Nematode chemoreceptors are
chemoreceptors of
nematodes. Animals recognise a wide variety of chemicals using their senses of taste and smell. The nematode Caenorhabditis elegans has only 14 types of
chemosensoryneuron, yet is able to respond to dozens of chemicals because each neuron detects several stimuli. More than 40 highly divergent
transmembrane proteins that could contribute to this functional diversity have been described.[1] Most of the candidate receptor genes are in clusters of similar genes; 11 of these appear to be expressed in small subsets of chemosensory neurons. A single type of neuron can potentially express at least 4 different receptor genes.[1] Some of these might encode receptors for water-soluble attractants, repellents and pheromones, which are divergent members of the
G-protein-coupled receptor family.[1] Sequences of the Sra family of C. elegans receptor-like proteins contain 6-7 hydrophobic, putative transmembrane, regions. These can be distinguished from other 7TM proteins (especially those known to couple G-proteins) by their own characteristic TM signatures.
More than 1300 potential chemoreceptor genes have been identified in C. elegans, which are generally prefixed sr for
serpentine receptor. The receptor superfamilies include Sra (Sra, Srb, Srab, Sre), Str (Srh, Str, Sri, Srd, Srj, Srm, Srn) and Srg (Srx, Srt, Srg, Sru, Srv, Srxa), as well as the families Srw, Srz, Srbc, Srsx and Srr.[1][2][3] Many of these proteins have homologues in Caenorhabditis briggsae.
These receptors are distantly related to the
rhodopsin-like receptors.[4] In contrast the receptor Sro is a true rhodopsin-like receptor. It is a member of the nemopsins a subgroup of the
opsins,[5] but unlike most other opsins it does not have a lysine corresponding to position 296 in
cattlerhodopsin. The lysine is replaced by an
asparagine.[1][5] The lysine is needed so that the
chromophoreretinal can covalently bind to the opsin[6] via a
Schiff-base,[7][8] which makes the opsin light sensitive. If the lysine is replaced by another amino acid then the opsin becomes light insensitive.[9][10] Therefore, Sro is also thought to be a chemoreceptor.[1]
^Nordström KJ, Sällman Almén M, Edstam MM, Fredriksson R, Schiöth HB (September 2011). "Independent HHsearch, Needleman--Wunsch-based, and motif analyses reveal the overall hierarchy for most of the G protein-coupled receptor families". Molecular Biology and Evolution. 28 (9): 2471–2480.
doi:
10.1093/molbev/msr061.
PMID21402729.