Genome Sequencing and Assembly of SJ42 using Illumina MiSeq and Ox. Nanopore Tech. long reads March 15th, 2017 n n:500 L50 min N80 N50 N20 E-size max sum name 43 33 4 747 209932 570557 940706 579669 1099614 5944060 unicycler.fasta 43 33 4 747 209973 570557 940761 579679 1099614 5944164 unicycler_polish_out.fasta 37 27 3 747 240706 640788 1693028 932964 1693028 5944164 links.unicycler_polish_out.fasta 37 27 3 747 240706 640788 1693028 932964 1693028 5944164 sealer.links.unicycler_polish_out.fasta 1 1 1 5868151 5868151 5868151 5868151 5868151 5868151 5868151 SJ42_ragoutMC045.fa 22 12 2 747 13458 16585 33560 21096 33560 76013 SJ42_ragoutUNPLACED.fa The M. chimaera SJ42 genome was constructed with unicycler, a hybrid ONT+Illumina assembler (unicycler.fasta) and polished with those same data (refer to the unicycler documentation on the polishing steps) (unicycler_polish_out.fasta) The resulting assembly was re-scaffolded with LINKS using ONT-only data, and made 6 merges (links.unicycler_polish_out.fasta) Scaffold merges were consistent with the MC045 chromosome structure. The merges resulted in 6 predicted overlaps. The automated gap-filling software sealer closed 2 out of these 6 overlaps. The reference-based scaffolder ragout was used, in conjunction with the reference M. chimaera MC045 chromosome, to generate a possible chromosome sequence for SJ42 (SJ42_ragoutMC045.fa). Because MC045 plasmids were not used in the ragout scaffolding process, unplaced SJ42 sequences represent possible plasmid sequences (SJ42_ragoutUNPLACED.fa). ### Software Resources: -------------- Unicycler https://github.com/rrwick/Unicycler LINKS http://www.bcgsc.ca/platform/bioinfo/software/links Sealer http://www.bcgsc.ca/platform/bioinfo/software/sealer Ragout https://github.com/fenderglass/Ragout