Plant immune resilience to a changing climate: molecular insights and biotechnological roadmaps [0.03%]
植物对气候变化的免疫韧性:分子见解与生物技术路线图
Christian Danve M Castroverde,Chi Kuan,Jong Hum Kim
Christian Danve M Castroverde
Successful resistance to disease-causing pathogens is underpinned by properly regulated immune signalling and defence responses in plants. The plant immune system is controlled at multiple levels of gene and protein regulation-from chromati...
Review
Genome. 2024 Nov 5. DOI:10.1139/gen-2024-0088 2024
A quick guide to the calcium-dependent protein kinase family in Brassica napus [0.03%]
油菜钙依赖型蛋白激酶家族简述
Virginia Natali Miguel,Jacqueline Monaghan
Virginia Natali Miguel
Brassica napus, commonly known as rapeseed or canola, is an economically valuable oilseed crop grown throughout Canada that currently faces several challenges due to industrial farming practices as well as a changing climate. Calcium-depend...
Review
Genome. 2024 Nov 5. DOI:10.1139/gen-2024-0053 2024
Maria C Burns,Lori Borgal
Maria C Burns
In mammals and Drosophila melanogaster, Asp/ASPM proteins contribute to cell proliferation and spindle formation. Recent evidence also suggests interphase roles for Asp/ASPM proteins, but little is known about the regulation allowing distin...
Review
Genome. 2024 Oct 29. DOI:10.1139/gen-2024-0111 2024
Mohsen Hesami,Marco Pepe,Ben Spitzer-Rimon et al.
Mohsen Hesami et al.
This review explores the challenges and potential solutions in plant micropropagation and biotechnology. While these techniques have proven successful for many species, certain plants or tissues are recalcitrant and do not respond as desire...
Review
Genome. 2024 Oct 29. DOI:10.1139/gen-2024-0098 2024
Andy Y Cheng,Andrew J Simmonds
Andy Y Cheng
Many cellular functions are compartmentalized within the optimized environments of organelles. However, processing or storage of metabolites from the same pathway can occur in multiple organelles. Thus, spatially separated organelles need t...
Review
Genome. 2024 Oct 29. DOI:10.1139/gen-2024-0082 2024
Comparative satellite DNA mapping in species of the genus Prochilodus (Teleostei, Characiformes) and its evolutionary implications [0.03%]
比较亲鱼属(硬骨鱼纲,鲤形目)物种的卫星DNA作图及其进化意义
Rodrigo Zeni Dos Santos,Caio Augusto Gomes Goes,José Henrique Forte Stornioli et al.
Rodrigo Zeni Dos Santos et al.
Satellite DNA (satDNA) sequences are dynamic components of the eukaryotic genome that can play significant roles in species diversification. The Prochilodontidae family, which includes 21 Neotropical fish species, is characterized by a cons...
Analysis of the winter oilseed rape recombination landscape suggests maternal-paternal bias [0.03%]
对冬油菜重组景观的分析表明母本-父本偏向性
Nayyer Abdollahi Sisi,Eva Herzog,Amine Abbadi et al.
Nayyer Abdollahi Sisi et al.
Recombination, the reciprocal exchange of DNA between homologous chromosomes, is a mandatory step necessary for meiosis progression. Crossovers between homologous chromosomes generate new combinations of alleles and maintain genetic diversi...
Mapping of quantitative trait loci (QTL) in Brassica napus L. for tolerance to water stress [0.03%]
油菜抗水分胁迫的定量 trait 位点(QTL)图谱分析
Samadhi B Jayarathna,Harmeet S Chawla,Mohammed M Mira et al.
Samadhi B Jayarathna et al.
Brassica napus L. plants are sensitive to water stress conditions throughout their life cycle from seed germination to seed setting. This study aims at identifying quantitative trait loci (QTL) linked to B. napus tolerance to water stress m...
Heat shock responsive genes in Brassicaceae: genome-wide identification, phylogeny, and evolutionary associations within and between genera [0.03%]
十字花科热休克响应基因的全基因组鉴定、系统发育及种间和种内进化关系分析
Aldrin Y Cantila,Sheng Chen,Kadambot H M Siddique et al.
Aldrin Y Cantila et al.
Heat stress affects the growth and development of Brassicaceae crops. Plant breeders aim to mitigate the effects of heat stress by selecting for heat stress tolerance, but the genes responsible for heat stress in Brassicaceae remain largely...
Association mapping identifies stable loci containing novel genes for developmental and reproductive traits in sorghum [0.03%]
基于关联群体发掘高产低生育期的高效基因位点
Hari D Upadhyaya,Lihua Wang,Andrew H Paterson et al.
Hari D Upadhyaya et al.
Key message We mapped 11 sorghum traits, identified 33 candidate genes, and found a grain yield gene (GID1) that regulates seed development and a grass-specific tillering gene (DUF1618) transferred to Striga hermonthica. ...