Craxton M .

Medical Research Council , MC_U105184291 Medical Research Council , MRC_MC_U105184291 Medical Research Council

	Figure 1. Summary of the genes collected from marine invertebrate genomes. The website of the organisation which sequenced the genome is listed below the organism name. Underneath the Gene Name heading, gene symbols are listed. Red symbols indicate sequences containing all ten acidic amino acid positions required for function as a calcium trigger for exocytosis.
	Figure 2. Summary of the genes collected from ecdysozoan genomes. The websites of the organisations which sequenced the genome or which provide access to multiple genomes within a single genus, are listed below the organism name. Underneath the Gene Name heading, gene symbols are listed. Red symbols indicate sequences containing all ten acidic amino acid positions required for function as a calcium trigger for exocytosis. Websites for the relevant nomenclature authorities are listed alongside the Gene Name heading. Gene symbols within brackets are currently officially approved, but in conflict with the nomenclature proposed here.
	Figure 3. Summary of the genes collected from Vertebrate genomes. The websites of the organisations which sequenced the genome or which provide this information, are listed below the organism name. Underneath the Gene Name heading, gene symbols are listed. Red symbols indicate sequences containing all ten acidic amino acid positions required for function as a calcium trigger for exocytosis. Websites for the relevant nomenclature authorities are listed alongside the Gene Name heading. Gene symbols within brackets are currently officially approved, but in conflict with the nomenclature proposed here.
	Figure 4. Syt orthologues and paralogues in M. musculus. Percent identity scores produced by the align facility at EBI, of pairwise comparisons of full length protein sequences, are listed. Top scores from mouse versus lizard comparisons are highlighted in blue, indicating an orthologous relationship between the mouse gene and the evolutionarily more ancient lizard gene. Top scores from comparisons between mouse and the much more evolutionarily ancient polychaete worm, Capitella, are highlighted in green, indicating that of these mouse genes, Syt1, Syt4, Syt9 and Syt16 are orthologous to genes in Capitella.
	Figure 5. Pairwise comparisons of Syt1 paralogues in vertebrates. Percent identity scores produced by the align facility at EBI, of pairwise comparisons of full length protein sequences, are listed. Top scores are highlighted in blue, indicating an orthologous relationship between the compared genes.
	Figure 6. Synteny of Syt1 paralogues in D. rerio, X. tropicalis and H. sapiens. Gene symbols for four groups of neighbouring genes in H. sapiens, are enclosed by a black box. Within the red box, the chromosomal locations of each gene in the current human genome reference sequence, are indicated along with a reference transcript sequence. The genomic locations and transcript sequences for the X. tropicalis gene relatives are within the green box and those for D. rerio are within the blue box.
	Figure 7. Genomic sequence surrounding coding exons 4 and 5 in mouse Doc2g and the equivalent human region. Genomic sequence surrounding coding exons 4 and 5 of mouse Doc2g and the equivalent region in human, are shown. Exonic and intronic sequences are indicated. The reading frame is indicated by grey bars between codons. The single nucleotide deletion in the human exon 5 region is highlighted with a red exclamation mark. The deletion in human exon 5 disrupts the reading frame, leading to a premature termination codon which is boxed and highlighted with a red exclamation mark. An alternative splice acceptor dinucleotide which could restore the correct reading frame to human exon 5 is indicated by a blue arrow. Blue bars between the first few codons indicate the reading frame were the alternative splice acceptor to be functional. Human exon 5 has an alternative start codon, which is boxed and highlighted with a question mark. There is a possibility that this start codon could allow normally spliced transcripts to be translated into the N-terminal and C-terminal protein products listed in additional file 50.

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