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--- contributors:team_5_page [2015/05/16 03:05]
ceisenhart [Fasta assemblies]
+++ contributors:team_5_page [2015/08/04 08:33]
66.249.79.241 ↷ Links adapted because of a move operation
@@ Line 10: / Line 10: @@
 Discovar //de novo// is a next generation sequence assembly program. The program was developed by the Broad Institute and was released late in 2014. Discovar //de novo// is designed for 250 bp long illumina reads with the PCR duplicates and adaptor sequences removed. The following webpage contains the manual as provided by the Broad Institute (http://www.broadinstitute.org/software/discovar/blog/):
-[[Discovar //de novo// manual:Discovar de novo manual]].
+[[team_5_page:discovar_de_novo_manual]].
@@ Line 17: / Line 17: @@
 The raw data was received as fastq pairs.  Each pair contains a forward and reverse strand. These pairs are ran through Skewer to remove adaptor sequences, then ran through fastUniq to remove PCR duplicates.  Next the forward and reverse strand are merged into a single unaligned BAM file.
-{{:flowchart5.4.2015.png}}
+{{:fastqtobam.png}}
 All unaligned BAM files are then passed into Discovar //de novo//. The output is an assembly in .fasta format and Discovar //de novo// visualization files.  The .fasta file can then be re-scaffolded with a scaffolding program (see next workflow). The finished file can be represented on the UCSC genome browser.
@@ Line 55: / Line 55: @@
 |[[team_5_page:50PerRun | 50% data]]| (Post Skewer and FastUniq) MiSeq data SW019_S1_L001, HiSeq data SW018_S1_L007, HiSeq data SW019_S2_L008 |
 |[[team_5_page:50PerRunUCSF | 50% data UCSF]]| (Post Skewer and FastUniq) UCSF SW018 and SW019 data |
+|[[team_5_page:FullRun1 | Full data run 1]] | (Post Skewer and FastUniq) 100% of the MiSeq SW019, UCSF SW019, and 50 % BS-tag datasets |
+|[[team_5_page:KollosusFullRun | Kolossus full run]] | (Post Skewer and FastUniq) 100% of the MiSeq SW019, UCSF SW019, UCSF SW018, BS-tag, BS-MK datasets |
 The logs are very large, important statistics have been gathered and are compared below.
 Note that MPL1 is an acronym for mean length of first read in pair up to first error.
-| | 1% run | 5% run | 10 % run| 50 % run | 50% UCSF run |
+| | 1% run | 5% run | 10 % run| 50 % run | 50% UCSF run | FullRun1 | Kollosus full run |
-| Total runtime | 1.75 hours| 1.53 hours| 2.4 hours| 8.53 hours| 14.9 hours |
+| Total runtime | 1.75 hours| 1.53 hours| 2.4 hours| 8.53 hours| 14.9 hours | 24.2 hours| 103 hours |
-| Peak memory use | 43.92 GB | 78.10 GB| 151.05 GB| 220.11 GB | 184.09 GB|
+| Peak memory use | 43.92 GB | 78.10 GB| 151.05 GB| 220.11 GB | 184.09 GB| 246.03 GB| 583.25 GB |
-| Bases in 1kb+ scaffolds| 75,233 | 592,685 | 1,476,875 |  101,397,871 | 1,528,625,509 |
+| Bases in 1kb+ scaffolds| 75,233 | 592,685 | 1,476,875 |  101,397,871 | 1,528,625,509 | 1,849,167,875 | 1,885,373,341|
-| Bases in 10kb+ scaffolds| 10,572 | 11,088 | 168,543 | 151,417 | 137,959,107 |
+| Bases in 10kb+ scaffolds| 10,572 | 11,088 | 168,543 | 151,417 | 137,959,107 | 972,798,485 | 1,106,140,476 |
-| MPL1 | 2 | 2 | 3 | 7 | 156 |
+| MPL1 | 2 | 2 | 3 | 7 | 156 | 169 | 169 |
-| Contig N50 | 2,622 | 2,067 | 2,563 | 1,489  | 3,979 |
+| Contig N50 | 2,622 | 2,067 | 2,563 | 1,489  | 3,979 | 9,513 | 10,427 |
-| Scaffold N50 | 2,622 | 2,067 | 2,563 | 1,489  | 3,979 |
+| Scaffold N50 | 2,622 | 2,067 | 2,563 | 1,489  | 3,979 | 10,634 | 12,549 |
+| Coverage | | | | | 16x | 47x | 80X |
 ====Fasta assemblies====
@@ Line 77: / Line 80: @@
- **NOTE for all statistics listed below the scaffolds and contigs are identical**
 |Assembly name| Bytes | Total bases | # scafs | Av. scaf len | Longest scaf | Scaf N50 | # Scaf > 5Kb | Bases in 10kb+ scafs|
 |1%run| 463K | 448,486 | 2,558 | 350 | 5,385 | 2,622| | 10,572 |
@@ Line 84: / Line 86: @@
 |50%run| 137 M | 137,695,736 | 273,653 | 1,006 | 19,658 | 1,489 | | 151,417 |
 |UCSF50%run | 1.9 G | 1,839,371,352 | 1,126,557 | 1,632| 55,757 | 3,979 | 80,721 | 137,959,107 |
+|firstFullRun | 2.2G | 2,245,788,654 | 1,450,447 | 1,548 | 153,999 | 10,634 | 118,545 | 972,798,485 |
+|Kolossus full run | 2.4G | 2,395,797,282 | 1,843,153 | 1299 | 129,831 | 12,549 | 113,978 | 1,106,140,476 |
-The latest run assembled 138,226 scaffolds longer than 5000 base pairs.  This accounts for roughly 30% of the banana slug genome.  The scaffolds longer than 5,000 base pairs were separated and put at the following location;
+The absolute path to our latest assembly in .fasta format is;
-/campusdata/BME235/S15_assemblies/DiscovarDeNovo/UCSF50%run/bigContigs.fa
+/campusdata/BME235/S15_assemblies/DiscovarDeNovo/KolossusAssembly/discovarDeNovoKolossusAssembly.fasta
 Looking at the 10% run, the majority of scaffolds generated are quite short (<1kb).
@@ Line 97: / Line 100: @@
 {{:histogram_for_ucsf_50_run.png?200|}}
-The banana slug genome is estimated to be 2.1 billion bases (2,800 million), our latest run has assembled just under 2 billion bases!
 ====Post assembly scaffolding====
 The program SSPace (documentation below) was used to scaffold the the assembly with mate pair data. The UCSF SW041 and SW042 mate pair libraries were used to generate the library.txt file.
-[[team_5_page:SSPaceSummaryFile | SSpace summary file ]]
+[[team_5_page:SSPaceSummaryFile | SSpace summary file UCSF 50% ]]
+[[team_5_page:SSPaceSummaryFile2 | SSpace summary file firstFullRun ]]
@@ Line 117: / Line 121: @@
 See instructions for setting up the hub here,
-[[banana_slug_genome_browser |Banana slug browser ]]
+[[post-assembly_analysis:banana_slug_genome_browser|Banana slug browser ]]

Banana Slug Genomics

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