1. Goncalves J, Wan Y, Garcia LR. Stearoyl-CoA desaturases sustain cholinergic excitation and copulatory robustness in metabolically aging C. elegansmales. iScience. 2022 Mar 16;25(4):104082. doi: 10.1016/j.isci.2022.104082. PMID: 35372802; PMCID: PMC8968053.
  2. Goncalves J, Wan Y, Guo X, Rha K, LeBoeuf B, Zhang L, Estler K, Garcia LR. Succinate Dehydrogenase-Regulated Phosphoenolpyruvate Carboxykinase Sustains Copulation Fitness in Aging C. elegans Males. iScience. 2020 Apr 24;23(4):100990. doi: 10.1016/j.isci.2020.100990. Epub 2020 Mar 19. PubMed PMID: 32240955; PubMed Central PMCID: PMC7115159.
  3. LeBoeuf B, Chen X, Garcia LR. WNT regulates programmed muscle remodeling through PLC-β and calcineurin in Caenorhabditis elegans males. Development. 2020 May 13;147(9). doi: 10.1242/dev.181305. PubMed PMID: 32317273.
  4. Barr MM, García LR. Portman DS. 2018. Sexual dimorphism and sex differences in Caenorhabditis elegans neuronal development and behavior. Genetics 208: 909-935.
  5. Versaw WK, García LR. 2017. Intracellular transport and compartmentation of phosphate in plants. Curr Opin Plant Biol. 39:25-30.
  6. Serrano-Saiz E, Pereira L, Gendrel M, Aghayeva U, Battacharya A, Howell K, García, LR, Hobert O. 2017. A Neurotransmitter Atlas of the Caenorhabditis elegans Male Nervous System Reveals Sexually Dimorphic Neurotransmitter Usage. Genetics 206:1251-1269.
  7. Leboeuf, B and García, LR. 2017 C. elegans male copulation circuitry incorporates sex-shared defecation components to promote intromission and sperm transfer. G3. 7:647-662.
  8. Jee C, Goncalves JF, LeBoeuf B, García LR. 2016. CRF-like receptor SEB-3 in sex-common interneurons potentiates stress handling and reproductive drive in C. elegans. Nat Commun. 7:11957.
  9. García LR, Portman DS. 2016. Neural circuits for sexually dimorphic and sexually divergent behaviors in Caenorhabditis elegans. Curr Opin Neurobiol. 38:46-52.
  10. Rosas PC, Nagaraja GM, Kaur P, Panossian A, Wickman G, García LR, Al-Khamis FA, Asea AA. 2016. Hsp72 (HSPA1A) Prevents Human Islet Amyloid Polypeptide Aggregation and Toxicity: A New Approach for Type 2 Diabetes Treatment. PLoS One. 9;11(3):e0149409.
  11. Banerjee S, García LR, Versaw WK. 2016. Quantitative Imaging of FRET-Based Biosensors for Cell- and Organelle-Specific Analyses in Plants. Microsc Microanal. 22(2):300-10.
  12. Correa PA, Gruninger T, García LR. 2015. DOP-2. D2-Like Receptor Regulates UNC-7 Innexins to Attenuate Recurrent Sensory Motor Neurons during C. elegans Copulation. J Neurosci. 8;35(27):9990-10004.
  13. Pereira L, Kratsios P, Serrano-Saiz E, Sheftel H, Mayo AE, Hall DH, White JG, LeBoeuf B, Garcia LR, Alon U, Hobert O. 2015. A Cellular and regulatory map of the cholinergic nervous system of C. elegans. eLife. 4: e12432.
  14. Banerjee S, Versaw, WK and Garcia LR. 2015. Imaging Cellular inorganic phosphate in Caenorhabditis elegans using a genetically encoded FRET-Based Sensor. PloS One. 10(10): e0141128.
  15. Mukherjee P, Banerjee S, Wheeler A, Ratliff LA, Irigoyen S, Garcia LR, Lockless SW, Versaw WK. 2015. Live Imaging of Inorganic phosphate in plants with cellular and subcellular resolution. Plant Physiol. 2015 Mar;167(3):628-38.
  16. Zhang, L., Gualberto, D.G., Guo, X, Correa, P., Jee, C., and Garcia,L.R. 2015. TMC-1 attenuates C. elegans development and sexual behavior in a chemically defined food environment. Nature Commun. 6:6345.
  17. Jobson MA, Valdez CM, Gardner J, Garcia LR, Jorgensen EM, Beg AA. Spillover transmission is mediated by the excitatory GABA receptor LGC-35 in C. elegans. J Neurosci. 2015 Feb 11;35(6):2803-16.
  18. Chen, X and García, LR. 2015. Developmental Alterations of the C. elegans Male Anal Depressor Morphology and Function Require Sex-Specific Cell Autonomous and Cell Non-Autonomous Interactions. Developmental Biology. 398:24-43.
  19. García, LR. 2014. Regulation of sensory motor circuits used in C. elegans male intromission behavior. Seminars in Cell and Developmental Biology. 33:42-49.
  20. Leboeuf, B and García, LR. 2014. A network of sensory-motor neurons and dopaminergic support cells couples ejaculation and satiation in C. elegans males. eLife 2014;10.7554/eLife.02938
  21. Guo, X and García, LR. 2014. SIR-2.1 integrates metabolic homeostasis with the reproductive neuromuscular excitability in aging male C. elegans. eLife:3:e01730
  22. Markert, M and García, LR. 2013. Virgin Caenorhabditis remanei females are attracted to a colial pheromone released by con-specific copulating males. Worm. (2):e24448.
  23. Correa P, LeBoeuf B, García LR . 2012. C. elegans dopaminergic D2-like receptors delimit recurrent cholinergic-mediated motor programs during a goal-oriented behavior. PLoS Genet. (11):e1003015.
  24. Leboeuf B and García LR. 2012. Genetic interactions between BK channels and EAG family K+ channels regulate the neuromuscular circuitry that controls C. elegans male mating behavior. Genetics. 190(3):1025-41..
  25. Guo, X, Navetta, A., Gualberto, D.G., and García, LR. 2012. Behavioral decay in aging male C. elegans correlates with increased cell excitability. Neurobiology of Aging. (7):1483.e5-23.
  26. Liu Y, LeBeouf B, Guo X, Correa PA, Gualberto DG, Lints, R and García, LR. 2011. A cholinergic-regulated circuit coordinates the maintenance and bi-stable states of a sensory-motor behavior during Caenorhabditis elegans male copulation. PLoS Genetics 7(3);e1001326.
  27. Leboeuf B, Guo X, and García LR. 2011 The effects of transient starvation persist through direct interactions between CaMKII and ether-a-go-go K+ channels in C. elegans males. Neuroscience. 175:1-17.
  28. Gruninger, T.R., Gualberto, D.G.and García, LR. 2008. Sensory Perception of Food and Insulin-like Signals Influence Seizure Susceptibility. PloS Genetics. 4(7):e1000117.
  29. ∀LeBoeuf, B., ∀Gruninger, T.R., ( ∀Co-first Authors) and García, LR. 2007. Food deprivation suppresses defective ERG K+ channel-induced muscle seizures through CaMKII and EAG K+ channels. PloS Genetics.3(9): e156.
  30. Gruninger, T.R., LeBoeuf, B, Liu, Y, and García, LR. 2007. Molecular Signaling Involved in Regulating Feeding and Other Motivated Behaviors. Molecular Neurobiology. 35: 1-20.
  31. García, LR. LeBoeuf, B, and Koo, P. 2007. Diversity in Mating Behavior of Hermaphroditic and Male-Female Caenorhabditis Nematodes. Genetics. 175:1761-1771.
  32. Liu Y, LeBoeuf, B, and García, LR. 2007. Gαq-coupled Muscarinic Acetylcholine Receptors Enhance Nicotinic Acetylcholine Receptor Signaling in C. elegans Mating Behavior. J. Neurosci. 27: 1411-1421.
  33. Reiner, DJ., Weinshenker, D., Tian, H., Thomas, J.H., Hishiwaki, K., Miwa, J., Gruninger, T., LeBoeuf, B., García, LR. 2006. Behavioral Genetics of Caenorhabditis elegans unc-103-encoded ERG-like K+ Channel. J. Neurogenetics. 20:41-46.
  34. Gruninger, T.R., Gualberto, D.G., LeBoeuf, B., and. García, LR. 2006. Integration of Male Mating and Feeding Behaviors in Caenorhabditis elegans. J. Neurosci. 26:169-179.
  35. Kemp, P., García, LR. and Molineux, I.J. 2005. Changes in bacteriophage T7 virion structure at the initiation of infection. Virology. 2:307-317.
  36. Barr, M. and García, LR. 2005. Male Mating behavior. WormBook, ed. The C. elegans Research Community, WormBook, doi/10.1895/wormbook.1.7.1, http://www.wormbook.org
  37. ∀Moghal, N., *∀ García, LR. ( ∀Co-first Authors), Khan, L.A., Iwasaki, K., Sternberg, P.W. 2003 Modulation of EGF receptor-mediated vulval development by Gαq and excitable cells in C. elegans. Development. 130:4553-4566.
  38. Garcia, L.R. and P.W. Sternberg. 2003 C. elegans UNC-103 ERG-like potassium channel regulates contractile behaviors of sex muscles in males prior to and during mating. J. Neurosci. 23:2696-270.
  39. García, LR., Mehta, P., and P.W. Sternberg. 2001. Regulation of distinct muscle behaviors controls the C. elegans male’s copulatory spicules during mating. Cell 107: 777-788
  40. García, LR. and I. J. Molineux. 1999. Translocation and cleavage of bacteriophage T7 DNA by the type I restriction enzyme EcoKI in vivo. PNAS. 96:12430-12435.
  41. García, LR. and I. J. Molineux. 1996. Transcription-independent DNA translocation of bacteriophage T7 DNA into Escherichia coli. J. Bacteriol. 178:6921-6929.
  42. García, LR. and I. J. Molineux. 1995. Incomplete entry of bacteriophage T7 into F plasmid containing Escherichia coli. J. Bacteriol. 177:4077-4083.
  43. García, LR. and I. J. Molineux. 1995. Rate of translocation of bacteriophage T7 DNA across the membranes of Escherichia coli. J. Bacteriol 177:4066-4076.
  44. Hole, N. J. K., N. Harindranath, G. O. Young-Cooper, R. Garcia, and R. G. Mage. 1991. Identification of enhancer sequences 3′ of the rabbit Ig Kappa l chain loci. J. Immunol. 146:4377-4384.