%0 Journal Article %A Kibria, K. %A Ferdous, Jannatul %A Sardar, Rahila %A Panda, Ashutosh %A Gupta, Dinesh %A Mohmmed, Asif %A Malhotra, Pawan %D 2019 %T Additional file 1: of A genome-wide analysis of coatomer protein (COP) subunits of apicomplexan parasites and their evolutionary relationships %U https://springernature.figshare.com/articles/journal_contribution/Additional_file_1_of_A_genome-wide_analysis_of_coatomer_protein_COP_subunits_of_apicomplexan_parasites_and_their_evolutionary_relationships/7659713 %R 10.6084/m9.figshare.7659713.v1 %2 https://springernature.figshare.com/ndownloader/files/14227544 %K COPI %K COPII %K Apicomplexa %K Golgi %K Endoplasmic reticulum %K Protein trafficking %X Table S1. The coatomer alpha homologues of apicomplexan parasites with their characteristics. Table S2. The coatomer Beta homologues of apicomplexan parasite. Table S3. The coatomer Beta’ homologues of apicomplexan parasites. Table S4. The coatomer Gamma homologues of apicomplexan parasites. Table S5. The coatomer Delta homologues of apicomlexan parasites. Table S6. The coatomer Epsilon homologues of apicomplexan parasites. Table S7. The coatomer Zeta homologues of apicomplexan parasites. Table S8. Coatomer sec13 homologues of apicomplexan parasites. Table S9. The Coatomer sec31 Homologues of apicomplexan parasites. Table S10. The coatomer sec23 homologues of apicomplexan parasites. Table S11. The coatomer sec24A homologues of apicomplexan parasites. Table S12. The coatomer sec24B homologues of apicomplexan parasites. Table S13. The Coatomer Sar1a homologues of apicomplexan parasites. Table S14. The domain architecture of the COPI and COPII subunits of apicomplexan parasites in comparison to that of the human homologs. The number of domain(s) and their locations are mentioned for the corresponding proteins. Table S15. The list of proteins identified to have interaction and co-expression for COPI and COPII. (DOCX 151 kb) %I figshare