Paralytic (gene)

[6] Channel kinetics are influenced by splicing, that not only changes protein structure but can allow for varying modifications, like differential binding of cofactors.

[6] The voltage sensor 4 in HD III is partially formed by exon L and K.[7] The alternative splicing at this locus causes a difference in the charged current at this channel.

[7] Paralytic encodes a protein channel which transfers sodium ions into neurons and is activated in response to changes in the voltage across a membrane[1] to propagate an action potential.

[3] The paralytic protein has been found in the thoracic-abdominal ganglion, eye tissues and cortical regions in the brain.

[7] Insect species have only one a single sodium channel gene which encodes the mammalian equivalent of α subunit.

Insects like D. melanogaster take advantage of alternative splicing and RNA editing to generate distinct gating properties of sodium channels.

[9] Fly models can be used to study branches of human epilepsy, by using GEFS+ mutations at SCN1A gene for knock-in's at the para locus in D.

This image depicts the α-subunit of a generic voltage-gated sodium channel and displays the six alpha helical segments (S1-S6) per homology domains (I - IV).