aBIOTECH | 2022-2024年『植物育种』主题精选

文摘 2024-09-10 16:04 北京

本期精选 aBIOTECH 2022-2024年发表的『植物育种』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。

The evolution of China's regulation of agricultural biotechnology

Jingang Liang, Xiaowei Yang, Yue Jiao, Danxia Wang, Qiang Zhao, Yu Sun, Yunhe Li & Kongming Wu

Fig. 1 Biosafety regulatory framework for GMOs in China

Construction of homozygous diploid potato through maternal haploid induction

Jinzhe Zhang, Jian Yin, Jiayi Luo, Die Tang, Xijian Zhu, Jie Wang, Zhihong Liu, Pei Wang, Yu Zhong, Chenxu Liu, Canhui Li, Shaojiang Chen & Sanwen Huang

Fig. 1 Construction of homozygous diploid potato via stdmp-based maternal haploid induction

In maize, co-expression of GAT and GR79-EPSPS provides high glyphosate resistance, along with low glyphosate residues

郎志宏团队成功培育高耐草甘膦低残留玉米

Shengyan Li, Pengcheng Li, Xiangyin Li, Ning Wen, Yinxiao Wang, Wei Lu, Min Lin & Zhihong Lang

Fig. 1 Construction of the plant expression cassette, molecular detection, and glyphosate screening of the transgenic maize plants

Generating homozygous mutant populations of barley microspores by ethyl methanesulfonate treatment

上海市农科院生物所与中国农科院作科所利用小孢子技术创制大麦纯合诱变群体

Linli Huang, Guangqi Gao, Congcong Jiang, Guimei Guo, Qiang He, Yingjie Zong, Chenghong Liu & Ping Yang

Fig. 1 Pipeline used to produce homozygous mutants by microspore culture

Weed genomics: yielding insights into the genetics of weedy traits for crop improvement

中外科学家聚焦杂草基因组及其育种利用研究进展

Yujie Huang, Dongya Wu, Zhaofeng Huang, Xiangyu Li, Aldo Merotto Jr, Lianyang Bai & Longjiang Fan

Fig. 1 List of weed species sequenced and their phylogenetic relationships

Constitutive basis of root system architecture: uncovering a promising trait for breeding nutrient- and drought-resilient crops

Leon Kochian教授解析培育营养—抗旱性能兼顾作物的根系结构基础

Zhigang Liu, Tongfei Qin, Michaella Atienza, Yang Zhao, Hanh Nguyen, Huajin Sheng, Toluwase Olukayode, Hao Song, Karim Panjvani, Jurandir Magalhaes, William J. Lucas & Leon V. Kochian

Fig. 1 Schematic representation of root system architectures representing topsoil based and deep rooting systems

Innovations in functional genomics and molecular breeding of pea: exploring advances and opportunities

程时锋-豌豆功能基因组与分子育种研究进展与展望

Baizhi Chen, Yan Shi, Yuchen Sun, Lu Lu, Luyao Wang, Zijian Liu & Shifeng Cheng

Fig. 1 Genes related to plant architecture in pea

Co-expression of GR79 EPSPS and GAT generates high glyphosate-resistant alfalfa with low glyphosate residues

中国农科院创制高抗低残留耐草甘膦紫花苜蓿新种质

Yingying Meng, Wenwen Zhang, Zhaoming Wang, Feng Yuan, Sandui Guo, Hao Lin & Lifang Niu

Fig. 1 Transgenic alfalfa plants, co-expressing pGR79 EPSPS-pGAT, exhibit high herbicide-resistant and low glyphosate residues

Unlikely heroes on the long and winding road to potato inbreeding

漫长曲折马铃薯育种路上的平凡英雄

Luca Comai

Fig. 1 Purging of deleterious alleles

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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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aBIOTECH 定位于国际高影响力学术期刊，报道内容聚焦植物生物技术、农业科学及其交叉领域最新研究成果。