Войти в систему

Home
    - Создать дневник
    - Написать в дневник
       - Подробный режим

LJ.Rossia.org
    - Новости сайта
    - Общие настройки
    - Sitemap
    - Оплата
    - ljr-fif

Редактировать...
    - Настройки
    - Список друзей
    - Дневник
    - Картинки
    - Пароль
    - Вид дневника

Сообщества

Настроить S2

Помощь
    - Забыли пароль?
    - FAQ
    - Тех. поддержка



Пишет bioRxiv Subject Collection: Neuroscience ([info]syn_bx_neuro)
@ 2025-07-16 07:17:00


Previous Entry  Add to memories!  Tell a Friend!  Next Entry
Local Dendritic Landscape of Mouse V1
The principles that govern where excitatory synapses form on cortical pyramidal neurons remain unclear. A long-standing hypothesis is that connectivity mirrors neuronal geometry with apical dendrites dominating in layer 1 and basal dendrites in deeper layers. Leveraging the MiCRONS cubic-millimetre serial electron-microscopy dataset [1,2], we mapped 4968 synapses onto reconstructed apical and basal arbors across layers 1-6 of mouse visual cortex. Contrary to a simple gradient model, synaptic targeting is overwhelmingly biased toward basal dendrites in layers 2/3 to 6, even where apical shafts are abundant. Layer 1 is the sole exception, exhibiting the expected apical bias. Basal predominance scales with local soma density and the relative arbor length available for contact, such that 66% (61101/92445) of all synapses land within 130 microns of the soma, placing most excitatory drive near the cell body. Axonal analysis revealed specificity beyond mere geometric opportunity: individual axon segments preferentially innervated either basal or apical compartments far more often than predicted by chance, indicating compartment-selective wiring rules. Together, our results show that cortical connectivity is shaped by both neuronal geometry and axon-level targeting preferences, redefining how pyramidal cells integrate information across layers and apical and basal dendrites.


(Читать комментарии) (Добавить комментарий)