Publications

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  1. Preserving inhibition during developmental hearing loss rescues auditory learning and perception..
    Mowery, TM, Caras, ML, Hassan, SI, Wang, DJ, Dimidschstein, J, Fishell, G, Sanes, DH
    J. Neurosci. 2019; :. doi: 10.1523/JNEUROSCI.0749-19.2019. PubMed PMID:31451577 .
  2. Neural Variability Limits Adolescent Skill Learning..
    Caras, ML, Sanes, DH
    J. Neurosci. 2019; 39 (15):2889-2902. doi: 10.1523/JNEUROSCI.2878-18.2019. PubMed PMID:30755494 PubMed Central PMC6462443.
  3. Optogenetic auditory fMRI reveals the effects of visual cortical inputs on auditory midbrain response..
    Leong, ATL, Dong, CM, Gao, PP, Chan, RW, To, A, Sanes, DH, Wu, EX
    Sci Rep 2018; 8 (1):8736. doi: 10.1038/s41598-018-26568-1. PubMed PMID:29880842 PubMed Central PMC5992211.
  4. Developmental deprivation-induced perceptual and cortical processing deficits in awake-behaving animals..
    Yao, JD, Sanes, DH
    Elife 2018; 7 :. doi: 10.7554/eLife.33891. PubMed PMID:29873632 PubMed Central PMC6005681.
  5. De novo sequencing and initial annotation of the Mongolian gerbil (Meriones unguiculatus) genome..
    Zorio, DAR, Monsma, S, Sanes, DH, Golding, NL, Rubel, EW, Wang, Y
    Genomics 2019; 111 (3):441-449. doi: 10.1016/j.ygeno.2018.03.001. PubMed PMID:29526484 PubMed Central PMC6129228.
  6. GABAergic inhibition gates excitatory LTP in perirhinal cortex..
    Kotak, VC, Mirallave, A, Mowery, TM, Sanes, DH
    Hippocampus 2017; 27 (12):1217-1223. doi: 10.1002/hipo.22799. PubMed PMID:28881444 PubMed Central PMC5745066.
  7. Top-down modulation of sensory cortex gates perceptual learning..
    Caras, ML, Sanes, DH
    Proc. Natl. Acad. Sci. U.S.A. 2017; 114 (37):9972-9977. doi: 10.1073/pnas.1712305114. PubMed PMID:28847938 PubMed Central PMC5604044.
  8. Corrigendum: A viral strategy for targeting and manipulating interneurons across vertebrate species..
    Dimidschstein, J, Chen, Q, Tremblay, R, Rogers, SL, Saldi, GA, Guo, L, Xu, Q, Liu, R, Lu, C, Chu, J, Avery, MC, Rashid, MS, Baek, M, Jacob, AL, Smith, GB, Wilson, DE, Kosche, G, Kruglikov, I, Rusielewicz, T, Kotak, VC, Mowery, TM, Anderson, SA, Callaway, EM, Dasen, JS, Fitzpatrick, D, Fossati, V, Long, MA, Noggle, S, Reynolds, JH, Sanes, DH, Rudy, B, Feng, G, Fishell, G
    Nat. Neurosci. 2017; 20 (7):1033. doi: 10.1038/nn0717-1033c. PubMed PMID:28653691 .
  9. Addendum: A viral strategy for targeting and manipulating interneurons across vertebrate species..
    Dimidschstein, J, Chen, Q, Tremblay, R, Rogers, SL, Saldi, GA, Guo, L, Xu, Q, Liu, R, Lu, C, Chu, J, Avery, MC, Rashid, MS, Baek, M, Jacob, AL, Smith, GB, Wilson, DE, Kosche, G, Kruglikov, I, Rusielewicz, T, Kotak, VC, Mowery, TM, Anderson, SA, Callaway, EM, Dasen, JS, Fitzpatrick, D, Fossati, V, Long, MA, Noggle, S, Reynolds, JH, Sanes, DH, Rudy, B, Feng, G, Fishell, G
    Nat. Neurosci. 2017; 20 (7):1033. doi: 10.1038/nn0717-1033d. PubMed PMID:28653689 .
  10. The Sensory Striatum Is Permanently Impaired by Transient Developmental Deprivation..
    Mowery, TM, Penikis, KB, Young, SK, Ferrer, CE, Kotak, VC, Sanes, DH
    Cell Rep 2017; 19 (12):2462-2468. doi: 10.1016/j.celrep.2017.05.083. PubMed PMID:28636935 PubMed Central PMC5577933.
  11. Developmental Conductive Hearing Loss Reduces Modulation Masking Release..
    Ihlefeld, A, Chen, YW, Sanes, DH
    Trends Hear ; 20 :2331216516676255. doi: 10.1177/2331216516676255. PubMed PMID:28215119 PubMed Central PMC5318943.
  12. A viral strategy for targeting and manipulating interneurons across vertebrate species..
    Dimidschstein, J, Chen, Q, Tremblay, R, Rogers, SL, Saldi, GA, Guo, L, Xu, Q, Liu, R, Lu, C, Chu, J, Grimley, JS, Krostag, AR, Kaykas, A, Avery, MC, Rashid, MS, Baek, M, Jacob, AL, Smith, GB, Wilson, DE, Kosche, G, Kruglikov, I, Rusielewicz, T, Kotak, VC, Mowery, TM, Anderson, SA, Callaway, EM, Dasen, JS, Fitzpatrick, D, Fossati, V, Long, MA, Noggle, S, Reynolds, JH, Sanes, DH, Rudy, B, Feng, G, Fishell, G
    Nat. Neurosci. 2016; 19 (12):1743-1749. doi: 10.1038/nn.4430. PubMed PMID:27798629 PubMed Central PMC5348112.
  13. A Decline in Response Variability Improves Neural Signal Detection during Auditory Task Performance..
    von Trapp, G, Buran, BN, Sen, K, Semple, MN, Sanes, DH
    J. Neurosci. 2016; 36 (43):11097-11106. doi: 10.1523/JNEUROSCI.1302-16.2016. PubMed PMID:27798189 PubMed Central PMC5098844.
  14. Developmental hearing loss impedes auditory task learning and performance in gerbils..
    von Trapp, G, Aloni, I, Young, S, Semple, MN, Sanes, DH
    Hear. Res. 2017; 347 :3-10. doi: 10.1016/j.heares.2016.07.020. PubMed PMID:27746215 PubMed Central PMC5391307.
  15. The onset of visual experience gates auditory cortex critical periods..
    Mowery, TM, Kotak, VC, Sanes, DH
    Nat Commun 2016; 7 :10416. doi: 10.1038/ncomms10416. PubMed PMID:26786281 PubMed Central PMC4736048.
  16. Characterization of auditory synaptic inputs to gerbil perirhinal cortex..
    Kotak, VC, Mowery, TM, Sanes, DH
    Front Neural Circuits 2015; 9 :40. doi: 10.3389/fncir.2015.00040. PubMed PMID:26321918 PubMed Central PMC4536390.
  17. Auditory midbrain processing is differentially modulated by auditory and visual cortices: An auditory fMRI study..
    Gao, PP, Zhang, JW, Fan, SJ, Sanes, DH, Wu, EX
    Neuroimage 2015; 123 :22-32. doi: 10.1016/j.neuroimage.2015.08.040. PubMed PMID:26306991 .
  18. Introduction to the special issue on neural mechanisms of behavioral maturation..
    Woolley, S, Sanes, D
    Dev Neurobiol 2015; 75 (10):1049-50. doi: 10.1002/dneu.22334. PubMed PMID:26264679 .
  19. Sustained Perceptual Deficits from Transient Sensory Deprivation..
    Caras, ML, Sanes, DH
    J. Neurosci. 2015; 35 (30):10831-42. doi: 10.1523/JNEUROSCI.0837-15.2015. PubMed PMID:26224865 PubMed Central PMC4518056.
  20. Cortical Synaptic Inhibition Declines during Auditory Learning..
    Sarro, EC, von Trapp, G, Mowery, TM, Kotak, VC, Sanes, DH
    J. Neurosci. 2015; 35 (16):6318-25. doi: 10.1523/JNEUROSCI.4051-14.2015. PubMed PMID:25904785 PubMed Central PMC4405553.
  21. Developmental expression of inhibitory synaptic long-term potentiation in the lateral superior olive..
    Kotak, VC, Sanes, DH
    Front Neural Circuits 2014; 8 :67. doi: 10.3389/fncir.2014.00067. PubMed PMID:24994969 PubMed Central PMC4063273.
  22. On the localization of complex sounds: temporal encoding based on input-slope coincidence detection of envelopes..
    Gai, Y, Kotak, VC, Sanes, DH, Rinzel, J
    J. Neurophysiol. 2014; 112 (4):802-13. doi: 10.1152/jn.00044.2013. PubMed PMID:24848460 PubMed Central PMC4122752.
  23. Auditory training during development mitigates a hearing loss-induced perceptual deficit..
    Kang, R, Sarro, EC, Sanes, DH
    Front Syst Neurosci 2014; 8 :49. doi: 10.3389/fnsys.2014.00049. PubMed PMID:24772071 PubMed Central PMC3983518.
  24. Behaviorally gated reduction of spontaneous discharge can improve detection thresholds in auditory cortex..
    Buran, BN, von Trapp, G, Sanes, DH
    J. Neurosci. 2014; 34 (11):4076-81. doi: 10.1523/JNEUROSCI.4825-13.2014. PubMed PMID:24623785 PubMed Central PMC3951702.
  25. Transient Hearing Loss Within a Critical Period Causes Persistent Changes to Cellular Properties in Adult Auditory Cortex..
    Mowery, TM, Kotak, VC, Sanes, DH
    Cereb. Cortex 2015; 25 (8):2083-94. doi: 10.1093/cercor/bhu013. PubMed PMID:24554724 PubMed Central PMC4494023.
  26. Few juvenile auditory perceptual skills correlate with adult performance..
    Sarro, EC, Sanes, DH
    Behav. Neurosci. 2014; 128 (1):29-41. doi: 10.1037/a0035516. PubMed PMID:24512063 .
  27. A sensitive period for the impact of hearing loss on auditory perception..
    Buran, BN, Sarro, EC, Manno, FA, Kang, R, Caras, ML, Sanes, DH
    J. Neurosci. 2014; 34 (6):2276-84. doi: 10.1523/JNEUROSCI.0647-13.2014. PubMed PMID:24501366 PubMed Central PMC3913871.
  28. Effects of spectral and temporal disruption on cortical encoding of gerbil vocalizations..
    Ter-Mikaelian, M, Semple, MN, Sanes, DH
    J. Neurophysiol. 2013; 110 (5):1190-204. doi: 10.1152/jn.00645.2012. PubMed PMID:23761696 PubMed Central PMC3763096.
  29. Hearing loss differentially affects thalamic drive to two cortical interneuron subtypes..
    Takesian, AE, Kotak, VC, Sharma, N, Sanes, DH
    J. Neurophysiol. 2013; 110 (4):999-1008. doi: 10.1152/jn.00182.2013. PubMed PMID:23719211 PubMed Central PMC3742974.
  30. Rescue of inhibitory synapse strength following developmental hearing loss..
    Kotak, VC, Takesian, AE, MacKenzie, PC, Sanes, DH
    PLoS ONE 2013; 8 (1):e53438. doi: 10.1371/journal.pone.0053438. PubMed PMID:23326429 PubMed Central PMC3543446.
  31. Diminished behavioral and neural sensitivity to sound modulation is associated with moderate developmental hearing loss..
    Rosen, MJ, Sarro, EC, Kelly, JB, Sanes, DH
    PLoS ONE 2012; 7 (7):e41514. doi: 10.1371/journal.pone.0041514. PubMed PMID:22848517 PubMed Central PMC3406049.
  32. Sensitivity to temporal modulation rate and spectral bandwidth in the human auditory system: fMRI evidence..
    Overath, T, Zhang, Y, Sanes, DH, Poeppel, D
    J. Neurophysiol. 2012; 107 (8):2042-56. doi: 10.1152/jn.00308.2011. PubMed PMID:22298830 PubMed Central PMC3331610.
  33. A behavioral framework to guide research on central auditory development and plasticity..
    Sanes, DH, Woolley, SM
    Neuron 2011; 72 (6):912-29. doi: 10.1016/j.neuron.2011.12.005. PubMed PMID:22196328 PubMed Central PMC3244881.
  34. Age-dependent effect of hearing loss on cortical inhibitory synapse function..
    Takesian, AE, Kotak, VC, Sanes, DH
    J. Neurophysiol. 2012; 107 (3):937-47. doi: 10.1152/jn.00515.2011. PubMed PMID:22090457 PubMed Central PMC3289466.
  35. Taking advantage of behavioral changes during development and training to assess sensory coding mechanisms..
    Sarro, EC, Rosen, MJ, Sanes, DH
    Ann. N. Y. Acad. Sci. 2011; 1225 :142-54. doi: 10.1111/j.1749-6632.2011.06023.x. PubMed PMID:21535001 .
  36. The cost and benefit of juvenile training on adult perceptual skill..
    Sarro, EC, Sanes, DH
    J. Neurosci. 2011; 31 (14):5383-91. doi: 10.1523/JNEUROSCI.6137-10.2011. PubMed PMID:21471373 PubMed Central PMC3090646.
  37. Developmental plasticity of auditory cortical inhibitory synapses..
    Sanes, DH, Kotak, VC
    Hear. Res. 2011; 279 (1-2):140-8. doi: 10.1016/j.heares.2011.03.015. PubMed PMID:21463668 PubMed Central PMC3135718.
  38. Exploiting development to evaluate auditory encoding of amplitude modulation..
    Rosen, MJ, Semple, MN, Sanes, DH
    J. Neurosci. 2010; 30 (46):15509-20. doi: 10.1523/JNEUROSCI.3340-10.2010. PubMed PMID:21084606 PubMed Central PMC3073556.
  39. Asymmetric excitatory synaptic dynamics underlie interaural time difference processing in the auditory system..
    Jercog, PE, Svirskis, G, Kotak, VC, Sanes, DH, Rinzel, J
    PLoS Biol. 2010; 8 (6):e1000406. doi: 10.1371/journal.pbio.1000406. PubMed PMID:20613857 PubMed Central PMC2893945.
  40. Prolonged maturation of auditory perception and learning in gerbils..
    Sarro, EC, Sanes, DH
    Dev Neurobiol 2010; 70 (9):636-48. doi: 10.1002/dneu.20801. PubMed PMID:20506133 PubMed Central PMC3145204.
  41. Presynaptic GABA(B) receptors regulate experience-dependent development of inhibitory short-term plasticity..
    Takesian, AE, Kotak, VC, Sanes, DH
    J. Neurosci. 2010; 30 (7):2716-27. doi: 10.1523/JNEUROSCI.3903-09.2010. PubMed PMID:20164356 PubMed Central PMC3842473.
  42. Developmental hearing loss disrupts synaptic inhibition: implications for auditory processing..
    Takesian, AE, Kotak, VC, Sanes, DH
    Future Neurol 2009; 4 (3):331-349. doi: 10.2217/FNL.09.5. PubMed PMID:20161214 PubMed Central PMC2716048.
  43. Normal hearing is required for the emergence of long-lasting inhibitory potentiation in cortex..
    Xu, H, Kotak, VC, Sanes, DH
    J. Neurosci. 2010; 30 (1):331-41. doi: 10.1523/JNEUROSCI.4554-09.2010. PubMed PMID:20053914 PubMed Central PMC2823134.
  44. Tuning up the developing auditory CNS..
    Sanes, DH, Bao, S
    Curr. Opin. Neurobiol. 2009; 19 (2):188-99. doi: 10.1016/j.conb.2009.05.014. PubMed PMID:19535241 PubMed Central PMC2717554.
  45. Transient gain adjustment in the inferior colliculus is serotonin- and calcium-dependent..
    Miko, IJ, Sanes, DH
    Hear. Res. 2009; 251 (1-2):39-50. doi: 10.1016/j.heares.2009.02.003. PubMed PMID:19232535 PubMed Central PMC2670942.
  46. Hearing loss alters the subcellular distribution of presynaptic GAD and postsynaptic GABAA receptors in the auditory cortex..
    Sarro, EC, Kotak, VC, Sanes, DH, Aoki, C
    Cereb. Cortex 2008; 18 (12):2855-67. doi: 10.1093/cercor/bhn044. PubMed PMID:18403398 PubMed Central PMC2583158.
  47. Hearing loss prevents the maturation of GABAergic transmission in the auditory cortex..
    Kotak, VC, Takesian, AE, Sanes, DH
    Cereb. Cortex 2008; 18 (9):2098-108. doi: 10.1093/cercor/bhm233. PubMed PMID:18222937 PubMed Central PMC2517109.
  48. Statistical mapping of sound-evoked activity in the mouse auditory midbrain using Mn-enhanced MRI..
    Yu, X, Zou, J, Babb, JS, Johnson, G, Sanes, DH, Turnbull, DH
    Neuroimage 2008; 39 (1):223-30. doi: 10.1016/j.neuroimage.2007.08.029. PubMed PMID:17919926 PubMed Central PMC2473867.
  49. Conductive hearing loss disrupts synaptic and spike adaptation in developing auditory cortex..
    Xu, H, Kotak, VC, Sanes, DH
    J. Neurosci. 2007; 27 (35):9417-26. doi: 10.1523/JNEUROSCI.1992-07.2007. PubMed PMID:17728455 PubMed Central PMC6673134.
  50. Large-scale reorganization of the tonotopic map in mouse auditory midbrain revealed by MRI..
    Yu, X, Sanes, DH, Aristizabal, O, Wadghiri, YZ, Turnbull, DH
    Proc. Natl. Acad. Sci. U.S.A. 2007; 104 (29):12193-8. doi: 10.1073/pnas.0700960104. PubMed PMID:17620614 PubMed Central PMC1913547.
  51. Transformation of temporal properties between auditory midbrain and cortex in the awake Mongolian gerbil..
    Ter-Mikaelian, M, Sanes, DH, Semple, MN
    J. Neurosci. 2007; 27 (23):6091-102. doi: 10.1523/JNEUROSCI.4848-06.2007. PubMed PMID:17553982 PubMed Central PMC6672143.
  52. Developmental hearing loss eliminates long-term potentiation in the auditory cortex..
    Kotak, VC, Breithaupt, AD, Sanes, DH
    Proc. Natl. Acad. Sci. U.S.A. 2007; 104 (9):3550-5. doi: 10.1073/pnas.0607177104. PubMed PMID:17360680 PubMed Central PMC1805556.
  53. Developmental plasticity of inhibitory circuitry..
    Pallas, SL, Wenner, P, Gonzalez-Islas, C, Fagiolini, M, Razak, KA, Kim, G, Sanes, D, Roerig, B
    J. Neurosci. 2006; 26 (41):10358-61. doi: 10.1523/JNEUROSCI.3516-06.2006. PubMed PMID:17035517 PubMed Central PMC6674700.
  54. Early appearance of inhibitory input to the MNTB supports binaural processing during development..
    Green, JS, Sanes, DH
    J. Neurophysiol. 2005; 94 (6):3826-35. doi: 10.1152/jn.00601.2005. PubMed PMID:16120660 .
  55. In vivo auditory brain mapping in mice with Mn-enhanced MRI..
    Yu, X, Wadghiri, YZ, Sanes, DH, Turnbull, DH
    Nat. Neurosci. 2005; 8 (7):961-8. doi: 10.1038/nn1477. PubMed PMID:15924136 PubMed Central PMC2034206.
  56. Hearing loss raises excitability in the auditory cortex..
    Kotak, VC, Fujisawa, S, Lee, FA, Karthikeyan, O, Aoki, C, Sanes, DH
    J. Neurosci. 2005; 25 (15):3908-18. doi: 10.1523/JNEUROSCI.5169-04.2005. PubMed PMID:15829643 PubMed Central PMC1764814.
  57. Unilateral cochlear ablation produces greater loss of inhibition in the contralateral inferior colliculus..
    Vale, C, Juíz, JM, Moore, DR, Sanes, DH
    Eur. J. Neurosci. 2004; 20 (8):2133-40. doi: 10.1111/j.1460-9568.2004.03679.x. PubMed PMID:15450092 .
  58. In vitro analysis of mechanisms underlying age-dependent failure of axon regeneration..
    Hafidi, A, Grumet, M, Sanes, DH
    J. Comp. Neurol. 2004; 470 (1):80-92. doi: 10.1002/cne.20003. PubMed PMID:14755527 .
  59. Sodium along with low-threshold potassium currents enhance coincidence detection of subthreshold noisy signals in MSO neurons..
    Svirskis, G, Kotak, V, Sanes, DH, Rinzel, J
    J. Neurophysiol. 2004; 91 (6):2465-73. doi: 10.1152/jn.00717.2003. PubMed PMID:14749317 PubMed Central PMC3683536.
  60. Gain adjustment of inhibitory synapses in the auditory system..
    Kotak, VC, Sanes, DH
    Biol Cybern 2003; 89 (5):363-70. doi: 10.1007/s00422-003-0441-7. PubMed PMID:14669016 .
  61. Glycine mediated alterations in intracellular pH..
    Green, JS, Kotak, VC, Sanes, DH
    Brain Res. 2003; 989 (1):122-7. doi: 10.1016/s0006-8993(03)03340-7. PubMed PMID:14519519 .
  62. Deafness disrupts chloride transporter function and inhibitory synaptic transmission..
    Vale, C, Schoorlemmer, J, Sanes, DH
    J. Neurosci. 2003; 23 (20):7516-24. . PubMed PMID:12930790 PubMed Central PMC6740754.
  63. Long-term depression of synaptic inhibition is expressed postsynaptically in the developing auditory system..
    Chang, EH, Kotak, VC, Sanes, DH
    J. Neurophysiol. 2003; 90 (3):1479-88. doi: 10.1152/jn.00386.2003. PubMed PMID:12761279 .
  64. The effect of bilateral deafness on excitatory and inhibitory synaptic strength in the inferior colliculus..
    Vale, C, Sanes, DH
    Eur. J. Neurosci. 2002; 16 (12):2394-404. doi: 10.1046/j.1460-9568.2002.02302.x. PubMed PMID:12492434 .
  65. Enhancement of signal-to-noise ratio and phase locking for small inputs by a low-threshold outward current in auditory neurons..
    Svirskis, G, Kotak, V, Sanes, DH, Rinzel, J
    J. Neurosci. 2002; 22 (24):11019-25. . PubMed PMID:12486197 PubMed Central PMC3677217.
  66. Postsynaptic kinase signaling underlies inhibitory synaptic plasticity in the lateral superior olive..
    Kotak, VC, Sanes, DH
    J. Neurobiol. 2002; 53 (1):36-43. doi: 10.1002/neu.10107. PubMed PMID:12360581 .
  67. Right place at the right time..
    Sanes, DH
    Nat. Neurosci. 2002; 5 (3):187-8. doi: 10.1038/nn0302-187. PubMed PMID:11865304 .
  68. GABA(B) and Trk receptor signaling mediates long-lasting inhibitory synaptic depression..
    Kotak, VC, DiMattina, C, Sanes, DH
    J. Neurophysiol. 2001; 86 (1):536-40. doi: 10.1152/jn.2001.86.1.536. PubMed PMID:11431532 .
  69. Development and influence of inhibition in the lateral superior olivary nucleus..
    Sanes, DH, Friauf, E
    Hear. Res. 2000; 147 (1-2):46-58. doi: 10.1016/s0378-5955(00)00119-2. PubMed PMID:10962172 .
  70. Long-lasting inhibitory synaptic depression is age- and calcium-dependent..
    Kotak, VC, Sanes, DH
    J. Neurosci. 2000; 20 (15):5820-6. . PubMed PMID:10908623 .
  71. Afferent regulation of inhibitory synaptic transmission in the developing auditory midbrain..
    Vale, C, Sanes, DH
    J. Neurosci. 2000; 20 (5):1912-21. . PubMed PMID:10684892 .
  72. Age-dependent failure of axon regeneration in organotypic culture of gerbil auditory midbrain..
    Hafidi, A, Lanjun, G, Sanes, DH
    J. Neurobiol. 1999; 41 (2):267-80. . PubMed PMID:10512983 .
  73. Serotonergic modulation of synapses in the developing gerbil lateral superior olive..
    Fitzgerald, KK, Sanes, DH
    J. Neurophysiol. 1999; 81 (6):2743-52. doi: 10.1152/jn.1999.81.6.2743. PubMed PMID:10368394 .
  74. Conditioned enhancement and suppression in the developing auditory midbrain..
    Thornton, SK, Semple, MN, Sanes, DH
    Eur. J. Neurosci. 1999; 11 (4):1414LAST-1420. doi: 10.1046/j.1460-9568.1999.00558.x. PubMed PMID:10103136 .
  75. Commissural and lemniscal synaptic input to the gerbil inferior colliculus..
    Moore, DR, Kotak, VC, Sanes, DH
    J. Neurophysiol. 1998; 80 (5):2229-36. doi: 10.1152/jn.1998.80.5.2229. PubMed PMID:9819238 .
  76. Metabotropic glutamate receptor activation modulates sound level processing in the cochlear nucleus..
    Sanes, DH, McGee, J, Walsh, EJ
    J. Neurophysiol. 1998; 80 (1):209-17. doi: 10.1152/jn.1998.80.1.209. PubMed PMID:9658042 .
  77. A developmental shift from GABAergic to glycinergic transmission in the central auditory system..
    Kotak, VC, Korada, S, Schwartz, IR, Sanes, DH
    J. Neurosci. 1998; 18 (12):4646-55. . PubMed PMID:9614239 .
  78. Afferent regulation of glycine receptor distribution in the gerbil LSO..
    Koch, U, Sanes, DH
    Microsc. Res. Tech. 1998; 41 (3):263-9. doi: 10.1002/(SICI)1097-0029(19980501)41:3<263::AID-JEMT9>3.0.CO;2-U. PubMed PMID:9605343 .
  79. Modulation of calcium by inhibitory systems in the developing auditory midbrain..
    Lo, YJ, Rao, SC, Sanes, DH
    Neuroscience 1998; 83 (4):1075-84. doi: 10.1016/s0306-4522(97)00410-7. PubMed PMID:9502247 .
  80. Deafferentation weakens excitatory synapses in the developing central auditory system..
    Kotak, VC, Sanes, DH
    Eur. J. Neurosci. 1997; 9 (11):2340-7. doi: 10.1111/j.1460-9568.1997.tb01651.x. PubMed PMID:9464928 .
  81. Role of synaptic inhibition in processing of dynamic binaural level stimuli..
    Sanes, DH, Malone, BJ, Semple, MN
    J. Neurosci. 1998; 18 (2):794-803. . PubMed PMID:9425020 .
  82. In vitro induction of microcyst-like structures in the superior olivary complex..
    Schwartz, IR, Hafidi, A, Sanes, DH
    Hear. Res. 1997; 111 (1-2):136-42. doi: 10.1016/s0378-5955(97)00102-0. PubMed PMID:9307319 .
  83. Glycinergic transmission regulates dendrite size in organotypic culture..
    Sanes, DH, Hafidi, A
    J. Neurobiol. 1996; 31 (4):503-11. doi: 10.1002/(SICI)1097-4695(199612)31:4<503::AID-NEU9>3.0.CO;2-D. PubMed PMID:8951107 .
  84. Differential expression of MAG, MBP and L1 in the developing lateral superior olive..
    Hafidi, A, Katz, JA, Sanes, DH
    Brain Res. 1996; 736 (1-2):35-43. doi: 10.1016/0006-8993(96)00653-1. PubMed PMID:8930306 .
  85. Regional distribution of neurotrophin receptors in the developing auditory brainstem..
    Hafidi, A, Moore, T, Sanes, DH
    J. Comp. Neurol. 1996; 367 (3):454-64. doi: 10.1002/(SICI)1096-9861(19960408)367:3<454::AID-CNE10>3.0.CO;2-H. PubMed PMID:8698904 .
  86. Developmental influence of glycinergic transmission: regulation of NMDA receptor-mediated EPSPs..
    Kotak, VC, Sanes, DH
    J. Neurosci. 1996; 16 (5):1836-43. . PubMed PMID:8774451 .
  87. Synaptically evoked prolonged depolarizations in the developing auditory system..
    Kotak, VC, Sanes, DH
    J. Neurophysiol. 1995; 74 (4):1611-20. doi: 10.1152/jn.1995.74.4.1611. PubMed PMID:8989397 .
  88. Regeneration of the auditory midbrain intercommissural projection in organotypic culture..
    Hafidi, A, Sanes, DH, Hillman, DE
    J. Neurosci. 1995; 15 (2):1298-307. . PubMed PMID:7532702 .
  89. Depression of developing neuromuscular synapses induced by repetitive postsynaptic depolarizations..
    Lo, YJ, Lin, YC, Sanes, DH, Poo, MM
    J. Neurosci. 1994; 14 (8):4694-704. . PubMed PMID:8046444 .
  90. Structural and molecular heterogeneity of astrocytes and oligodendrocytes in the gerbil lateral superior olive..
    Hafidi, A, Sanes, DH, Hillman, DE, Kedeshian, P
    Neuroscience 1994; 60 (2):503-19. doi: 10.1016/0306-4522(94)90261-5. PubMed PMID:7521025 .
  91. Synaptic inhibition influences the temporal coding properties of medial superior olivary neurons: an in vitro study..
    Grothe, B, Sanes, DH
    J. Neurosci. 1994; 14 (3 Pt 2):1701-9. . PubMed PMID:8126564 .
  92. The development of synaptic function and integration in the central auditory system..
    Sanes, DH
    J. Neurosci. 1993; 13 (6):2627-37. . PubMed PMID:8501528 .
  93. Activity-dependent refinement of inhibitory connections..
    Sanes, DH, Takács, C
    Eur. J. Neurosci. 1993; 5 (6):570-4. doi: 10.1111/j.1460-9568.1993.tb00522.x. PubMed PMID:8261131 .
  94. Bilateral inhibition by glycinergic afferents in the medial superior olive..
    Grothe, B, Sanes, DH
    J. Neurophysiol. 1993; 69 (4):1192-6. doi: 10.1152/jn.1993.69.4.1192. PubMed PMID:8492158 .
  95. The influence of inhibitory afferents on the development of postsynaptic dendritic arbors..
    Sanes, DH, Markowitz, S, Bernstein, J, Wardlow, J
    J. Comp. Neurol. 1992; 321 (4):637-44. doi: 10.1002/cne.903210410. PubMed PMID:1380523 .
  96. Refinement of dendritic arbors along the tonotopic axis of the gerbil lateral superior olive..
    Sanes, DH, Song, J, Tyson, J
    Brain Res. Dev. Brain Res. 1992; 67 (1):47-55. doi: 10.1016/0165-3806(92)90024-q. PubMed PMID:1638742 .
  97. Glycinergic transmission influences the development of dendrite shape..
    Sanes, DH, Chokshi, P
    Neuroreport 1992; 3 (4):323-6. doi: 10.1097/00001756-199204000-00008. PubMed PMID:1325201 .
  98. Development and specificity of inhibitory terminal arborizations in the central nervous system..
    Sanes, DH, Siverls, V
    J. Neurobiol. 1991; 22 (8):837-54. doi: 10.1002/neu.480220805. PubMed PMID:1663990 .
  99. Applications of confocal microscopy to the study of myelin development and neuron structure..
    Staugaitis, SM, Rowan, T, Sanes, DH, Colman, DR, Smith, PR
    J Electron Microsc Tech 1991; 18 (1):31-7. doi: 10.1002/jemt.1060180106. PubMed PMID:1711576 .
  100. An in vitro analysis of sound localization mechanisms in the gerbil lateral superior olive..
    Sanes, DH
    J. Neurosci. 1990; 10 (11):3494-506. . PubMed PMID:2172478 .
  101. Dendritic morphology of central auditory neurons correlates with their tonotopic position..
    Sanes, DH, Goldstein, NA, Ostad, M, Hillman, DE
    J. Comp. Neurol. 1990; 294 (3):443-54. doi: 10.1002/cne.902940312. PubMed PMID:1692853 .
  102. In vitro analysis of position- and lineage-dependent selectivity in the formation of neuromuscular synapses..
    Sanes, DH, Poo, MM
    Neuron 1989; 2 (3):1237-44. doi: 10.1016/0896-6273(89)90308-5. PubMed PMID:2624747 .
  103. Evidence for an alteration of the tonotopic map in the gerbil cochlea during development..
    Sanes, DH, Merickel, M, Rubel, EW
    J. Comp. Neurol. 1989; 279 (3):436-44. doi: 10.1002/cne.902790308. PubMed PMID:2918079 .
  104. The ontogeny of inhibition and excitation in the gerbil lateral superior olive..
    Sanes, DH, Rubel, EW
    J. Neurosci. 1988; 8 (2):682-700. . PubMed PMID:3339433 .
  105. In vitro analysis of specificity during nerve-muscle synaptogenesis..
    Sanes, DH, Poo, MM
    Ciba Found. Symp. 1988; 138 :116-30. doi: 10.1002/9780470513675.ch8. PubMed PMID:3197513 .
  106. Quantitative distribution of the glycine receptor in the auditory brain stem of the gerbil..
    Sanes, DH, Geary, WA, Wooten, GF, Rubel, EW
    J. Neurosci. 1987; 7 (11):3793-802. . PubMed PMID:2890726 .
  107. Development of glycine receptor distribution in the lateral superior olive of the gerbil..
    Sanes, DH, Wooten, GF
    J. Neurosci. 1987; 7 (11):3803-11. . PubMed PMID:2824718 .
  108. The development of stimulus following in the cochlear nerve and inferior colliculus of the mouse..
    Sanes, DH, Constantine-Paton, M
    Brain Res. 1985; 354 (2):255-67. doi: 10.1016/0165-3806(85)90177-4. PubMed PMID:4052815 .
  109. The sharpening of frequency tuning curves requires patterned activity during development in the mouse, Mus musculus..
    Sanes, DH, Constantine-Paton, M
    J. Neurosci. 1985; 5 (5):1152-66. . PubMed PMID:3998813 .
  110. Altered activity patterns during development reduce neural tuning..
    Sanes, DH, Constantine-Paton, M
    Science 1983; 221 (4616):1183-5. doi: 10.1126/science.6612332. PubMed PMID:6612332 .