Analysis of resistant starch degradation in postharvest ripening of two banana cultivars: Focus on starch structure and amylases

文献类型: 外文期刊

第一作者: Gao, Huijun

作者: Gao, Huijun;Huang, Shaobo;Dong, Tao;Yang, Qiaosong;Yi, Ganjun

作者机构:

关键词: Starch;Cavendish and Plantain;Gene expression;Resistant starch;Scanning electron microscopy

期刊名称:POSTHARVEST BIOLOGY AND TECHNOLOGY ( 影响因子:5.537; 五年影响因子:5.821 )

ISSN:

年卷期:

页码:

收录情况: SCI

摘要: Bananas are well known as good sources of dietary energy, with high levels of sugar and starch. To further analyze the starch-degradation mechanism in bananas, two species, Cavendish and Plantain, were used to investigate the influences of hydrolases and granule structure on starch degradation. Determination of the levels of resistant starch (RS), non-resistant starch (non-RS), total starch, and amylose content showed that each starch component content decreased gradually during the fruit-ripening process in both Cavendish and Plantain. Compared to Cavendish, Plantain had a higher content of total starch and RS, a faster starch-degradation rate, and a lower decrease in the ratio of RS/total starch. Scanning electron microscopy (SEM) images revealed that the starch granules of Cavendish were larger and more rounded than the smaller and ellipsoidal starch granules found in Plantain. Also, the analysis of gene expression suggested that beta-amylases make a central contribution to starch degradation in both species and highly up-regulated beta-amylases were correlated with the faster starch-degradation rate in Plantain. Two alpha-amylases, one starch phosphorylase, and one starch debranching enzyme were specifically upregulated in Plantain, which might hydrolyse more non-RS compared with Cavendish. (C) 2016 Published by Elsevier B.V.

分类号: S3

  • 相关文献

[1]Fasted and postprandial response of serum physiological response, hepatic antioxidant abilities and HSP70 expression in Wuchang bream (Megalobrama amblycephala) fed different dietary carbohydrate levels. Zhou, Chuanpeng,Ge, Xianping,Liu, Bo,Xie, Jun,Chen, Ruli,Zhou, Chuanpeng. 2014

[2]Identification of QTLs for resistant starch and total alkaloid content in brown and polished rice. Zeng, Y. W.,Du, J.,Pu, X. Y.,Yang, S. M.,Yang, X. M.,Yang, T.,Sun, D.,Yang, J. Z.. 2016

[3]DNA fingerprint and determination of functional components for rice with diabetes prevention. Zeng, Yawen,Du, Juan,Pu, Xiaoying,Yang, Shuming,Yang, Tao. 2013

[4]Starch digestibility and the estimated glycemic score of different types of rice differing in amylose contents. Hu, PS,Zhao, HJ,Duan, ZY,Zhang, LL,Wu, DX. 2004

[5]The Zonal Characteristics and Cultivated Types Difference of Functional Components in Brown Rice for Core Collection of Yunnan Rice. Zeng Ya-wen,Du Juan,Yang Shu-ming,Pu Xiao-ying,Yang Tao,Zeng Ya-wen,Wang Yu-chen,Sun Zheng-hai,Xin Pei-yao. 2010

[6]Research on Resistant Starch Content of Rice Grain Based on NIR Spectroscopy Model. Luo Xi,Wu Fang-xi,Xie Hong-guang,Zhu Yong-sheng,Zhang Jian-fu,Xie Hua-an,Luo Xi,Wu Fang-xi,Xie Hong-guang,Zhu Yong-sheng,Zhang Jian-fu,Xie Hua-an,Luo Xi,Wu Fang-xi,Xie Hong-guang,Zhu Yong-sheng,Zhang Jian-fu,Xie Hua-an,Luo Xi,Wu Fang-xi,Xie Hong-guang,Zhu Yong-sheng,Zhang Jian-fu,Xie Hua-an. 2016

[7]Starch structure and digestibility of rice high in resistant starch. Shu, Xiaoli,Jiao, Guiai,Fitzgerald, Melissa A.,Yang, Chaozhu,Shu, Qingyao,Wu, Dianxing.

[8]In vitro measurement of resistant starch of cooked milled rice and physico-cheMical characteristics affecting its formation. Zhang, Wenwei,Bi, Jingcui,Yan, Xiaoyan,Wang, Hailian,Zhu, Changlan,Wang, Hankang,Wan, Jianmin. 2007

[9]A single amino acid mutation of OsSBEIIb contributes to resistant starch accumulation in rice. Yang, Ruifang,Bai, Jianjiang,Fang, Jun,Piao, Zhongze,Wang, Ying,Lee, Gangseob.

[10]Characterization and Prebiotic Effect of the Resistant Starch from Purple Sweet Potato. Zheng, Yafeng,Wang, Qi,Li, Baoyu,Lin, Liangmei,Zheng, Baodong,Xiao, Jianbo,Zheng, Yafeng,Li, Baoyu,Lin, Liangmei,Zheng, Baodong,Wang, Qi,Tundis, Rosa,Loizzo, Monica R..

[11]Genome-wide association study of the resistant starch content in rice grains. Bao, Jinsong,Xu, Feifei,He, Qiang,Park, Yong-Jin,Bao, Jinsong,Zhou, Xin,Xu, Feifei,Xu, Feifei,Park, Yong-Jin.

[12]Surface properties of walnut protein from AOT reverse micelles. Liu, Fenglan,Hu, Haifang,Sun, Yali,Wang, Xianchang,Zhao, Xiaoyan,Chen, Fengliang. 2014

[13]The ability of marine Bacillus spp. isolated from fish gastrointestinal tract and culture pond sediment to inhibit growth of aquatic pathogenic bacteria. Chen, Y.,Zhu, W.,Li, J.,Mo, Z.,Xiao, P.. 2016

[14]Evaluation of the antimicrobial activity of 9-oxo-agerophorone against soil borne pathogens. Ouyang, Canbin,Li, Yuan,Fang, Wensheng,Yan, Dongdong,Guo, Meixia,Cao, Aocheng,Wang, Qiuxia,Yang, Dongsheng.

[15]Preliminary Characterization of Clay Minerals from Four Typical Soils of Northeast China. Juan Ying-hua,Wu Zhi-jie,Chen Li-jun,Juan Ying-hua,Wang Ren,Gong Liang,Bao Hong-jing,Liu Yan. 2010

[16]Highly virulent Beauveria bassiana strains against the two-spotted spider mite, Tetranychus urticae, show no pathogenicity against five phytoseiid mite species. Xu, Xuenong,Lei, Zhongren,Xie, Haicui,Li, Maoye. 2016

[17]Primary identifications and palynological observations of Perilla in China. Hu, Yan,Sun, Li-Wei,Neo, Mokgolodi C.,Zhang, Yan-Xia,Liu, Yu-Jun,Hu, Yan,Wen, Chun-Xiu,Xie, Xiao-Liang. 2010

[18]Antennal sensilla of female Encarsia guadeloupae Viggiani (Hymenoptera: Aphelinidae), a nymphal parasitoid of the spiraling whitefly Aleurodicus dispersus (Hemiptera: Aleyrodidae). Zhou, Hui,Wu, Wei-Jian,Niu, Li-Ming,Fu, Yue-Guan. 2013

[19]Effects of external phosphorus on the cell ultrastructure and the chlorophyll content of maize under cadmium and zinc stress. Jiang, H. M.,Yang, J. C.,Zhang, J. F..

[20]Interactions between the entomopathogenic fungus Beauveria bassiana and the predatory mite Neoseiulus barkeri and biological control of their shared prey/host Frankliniella occidentalis. Gao, Yulin,Xu, Xuenong,Lei, Zhongren,Smagghe, Guy.

作者其他论文 更多>>

微信小程序