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Genetics of resistance to Sesamia inferens infestation and its correlation with yield in maize 
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下载免费PDF全文 Javaji C. Sekhar Chikkappa G. Karjagi Bhupender Kumar Sujay Rakshit Lakshmi Soujanya Pradyumn Kumar Krishan P. Singh Appavoo Dhandapani Sain Dass Ramanujam S. Kumar 《Plant Breeding》2015,134(4):394-399
Sesamia inferens (Walker) causes 25.7–78.9% losses in maize production in South and South‐East Asia. The genetic basis of host plant resistance is the prerequisite for resistance breeding. Twenty‐four populations derived from S. inferens resistant × susceptible inbreds were used to study the genetic regulation of resistance to S. inferens in maize, to determine the importance of genetic effects through generation mean analysis (GMA) and to understand correlation between resistance and yield. Resistant and susceptible inbreds differed significantly in leaf and stem injury ratings (LSIR), a measure of host plant resistance. Mean LSIR range among resistant and susceptible parents was 2.15–2.55 and 7.83–8.22, respectively. The broad‐sense heritability ranged from 0.40 to 0.71, and the mean number of effective factors ranged from 1.9 to 2.6. The resistance against S. inferens was largely governed by additive × additive (i), followed by dominance (d) and additive (a) gene effects. Significant negative correlation (?0.27 to ?0.96) was observed between LSIR and yield. The findings suggest reciprocal recurrent selection for development of new inbreds with resistance followed by their involvement in hybrid development to exploit additive and non‐additive gene effects/variance. 相似文献
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Thota Soujanya Srinivas Prasad Madamsetty Sandeep G Vipparthi Hemalatha Yamini K N Edukondalu Bandela Hari Prasad A S Meenakshi Sundaram Raman Revathi Ponnuswamy 《Plant Breeding》2023,142(3):300-311
Hybrid rice technology offers a great promise to produce 15% to 20% more yield than pure line varieties. The success of hybrid rice hinges on developing superior parental lines. To improve the blast resistance of hybrid rice parental line RP5933-1-19-2R, crosses were made with donors of two major blast resistance genes namely, Pi54 (Tetep) and Pi9 (IR71033–121-15) and the resulting F1s were confirmed for their hybridity by using Pi54MAS and NMSMPi9-1 genic markers. The confirmed F1s were intercrossed to obtain ICF1s and selected positive plants by markers were backcrossed to the recurrent parent, as well as selfed for advancing further to BC1F3 and ICF4 generations. The segregating plants were phenotyped for blast resistance at Uniform Blast Nursery. The identified complete restorers namely, RP 6619-1, RP 6616-26, RP 6619-3 and RP 6619-11 with Pi9 and Pi54 genes would serve as donors for broad spectrum blast resistance. This could ultimately lead to the development of new rice hybrids with improved resistance to blast disease, which is crucial for sustainable rice production and food security. 相似文献
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Jampala SN Manolache S Gunasekaran S Denes FS 《Journal of agricultural and food chemistry》2005,53(9):3618-3625
The structure and rheological properties of xanthan gum (XG) modified in a cold plasma environment were investigated. XG was functionalized in a capacitively coupled 13.56-MHz radio frequency dichlorosilane (DS)-plasma conditions and, consecutively, in situ aminated by ethylenediamine. The surface structure of modified XG was evaluated on the basis of survey and high-resolution ESCA, FTIR, and fluorescence labeling techniques. The types of species generated in DS-plasma were reported using residual gas analysis (RGA). The aqueous solutions of modified XG were cross-linked and cured at room temperature to form stable gels. The dynamic rheological characteristics of virgin XG and functionalized and cross-linked XG were compared. It was found that parameters such as plasma treatment time and concentration of solutions can be optimized to form stable gels of XG. Thus, cold plasma technology is a novel, efficient, and nonenzymatic route to modify XG. 相似文献
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P. Lakshmi Soujanya J. C. Sekhar Chikkappa G. Karjagi V. Vidhyadhari S. B. Suby N. Sunil D. Sreelatha DharamPaul Chaudhary 《Phytoparasitica》2017,45(4):485-499
Study was carried out to evaluate the effect of time of harvest on field carry over infestation of rice weevil Sitophilus oryzae L. in maize. The maize ears were harvested at three different stages namely early harvest- i.e. just before physiological maturity (stage 1), timely harvest i.e. at physiological maturity (stage 2) and late harvest i.e. around ten days after physiological maturity (stage 3). The harvested maize ears were dried, shelled and stored separately over a period of 150 days. The emergence of F1 progeny of S. oryzae were significantly higher in late harvest maize (37.51) while relatively lower number in timely (27.09) harvest and lowest number in early harvest maize (14.47) were observed. The interaction effects between different stages of harvest × genotype, genotype × storage duration, different stages of harvest × storage duration, different stages of harvest × storage duration × genotype on F1 progeny emergence were found significant. Similarly, maize ears harvested at early and timely period, showed significantly lower weight losses as compared to late harvest maize. The mean per cent weight loss recorded at 90 and 150 days after storage were 0.66 and 2.24; 1.21 and 5.19; 2.24 and 6.33 in early, timely and delayed harvest maize kernels, respectively. The F1 progeny emergence was significantly and positively correlated with stage of harvest (r=0.4435). Also significant and positive correlations were found between weight loss and storage duration (r=0.3280). The kernel hardness was found significant negative correlation with progeny emergence and weight loss. The results indicated that physical and biochemical traits are also responsible for varying levels of resistance to S. oryzae. Use of cultural practices such as timely harvest of maize is one of the most promising approaches for efficient in minimization of field carry- over infestation of S. oryzae. 相似文献
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