Protegen ID	Gene Name	Sequence Strain (Species/Organism)	NCBI Gene ID	NCBI Nucleotide GI	NCBI Protein GI	Locus Tag	Genbank Accession	Protein Accession	Protein Name	Protein Annotation	Molecule Role	Molecule Role Annotation	COG	PMID
5098	EVM018	Ectromelia virus	951501		22164625	ECTVgp018	AF012825	NP_671536	kelch-like protein		Virulence factor	deletions of one to four genes of kelch family both individually (single mutants) and in different combinations (double, triple and quadruple mutants). It was shown that deletion of any of the three genes EVMO18, EVM027 or EVM167 resulted in reduction of 50% lethal dose (LD50) by five and more orders in outbred white mice infected intraperitoneally. Deletion of mousepox kelch-gene EVM150 did not influence the virus virulence. Two or more kelch-genes deletion also resulted in high level of attenuation, which could evidently be due to the lack of three genes EVM167, EVM018 and/or EVM027 identified as virulence factors. [Ref7499:Kochneva et al., 2009]; 		19807023
5099	EVM027	Ectromelia virus	951567		22164632	ECTVgp027	AF012825	NP_671545	Kelch-like protein		Virulence factor	deletions of one to four genes of kelch family both individually (single mutants) and in different combinations (double, triple and quadruple mutants). It was shown that deletion of any of the three genes EVMO18, EVM027 or EVM167 resulted in reduction of 50% lethal dose (LD50) by five and more orders in outbred white mice infected intraperitoneally. Deletion of mousepox kelch-gene EVM150 did not influence the virus virulence. Two or more kelch-genes deletion also resulted in high level of attenuation, which could evidently be due to the lack of three genes EVM167, EVM018 and/or EVM027 identified as virulence factors. [Ref7499:Kochneva et al., 2009]; 		19807023
5100	C13R	Ectromelia virus	951519		22164602	ECTVgp168	AF012825	NP_671686	hypothetical protein		Virulence factor	MUTATION: deletions of one to four genes of kelch family both individually (single mutants) and in different combinations (double, triple and quadruple mutants). It was shown that deletion of any of the three genes EVMO18, EVM027 or EVM167 resulted in reduction of 50% lethal dose (LD50) by five and more orders in outbred white mice infected intraperitoneally. Deletion of mousepox kelch-gene EVM150 did not influence the virus virulence. Two or more kelch-genes deletion also resulted in high level of attenuation, which could evidently be due to the lack of three genes EVM167, EVM018 and/or EVM027 identified as virulence factors.  [Ref7499:Kochneva et al., 2009]; 		19807023