studying mesoderms
研究间中层
developing mesoderms
发育间中层
mesoderms differentiate
间中层分化
early mesoderms form
早期间中层形成
analyzing mesoderms
分析间中层
mesoderms migrate
间中层迁移
complex mesoderms
复杂的间中层
mesoderms contribute
间中层贡献
distal mesoderms
远端间中层
posterior mesoderms
后间中层
early vertebrate embryos exhibit distinct mesoderms during development.
早期脊椎动物胚胎在发育过程中表现出明显的间中皮。
the mesoderms give rise to muscles, bones, and the circulatory system.
间中皮产生肌肉、骨骼和循环系统。
researchers study mesoderms to understand organ formation in vertebrates.
研究人员研究间中皮以了解脊椎动物的器官形成。
disruptions in mesoderms can lead to congenital heart defects.
间中皮的中断可能导致先天性心脏缺陷。
the paraxial mesoderms form somites, precursors to the vertebral column.
轴旁间中皮形成体节,椎骨的前体。
lateral plate mesoderms differentiate into various tissues and organs.
侧板间中皮分化成各种组织和器官。
genetic mutations affecting mesoderms can cause developmental abnormalities.
影响间中皮的基因突变会导致发育异常。
the migration of mesoderms is crucial for proper embryonic organization.
间中皮的迁移对于适当的胚胎组织至关重要。
comparative studies of mesoderms reveal evolutionary patterns in vertebrates.
间中皮的比较研究揭示了脊椎动物的进化模式。
the visceral mesoderms contribute to the formation of the heart and kidneys.
内脏间中皮有助于心脏和肾脏的形成。
understanding mesoderms is vital for regenerative medicine research.
理解间中皮对于再生医学研究至关重要。
studying mesoderms
研究间中层
developing mesoderms
发育间中层
mesoderms differentiate
间中层分化
early mesoderms form
早期间中层形成
analyzing mesoderms
分析间中层
mesoderms migrate
间中层迁移
complex mesoderms
复杂的间中层
mesoderms contribute
间中层贡献
distal mesoderms
远端间中层
posterior mesoderms
后间中层
early vertebrate embryos exhibit distinct mesoderms during development.
早期脊椎动物胚胎在发育过程中表现出明显的间中皮。
the mesoderms give rise to muscles, bones, and the circulatory system.
间中皮产生肌肉、骨骼和循环系统。
researchers study mesoderms to understand organ formation in vertebrates.
研究人员研究间中皮以了解脊椎动物的器官形成。
disruptions in mesoderms can lead to congenital heart defects.
间中皮的中断可能导致先天性心脏缺陷。
the paraxial mesoderms form somites, precursors to the vertebral column.
轴旁间中皮形成体节,椎骨的前体。
lateral plate mesoderms differentiate into various tissues and organs.
侧板间中皮分化成各种组织和器官。
genetic mutations affecting mesoderms can cause developmental abnormalities.
影响间中皮的基因突变会导致发育异常。
the migration of mesoderms is crucial for proper embryonic organization.
间中皮的迁移对于适当的胚胎组织至关重要。
comparative studies of mesoderms reveal evolutionary patterns in vertebrates.
间中皮的比较研究揭示了脊椎动物的进化模式。
the visceral mesoderms contribute to the formation of the heart and kidneys.
内脏间中皮有助于心脏和肾脏的形成。
understanding mesoderms is vital for regenerative medicine research.
理解间中皮对于再生医学研究至关重要。
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