For connectomics data, check out these groundbreaking papers: https://t.co/2PsJ472A2y, https://t.co/T3wGNm7ZnF, https://t.co/jbeTIBKH4u, https://t.co/GRw7fHuOlT, https://t.co/cGiVmAeUe6
RT @lrvarshney: @_onionesque A very different phenomenon of graph spectra that I find intriguing is sparsity of Laplacian eigenvectors, whi…
RT @lrvarshney: @_onionesque A very different phenomenon of graph spectra that I find intriguing is sparsity of Laplacian eigenvectors, whi…
RT @lrvarshney: @_onionesque A very different phenomenon of graph spectra that I find intriguing is sparsity of Laplacian eigenvectors, whi…
@_onionesque A very different phenomenon of graph spectra that I find intriguing is sparsity of Laplacian eigenvectors, which we observed empirically in the C. elegans neuronal network (https://t.co/RBvHnacUM3). This was partially theoretically explained
@liamjdrew @SimonsFdn 1/2 Great to hear that connectomics is now mainstream :-) Just to fill in a few missing facts: Although White et al 1986 was a monumental contribution, the first full C. elegans connectome was published here https://t.co/AbzvdoHHTA an
RT @adamoprogresso: Proprietà strutturali della rete neuronale di Caenorhabditis elegans https://t.co/mERXOXp1VN
Proprietà strutturali della rete neuronale di Caenorhabditis elegans https://t.co/mERXOXp1VN
Just heard about the passing of Sydney Brenner (https://t.co/OLTaPdeCrH) who took Caenorhabditis elegans from being a relatively obscure organism into a model organism widely studied in a variety of fields, including my own study of its connectome (https:/
Detailed article on the C. elegans connectome and running experiments to determine functional subcircuits https://t.co/4Xouv1AYB0 (HT @krvarshney) I wonder if any of our predicted subcircuits will come up (https://t.co/RBvHnacmWv)
9. Now up to the risks and challenges. "A friend of mine told me..." We need to dig and be sure of what we say. E.g. is the C. Elegans connectome complete? Read https://t.co/zelK2MNeSh and get surprised #netsci2018
The @OpenWorm Project is simulating C. elegans, in part using our connectome work (http://t.co/4jtvkmFniy). Cool: http://t.co/0BMglatKr6