthy W J. 2008. Tocopherols in soybean seeds: Genetic variation and environmental effects in field-grown crops. Journal of the American Oil Chemists’ Society, 85, 931–936.
Brotosudarmo T H P, Limantara L, Chandra R D, Heriyanto. 2018. Chloroplast pigments: Structure, function, assembly and characterization. In: Ratnadewi D, Hamim H, eds., Plant Growth and Regulation – Alterations to Sustain Unfavorable Conditions. IntechOpen, London, UK. pp. 44–59.
Chatterjee C, Gleddie S, Xiao C W. 2018. Soybean bioactive peptides and their functional properties. Nutrients, 10, 1211.
Deng J C, Li X M, Xiao X L, Wu H J, Yang C Q, Long X Y, Zhang Q H, Iqbal N, Wang X C, Yong T W, Du J B, Yang F, Liu W G, Zhang J, Wu X L, Wu Y S, Yang W Y, Liu J. 2022. Field mold stress induced catabolism of storage reserves in soybean seed and the resulting deterioration of seed quality in the field. Journal of Integrative Agriculture, 21, 336–350.
Dias M G, Olmedilla-alonso B, Hornero-mendez D, Osorio C, Vargas-murga L, Meléndez-martínez A J. 2018. A comprehensive database of carotenoid contents in Ibero-American foods. A valuable tool in the context of functional foods and the establishment of recommended intakes of bioactive. Journal of Agricultural and Food Chemistry, 66, 5055–5107.
Dong Y S, Zhao L M, Liu B, Wang Z W, Jin Z Q, Sun H. 2004. The genetic diversity of cultivated soybean grown in China. Theoretical and Applied Genetics, 108, 931–936.
Dwivedi S L, Ceccarelli S, Blair M W, Upadhyaya H D, Are A K, Ortiz R. 2016. Landrace germplasm for improving yield and abiotic stress adaptation. Trends in Plant Science, 21, 31–42.
Ebert A W, Chang C H, Yan M R, Yang R Y. 2017. Nutritional composition of mungbean and soybean sprouts compared to their adult growth stage. Food Chemistry, 237, 15–22.
Fernández-marín B, Míguez F, Méndez-fernández L, Agut A, Becerril J M, García-Plazaola J I, Kranner I, Colville L. 2017. Seed carotenoid and tocochromanol composition of wild fabaceae species is shaped by phylogeny and ecological factors. Frontiers in Plant Science, 8, 1428.
Fernández-marín B, Milla R, Martín-Robles N, Arc E, Kranner I, Becerril J M, García-Plazaola J I. 2014. Side-effects of domestication: Cultivated legume seeds contain similar tocopherols and fatty acids but less carotenoids than their wild counterparts. BMC Plant Biology, 14, 1599.
Ferruzzi M G, Blakeslee J. 2007. Digestion, absorption, and cancer preventative activity of dietary chlorophyll derivatives. Nutrition Research, 27, 1–12.
Gálvez A P, Viera I, Roca M. 2020. Carotenoids and chlorophylls as antioxidants. Antioxidants, 9, 505.
Gebregziabher B S, Zhang S, Ghosh S, Shaibu A S, Azam M, Abdelghany A M, Qi J, Agyenim-Boateng K G, Htway H T P, Feng Y, Ma C, Li Y, Li J, Li B, Qiu L, Sun J. 2022. Origin, maturity group and seed coat color influence carotenoid and chlorophyll concentrations in soybean seeds. Plants, 11, 848.
Gebregziabher B S, Zhang S, Qi J, Azam M, Ghosh S, Feng Y, Huai Y, Li J, Li B, Sun J. 2021. Simultaneous determination of carotenoids and chlorophylls by the HPLC-UV-VIS method in soybean seeds. Agronomy, 11, 758.
Ghosh S, Zhang S, Azam M, Qi J, Abdelghany A M, Shaibu A S, Gebregziabher B S, Feng Y, Huai Y, Htway H T P, Agyenim-Boateng K G, Liu Y, Feng H, Li J, Song W, Li B, Sun J. 2021. Seed tocopherol assessment and geographical distribution of 1 151 Chinese soybean accessions from diverse ecoregions. Journal of Food Composition and Analysis, 100, 103932.
Guan R, Qu Y, Guo Y, Yu L, Liu Y, Jiang J, Chen J, Ren Y, Liu G, Tian L, Jin L, Liu Z, Hong H, Chang R, Gilliham M, Qiu L. 2014. Salinity tolerance in soybean is modulated by natural variation in GmSALT3. The Plant Journal, 80, 937–950.
Hirschberg J. 1999. Production of high-value compounds: Carotenoids and vitamin E. Current Opinion in Biotechnology, 10, 186–191.
Huang J, Guo N, Li Y, Sun J, Hu G, Zhang H, Li Y, Zhang X. 2016. Phenotypic evaluation and genetic dissection of resistance to Phytophthora sojae in the Chinese soybean mini core collection. BMC Genetics, 17, 85.
Kaga A, Shimizu T, Watanabe S, Tsubokura Y, Katayose Y, Harada K, Vaughan D A, Tomooka N. 2012. Evaluation of soybean germplasm conserved in NIAS genebank and development of mini core collections. Breeding Science, 61, 566–592.
Kan L, Nie S, Hu J, Wang S, Bai Z, Wang J, Zhou Y, Jiang J, Zeng Q, Song K. 2018. Comparative study on the chemical composition, anthocyanins, tocopherols and carotenoids of selected legumes. Food Chemistry, 260, 317–326.
Kanamaru K, Wang S, Abe J, Yamada T, Kitamura K. 2006. Identification and characterization of wild soybean (Glycine soja Sieb. Et Zecc.) strains with high lutein content. Breeding Science, 56, 231–234.
Kim M, Kim J K, Kim H J, Pak J H, Lee J, Kim D, Choi K, Jung H W, Lee J, Chung Y, Ha S. 2012. Genetic modification of the soybean to enhance the β-carotene content through seed-specific expression. PLoS ONE, 7, e48287.
Lee J, Hwang Y S, Kim S T, Yoon W B, Han W Y, Kang I K, Choung M G. 2017. Seed coat color and seed weight contribute differential responses of targeted metabolites in soybean seeds. Food Chemistry, 214, 248–258.
Lee J D, Shannon J G, So Y S, Sleper D A, Nelson R L, Lee J H, Choung M G. 2009. Environmental effects on lutein content and relationship of lutein and other seed components in soybean. Plant Breeding, 128, 97–100.
Li X, Wang K, Jia J. 2009. Genetic diversity and differentiation of Chinese wild soybean germplasm (G. soja Sieb. & Zuce.) in geographical scale revealed by SSR markers. Plant Breeding, 128, 658–664.
Li Y, Guan R, Liu Z, Ma Y, Wang L, Li L, Lin F, Luan W, Chen P, Yan Z, Guan Y, Zhu L, Ning X, Smulders M J M, Li W, Piao R, Cui Y, Yu Z, Guan M, Chang R, et al. 2008. Genetic structure and diversity of cultivated soybean (Glycine max (L.) Merr.) landraces in China. Theoretical and Applied Genetics, 117, 857–871.
Marles M A S, Warkentin D, Bett K E. 2012. Genotypic abundance of carotenoids and polyphenolics in the hull of field pea (Pisum sativum L.). Journal of the Science of Food and Agriculture, 93, 463–470.
Monma M, Ito M, Saito M, Chikuni K. 1994. Carotenoid components in soybean seeds varying with seed color and maturation stage. Bioscience, Biotechnology and Biochemistry, 58, 926–930.
Qi J, Zhang S, Azam M, Shaibu A S, Abdelghany A M, Feng Y, Huai Y, Feng H, Liu Y, Ma C, Gebregziabher B S, Ghosh S, Li J, Li B, Qiu L, Sun J. 2022. Profiling seed soluble sugar compositions in 1164 Chinese soybean accessions from major growing ecoregions. The Crop Journal, 10, 1825–1831.
Qiu L J, Chen P Y, Liu Z X, Li Y H, Guan R X, Wang L H, Chang R Z. 2011. The worldwide utilization of the Chinese soybean germplasm collection. Plant Genetic Resources- Characterization and Utilization, 9, 109–122.
Rao A V, Rao L G. 2007. Carotenoids and human health. Pharmacological Research, 55, 207–216.
Rezaei M K, Deokar A, Tar B. 2016. Identification and expression analysis of candidate genes involved in carotenoid biosynthesis in chickpea seeds. Fronteirs in Plant Science, 7, 1867.
Schoefs B. 2002. Chlorophyll and carotenoid analysis in food products. Properties of the pigments and methods of analysis. Trends in Food Science and Technology, 13, 361–371.
Seguin P, Tremblay G, Pageau D, Liu W, Turcotte P. 2011. Soybean lutein concentration: Impact of crop management and genotypes. Crop Science, 51, 1151–1160.
Singh B P, Yadav D, Vij S. 2019. Soybean bioactive molecules: Current trend and future prospective. In: Mérillon J M, Ramawat K G, eds., Bioactive Molecules in Food. Springer International Publishing, Cham. pp. 267–294.
Song W, Yang R, Wu T, Wu C, Sun S, Zhang S, Jiang B, Tian S, Liu X, Han T. 2016. Analyzing the effects of climate factors on soybean protein, oil contents, and composition by extensive and high-density sampling in China. Journal of Agricultural and Food Chemistry, 64, 4121–4130.
Song W, Yang R, Yang X, Sun S, Mentreddy S R, Jiang B, Wu T, Tian S, Sapey E, Wu C, Hou W, Ren G, Han T. 2018. Spatial differences in soybean bioactive components across China and their influence by weather factors. The Crop Journal, 6, 659–668.
Sun J, Sun B, Han F, Yan S, Yang H, Akio K. 2011. Rapid HPLC method for etermination of 12 isoflavone components in soybean seeds. Agricultural Sciences in China, 10, 70–77.
Teng W L, Feng W J, Zhang J Y, Xia N, Guo J, Li W, Wu D P, Zhao X, Han Y P. 2017. Identification of quantitative trait loci underlying lutein content in soybean seeds across multiple environments. Journal of Agricultural Science, 155, 1263–1271.
Wang L X, Lin F Y, Li L H, LI W, Yan Z, Luan W J, Piao R H, Guan Y, Ning X C, Zhu L, Ma Y S, Dong Z M, Zhang H Y, Zhang Y Q, Guan R X, Li Y H, Liu Z X, Chang R Z, Qiu L J. 2016. Genetic diversity center of cultivated soybean (Glycine max) in China - New insight and evidence for the diversity center of Chinese cultivated soybean. Journal of Integrative Agriculture, 15, 2481–2487.
Wang S, Kanamaru K, Li W, Abe J, Yamada T, Kitamura K. 2007. Simultaneous accumulation of high contents of α-tocopherol and lutein is possible in seeds of soybean (Glycine max (L.) Merr.). Breeding Science, 57, 297–304.
Whent M, Hao J, Slavin M, Zhou M, Song J, Kenworthy W I, Yu L L. 2009. Effect of genotype, environment, and their interaction on chemical composition and antioxidant properties of low-linolenic soybeans grown in Maryland. Journal of Agricultural and Food Chemistry, 57, 10163–10174.
Zhang B, Deng Z, Tang Y, Chen P, Liu R, Ramdath D D, Liu Q, Hernandez M, Tsao R. 2014. Fatty acid, carotenoid and tocopherol compositions of 20 Canadian lentil cultivars and synergistic contribution to antioxidant activities. Food Chemistry, 161, 296–304.
Zhang L X, Liu W, Tsegaw M, Xu X, Qi Y P, Sapey E, Liu L P, Wu T T, Sun S, Han T F. 2020. Principles and practices of the photo-thermal adaptability improvement in soybean. Journal of Integrative Agriculture, 19, 295–310.
Zhang J, Wang X, Lu Y, Bhusal S J, Song Q, Cregan P B, Yen Y, Brown M, Jiang G L. 2018. Genome-wide scan for seed composition provides insights into soybean quality improvement and the impacts of domestication and breeding. Molecular Plant, 11, 460–472.
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