Developing a pipeline for identification, characterization and molecular editing of cis-regulatory elements: a case study in potato [0.03%]
用于识别、特征描述和编辑顺式调控元件的流程开发:以马铃薯为例
Min Wan,Handan Xie,Hongwei Guo et al.
Min Wan et al.
Crop breeding requires a balance of tradeoffs among key agronomic traits caused by gene pleiotropy. The molecular manipulation of genes can effectively improve target traits, but this may not reduce gene pleiotropy, potentially leading to u...
Correction: Inference and prioritization of tissue-specific regulons in Arabidopsis and Oryza [0.03%]
纠正:阿拉伯芥和水稻中组织特异性调控区的推断及优先级排序
Honggang Dai,Yaxin Fan,Yichao Mei et al.
Honggang Dai et al.
[This corrects the article DOI: 10.1007/s42994-024-00176-2.]. © The Authors 2024.
Published Erratum
aBIOTECH. 2024 Dec 19;6(1):139. DOI:10.1007/s42994-024-00191-3 2024
Atypical RXLR effectors are involved in Phytophthora cactorum pathogenesis [0.03%]
非典型RXLR效应子参与了Phytophthora cactorum的致病过程
Zeyang Zheng,Juanjuan Liu,Wenzhong You et al.
Zeyang Zheng et al.
RXLR effectors are pathogenic factors secreted from oomycetes to manipulate the immunity of the host. Typical RXLR effectors contain an RXLR-dEER motif at the N-terminus, whereas atypical RXLRs show variations on this motif. The oomycete Ph...
A 6.49-Mb inversion associated with the purple embryo spot trait in potato [0.03%]
与土豆紫色胚乳性状相关的6.49Mb倒位序列
Pei Wang,Lin Cheng,Jun Pan et al.
Pei Wang et al.
The embryo spot trait leads to a deep purple or reddish coloration at the base of the cotyledons of the embryo, visible on both sides of flat potato (Solanum tuberosum) seeds. This trait has long been used by potato researchers and breeders...
Development of an RNA virus vector for non-transgenic genome editing in tobacco and generation of berberine bridge enzyme-like mutants with reduced nicotine content [0.03%]
烟草非转基因基因组编辑的RNA病毒载体的开发及低尼古丁含量的苯甲醚桥酶样突变体的产生
Haiying Xiang,Binhuan Chen,Shuo Wang et al.
Haiying Xiang et al.
Tobacco (Nicotiana tabacum) plants synthesize the psychoactive pyridine alkaloid nicotine, which has sparked growing interest in reducing nicotine levels through genome editing aiming at inactivating key biosynthetic genes. Although stable ...
Correction: Characterization and functional analysis of gerbera plant defensin (PDF) genes reveal the role of GhPDF2.4 in defense against the root rot pathogen Phytophthora cryptogea [0.03%]
订正:向日葵植物防御素(PDF)基因的鉴定及功能分析揭示了GhPDF2.4抗根腐病菌生理小杆疫霉的作用
Chunzhen Cheng,Huan Wu,Yongyan Zhang
Chunzhen Cheng
[This corrects the article DOI: 10.1007/s42994-024-00146-8.]. © The Author(s) 2024.
Published Erratum
aBIOTECH. 2024 Aug 26;5(4):520. DOI:10.1007/s42994-024-00179-z 2024
Establishment of a genome-editing system to create fragrant germplasm in sweet sorghum [0.03%]
建立甜高粱香型种质的基因编辑体系
Zixiang Cheng,Ke Li,Hongxiu Liu et al.
Zixiang Cheng et al.
Sorghum, the fifth largest global cereal crop, comprises various types, such as grain, sweet, forage, and biomass sorghum, delineated by their designated end uses. Among these, sweet sorghum (Sorghum bicolor (L.) Moench) stands out for its ...
Impact of database choice and confidence score on the performance of taxonomic classification using Kraken2 [0.03%]
数据库选择和置信分数对使用Kraken2进行分类学分类性能的影响
Yunlong Liu,Morteza H Ghaffari,Tao Ma et al.
Yunlong Liu et al.
Accurate taxonomic classification is essential to understanding microbial diversity and function through metagenomic sequencing. However, this task is complicated by the vast variety of microbial genomes and the computational limitations of...
Prime editing enables precise genome modification of a Populus hybrid [0.03%]
prime编辑能够实现杨树杂种的精准基因组改造
Jinpeng Zou,Yuhong Li,Kejian Wang et al.
Jinpeng Zou et al.
CRISPR/Cas-based genome editing has been extensively employed in the breeding and genetic improvement of trees, yet precise editing remains challenging in these species. Prime editing (PE), a revolutionary technology for precise editing, al...
Correction: The RUBY reporter for visual selection in soybean genome editing [0.03%]
关于视觉选择报告因子RUBY的更正:大豆基因组编辑中的视觉选择报告因子
Li Chen,Yupeng Cai,Xiaoqian Liu et al.
Li Chen et al.
[This corrects the article DOI: 10.1007/s42994-024-00148-6.]. © The Authors 2024.
Published Erratum
aBIOTECH. 2024 Oct 2;5(4):519. DOI:10.1007/s42994-024-00156-6 2024