Larisa Sheloukhova,Hiroshi Watanabe
Larisa Sheloukhova
Nervous systems of bilaterian animals generally consist of two cell types: neurons and glial cells. Despite accumulating data about the many important functions glial cells serve in bilaterian nervous systems, the evolutionary origin of thi...
Ali M Elagoz,Marie Van Dijck,Mark Lassnig et al.
Ali M Elagoz et al.
The last common ancestor of cephalopods and vertebrates lived about 580 million years ago, yet coleoid cephalopods, comprising squid, cuttlefish and octopus, have evolved an extraordinary behavioural repertoire that includes learned behavio...
Longitudinal tracking of hemocyte populations in vivo indicates lineage relationships and supports neural progenitor identity in adult neurogenesis [0.03%]
基于活体血细胞纵向追踪的谱系分析支持神经前体身份在成年人类神经发生中的作用
Alex J Edwards,Barbara S Beltz
Alex J Edwards
Adult neurogenesis, which takes place in both vertebrate and invertebrate species, is the process by which new neurons are born and integrated into existing functional neural circuits, long after embryonic development. Most studies in mamma...
Development of reciprocal connections between the dorsal lateral geniculate nucleus and the thalamic reticular nucleus [0.03%]
背外侧膝状核与丘脑网状核之间的相互连接的发展
Peter W Campbell,Gubbi Govindaiah,William Guido
Peter W Campbell
The thalamic reticular nucleus (TRN) serves as an important node between the thalamus and neocortex, regulating thalamocortical rhythms and sensory processing in a state dependent manner. Disruptions in TRN circuitry also figures prominentl...
June F Ordoñez,Tim Wollesen
June F Ordoñez
Background: Chaetognaths are a clade of marine worm-like invertebrates with a heavily debated phylogenetic position. Their nervous system superficially resembles the protostome type, however, knowledge regarding the molec...
Capitella teleta gets left out: possible evolutionary shift causes loss of left tissues rather than increased neural tissue from dominant-negative BMPR1 [0.03%]
特letes缺失:可能的进化转变导致左组织丢失而不是来自显性负BMPR1的神经元组织增加
Nicole B Webster,Néva P Meyer
Nicole B Webster
Background: The evolution of central nervous systems (CNSs) is a fascinating and complex topic; further work is needed to understand the genetic and developmental homology between organisms with a CNS. Research into a lim...
The development of the adult nervous system in the annelid Owenia fusiformis [0.03%]
腹须虫成体神经系统发育过程的研究
Allan M Carrillo-Baltodano,Rory D Donnellan,Elizabeth A Williams et al.
Allan M Carrillo-Baltodano et al.
Background: The evolutionary origins of animal nervous systems remain contentious because we still have a limited understanding of neural development in most major animal clades. Annelids - a species-rich group with centr...
Chang Yin,Takeshi Morita,Jay Z Parrish
Chang Yin
Mosquito-borne diseases account for nearly 1 million human deaths annually, yet we have a limited understanding of developmental events that influence host-seeking behavior and pathogen transmission in mosquitoes. Mosquito-borne pathogens a...
Loss of G9a does not phenocopy the requirement for Prdm12 in the development of the nociceptive neuron lineage [0.03%]
G9a的丢失并不能表型模拟Prdm12在痛觉神经元谱系发育中的作用
Panagiotis Tsimpos,Simon Desiderio,Pauline Cabochette et al.
Panagiotis Tsimpos et al.
Prdm12 is an epigenetic regulator expressed in developing and mature nociceptive neurons, playing a key role in their specification during neurogenesis and modulating pain sensation at adulthood. In vitro studies suggested that Prdm12 recru...
Imp is expressed in INPs and newborn neurons where it regulates neuropil targeting in the central complex [0.03%]
Imp在INP和新生神经元中表达,并调节中央复合体中的突触小结目标定位
Jordan A Munroe,Chris Q Doe
Jordan A Munroe
The generation of neuronal diversity remains incompletely understood. In Drosophila, the central brain is populated by neural stem cells derived from progenitors called neuroblasts (NBs). There are two types of NBs, type 1 and 2. T1NBs have...