Lehnert, J., Cha, K., Halperin, J., Yang, K., Zheng, D.F., Khadra, A., Cook, E.P. and Krishnaswamy, A., (2023). Visual attention to features and space in mice using reverse correlation. Current Biology. doi.org/10.1016/j.cub.2023.07.060
Rochon PL., Theriault C., Rangel Olguin AG., Krishnaswamy A. (2021) The cell adhesion molecule Sdk1 shapes assembly of a retinal circuit that detects localized edges. Elife. Sep 21;10:e70870. doi: 10.7554/eLife.70870.
Rangel Olguin AG., Rochon P-L., Krishnaswamy A. (2020) New Optical Tools to Study Neural Circuits Assembly in the Retina. Front Neural Circuits. Aug 6 14:44.
Trenholm S, Krishnaswamy A. (2020) An Annotated Journey through Modern Visual Neuroscience.J Neurosci. Jan 2;40(1):44-53.
Duan X, Krishnaswamy A, Laboulaye MA, Liu J, Peng YR, Yamagata M, Toma K, Sanes JR.(2018)Cadherin Combinations Recruit Dendrites of Distinct Retinal Neurons to a Shared Interneuronal Scaffold.Neuron. Sep 19;99(6):1145-1154.e6.
Liu J, Reggiani JDS, Laboulaye MA, Pandey S, Chen B, Rubenstein JLR, Krishnaswamy A, Sanes JR. (2018) Tbr1 instructs laminar patterning of retinal ganglion cell dendrites. Nat Neurosci. May;21(5):659-670.
Peng YR, Tran NM, Krishnaswamy A, Kostadinov D, Martersteck EM, Sanes JR. Satb1 Regulates Contactin 5 to Pattern Dendrites of a Mammalian Retinal Ganglion Cell. Neuron. 2017;95(4):869–883.e6.
Krishnaswamy A. (2016). Building connections. Science. Nov 4; 354(6312):558.
Krishnaswamy A.*, Yamagata M.*, Duan X., Sanes JR. (2015). Sidekick 2 directs formation of an object motion selective circuit. Nature. Aug 27;524(7566):466-70. * Equal contribution
Duan X.*, Krishnaswamy A.*, De La Huerta I., Sanes JR. (2014). Type II Cadherins Guide Assembly of a Direction-Selective Retinal Circuit. Cell. Aug 14;158(4):793-807. * Equal contribution
Lilley BN., Krishnaswamy A., Wang Z., Kishi M., Frank E., Sanes JR. (2014). SAD kinases control the maturation of nerve terminals in the mammalian peripheral and central nervous systems. PNAS. Jan 21;111(3):1138-43.
Davisson MT., Bronson RT., Tadenev AL., Motley WW., Krishnaswamy A., Seburn KL., Burgess RW. (2011). A spontaneous mutation in contactin 1 in the mouse. PLoS One;6(12).
Krishnaswamy A., Cooper E. (2011) Reactive Oxygen Species Inactivate Neuronal Nicotinic Acetylcholine Receptors Through a Highly Conserved Cysteine Near the Intracellular Mouth of the Channel: Implications for Diseases that Involve Oxidative Stress. J. Physiol. Jan 1;590(Pt 1):39-47.
Campanucci VA.*, Krishnaswamy A.*, Cooper E. (2010) Diabetes depresses synaptic transmission in sympathetic ganglia by inactivating nAChRs through a conserved intracellular cysteine residue. Neuron. 66(6):827-34. * Equal contribution
Caffery, P.M.*, Krishnaswamy, A.*, Sanders, T., Hartlaub, H., Klysik, J., Cooper, E., Hawrot, E.(2009). Knock-in a -bungarotoxin sensitivity enables visualization and pharmacological characterization of postsynaptic a3- containing nicotinic acetylcholine receptors in a novel mouse model. Eur. J. Neurosci. Dec 3;30(11):2064-76. * Equal contribution
Krishnaswamy, A., Cooper E. (2009) An activity-dependent retrograde signal induces the expression of the high affinity choline transporter in cholinergic neurons. Neuron. 61:272-86.
Campanucci, V.A., Krishnaswamy, A., Cooper, E. (2008) Mitochondrial reactive oxygen species inactivate neuronal nicotinic acetylcholine receptors and induce long-term depression of fast nicotinic synaptic transmission. J Neurosci 28(7):1733-44.
Rassadi, S.*, Krishnaswamy, A.*, Pié, B., McConnell, R., Jacob, M.H., Cooper E. (2005) A null mutation for the a3 nicotinic acetylcholine (ACh) receptor gene abolishes fast synaptic activity in sympathetic ganglia and reveals that ACh output from developing preganglionic terminals is regulated in an activity-dependent retrograde manner. J. Neurosci. 25(37):8555-66. * Equal contribution