Nct at around six months of age. Obesity is observed somewhat late, beginning at about age 3 months. The tub gene was identified by positional cloning (NobenTrauth et al., 1996; Kleyn et al., 1996). TUB is expressed in hair cells of your organ of Corti, in retinal ganglion cells, and inner segments of photoreceptors.
The rcd3 PDE6a gene defect is a deletion of 1 nt in exon 15 (CAT domain, red). Also shown are two missense mutations (V685M, D670G) generated by ENU mutagenesis in exons 18 and 19 on the mouse (canine and mouse PDE6a gene structures are identical). GAF1 and GAF2 include noncatalytic cGMP 3-Phosphoglyceric acid MedChemExpress binding sites. Fa denotes farnesylation from the Cterminal cysteine.Vision Res. Author manuscript; offered in PMC 2009 November 25.Baehr and FrederickPageNIHPA Author ManuscriptFigure 17.Transverse section of rodless mouse retina. Left, a histological section generated by Clyde E. Keeler, rephotographed in 1993. The section, gifted to Richard Sidman in the 1960s, was employed for DNA extraction and PCR amplification (Pittler et al., 1993). Right, camera lucida drawing of rodless retina published by Clyde E. Keeler, 1924.NIHPA Author Manuscript NIHPA Author ManuscriptVision Res. Author manuscript; offered in PMC 2009 November 25.Baehr and FrederickPageNIHPA Author Manuscript NIHPA Author Manuscript NIHPA Author ManuscriptFigure 18.The mouse Pde6b gene and protein. The rd1 Pde6b gene carries a proviral insertion in intron 1and a diseasecausing cease codon in exon 7. Exon 21 mutations discovered in rcd1 Irish setter and Sloughi dog are shown in blue. Relevant PDE6B domains: GAF domains (black), catalytic domain (red) and prenylated Cterminus (yellow). GAF domains are cyclic GMP binding web pages, named after proteins that include them: cGMPspecific and regulated cNMP PDEs, Adenylyl cyclase, and E.coli transcription aspect FhlA.Vision Res. Author manuscript; out there in PMC 2009 November 25.Baehr and FrederickPageNIHPA Author Manuscript NIHPA Author Manuscript NIHPA Author ManuscriptFigure 19.The Prph2 gene and rds mutation. The gene item is a glycoprotein with four TM domains. A sizable insert of foreign DNA into exon 2 produces the Prph2 null allele. The red bar designates a sorting signal necessary for transport for the OS (Tam et al., 2004).Vision Res. Author manuscript; accessible in PMC 2009 November 25.Baehr and FrederickPageNIHPA Author ManuscriptFigure 20.The rd3 gene and proteins. The RD3 protein has no recognizable motifs. The mutation truncates the protein by 89 residues.NIHPA Author Manuscript NIHPA Author ManuscriptVision Res. Author manuscript; obtainable in PMC 2009 November 25.Baehr and FrederickPageNIHPA Author Manuscript NIHPA Author Manuscript NIHPA Author ManuscriptFigure 21.The Rpe65 gene. The Briard gene defect is actually a four nt deletion in exon 5. The rd12 mouse carries a cease codon in exon 3 (canine and murine Rpe65 genes structures are identical).Vision Res. Author manuscript; offered in PMC 2009 November 25.Baehr and FrederickPageNIHPA Author Manuscript NIHPA Author Manuscript NIHPA Author ManuscriptFigure 22.The canine Rpgr gene has a complex splicing pattern. The transcript containing the RCC1 (sequence similarity to regulator of chromatin condensation) domain encoded by exons 111, along with the exon ORF14/15 is shown underneath the gene structure. Mutations causative for XLPRA1 and XLPRA2 are each situated in ORF14/15 within a 100bp interval. The “constitutive” transcript consisting of exons 113 and 1619 is not depicted.Vision Res. Author ma.
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