aBIOTECH | 最新上线『生物固氮』主题精选
本期精选 aBIOTECH 最新上线的『生物固氮』相关文章,点击文章题目可以下载全文,欢迎学者们阅读、转发。
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Harnessing omics to decode the mechanisms of symbiotic nitrogen fixation
aBIOTECH | 黄三文团队综述组学技术解码共生固氮机制
Keyi Ye, Jianshu Zheng, Zhaonian Dong, Shuaishuai Wang & Sanwen Huang
Fig.1 Applications of omics in symbiotic nitrogen fixation research
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Enacting partner specificity in legume–rhizobia symbioses
aBIOTECH | 豆科共生新视界:解析豆科植物与根瘤菌特异性互作的遗传与分子机制
Xiaocheng Yu & Hongyan Zhu
Fig.2 Factors influencing nitrogen fixation specificity in the legume–rhizobial symbiosis
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aBIOTECH | 董江丽团队利用CRISPR/Cas9技术构建截形苜蓿G蛋白突变体并揭示其生物学功能
Fanghao Sun, Fugui Zhu, Shasha Ran, Qinyi Ye, Tao Wang & Jiangli Dong
Fig.8 Summary of traits affected by MtGα1 and MtGβ1 in M. truncatula
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Applying conventional and cell-type-specific CRISPR/Cas9 genome editing in legume plants
aBIOTECH | Jeremy Murray/许萍综述CRISPR/Cas9基因编辑技术在豆科植物共生固氮中的应用
Jin-Peng Gao, Yangyang Su, Suyu Jiang, Wenjie Liang, Zhijun Lou, Florian Frugier, Ping Xu & Jeremy D. Murray
Fig.1 Advantages of cell-type-specific CRISPR in legume genome editing
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aBIOTECH评述 | 保持饥饿:促进共生固氮,创制灵活应对根际氮波动的豆科作物
Lijin Qiao, Jieshun Lin, Takuya Suzaki & Pengbo Liang
Fig.1 Models for the systemic and local regulation of nodulation and nodule senescence
Editors-in-Chief:
Prof. Sanwen Huang
Prof. William John Lucas
IF 4.6(2024年6月发布)
Indexed in EI, ESCI, PubMed Central, SCOPUS, CSCD, Google Scholar, CNKI, Dimensions...
The aims of aBIOTECH are two-fold: First to publish seminal articles that focus the relevant research communities to achieve development of superior agroecosystems, globally. Next, to foster national and international engagement, including business, politics, and society, to build an understanding of modern agrobiotechnology/genomics-empowered strategies, which can ensure the availability of adequate nutritious foods to feed the growing global population.
Relevant topics include, but are not limited to, the followings:
TRANSGENE, GENOME EDITING TECHNOLOGIES & APPLICATIONS: Advanced transgene or genome editing technologies or methodologies; applications of transgene or genome editing in genetic improvement of agriculturally important traits, which otherwise are impossible by conventional breeding; commercialization of modified or gene-edited crops/livestock for agricultural production; safety and regulatory affairs/policies.METABOLIC ENGINEERING: Synthesis of bioactive natural products, including study of their metabolic networks and functions, using both genetic and synthetic biology approaches.TECHNOLOGIES FOR DISEASE CONTROL: Developmental, physiological, biochemical, and technological studies, and innovative strategies relevant to disease control in crop or livestock production systems.GENOMICS & BREEDING: Genome, pan-genome, and metagenome studies, multi-omics data mining approaches, intelligent design breeding theory, approaches, and practice, and innovative analytical/bioinformatics tools/methods, with potential to advance crop and livestock breeding programs.ROOT-SOIL-MICROBIOME AGROECOSYSTEMS: Targeted breeding and engineering of essential root biology and associated microbiome traits directed to enhance crop performance under sub-optimal soil abiotic and/or biotic conditions.
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