AUTHOR=Hintiryan Houri , Gou Lin , Zingg Brian , Yamashita Seita , Lyden Hannah M., Song Monica Y., Grewal Arleen K., Zhang Xinhai , Toga Arthur W., Dong Hong-Wei TITLE=Comprehensive connectivity of the mouse main olfactory bulb: analysis and online digital atlas JOURNAL=Frontiers in Neuroanatomy VOLUME=6 YEAR=2012 URL=https://www.frontiersin.org/journals/neuroanatomy/articles/10.3389/fnana.2012.00030 DOI=10.3389/fnana.2012.00030 ISSN=1662-5129 ABSTRACT=

We introduce the first open resource for mouse olfactory connectivity data produced as part of the Mouse Connectome Project (MCP) at UCLA. The MCP aims to assemble a whole-brain connectivity atlas for the C57Bl/6J mouse using a double coinjection tracing method. Each coinjection consists of one anterograde and one retrograde tracer, which affords the advantage of simultaneously identifying efferent and afferent pathways and directly identifying reciprocal connectivity of injection sites. The systematic application of double coinjections potentially reveals interaction stations between injections and allows for the study of connectivity at the network level. To facilitate use of the data, raw images are made publicly accessible through our online interactive visualization tool, the iConnectome, where users can view and annotate the high-resolution, multi-fluorescent connectivity data (www.MouseConnectome.org). Systematic double coinjections were made into different regions of the main olfactory bulb (MOB) and data from 18 MOB cases (~72 pathways; 36 efferent/36 afferent) currently are available to view in iConnectome within their corresponding atlas level and their own bright-field cytoarchitectural background. Additional MOB injections and injections of the accessory olfactory bulb (AOB), anterior olfactory nucleus (AON), and other olfactory cortical areas gradually will be made available. Analysis of connections from different regions of the MOB revealed a novel, topographically arranged MOB projection roadmap, demonstrated disparate MOB connectivity with anterior versus posterior piriform cortical area (PIR), and exposed some novel aspects of well-established cortical olfactory projections.