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Journal Abstract Search

547 related items for PubMed ID: 26714321

  • 21. Genome-wide transcriptome analysis of female-sterile rice ovule shed light on its abortive mechanism.
    Yang L, Wu Y, Yu M, Mao B, Zhao B, Wang J.
    Planta; 2016 Nov; 244(5):1011-1028. PubMed ID: 27357232
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  • 22. Microarray analysis of gene expression involved in anther development in rice (Oryza sativa L.).
    Wang Z, Liang Y, Li C, Xu Y, Lan L, Zhao D, Chen C, Xu Z, Xue Y, Chong K.
    Plant Mol Biol; 2005 Jul; 58(5):721-37. PubMed ID: 16158245
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  • 23. Transcriptomic analyses of rice (Oryza sativa) genes and non-coding RNAs under nitrogen starvation using multiple omics technologies.
    Shin SY, Jeong JS, Lim JY, Kim T, Park JH, Kim JK, Shin C.
    BMC Genomics; 2018 Jul 13; 19(1):532. PubMed ID: 30005603
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  • 24. Comparative Transcriptomics of Rice Genotypes with Contrasting Responses to Nitrogen Stress Reveals Genes Influencing Nitrogen Uptake through the Regulation of Root Architecture.
    Subudhi PK, Garcia RS, Coronejo S, Tapia R.
    Int J Mol Sci; 2020 Aug 11; 21(16):. PubMed ID: 32796695
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  • 25. Genome-wide analysis of DNA polymorphisms, the methylome and transcriptome revealed that multiple factors are associated with low pollen fertility in autotetraploid rice.
    Li X, Yu H, Jiao Y, Shahid MQ, Wu J, Liu X.
    PLoS One; 2018 Aug 11; 13(8):e0201854. PubMed ID: 30080873
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  • 26. Identification of differentially expressed genes under heat stress conditions in rice (Oryza sativa L.).
    Wahab MMS, Akkareddy S, Shanthi P, Latha P.
    Mol Biol Rep; 2020 Mar 11; 47(3):1935-1948. PubMed ID: 32067160
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  • 27. Analysis of small RNAs revealed differential expressions during pollen and embryo sac development in autotetraploid rice.
    Li X, Shahid MQ, Xia J, Lu Z, Fang N, Wang L, Wu J, Chen Z, Liu X.
    BMC Genomics; 2017 Feb 06; 18(1):129. PubMed ID: 28166742
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  • 28. Heterosis analysis and underlying molecular regulatory mechanism in a wide-compatible neo-tetraploid rice line with long panicles.
    Ghaleb MAA, Li C, Shahid MQ, Yu H, Liang J, Chen R, Wu J, Liu X.
    BMC Plant Biol; 2020 Feb 21; 20(1):83. PubMed ID: 32085735
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  • 29. QTL-seq reveals genomic regions associated with spikelet fertility in response to a high temperature in rice (Oryza sativa L.).
    Nubankoh P, Wanchana S, Saensuk C, Ruanjaichon V, Cheabu S, Vanavichit A, Toojinda T, Malumpong C, Arikit S.
    Plant Cell Rep; 2020 Jan 21; 39(1):149-162. PubMed ID: 31570974
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  • 30. RNA-Seq and Electrical Penetration Graph Revealed the Role of Grh1-Mediated Activation of Defense Mechanisms towards Green Rice Leafhopper (Nephotettix cincticeps Uhler) Resistance in Rice (Oryza sativa L.).
    Kwon Y, Kabange NR, Lee JY, Seo BY, Shin D, Lee SM, Cha JK, Cho JH, Kang JW, Park DS, Ko JM, Lee JH.
    Int J Mol Sci; 2021 Oct 02; 22(19):. PubMed ID: 34639042
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  • 31. Comparative study on cytogenetics and transcriptome between diploid and autotetraploid rice hybrids harboring double neutral genes.
    Chen L, Guo H, Chen S, Yang H, Ghouri F, Shahid MQ.
    PLoS One; 2020 Oct 02; 15(9):e0239377. PubMed ID: 32986735
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  • 32. Comparative transcriptome and translatome analysis in contrasting rice genotypes reveals differential mRNA translation in salt-tolerant Pokkali under salt stress.
    Li YF, Zheng Y, Vemireddy LR, Panda SK, Jose S, Ranjan A, Panda P, Govindan G, Cui J, Wei K, Yaish MW, Naidoo GC, Sunkar R.
    BMC Genomics; 2018 Dec 31; 19(Suppl 10):935. PubMed ID: 30598105
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  • 33. Comparative Analysis of Proteomics and Transcriptomics during Fertility Transition in a Two-Line Hybrid Rice Line Wuxiang S.
    Chen H, Jin J, Zhang H, Wang Y, Li Q, Zou Y, Huang X, Zhou B, Zhou R, Ding Y.
    Int J Mol Sci; 2019 Sep 13; 20(18):. PubMed ID: 31540278
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  • 34. Transcriptomics profiling in response to cold stress in cultivated rice and weedy rice.
    Guan S, Xu Q, Ma D, Zhang W, Xu Z, Zhao M, Guo Z.
    Gene; 2019 Feb 15; 685():96-105. PubMed ID: 30389557
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  • 35. Integrated RNA-Seq Analysis and Meta-QTLs Mapping Provide Insights into Cold Stress Response in Rice Seedling Roots.
    Kong W, Zhang C, Qiang Y, Zhong H, Zhao G, Li Y.
    Int J Mol Sci; 2020 Jun 29; 21(13):. PubMed ID: 32610550
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  • 36. Comparative analysis of Cd-responsive maize and rice transcriptomes highlights Cd co-modulated orthologs.
    Cheng D, Tan M, Yu H, Li L, Zhu D, Chen Y, Jiang M.
    BMC Genomics; 2018 Sep 26; 19(1):709. PubMed ID: 30257650
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  • 37. Involvement of CAT in the detoxification of HT-induced ROS burst in rice anther and its relation to pollen fertility.
    Zhao Q, Zhou L, Liu J, Cao Z, Du X, Huang F, Pan G, Cheng F.
    Plant Cell Rep; 2018 May 26; 37(5):741-757. PubMed ID: 29464319
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  • 38. Circular RNA profiling of the rice photo-thermosensitive genic male sterile line Wuxiang S reveals circRNA involved in the fertility transition.
    Wang Y, Xiong Z, Li Q, Sun Y, Jin J, Chen H, Zou Y, Huang X, Ding Y.
    BMC Plant Biol; 2019 Aug 05; 19(1):340. PubMed ID: 31382873
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  • 39. Transcriptome and Gene Editing Analyses Reveal MOF1a Defect Alters the Expression of Genes Associated with Tapetum Development and Chromosome Behavior at Meiosis Stage Resulting in Low Pollen Fertility of Tetraploid Rice.
    Lu Z, Guo X, Huang Z, Xia J, Li X, Wu J, Yu H, Shahid MQ, Liu X.
    Int J Mol Sci; 2020 Oct 11; 21(20):. PubMed ID: 33050591
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  • 40. Comparative transcript profiling of alloplasmic male-sterile lines revealed altered gene expression related to pollen development in rice (Oryza sativa L.).
    Hu J, Chen G, Zhang H, Qian Q, Ding Y.
    BMC Plant Biol; 2016 Aug 05; 16(1):175. PubMed ID: 27496332
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