Photosynthesis enhanced oxidative stress tolerance in high-yield rice varieties (Oryza sativa var. japonica L.) in the field

文献类型: 外文期刊

第一作者: Wei, X. D.

作者: Wei, X. D.;Jin, L.;Li, X.

作者机构:

关键词: Rice (Oryza sativa var. japonica L.);Photooxidation;Net photosynthetic rate;Yield component;Antioxidant enzyme

期刊名称:GENETICS AND MOLECULAR RESEARCH ( 影响因子:0.764; 五年影响因子:0.912 )

ISSN: 1676-5680

年卷期: 2016 年 15 卷 3 期

页码:

收录情况: SCI

摘要: The objective of this study was to understand varietal differences in photosynthetic characteristics, chlorophyll fluorescence, antioxidant capability, and yield of japonica rice varieties. Nanjing 44, Oryza sativa var. japonica (average yield of 12.7 t/ha), Nanjing 46, and Nanjing 5055 (average yields of 11.3 and 11.5 t/ha) were included as "super" and high-yield varieties, respectively, whereas Wuyunjing 7 (average yield of 10.2 t/ha) was included as a control variety. These varieties were grown under field conditions in Jiangsu Province, China, in 2010-2012. Different organs (panicle, grain, etc.) were measured, before and after flowering, to identify differences of dry matter accumulation and transformation properties. Photosynthesis, the chlorophyll content, and antioxidant enzyme activities of the flag leaf in the days after flowering (DAF) were also investigated. The results showed that, compared with the other three rice varieties, Nanjing 44 had the highest plant dry weight and number of grains per panicle. It also had a relatively high net flag leaf photosynthetic rate and showed the least inhibition of photosynthesis at noon in DAF, which probably explains the higher yield in this variety. Furthermore, Nanjing 44 also had the highest stem export and conversion rate from stem to grain, exhibiting a strong ability to convert and distribute photosynthetic products. After DAF 42, Nanjing 44 still maintained a high-soluble protein content and a high antioxidant ability in the leaves to clear peroxidation products, which could protect the photosynthetic apparatus of the flag leaves, and maintain the grain-filling activity for longer. The high-yield capability of Nanjing 44 was attributed to its photosynthetic advantages in the leaves during the late developmental stage.

分类号:

  • 相关文献

[1]Cultivar differences in photosynthetic tolerance to photooxidation and shading in rice (Oryza sativa L.). Jiao, DM,Li, X. 2001

[2]Waterlogging of cotton calls for caution with N fertilization. Guo, Wenqi,Zhou, Zhiguo,Chen, Binglin,Xu, Naiyin,Liu, Ruixian.

[3]Enriching an intraspecific genetic map and identifying QTL for fiber quality and yield component traits across multiple environments in Upland cotton (Gossypium hirsutum L.). Xueying Liu,Zhonghua Teng,Liu, Fang,Zhang, Zhengsheng,Jinxia Wang,Tiantian Wu,Zhiqin Zhang,Xianping Deng,Xiaomei Fang,Zhaoyun Tan,Iftikhar Ali,Dexin Liu,Jian Zhang,Dajun Liu,Fang Liu,Zhengsheng Zhang.

[4]Dissection of component QTL expression in yield formation in rice. Guo, LB,Xing, YZ,Mei, HW,Xu, CG,Shi, CH,Wu, P,Luo, LJ. 2005

[5]Influences of plant density on the seed yield and oil content of winter oilseed rape (Brassica napus L.). Zhang, Shujie,Liao, Xing,Zhang, Chunlei,Xu, Huajun. 2012

[6]Earthworms Increased Rape Seed Yield and Colza Oil. Zhang, Shu-jie,Liao, Xing,Hu, Xiao-jia,Yu, Chang-bing,Xie, Li-hua,Li, Yin-shui,Che, Zhi,Liao, Xiang-sheng. 2013

[7]Comparisons of plant-type characteristics and yield components in filial generations of Indica x Japonica crosses grown in different regions in China. Wang, Hetong,Xu, Hai,Liu, Tiansheng,Tang, Liang,Wang, Xiaoxue,Lang, Xidong,Xua, Zhengjin,Chen, Wenfu,Jin, Feng,Jiang, Yijun,Yang, Li,Li, Maobai,Sui, Ming.

[8]Relationship Among Yield Components and Selection Criteria for Yield Improvement in Early Rapeseed (Brassica napus L.). Lu Guang-yuan,Zheng Pu-ying,Cheng Yong,Liu Feng-lan,Fu Gui-ping,Zhang Xue-kun,Zhang Fang. 2011

[9]IMPROVING GRAIN YIELD AND YIELD COMPONENTS VIA BACKCROSS PROCEDURE. Chen, H. M.,Zhang, Y. D.,Chen, W.,Tan, J.,Wang, Y. F.,Yang, J. Y.,Fan, X. M.,Kang, M. S..

[10]Photosynthetic characteristics of transgenic rice plants overexpressing maize phosphoenopyruvate carboxylase. Chi, W,Jiao, DM,Huang, XQ,Li, X,Kuang, TY,Maurice, KSB. 2001

[11]Physiological basis of photosynthetic tolerance to photooxidation and shading in rice. Li, X,Jiao, DM. 2000

[12]Genetic analysis of tolerance to photo-oxidative stress induced by high light in winter wheat (Triticum aestivum L.). Li, Hongwei,Tong, Yiping,Li, Bin,Li, Zhensheng,Jing, Ruilian,Lu, Congming. 2010

[13]Variation of photosynthetic tolerance of rice cultivars (Oryza sativa L.) to chilling temperature in the light. Li, Xia,Cao, Kun,Wang, Chao,Sun, Zhi-wei,Yan, Lina. 2010

[14]Concentration-dependent photodegradation kinetics and hydroxyl-radical oxidation of phenicol antibiotics. Li, Kai,Zhao, Yuanfeng,Li, Kai,Zhang, Peng,Ge, Linke,Ren, Honglei,Yu, Chunyan,Chen, Xiaoyang. 2014

[15]Photocatalytic degradation of an odorous pollutant: 2-mercaptobenzothiazole in aqueous suspension using Nd3+-TiO2 catalysts. Li, FB,Li, XZ,Ng, KH.

[16]RNA-Seq Analysis of Differentially Expressed Genes in Rice under Photooxidation. Ma, J.,Zhang, B. -B.,Wang, F.,Sun, M. -M.,Shen, W. -J.,Gao, Z.,Chen, G. -X.,Lv, C..

[17]Preliminary Study on the Physiological Characteristics of Transgenic Wheat with Maize C-4-pepc Gene in Field Conditions. Han, L. L.,Han, L. L.,Xu, W. G.,Hu, L.,Li, Y.,Qi, X. L.,Zhang, J. H.,Zhang, H. F.,Wang, Y. X.. 2014

[18]Physiological Basis of Improved Performance of Super Rice (Oryza sativa) to Deep Placed Fertilizer with Precision Hill-drilling Machine. Kargbo, M. B.,Pan, Shenggang,Mo, Zhaowen,Tian, Hua,Hossain, Md. Faruque,Ashraf, Umair,Tang, Xiangru,Pan, Shenggang,Mo, Zhaowen,Tian, Hua,Ashraf, Umair,Tang, Xiangru,Kargbo, M. B.,Wang, Zaiman,Luo, Xiwen. 2016

[19]Photosynthetic characteristics in Oryza species. Zhao, M.,Ding, Z.,Lafitte, R.,Sacks, E.,Dimayuga, G.,Holt, D.. 2010

[20]Photosynthesis and chlorophyll fluorescence response to low sink demand of tubers and roots in Dahlia pinnata source leaves. Li, S. H.,Yan, S. T.,Yan, S. T.,Li, X. D.,Fan, P. G.,Duan, W.,Yan, S. T.,Li, W. D..

作者其他论文 更多>>
  • Effects of complex probiotics on intestinal function and its regulatory mechanism in patients with constipation

    作者:Zhang, X.;Li, X.;Wang, X.;Li, J.;An, Y.;Li, L.;Zhang, P.;Dong, X.;Ze, X.

    关键词:

  • Morpho-molecular characterization and pathogenicity of fungi associated with sweet cherry (Prunus avium) trunk diseases in China

    作者:Zhang, W.;Chen, P.;Zhou, Y.;Ji, S.;Li, X.;Abeywickrama, P. D.;Yan, J.;Zhou, Y.;Hyde, K. D.;Zhou, Y.;Hyde, K. D.;Hyde, K. D.;Hyde, K. D.

    关键词:Fungal taxonomy; Fusarium oxysporum species complex; Koch's postulates; Monilinia; Trunk diseases

  • DIFFERENCES IN NUTRIENT FUNCTIONAL COMPOSITION AMONG DIFFERENT TYPES OF GRAINS IN BARLEY (HORDEUM VULGARE L.) RECOMBINANT INBRED LINES

    作者:Yang, X.;Ahmed, H. G. M. D.;Pu, X.;Li, X.;Yang, L.;Yang, G.;Guan, X.;Tian, J.;Zeng, Y.;Ahmed, H. G. M. D.;Yang, L.;Guan, X.;Tian, J.;Iqbal, R.;Iqbal, R.;Akram, M. I.;Alwahibi, M.;Elshikh, M. S.

    关键词:barley; anthocyanin; amylose; beta-glucan; protein; correlation

  • Culture Optimization of Endophytic and Rhizosphere Bacteria and Exploration of Antifungal Substances

    作者:Sheng, Y.;Zhang, G.;Sheng, Y.;Li, X.;Yang, H.;Chu, M.;Wang, N.;Bao, H.;Zhan, F.;Yang, R.;Lou, K.;Shi, Y.;Sheng, Y.;Li, X.;Yang, H.;Chu, M.;Niu, X.;Wang, N.;Bao, H.;Zhan, F.;Yang, R.;Lou, K.;Shi, Y.;Li, X.;Niu, X.;Wang, N.;Shi, Y.;Niu, X.

    关键词:culture optimization; antifungal substances; verticillium dahlia; endophytic bacteria; rhizosphere bacteria

  • Phosphorylation promoted the glycolytic rate in postmortem meat by tightening the structure of glycogen phosphorylase

    作者:Bai, Y.;Li, X.;Ren, C.;Zheng, X.;Hou, C.;Chen, L.;Zhang, D.

    关键词:glycogen phosphorylase; protein phosphorylation; activity; protein structure simulation

  • Expression and self-assembly of virus-like particles from porcine parvovirus and its application in antibody detection

    作者:Li, Y.;Yue, W.;Li, X.;Chen, Y.;Gao, Y.;Li, Y.;Yue, W.;Li, X.;Chen, Y.;Gao, Y.;Wang, Q.

    关键词:porcine parvovirus; virus -like particles; indirect ELISA

  • Plant size, latitude, and phylogeny explain within-population variability in herbivory

    作者:Robinson, M. L.;Cinto Mejia, E.;Cope, O. L.;Dole, H. E.;Kalwajtys, M.;Lyon, N. J.;Zehr, L. N.;Wetzel, W. C.;Robinson, M. L.;Hahn, P. G.;Calixto, E. S.;Inouye, B. D.;Underwood, N.;Whitehead, S. R.;Florjancic, G. A.;Abbott, K. C.;Bruna, E. M.;Bruna, E. M.;Cacho, N. I.;Dyer, L. A.;Forister, M. L.;Pringle, E. G.;Salcido, D. M.;Yim, S.;Abdala-Roberts, L.;Quijano, T.;Allen, W. J.;Maia, L. F.;Andrade, J. F.;Santos, B. A.;Angulo, D. F.;Anjos, D.;Anstett, D. N.;Wetzel, W. C.;Anstett, D. N.;Martin, B. S.;Bagchi, R.;LaScaleia, M. C.;Bagchi, S.;Barbosa, M.;Cornelissen, T.;Fernandes, G. W.;Maia, R. A.;Pereira, C. C.;Barrett, S.;Baskett, C. A.;Ben-Simchon, E.;Segre, H.;Shelef, O.;Ben-Simchon, E.;Segre, H.;Bloodworth, K. J.;Koerner, S. E.;Komatsu, K. J.;Bronstein, J. L.;Luizzi, V. J.;Buckley, Y. M.;Finn, A.;Puy, J.;Burghardt, K. T.;McGurrin, K.;Bustos-Segura, C.;Grof-Tisza, P.;Rasmann, S.;Carvalho, R. L.;Castagneyrol, B.;Chiuffo, M. C.;Cinoglu, D.;Greig, K. A.;Mijango-Ramos, Z.;Morrison, C. R.;Cock, M. C.;Cogni, R.;Cope, O. L.;Cortez, D. R.;Smith, D. S.;Crowder, D. W.;Dallstream, C.;Dattilo, W.;Davis, J. K.;Poveda, K.;Schroeder, H.;Dimarco, R. D.;Dimarco, R. D.;Egbon, I. N.;Ejomah, A.;Uyi, O.;Eisenring, M.;Gossner, M. M.;Elderd, B. D.;Kluse, J.;Endara, M. -J.;Eubanks, M. D.;Helms, A. M.;Everingham, S. E.;Mannall, T. L.;Everingham, S. E.;Mills, C. H.;Moles, A. T.;Farah, K. N.;Fox, Q. N.;Penczykowski, R. M.;Farias, R. P.;Fernandes, A. P.;Fernandes, G. W.;Ferrante, M.;Lamelas-Lopez, L.;Ferrante, M.;Frago, E.;Franca, F. M.;Maia, L. F.;Franca, F. M.;Getman-Pickering, Z.;Gianoli, E.;Gooden, B.;Gossner, M. M.;Gripenberg, S.;Jackson, E. E.;Groenteman, R.;Haack, N.;Hahn, L.;Haq, S. M.;Hennecke, J.;Hennecke, J.;Rosche, C.;Hermann, S. L.;Kersch-Becker, M. F.;Tooker, J. F.;Holeski, L. M.;Holeski, L. M.;Holm, S.;Valtonen, A.;Holm, S.;Hutchinson, M. C.;Kagiya, S.;Utsumi, S.;Kalske, A.;Karban, R.;Rosenheim, L. Y.;Rosenheim, J. A.;Kariyat, R.;Keasar, T.;Kharouba, H. M.;Kim, T. N.;Kimuyu, D. M.;Komatsu, K. J.;Krishnan, S.;Krishnan, S.;Laihonen, M.;Lecomte, N.;Lecomte, N.;Lehn, C. R.;Li, X.;Lindroth, R. L.;LoPresti, E. F.;Losada, M.;Sobral, M.;Louthan, A. M.;Lynch, S. C.;Lynn, J. S.;Vandvik, V.;Lynn, J. S.;Martin, B. S.;Pan, V. S.;Zarnetske, P. L.;Wetzel, W. C.;Massad, T. J.;McCall, A. C.;Merwin, A. C.;Moore, C. M.;Moreira, X.;Moshobane, M. C.;Moshobane, M. C.;Muola, A.;Nakadai, R.;Nakajima, K.;Nakajima, K.;Novais, S.;Ogbebor, C. O.;Ohsaki, H.;Yamawo, A.;Pan, V. S.;Zarnetske, P. L.;Wetzel, W. C.;Pardikes, N. A.;Pareja, M.;Parthasarathy, N.;Paynter, Q.;Pearse, I. S.;Pepi, A. A.;Phartyal, S. S.;Piper, F. I.;Piper, F. I.;Piper, F. I.;Puy, J.;Quintero, C.;Sasal, Y.;Rosche, C.;Runyon, J. B.;Sadeh, A.;Segre, H.;Sakata, Y.;Salgado-Luarte, C.;Sapir, Y.;Sato, Y.;Sawant, M.;Schumann, I.;Segoli, M.;Shinohara, N.;Singh, R. P.;Stotz, G. C.;Tack, A. J. M.;van Dijk, L. J. A.;Tayal, M.;Torrico-Bazoberry, D.;Tougeron, K.;Tougeron, K.;Trowbridge, A. M.;Uyi, O.;Vaca-Uribe, J. L.;van Dijk, L. J. A.;Villellas, J.;Waller, L. P.;Weber, M. G.;Yamawo, A.;Zhong, Z.;Zhong, Z.;Wetzel, W. C.;Wetzel, W. C.

    关键词:

微信小程序