This RNAi was able to suppress the locomotion phenotypes found in L-AChR(gf) animals. L-AChR(gf) enhances synaptic activation of muscles by increasing L-AChR function.
This RNAi was able to suppress the locomotion phenotypes found in L-AChR(gf) animals. L-AChR(gf) enhances synaptic activation of muscles by increasing L-AChR function.
This RNAi was able to suppress the locomotion phenotypes found in L-AChR(gf) animals. L-AChR(gf) enhances synaptic activation of muscles by increasing L-AChR function.
This RNAi was able to suppress the locomotion phenotypes found in L-AChR(gf) animals. L-AChR(gf) enhances synaptic activation of muscles by increasing L-AChR function.
This RNAi was able to suppress the locomotion phenotypes found in L-AChR(gf) animals. L-AChR(gf) enhances synaptic activation of muscles by increasing L-AChR function.
"NLP-2, NLP-22, and NLP-23 peptides activate GNRR-3 and GNRR-6 in vitro."; "GNRR-3 and GNRR-6 activation elicits a cellular calcium responsein the absence of G-alpha16."
"NLP-2, NLP-22, and NLP-23 peptides activate GNRR-3 and GNRR-6 in vitro."; "GNRR-3 and GNRR-6 activation elicits a cellular calcium responsein the absence of G-alpha16."
"NLP-2, NLP-22, and NLP-23 peptides activate GNRR-3 and GNRR-6 in vitro."; "GNRR-3 and GNRR-6 activation elicits a cellular calcium responsein the absence of G-alpha16."