Genetic mapping of novel QTL for seed protein stability in food-grade soybean (Glycine max) [0.03%]
食用大豆(Glycine max)中提高种子蛋白稳定性的新QTL的遗传定位
Andrew A Mitchell,Feng Lin,Heng Ye et al.
Andrew A Mitchell et al.
Two novel quantitative trait loci associated with soybean protein content stability were identified on chromosomes 10 and 18. Haplotype analysis showed these to significantly improve stability without protein content penalty. Soybean seed p...
Breeding progress of grain and forage maize in long-term variety trials compared to on-farm yield development [0.03%]
长期品种试验中粮用和饲用玉米的育种进展及其与农场产量发展的比较研究
F Laidig,T Feike,H Brandes et al.
F Laidig et al.
Yield gaps between variety trials and on-farm yields show diverging trends for grain versus forage maize in Germany in 1987-2023. The yield gap between variety trials and on-farm reduced for grain yield from 30% (1987) to 23% (2023), while ...
OsGSTT3 regulates seed germination by modulating reactive oxygen species homeostasis in rice [0.03%]
OsGSTT3通过调节水稻活性氧稳态调控种子萌发
Yunyi Wen,Yanjin Zhou,Mingyang Ding et al.
Yunyi Wen et al.
The glutathione S-transferase family gene OsGSTT3 in rice regulates seed germination by modulating reactive oxygen species (ROS) homeostasis. The relative expression levels of ROS scavenging-related genes were changed. Seed germination is a...
Map-based cloning and functional validation of ClChlH governing yellow rind color in watermelon (Citrullus lanatus) [0.03%]
基于图谱的克隆及功能验证调控黄果皮性状的黄瓜基因ClChlH在西瓜中的作用
Yongjiao Meng,Qiangqiang Ding,Li Jia et al.
Yongjiao Meng et al.
Map-based cloning and gene editing confirmed that ClChlH was the causal gene controlling yellow rind color in watermelon. Fruit rind color is a crucial agronomic trait influencing the commercial quality of watermelon (Citrullus lanatus). Al...
Correction: Fine mapping of the dominant female sterility gene and novel model of hybrid seed production in cabbage (Brassica oleracea L. var. capitata) [0.03%]
纠正文章:甘蓝显性雌性不育基因的精细定位及杂交种子生产的新型制种模式
Wenjing Ren,Jinchao Si,Jiamin Li et al.
Wenjing Ren et al.
Nested association mapping in oat (Avena sativa L.) identifies the location of multiple genes conferring resistance to the crown rust pathogen Puccinia coronata f. sp. avenae [0.03%]
燕麦(普通燕麦L.)的嵌套关联作图发现多个抗冠锈病(Puccinia coronata f. sp. avenae)基因的位置
Jessica Argenta,Laura Ziems,Jeremy Roake et al.
Jessica Argenta et al.
Oat crown rust, caused by the fungus Puccinia coronata f. sp. avenae (Pca), is the most destructive foliar pathogen of oat. Almost 100 genes conferring resistance to Pca have been cataloged. However, only limited genes have been mapped, and...
Fine mapping, introgression, and KASP marker development for powdery mildew resistance in watermelon using an interspecific RIL population (Citrullus mucosospermus × C. lanatus) [0.03%]
基于花皮毛瓜(Citrullus mucosospermus×普通西瓜(C. lanatus))的渗入系群体的白粉病抗性基因精细定位、染色体区间 introgression 和 KASP 分子标记开发
Rahul Kumar,Jennifer Ikerd,Raghupathy Karthikeyan et al.
Rahul Kumar et al.
A major QTL conferring powdery mildew resistance was fine mapped to a 54.8 kb region on chromosome 2 using an interspecific RIL population (Citrullus mucosospermus × Citrullus lanatus). Four co-segregating KASP markers were developed and v...
Map-based cloning identifies a missense SNP in CsTRX z, encoding a z-type thioredoxin homolog, as the genetic determinant of Dominant Virescent Leaf in cucumber [0.03%]
基于图谱的克隆技术鉴定出CsTRXz错义SNP为黄瓜Dominant Virescent Leaf基因型决定因子
Yuqing Zhou,Lei Zhang,Hanqiang Liu et al.
Yuqing Zhou et al.
A missense SNP G → A mutation in the z-type thioredoxin-coding gene CsTRX z (CsDVL) reveals its pivotal regulatory function in chloroplast development, chlorophyll homeostasis, and low-temperature-sensitive photosynthetic regulation, with ...
BS-D275: A novel locus on the chromosome arm 2DS governing branched spike development in wheat [0.03%]
小麦染色体臂2DS上的一个新的控制枝梗发育的基因位点BS-D275
Yunfeng Qu,Yongkang Ren,Jinghuang Hu et al.
Yunfeng Qu et al.
BS-D275, a new locus on chromosome arm 2DS, is genetically independent of WFZP-2D and controls branched spike architecture in common wheat (Triticum aestivum). Branched spikes enhance wheat yield potential by increasing grain number. We ide...
Low-call-rate SNPs and presence-absence variation identified in the rice pan-genome can improve genomic prediction of rice gene bank accessions [0.03%]
低变异率的SNP和水稻基因组中的存在-缺失变异可提高基因库存样品的基因型预测精度
Lukas Krusenbaum,Matthias Wissuwa
Lukas Krusenbaum
Substantial improvements in genomic prediction accuracy for rice gene bank accessions were achieved by incorporating SNPs of low call rate identified in a recently published rice pan-genome. Introduction of useful genetic variation to breed...