TY  - GEN
T1  - An isoform-specific allele of the sax-7 locus
AU  - Rahe, Dylan
AU  - Carrera, Ines
AU  - Cosmanescu, Filip
AU  - Hobert, Oliver
DO  - 10.17912/micropub.biology.000092
UR  - http://beta.micropublication.org/journals/biology/micropub-biology-000092/
AB  - The immunoglobulin superfamily member sax-7 produces a long and short isoform that appear to have distinct functions (Chen et al. 2001; Wang et al. 2005; Sasakura et al. 2005; Pocock et al. 2008). An isoform-specific allele for the long isoform, sax-7L, was previously reported (Sasakura et al. 2005), but an isoform-specific allele for the short isoform, sax-7S, has been lacking (Fig. 1A). We used CRISPR/Cas9 to generate such an allele, using the unc-22 co-CRISPR method (Kim et al. 2014). The ot820 allele was isolated using sgRNA targeted to the first exon of sax-7S (sgRNA sequece: 5’ &#8211; TGGGGTTACGAGAGACGAT &#8211; 3’). Twitching progeny were screened by PCR and Sanger sequencing, and an 8bp deletion 15bp from the start codon was isolated (screening primers: 5’ &#8211; GGTGCTTCTCTGGTGGTAGC &#8211; 3’ and 5’ &#8211; TGTTGGCAAACAAAATACACG &#8211; 3’, Fig. 1B). While the sax-7L isoform is predicted to be entirely unaffected by this allele, the resultant frameshift is predicted to generate a 49 amino acid protein in which all but the first five amino acids of sax-7S are aberrant and has no predicted signal sequence, before terminating in a premature stop in the second exon (Fig. 1B). This allele therefore likely represents a null for the sax-7S isoform. After we generated this allele, a recent paper reported an additional sax-7S-specific allele, with somewhat similar, but not identical sequence properties (Chen et al., 2019). Consistent with previous evidence of distinct functions of sax-7 isoforms, these authors showed differing axon fasciculation defects between these two alleles, which is further distinct from a total null allele. These new sax-7S alleles should help to reveal new insights into the role of L1CAM/SAX-7 isoforms in the nervous system.
PY  - 2019
JO  - microPublication Biology
ER  -