neural rhombomeres
神经菱形节
rhombomere specification
菱形节特化
hindbrain rhombomeres
后脑菱形节
adjacent rhombomeres
相邻菱形节
rhombomere identity
菱形节特性
specific rhombomeres
特定菱形节
rhombomere patterning
菱形节模式形成
rhombomeres form
菱形节形成
segmenting rhombomeres
分裂中的菱形节
during embryonic development, rhombomeres form as transient segments of the hindbrain.
在胚胎发育过程中,菱脑节作为后脑的短暂节段而形成。
researchers study how rhombomeres establish boundaries through differential gene expression.
研究人员通过差异基因表达来研究菱脑节如何建立边界。
the segmented pattern of rhombomeres determines the identity of cranial nerve nuclei.
菱脑节的节段模式决定了颅神经核团的特性。
neural crest cells migrate from specific rhombomeres to populate peripheral structures.
神经嵴细胞从特定的菱脑节迁移以填充周围结构。
hox genes are expressed in overlapping patterns across rhombomeres.
同源盒基因在菱脑节中以重叠模式表达。
each rhombomere gives rise to distinct neuronal populations in the brainstem.
每个菱脑节在脑干中产生不同的神经元群。
the rhombomere boundaries prevent mixing of cells with different developmental fates.
菱脑节边界阻止具有不同发育命运的细胞混合。
experimental manipulation of rhombomeres reveals their role in patterning the hindbrain.
对菱脑节的实验操作揭示了它们在后脑模式形成中的作用。
signaling molecules establish the segmental organization of rhombomeres.
信号分子建立了菱脑节的节段组织。
mutations affecting rhombomere formation can lead to developmental abnormalities.
影响菱脑节形成的突变可能导致发育异常。
the precise alignment of rhombomeres is essential for proper neural circuit assembly.
菱脑节的精确对齐对于正常的神经回路组装至关重要。
transcription factors control the specification of individual rhombomeres.
转录因子控制单个菱脑节的特化。
neural rhombomeres
神经菱形节
rhombomere specification
菱形节特化
hindbrain rhombomeres
后脑菱形节
adjacent rhombomeres
相邻菱形节
rhombomere identity
菱形节特性
specific rhombomeres
特定菱形节
rhombomere patterning
菱形节模式形成
rhombomeres form
菱形节形成
segmenting rhombomeres
分裂中的菱形节
during embryonic development, rhombomeres form as transient segments of the hindbrain.
在胚胎发育过程中,菱脑节作为后脑的短暂节段而形成。
researchers study how rhombomeres establish boundaries through differential gene expression.
研究人员通过差异基因表达来研究菱脑节如何建立边界。
the segmented pattern of rhombomeres determines the identity of cranial nerve nuclei.
菱脑节的节段模式决定了颅神经核团的特性。
neural crest cells migrate from specific rhombomeres to populate peripheral structures.
神经嵴细胞从特定的菱脑节迁移以填充周围结构。
hox genes are expressed in overlapping patterns across rhombomeres.
同源盒基因在菱脑节中以重叠模式表达。
each rhombomere gives rise to distinct neuronal populations in the brainstem.
每个菱脑节在脑干中产生不同的神经元群。
the rhombomere boundaries prevent mixing of cells with different developmental fates.
菱脑节边界阻止具有不同发育命运的细胞混合。
experimental manipulation of rhombomeres reveals their role in patterning the hindbrain.
对菱脑节的实验操作揭示了它们在后脑模式形成中的作用。
signaling molecules establish the segmental organization of rhombomeres.
信号分子建立了菱脑节的节段组织。
mutations affecting rhombomere formation can lead to developmental abnormalities.
影响菱脑节形成的突变可能导致发育异常。
the precise alignment of rhombomeres is essential for proper neural circuit assembly.
菱脑节的精确对齐对于正常的神经回路组装至关重要。
transcription factors control the specification of individual rhombomeres.
转录因子控制单个菱脑节的特化。
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