Treinin M, Jin Y (2021)
Cholinergic transmission in C. elegans: Functions, diversity, and maturation of ACh-activated ion channels
Journal of Neurochemistry 158: 1274

Sanders J, Nagy S, Fetterman G, Wright C, Treinin M, Biron D (2013)
The Caenorhabditis elegans interneuron ALA is (also) a high-threshold mechanosensor
BMC Neurosci 14: 156

Cohen E, Yemini E, Schafer W, Feitelson DG, Treinin M (2012)
Locomotion analysis identifies roles of mechanosensory neurons in governing locomotion dynamics of C. elegans
J Exp Biol 215: 3639

Husson SJ, Costa WS, Wabnig S, Stirman JN, Watson JD, Spencer WC, Akerboom J, Looger LL, Treinin M, Miller DM, 3rd, Lu H, Gottschalk A (2012)
Optogenetic analysis of a nociceptor neuron and network reveals ion channels acting downstream of primary sensors
Current Biology 22: 743

Oren-Suissa M, Hall DH, Treinin M, Shemer G, Podbilewicz B (2010)
The fusogen EFF-1 controls sculpting of mechanosensory dendrites
Science 328: 1285

Biala Y, Liewald JF, Ben-Ami HC, Gottschalk A, Treinin M (2009)
The conserved RIC-3 coiled-coil domain mediates receptor-specific interactions with nicotinic acetylcholine receptors
Mol Biology of the cell 20: 1419

Cohen Ben-Ami H, Biala Y, Farah H, Elishevitz E, Battat E, Treinin M (2009)
Receptor and subunit specific interactions of RIC-3 with nicotinic acetylcholine receptors
Biochemistry 48: 12329

Shteingauz A, Cohen E, Biala Y, Treinin M (2009)
The BTB-MATH protein BATH-42 interacts with RIC-3 to regulate maturation of nicotinic acetylcholine receptors
Journal of Cell Science 122: 807

Treinin M (2008)
RIC-3 and nicotinic acetylcholine receptors: biogenesis, properties, and diversity
Biotechnol J 3: 1539

Ben-Ami HC, Yassin L, Farah H, Michaeli A, Eshel M, Treinin M (2005)
RIC-3 affects properties and quantity of nicotinic acetylcholine receptors via a mechanism that does not require the coiled-coil domains
Journal of Biological Chemistry 280: 28053

Treinin M, Halevi S, Yassin L (2004)
Genetic dissection of an acetylcholine receptor involved in neuronal degeneration.
Cholinergic Mechanisms, CRC Press

Halevi S, Yassin L, Eshel M, Sala F, Sala S, Criado M, Treinin M (2003)
Conservation within the RIC-3 gene family. Effectors of mammalian nicotinic acetylcholine receptor expression
Journal of Biological Chemistry 278: 34411

Halevi S, McKay J, Palfreyman M, Yassin L, Eshel M, Jorgensen E, Treinin M (2002)
The C.elegans ric-3 gene is required for maturation of nicotinic acetylcholine receptors
EMBO Journal 21: 1012

Yassin L, Samson AO, Halevi S, Eshel M, Treinin M (2002)
Mutations in the extracellular domain and in the membrane-spanning domains interfere with nicotinic acetylcholine receptor maturation
Biochemistry 41: 12329

Yassin L, Gillo B, Kahan T, Halevi S, Eshel M, Treinin M (2001)
Characterization of the deg-3/des-2 receptor: a nicotinic acetylcholine receptor that mutates to cause neuronal degeneration
Molecular & Cellular Neurosciences 17: 589

Treinin M, Gillo B, Liebman L, Chalfie M (1998)
Two functionally dependent acetylcholine subunits are encoded in a single Caenorhabditis elegans operon
Proc Natl Acad Sci U S A 95: 15492

Treinin M, Chalfie M (1995)
A mutated acetylcholine receptor subunit causes neuronal degeneration in C. elegans
Neuron 14: 871