References
- Mori K , SakanoH. How is the olfactory map formed and interpreted in the mammalian brain?Annu. Rev. Neurosci.34, 467–499 (2011).
- Imai T , SuzukiM, SakanoH. Odorant receptor-derived cAMP signals direct axonal targeting. Science314(5799), 657–661 (2006).
- Takeuchi H , InokuchiK, AokiMet al. Sequential arrival and graded secretion of Sema3F by olfactory neuron axons specify map topography at the bulb. Cell141(6), 1056–1067 (2010).
- Nakashima A , TakeuchiH, ImaiTet al. Agonist-independent GPCR activity regulates axon targeting of olfactory sensory neurons. Cell154(6), 1314–1325 (2013).
- Serizawa S , MiyamichiK, TakeuchiHet al. A neuronal identity code for the odorant receptor-specific and activity-dependent axon sorting. Cell127(5), 1057–1069 (2006).
- Lin DM , WangF, LoweGet al. Formation of precise connections in the olfactory bulb occurs in the absence of odorant-evoked neuronal activity. Neuron26(1), 69–80 (2000).
- Col JA , MatsuoT, StormDRet al. Adenylyl cyclase-dependent axonal targeting in the olfactory system. Development134(13), 2481–2489 (2007).
- Imai T , YamazakiT, KobayakawaRet al. Pre-target axon sorting establishes the neural map topography. Science325(5940), 585–590 (2009).
- Sperry RW . Chemoaffinity in the orderly growth of nerve fiber patterns and connections. Proc. Natl Acad. Sci. USA50, 703–710 (1963).
- Assens A , DalCol JA, NjokuAet al. Alteration of Nrp1 signaling at different stages of olfactory neuron maturation promotes glomerular shifts along distinct axes in the olfactory bulb. Development143(20), 3817–3825 (2016).
- Zapiec B , BresselOC, KhanMet al. Neuropilin-1 and the positions of glomeruli in the mouse olfactory bulb. eNeuro3(5), e0123-16 (2016).
- Luo L , FlanaganJG. Development of continuous and discrete neural maps. Neuron56(2), 284–300 (2007).
- Aoki M , TakeuchiH, NakashimaAet al. Possible roles of robo1+ ensheathing cells in guiding dorsal-zone olfactory sensory neurons in mouse. Dev. Neurobiol.73(11), 828–840 (2013).
- Nakashima A , IharaN, ShigetaMet al. Structured spike series specify gene expression patterns for olfactory circuit formation. Science365(6448), eaaw5030 (2019).
- Yu CR , PowerJ, BarneaGet al. Spontaneous neural activity is required for the establishment and maintenance of the olfactory sensory map. Neuron42(4), 553–566 (2004).
- Rasmussen SG , DeVreeBT, ZouYet al. Crystal structure of the β2 adrenergic receptor-Gs protein complex. Nature477(7366), 549–555 (2011).
- Feinstein P , BozzaT, RodriguezIet al. Axon guidance of mouse olfactory sensory neurons by odorant receptors and the β2 adrenergic receptor. Cell117(6), 833–846 (2004).
- Inoue N , NishizumiH, NaritsukaHet al. Sema7A/PlxnCl signaling triggers activity-dependent olfactory synapse formation. Nat. Commun.9, 1842 (2018).
- Lorenzon P , RedolfiN, PodolskyMJet al. Circuit formation and function in the olfactory bulb of mice with reduced spontaneous afferent activity. J. Neurosci.35(1), 146–160 (2015).
- Inokuchi K , ImamuraF, TakeuchiHet al. Nrp2 is sufficient to instruct circuit formation of mitral-cells to mediate odour-induced attractive social responses. Nat. Commun.8, 15977 (2017).
- Nishizumi H , MiyashitaA, InoueNet al. Primary dendrites of mitral cells synapse unto neighboring glomeruli independent of their odorant receptor identity. Commun. Biol.2, 14 (2019).