triploblastic animals
三胚層動物
triploblastic organisms
三胚層生物
triploblastic development
三胚層發育
triploblastic embryos
三胚層胚胎
triploblastic phyla
三胚層門類
most triploblasts
大多數三胚層生物
triploblastic symmetry
三胚層對稱性
triploblastic body plan
三胚層體型規劃
triploblastic lineage
三胚層演化支
becoming triploblastic
成為三胚層
triploblastic animals possess three primary germ layers that give rise to all body tissues and organs.
三胚層動物具有三個主要的生殖層,這些層會形成所有身體組織和器官。
the evolution of triploblastic organisms marked a significant advancement in animal complexity.
三胚層生物的演化標誌著動物複雜性的重大進步。
during triploblastic development, the ectoderm, mesoderm, and endoderm differentiate to form specialized structures.
在三胚層發育過程中,外胚層、中胚層和內胚層會分化形成特化的結構。
most bilaterally symmetrical animals belong to the triploblastic clade that emerged in the paleozoic era.
大多數雙側對稱動物屬於在古生代出現的三胚層演化支。
researchers study triploblastic embryos to understand the genetic mechanisms of tissue differentiation.
研究人員研究三胚層胚胎以了解組織分化遺傳機制。
the triploblastic body plan allows for complex organ systems not found in simpler organisms.
三胚層的身體構造允許形成在較簡單生物中不存在的複雜器官系統。
molecular phylogenetics has clarified the relationships among major triploblastic lineages.
分子系統發生學已經澄清了主要三胚層演化支之間的關係。
some triploblastic parasites have evolved simplified body plans adapted to their hosts.
一些三胚層寄生蟲已經演化出適應其宿主的簡化身體構造。
the triploblastic condition is considered a key innovation in animal evolution.
三胚層狀態被認為是動物演化中的關鍵創新。
comparative genomics reveals conserved genetic pathways across diverse triploblastic species.
比較基因組學揭示了在多樣的三胚層物種中保守的遺傳途徑。
triploblastic flatworms exhibit remarkable regenerative capabilities due to their stem cell population.
三胚層扁蟲由於其幹細胞群體而表現出驚人的再生能力。
the transition to triploblastic organization enabled larger body sizes in ancestral chordates.
轉向三胚層組織結構使祖先的脊索動物能夠擁有更大的體型。
triploblastic animals
三胚層動物
triploblastic organisms
三胚層生物
triploblastic development
三胚層發育
triploblastic embryos
三胚層胚胎
triploblastic phyla
三胚層門類
most triploblasts
大多數三胚層生物
triploblastic symmetry
三胚層對稱性
triploblastic body plan
三胚層體型規劃
triploblastic lineage
三胚層演化支
becoming triploblastic
成為三胚層
triploblastic animals possess three primary germ layers that give rise to all body tissues and organs.
三胚層動物具有三個主要的生殖層,這些層會形成所有身體組織和器官。
the evolution of triploblastic organisms marked a significant advancement in animal complexity.
三胚層生物的演化標誌著動物複雜性的重大進步。
during triploblastic development, the ectoderm, mesoderm, and endoderm differentiate to form specialized structures.
在三胚層發育過程中,外胚層、中胚層和內胚層會分化形成特化的結構。
most bilaterally symmetrical animals belong to the triploblastic clade that emerged in the paleozoic era.
大多數雙側對稱動物屬於在古生代出現的三胚層演化支。
researchers study triploblastic embryos to understand the genetic mechanisms of tissue differentiation.
研究人員研究三胚層胚胎以了解組織分化遺傳機制。
the triploblastic body plan allows for complex organ systems not found in simpler organisms.
三胚層的身體構造允許形成在較簡單生物中不存在的複雜器官系統。
molecular phylogenetics has clarified the relationships among major triploblastic lineages.
分子系統發生學已經澄清了主要三胚層演化支之間的關係。
some triploblastic parasites have evolved simplified body plans adapted to their hosts.
一些三胚層寄生蟲已經演化出適應其宿主的簡化身體構造。
the triploblastic condition is considered a key innovation in animal evolution.
三胚層狀態被認為是動物演化中的關鍵創新。
comparative genomics reveals conserved genetic pathways across diverse triploblastic species.
比較基因組學揭示了在多樣的三胚層物種中保守的遺傳途徑。
triploblastic flatworms exhibit remarkable regenerative capabilities due to their stem cell population.
三胚層扁蟲由於其幹細胞群體而表現出驚人的再生能力。
the transition to triploblastic organization enabled larger body sizes in ancestral chordates.
轉向三胚層組織結構使祖先的脊索動物能夠擁有更大的體型。
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