Park, S.J.H., Lieberman, E.E., Ke, J.-B., Rho, N., Ghorbani, P., Rahmani, P., Jun, N.Y., Lee, H.-J., Kim, I.-J., Briggman, K.L., Demb, J.B., and Singer, J.H. (2020). Connectomic analysis reveals an interneuron with an integral role in the retinal circuit for night vision. Elife 9, e56077. Link to MPG PuRe publication database


Marquart, G.D., Tabor, K.M., Bergeron, S.A., Briggman, K.L., and Burgess, H.A. (2019). Prepontine non-giant neurons drive flexible escape behavior in zebrafish. PLoS Biol 17, e3000480. Link to MPG PuRe publication database

Matsumoto, A., Briggman, K.L., and Yonehara, K. (2019). Spatiotemporally asymmetric excitation supports mammalian retinal motion sensitivity. Curr Biol 29, 3277-3288.e5. Link to MPG PuRe publication database

Huang, X, Rangel, M. Briggman, KL, and Wei, W (2019). Neural mechanisms of contextual modulation in the retinal direction selective circuit. Nat Commun 10, 2431. Link to MPG PuRe publication database


Graydon, C.W., Lieberman, E.E., Rho N., Briggman, K.L., Singer, J.H., and Diamond J.S. (2018). Synaptic transfer between rod and cone pathways mediated by aII amacrine cells in the mouse retina. Curr Biol 28, 2739-2751. Link to MPG PuRe publication database

Tabor, K.M., Smith, T.S., Brown, M., Bergeron, S.A., Briggman, K.L., and Burgess, H.A. (2018). Presynaptic inhibition selectively gates auditory transmission to the brainstem startle circuit. Curr Biol 28, 2527-2535. Link to MPG PuRe publication database

Bae, J.A., Mu, S., Kim, J.S., Turner, N.L., Tartavull, I., Kemnitz, N., Jordan, C.S., Norton, A.D., Silversmith, W.M., Prentki, R., Sorek, M., David, C., Jones, D.L., Bland, D., Sterling, A.L.R., Park, J., Briggman, K.L., and Seung, H.S.; Eyewirers.(2018). Digital museum of retinal ganglion cells with dense anatomy and physiology. Cell 173, 1293-1306. Link to MPG PuRe publication database

Stabio, M.E., Sabbah, S., Quattrochi, L.E., Ilardi, M.C., Fogerson, P.M., Leyrer, M.L., Kim, M.T., Kim, I., Schiel, M., Renna, J.M., Briggman, K., and Berson, D.M. (2018). The M5 cell: A color-opponent intrinsically photosensitive retinal ganglion cell. Neuron 97, 150-163. Link to MPG PuRe publication database


Sabbah, S., Berg, D., Papendorp, C., Briggman, K.L., and Berson, D.M. (2017). A Cre mouse line for probing irradiance- and direction-encoding retinal networks. eNeuro 4, 0065-17.2017.

Sethuramanujam, S., Yao, X., deRosenroll, G., Briggman, K.L., Field, G.D., and Awatramani, G.B. (2017). ‘Silent’ NMDA synapses enhance motion sensitivity in a mature retinal circuit. Neuron 96, 1099-1111.


Ding, H., Smith, R.G., Poleg-Polsky, A., Diamond, J.S., and Briggman, K. L. (2016). Species-specific wiring for direction selectivity in the mammalian retina. Nature 535, 105-110.


Hoggarth, A., McLaughlin, A.J., Ronellenfitch, K., Trenholm, S., Vasandani, R., Sethuramanujam, S., Schwab, D., Briggman, K.L., and Awatramani, G.B. (2015). Specific wiring of distinct amacrine cells in the directionally selective retinal circuit permits independent coding of direction and size. Neuron 86, 276-291.

Pallotto, M., Watkins, P.V., Fubara, B., Singer, J.H., and Briggman, K.L. (2015). Extracellular space preservation aids the connectomic analysis of neural circuits. eLife 4, e08206.


Grimes, W.N., Hoon, M., Briggman, K.L., Wong, R.O., and Rieke, F. (2014). Cross-synaptic synchrony and transmission of signal and noise across the mouse retina. eLife 3, e03892.

Mehta, B., Ke, J.B., Zhang, L., Baden, A.D., Markowitz, A.L., Nayak, S., Briggman, K.L., Zenisek, D., and Singer, J.H. (2014). Global Ca2+ signaling drives ribbon-independent synaptic transmission at rod bipolar cell synapses. J Neurosci 34, 6233-6244.


Helmstaedter, M., Briggman, K.L., Turaga, S.C., Jain, V., Seung, H.S., and Denk, W. (2013). Connectomic reconstruction of the inner plexiform layer in the mouse retina. Nature 500, 168-174.


Andres, B., Koethe, U., Kroeger, T., Helmstaedter, M., Briggman, K.L., Denk, W., and Hamprecht, F.A. (2012). 3D segmentation of SBFSEM images of neuropil by a graphical model over supervoxel boundaries. Med Image Anal 16, 796-805.

Briggman, K.L., and Bock, D.D. (2012). Volume electron microscopy for neuronal circuit reconstruction. Curr Opin Neurobiol 22, 154-161.

Denk, W., Briggman, K.L., and Helmstaedter, M. (2012). Structural neurobiology: missing link to a mechanistic understanding of neural computation. Nat Rev Neurosci 13, 351-358.


Briggman, K.L., and Euler, T. (2011). Bulk electroporation and population calcium imaging in the adult mammalian retina. J Neurophysiol 105, 2601-2609.

Briggman, K.L., Helmstaedter, M., and Denk, W. (2011). Wiring specificity in the direction-selectivity circuit of the retina. Nature 471, 183-188.

Helmstaedter, M., Briggman, K.L., and Denk, W. (2011). High-accuracy neurite reconstruction for high-throughput neuroanatomy. Nat Neurosci 14, 1081-1088.

Kleinfeld, D., Bharioke, A., Blinder, P., Bock, D.D., Briggman, K.L., Chklovskii, D.B., Denk, W., Helmstaedter, M., Kaufhold, J.P., Lee, W.C., Meyer, H.S., Micheva, K.D., Oberlaender, M., Prohaska, S., Reid, R.C., Smith, S.J., Takemura, S., Tsai, P.S., and Sakmann, B. (2011). Large-scale automated histology in the pursuit of connectomes. J Neurosci 31, 16125-16138.


Turaga, S.C., Murray, J.F., Jain, V., Roth, F., Helmstaedter, M., Briggman, K.L., Denk, W., and Seung, H.S. (2010). Convolutional networks can learn to generate affinity graphs for image segmentation. Neural Comput 22, 511-538.


Briggman, K.L., and Kristan, W.B. (2008). Multifunctional pattern-generating circuits. Ann Rev Neurosci 31, 271-294

Helmstaedter, M., Briggman, K.L., and Denk, W. (2008). 3D structural imaging of the brain with photons and electrons. Curr Opin Neurobiol 18, 633-641.


Briggman, K.L., and Denk, W. (2006). Towards neural circuit reconstruction with volume electron microscopy techniques. Curr Opin Neurobiol 16, 562-570.

Briggman, K.L., and Kristan, W.B. (2006). Imaging dedicated and multifunctional neural circuits generating distinct behaviors. J Neurosci 26, 10925-10933.


Briggman, K.L., Abarbanel, H.D., and Kristan, W.B. (2005). Optical imaging of neuronal populations during decision-making. Science 307, 896-901.