亲爱的研友该休息了!由于当前在线用户较少,发布求助请尽量完整地填写文献信息,科研通机器人24小时在线,伴您度过漫漫科研夜!身体可是革命的本钱,早点休息,好梦!

Hierarchical communities in the larval Drosophila connectome: Links to cellular annotations and network topology

连接体 连接组学 计算机科学 神经科学 黑腹果蝇 集合(抽象数据类型) 生物 功能连接 生物化学 基因 程序设计语言
作者
Richard F. Betzel,Maria Grazia Puxeddu,Caio Seguin
出处
期刊:Proceedings of the National Academy of Sciences of the United States of America [National Academy of Sciences]
卷期号:121 (38) 被引量:2
标识
DOI:10.1073/pnas.2320177121
摘要

One of the longstanding aims of network neuroscience is to link a connectome’s topological properties—i.e., features defined from connectivity alone–with an organism’s neurobiology. One approach for doing so is to compare connectome properties with annotational maps. This type of analysis is popular at the meso-/macroscale, but is less common at the nano-scale, owing to a paucity of neuron-level connectome data. However, recent methodological advances have made possible the reconstruction of whole-brain connectomes at single-neuron resolution for a select set of organisms. These include the fruit fly, Drosophila melanogaster , and its developing larvae. In addition to fine-scale descriptions of connectivity, these datasets are accompanied by rich annotations. Here, we use a variant of the stochastic blockmodel to detect multilevel communities in the larval Drosophila connectome. We find that communities partition neurons based on function and cell type and that most interact assortatively, reflecting the principle of functional segregation. However, a small number of communities interact nonassortatively, forming form a “rich-club” of interneurons that receive sensory/ascending inputs and deliver outputs along descending pathways. Next, we investigate the role of community structure in shaping communication patterns. We find that polysynaptic signaling follows specific trajectories across modular hierarchies, with interneurons playing a key role in mediating communication routes between modules and hierarchical scales. Our work suggests a relationship between system-level architecture and the biological function and classification of individual neurons. We envision our study as an important step toward bridging the gap between complex systems and neurobiological lines of investigation in brain sciences.

科研通智能强力驱动
Strongly Powered by AbleSci AI
科研通是完全免费的文献互助平台,具备全网最快的应助速度,最高的求助完成率。 对每一个文献求助,科研通都将尽心尽力,给求助人一个满意的交代。
实时播报
空空伊发布了新的文献求助10
3秒前
weihe完成签到,获得积分10
10秒前
英姑应助空空伊采纳,获得10
12秒前
18秒前
23秒前
甜青提完成签到,获得积分10
32秒前
36秒前
dynamoo应助shiyma采纳,获得50
38秒前
39秒前
苹果发布了新的文献求助10
41秒前
池雨完成签到 ,获得积分10
43秒前
44秒前
Nole应助苹果采纳,获得10
48秒前
1分钟前
lee发布了新的文献求助10
1分钟前
一只不受管束的小狸Miao完成签到 ,获得积分10
1分钟前
1分钟前
lee完成签到,获得积分20
1分钟前
虚心的煎蛋完成签到 ,获得积分10
1分钟前
安详的黎昕完成签到,获得积分10
1分钟前
1分钟前
zhengqisong完成签到,获得积分10
1分钟前
淡然的咖啡豆完成签到,获得积分10
1分钟前
1分钟前
康顺祺发布了新的文献求助10
1分钟前
zhengqisong发布了新的文献求助10
1分钟前
lmn完成签到,获得积分10
1分钟前
1分钟前
1分钟前
汤汤杨杨完成签到,获得积分10
1分钟前
米线儿完成签到,获得积分10
1分钟前
Hello应助贪玩蓝月3号采纳,获得10
2分钟前
无花果应助安详的黎昕采纳,获得10
2分钟前
CodeCraft应助科研通管家采纳,获得10
2分钟前
2分钟前
尊贵的梅赛德斯奔驰车主完成签到 ,获得积分20
2分钟前
2分钟前
小粉发布了新的文献求助10
2分钟前
海绵宝宝完成签到 ,获得积分10
2分钟前
2分钟前
高分求助中
Principles of Economics, 11th Edition 10000
University Physics with Modern Physics, 16th edition 10000
(应助此贴封号)【重要!!请各用户(尤其是新用户)详细阅读】【科研通的精品贴汇总】 10000
48V Low-voltage Power Distribution Network (PDN) Architecture Industry Report, 2024 800
ズームレンズの光学設計に関する研究 800
Fundamentals of Pharmaceutical and Biologics Regulations: A Global Perspective, Second Edition 700
Matrix Methods in Data Mining and Pattern Recognition Second Edition 610
热门求助领域 (近24小时)
化学 材料科学 医学 生物 纳米技术 工程类 有机化学 化学工程 生物化学 计算机科学 内科学 物理 复合材料 催化作用 细胞生物学 无机化学 光电子学 物理化学 电极 基因
热门帖子
关注 科研通微信公众号,转发送积分 7297524
求助须知:如何正确求助?哪些是违规求助? 8915990
关于积分的说明 18879007
捐赠科研通 6963124
什么是DOI,文献DOI怎么找? 3210561
关于科研通互助平台的介绍 2379889
邀请新用户注册赠送积分活动 2187075