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Genomes of Meniocus linifolius and Tetracme quadricornis reveal the ancestral karyotype and genomic features of core Brassicaceae
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作者 Jie Liu Shi-zhao Zhou +13 位作者 Yun-Long Liu Bin-Yan zhao Dongmei Yu Mi-Cai Zhong Xiao-Dong Jiang Wei-Hua Cui jiu-xia zhao Juan Qiu Liang-Min Liu Zhen-Hua Guo Hong-Tao Li Dun-Yan Tan Jin-Yong Hu De-Zhu Li 《Plant Communications》 SCIE CSCD 2024年第7期68-89,共22页
Brassicaceae represents an important plant family from both a scientific and economic perspective.However,genomic features related to the early diversification of this family have not been fully characterized,especial... Brassicaceae represents an important plant family from both a scientific and economic perspective.However,genomic features related to the early diversification of this family have not been fully characterized,especially upon the uplift of the Tibetan Plateau,which was followed by increasing aridity in the Asian interior,intensifying monsoons in Eastern Asia,and significantly fluctuating daily temperatures.Here,we reveal the genomic architecture that accompanied early Brassicaceae diversification by analyzing two high-quality chromosome-level genomes for Meniocus linifolius(Arabodae;clade D)and Tetracme quadricornis(Hesperodae;clade E),together with genomes representing all major Brassicaceae clades and the basal Aethionemeae.We reconstructed an ancestral core Brassicaceae karyotype(CBK)containing 9 pseudochromosomes with 65 conserved syntenic genomic blocks and identified 9702 conserved genes in Brassicaceae.We detected pervasive conflicting phylogenomic signals accompanied by widespread ancient hybridization events,which correlate well with the early divergence of core Brassicaceae.We identified a successive Brassicaceae-specific expansion of the class I TREHALOSE-6-PHOSPHATE SYNTHASE 1(TPS1)gene family,which encodes enzymes with essential regulatory roles in flowering time and embryo development.The TPS1s were mainly randomly amplified,followed by expression divergence.Our results provide fresh insights into historical genomic features coupled with Brassicaceae evolution and offer a potential model for broad-scale studies of adaptive radiation under an ever-changing environment. 展开更多
关键词 CRUCIFERAE genomic features ancient hybridization core Brassicaceae karyotype CBK TREHALOSE-6-PHOSPHATE SYNTHASE 1 genes TPS1s
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