Molecular analyses of zebrafish V0v spinal interneurons and identification of transcriptional regulators downstream of Evx1 and Evx2 in these cells [0.03%]
脊椎神经元的分子分析以及Evx1和Evx2下游这些细胞中转录调节因子的鉴定
Samantha J England,Amber K Rusnock,Amra Mujcic et al.
Samantha J England et al.
Background: V0v spinal interneurons are highly conserved, glutamatergic, commissural neurons that function in locomotor circuits. We have previously shown that Evx1 and Evx2 are required to specify the neurotransmitter ph...
Oluwaseun Mustapha,Thomas Grochow,James Olopade et al.
Oluwaseun Mustapha et al.
Background: Neocortex development has been extensively studied in altricial rodents such as mouse and rat. Identification of alternative animal models along the "altricial-precocial" spectrum in order to better model and ...
Drosophila CASK regulates brain size and neuronal morphogenesis, providing a genetic model of postnatal microcephaly suitable for drug discovery [0.03%]
调控脑大小和神经元形态发生的果蝇CASK基因,以及其在后天小头畸形药物发现中的遗传模型作用研究
Judith A Tello,Linan Jiang,Yitshak Zohar et al.
Judith A Tello et al.
Background: CASK-related neurodevelopmental disorders are untreatable. Affected children show variable severity, with microcephaly, intellectual disability (ID), and short stature as common features. X-linked human CASK s...
Distinct requirements for Tcf3 and Tcf12 during oligodendrocyte development in the mouse telencephalon [0.03%]
转录因子Tcf3和Tcf12在小鼠端脑少突胶质细胞发育过程中的不同作用要求
Mary Jo Talley,Diana Nardini,Lisa A Ehrman et al.
Mary Jo Talley et al.
Background: E-proteins encoded by Tcf3, Tcf4, and Tcf12 are class I basic helix-loop-helix (bHLH) transcription factors (TFs) that are thought to be widely expressed during development. However, their function in the deve...
Correction: Lrig1 expression identifies quiescent stem cells in the ventricular‑subventricular zone from postnatal development to adulthood and limits their persistent hyperproliferation [0.03%]
纠正:Lrig1表达在从产后发育到成年的室管膜下区鉴定静止的干细胞并限制其持续性过度增殖
Hyung-Song Nam,Mario R Capecchi
Hyung-Song Nam
Published Erratum
Neural development. 2023 May 23;18(1):4. DOI:10.1186/s13064-023-00172-0 2023
Correction: Lrig1 expression prospectively identifies stem cells in the ventricular-subventricular zone that are neurogenic throughout adult life [0.03%]
订正:Lrig1表达从 ventsubventricular 区域展望 indentifies 干细胞在终生具有神经发生性
Hyung-Song Nam,Mario R Capecchi
Hyung-Song Nam
Published Erratum
Neural development. 2023 May 19;18(1):3. DOI:10.1186/s13064-023-00171-1 2023
Follicle-innervating Aδ-low threshold mechanoreceptive neurons form receptive fields through homotypic competition [0.03%]
Aδ低阈值机械感受神经元通过同型竞争形成毛囊感觉野
Matthew B Pomaville,Kevin M Wright
Matthew B Pomaville
The mammalian somatosensory system is comprised of multiple neuronal populations that form specialized, highly organized sensory endings in the skin. The organization of somatosensory endings is essential to their functions, yet the mechani...
Lrig1 expression identifies quiescent stem cells in the ventricular-subventricular zone from postnatal development to adulthood and limits their persistent hyperproliferation [0.03%]
Lrig1的表达识别从产后发育到成年期侧脑室-下侧脑室带中的静止干细胞并限制其持续的过度增殖
Hyung-Song Nam,Mario R Capecchi
Hyung-Song Nam
Background: We previously identified Leucine-rich repeats and immunoglobulin-like domains 1 (Lrig1) as a marker of long-term neurogenic stem cells in the lateral wall of the adult mouse brain. The morphology of the stem c...
Primary neurons lacking the SNAREs vti1a and vti1b show altered neuronal development [0.03%]
缺乏SNARES vti1a和vti1b的主要神经元显示出神经元发育的变化
Christian Bollmann,Susanne Schöning,Katharina Kotschnew et al.
Christian Bollmann et al.
Background: Neurons are highly specialized cells with a complex morphology generated by various membrane trafficking steps. They contain Golgi outposts in dendrites, which are formed from somatic Golgi tubules. In traffic...
Correction: A single-cell transcriptomic atlas of complete insect nervous systems across multiple life stages [0.03%]
纠正:昆虫多个生活史阶段完整神经系统单细胞转录组图谱
Marc Corrales,Benjamin T Cocanougher,Andrea B Kohn et al.
Marc Corrales et al.
Published Erratum
Neural development. 2022 Oct 26;17(1):11. DOI:10.1186/s13064-022-00167-3 2022