QQCWB

GV

Three Chromosome-Scale Papaver Genomes Reveal Punctuated

Di: Ava

该成果以“三个染色体级别罂粟属物种基因组揭示吗啡喃及那可丁合成通路的跳跃式演化”(Three chromosome-scale Papaver genomes reveal punctuated patchwork evolution

Papaver Somniferum L Subsp Album

Frontiers | A de novo chromosome-scale assembly of the Lablab purpureus ...

Source data underlying a are provided as a Source Data file. from publication: Three chromosome-scale Papaver genomes reveal punctuated patchwork evolution of the morphinan 该成果以“三个染色体级别罂粟属物种基因组揭示吗啡喃及那可丁合成通路的跳跃式演化”(Three chromosome-scale Papaver genomes reveal punctuated patchwork evolution Three chromosome-scale Papaver genomes reveal punctuated patchwork evolution of the morphinan and noscapine biosynthesis pathway. Nat Commun. 2021 Oct 15;12

These high-quality, chromosome-scale genome assemblies represent a valuable resource for studying the early evolutionary his-tory of eudicots and the evolution of morphinan biosynthesis. With three chromosome-scale Papaver genome assemblies, we here reveal whole-genome duplications (WGDs) apparently accelerate chromosomal rearrangements with

In addition, comparison among three Papaver genomes, between ancestral eudicot karyotype (AEK)47 and each Papaver genome, as well as between Vitis vinifera46 and each Papaver The evolution of pathway involves recruiting new genes along the reaction cascade forwardly, backwardly, or in a patchwork manner. With three chromosome-scale Papaver genome Three chromosome-scale Papaver genomes reveal punctuated patchwork evolution of the morphinan and noscapine biosynthesis pathway Article Open access 15

‪Xi’an Jiaotong University‬ – ‪‪Cited by 321‬‬ – ‪centromere‬ – ‪chromosome rearrangement‬ – ‪bioinformatics‬ – ‪evolution‬ PDF | On Apr 19, 2023, Ren-Gang Zhang and others published Subgenome-aware analyses suggest a reticulate allopolyploidization origin in three Papaver genomes | Find, read and cite

Three chromosome-scale Papaver genomes reveal

Three chromosome-scale Papaver genomes reveal punctuated patchwork evolution of the morphinan and noscapine biosynthesis pathway. Nature Communications, 12 (1), 6030.

Source data are provided as a Source Data file. from publication: Three chromosome-scale Papaver genomes reveal punctuated patchwork evolution of the morphinan and noscapine The filtered, sorted and scaled bam files were converted to the bigwig format for visualization using the BAMscale with default parameters (Pongor et al., 2020). Genome browser images Three chromosome-scale Papaver genomes reveal punctuated patchwork evolution of the morphinan and noscapine biosynthesis pathway

With three chromosome-scale Papaver genome assemblies, we here reveal whole-genome dupli- cations (WGDs) apparently accelerate chromosomal rearrangements with a nonrandom Three chromosome-scale Papaver genomes reveal punctuated patchwork evolution of the morphinan and noscapine biosynthesis pathway. Nat The evolution of pathway involves recruiting new genes along the reaction cascade forwardly, backwardly, or in a patchwork manner. With three chromosome-scale Papaver genome

The evolution of pathway involves recruiting new genes along the reaction cascade forwardly, backwardly, or in a patchwork manner. With three chromosome-scale Papaver genome

(PDF) Reply to “Subgenome-aware analyses suggest a reticulate ...

The evolution of pathway involves recruiting new genes along the reaction cascade forwardly, backwardly, or in a patchwork manner. With three chromosome-scale

Three chromosome-scale Papaver genomes reveal punctuated patchwork evolution of the morphinan and noscapine biosynthesis pathway Article Full-text available Oct 2021

BioProject DetailHome Browse PRJNA720042Project Data

Yang X*, Gao S*, Guo L *, Wang B, Jia Y, Zhou J, Che Y, Jia P, Lin J, Xu T, Sun J, Ye K #. (2021) Three chromosome-scale Papaver genomes reveal punctuated patchwork evolution of the Three chromosome-scale Papaver genomes reveal punctuated patchwork evolution of the morphinan and noscapine biosynthesis pathway

Three chromosome-scale Papaver genomes reveal punctuated patchwork evolution of the morphinan and noscapine biosynthesis pathway 相关领域 爸爸 基因复制 生物 BioProject DetailHome Browse PRJCA004217Project Data Yang X*, Gao S*, Guo L*, Wang B, Jia Y, Zhou J, Che Y, Jia P, Lin J, Xu T, Sun J, Ye K #. (2021) Three chromosome-scale Papaver genomes reveal punctuated patchwork evolution of the

‪Professor, Institute of Advanced Agricultural Sciences, Peking University‬ – ‪‪引用次数:2,784 次‬‬ – ‪Plant Genomics‬ – ‪Plant Pathology‬ – ‪Fungal Pathogenomics‬ – ‪Evolutionary Genomics‬

The evolution of pathway involves recruiting new genes along the reaction cascade forwardly, backwardly, or in a patchwork manner. With three chromosome-scale Papaver genome Recent chromosome-scale genomes from prominent medicinal plants have provided unprecedented insight into the architecture and evolution of some prominent metabolic

The evolution of pathway involves recruiting new genes along the reaction cascade forwardly, backwardly, or in a patchwork manner. With three chromosome-scale Papaver genome With three chromosome-scale Papaver genome assemblies, we here reveal whole-genome duplications (WGDs) apparently accelerate chromosomal rearrangements with a nonrandom

The evolution of pathway involves recruiting new genes along the reaction cascade forwardly, backwardly, or in a patchwork manner. With three chromosome-scale Papaver genome 该成果以“三个染色体级别罂粟属物种基因组揭示吗啡喃及那可丁合成通路的跳跃式演化”(Three chromosome-scale Papaver genomes reveal punctuated patchwork evolution of the morphinan

Three chromosome-scale Papaver genomes reveal punctuated patchwork evolution of the morphinan and noscapine biosynthesis pathway. For millions of years, plants evolve plenty of The evolution of pathway involves recruiting new genes along the reaction cascade forwardly, backwardly, or in a patchwork manner. With three chromosome-scale Papaver genome Source data underlying b–e are provided as a Source Data file. from publication: Three chromosome-scale Papaver genomes reveal

The genus Papaver (Papaveraceae) contains many taxa used in the pharmaceutical and culinary industries and as ornamental plants 2. Yang et al. assembled de