Project Name Antarctica Aquatic Microbial Metagenome 
Domain (1) bacteria
Investigators (1)
Institution J. Craig Venter Institute
Project Code CAM_PROJ_AntarcticaAquatic
Project Type metagenome
Publications (1)


This metagenomic dataset represents an integral part of a collaborative research program representing researchers from the University of New South Wales (Sydney, Australia), the J. Craig Venter Institute (Rockville, USA), the Gordon and Betty Moore Foundation (San Francisco, USA) and the Australian Antarctic Division (Hobart, Australia). The data is unpublished. The metagenome data includes sequencing results from two lakes in the Vestfold Hills region of East Antarctica and ocean samples in the vicinity of Casey Research Station. All samples were collected using size fraction filtering methods that were used on the the Venter Institute's Global Ocean Sampling Expedition. DNA was isolated from the 0.1 to 0.8 microns size fraction. Sampling occured in December 2006. Ocean samples were taken during Voyage 2 of the Aurora Australis; an ice-breaker that supports scientific research programs of the Australian Antarctic Division. Lake samples were taken during field expeditions in the Vestfold Hills neighbouring Davis Research Station. The two lakes, Ace Lake and Organic Lake, are marine-derived meromictic lake systems. Ace Lake was first visited by scientists in 1974, and is the most intensively studied stratified lakes in Antarctica. The saline stratification maintains zones that are aerobic, through to methane-saturated anoxic bottom waters. Organic Lake is also a stratified, cold environment that supports growth of aerobic and anaerobic microorganisms, but unlike Ace Lake it is highly saline. Most (~75%) of the Earth's biosphere is cold, and psychrophiles proliferate in cold environments (e.g. polar and alpine habitats, the deep ocean, caves, terrestrial and ocean sub-surface, and the upper atmosphere). Despite the fundamental role that the cold biosphere plays in maintaining the health of the planet, relatively little is known about the resident microorganisms and the biogeochemical processes they drive. By linking metagenomic and functional data to climate records, geochemical and physical data, we will be in a unique position to derive an integrated understanding of how the lake and oceanic microorganisms have evolved, transformed, and presently interact with the pristine Antarctic environment.


No assemblies.


Sample Name PI Desc
ANTARCTICAAQUATIC_SMPL_SITE1 NA AntarcticaAquatic_1
ANTARCTICAAQUATIC_SMPL_SITE2 NA AntarcticaAquatic_2
ANTARCTICAAQUATIC_SMPL_SITE227_0.1UM NA Site227_0.1um
ANTARCTICAAQUATIC_SMPL_SITE227_0.8UM NA Site227_0.8um
ANTARCTICAAQUATIC_SMPL_SITE227_3.0UM NA Site227_3.0um
ANTARCTICAAQUATIC_SMPL_SITE228_0.1UM NA Site228_0.1um
ANTARCTICAAQUATIC_SMPL_SITE228_0.8UM NA Site228_0.8um
ANTARCTICAAQUATIC_SMPL_SITE228_3.0UM NA Site228_3.0um
ANTARCTICAAQUATIC_SMPL_SITE229_0.1UM NA Site229_0.1um
ANTARCTICAAQUATIC_SMPL_SITE229_0.8UM NA Site229_0.8um
ANTARCTICAAQUATIC_SMPL_SITE229_3.0UM NA Site229_3.0um
ANTARCTICAAQUATIC_SMPL_SITE230_0.1UM NA Site230_0.1um
ANTARCTICAAQUATIC_SMPL_SITE230_0.8UM NA Site230_0.8um
ANTARCTICAAQUATIC_SMPL_SITE230_3.0UM NA Site230_3.0um
ANTARCTICAAQUATIC_SMPL_SITE231_0.1UM NA Site231_0.1um
ANTARCTICAAQUATIC_SMPL_SITE231_0.8UM NA Site231_0.8um
ANTARCTICAAQUATIC_SMPL_SITE231_3.0UM NA Site231_3.0um
ANTARCTICAAQUATIC_SMPL_SITE232_0.1UM NA Site232_0.1um
ANTARCTICAAQUATIC_SMPL_SITE232_0.8UM NA Site232_0.8um
ANTARCTICAAQUATIC_SMPL_SITE232_3.0UM NA Site232_3.0um
ANTARCTICAAQUATIC_SMPL_SITE3 NA AntarcticaAquatic_3
ANTARCTICAAQUATIC_SMPL_SITE4 NA AntarcticaAquatic_4
ANTARCTICAAQUATIC_SMPL_SITE5 NA AntarcticaAquatic_5
ANTARCTICAAQUATIC_SMPL_SITE6 NA AntarcticaAquatic_6
ANTARCTICAAQUATIC_SMPL_SITE7 NA AntarcticaAquatic_7
ANTARCTICAAQUATIC_SMPL_SITE8 NA AntarcticaAquatic_8
ANTARCTICAAQUATIC_SMPL_SITE9 NA AntarcticaAquatic_9
Station_233 -- 0.1 um NA 0.1um sequencing
Station_394 -- um NA larger filter MID barcode sequencing
Station_233 -- 0.8 um NA 0.8um sequencing
Station_235 -- 0.1 um NA 0.1um sequencing
Station_235 -- 0.8 um NA 0.8um sequencing
Station_236 -- 0.1 um NA 0.1um sequencing
Station_346 -- 0.1 um NA 0.1um sequencing
Station_347 -- 0.1 um NA 0.1um sequencing
Station_348 -- 3.0 um NA MID barcoded 0.8um and 3.0um filters from the same station
Station_348 -- 0.8 um NA MID barcoded 0.8um and 3.0um filters from the same station
Station_349 -- 0.1 um NA 0.1um sequencing
Station_350 -- 3.0 um NA MID barcoded 0.8um and 3.0um filters from the same station
Station_350 -- 0.8 um NA MID barcoded 0.8um and 3.0um filters from the same station
Station_351 -- 0.1 um NA 0.1um sequencing
Station_351 -- 0.8 um NA 0.8um sequencing
Station_352 -- 3 um NA 3.0um sequencing
Station_353 -- 0.1 um NA 0.1um sequencing
Station_354 -- 3 um NA 3.0um sequencing
Station_355 -- 0.1 um NA 0.1um sequencing
Station_355 -- 0.8 um NA 0.8um sequencing
Station_356 -- 3 um NA 3.0um sequencing
Station_357 -- 0.1 um NA 0.1um sequencing
Station_357 -- 0.8 um NA 0.8um sequencing
Station_358 -- 0.1 um NA 0.1um sequencing
Station_359 -- 3 um NA 3.0um sequencing
Station_360 -- 0.1 um NA 0.1um sequencing
Station_361 -- 3.0 um NA MID barcoded 0.8um and 3.0um filters from the same station
Station_361 -- 0.8 um NA MID barcoded 0.8um and 3.0um filters from the same station
Station_362 -- 0.1 um NA 0.1um sequencing
Station_363 -- 3.0 um NA MID barcoded 0.8um and 3.0um filters from the same station
Station_363 -- 0.8 um NA MID barcoded 0.8um and 3.0um filters from the same station
Station_364 -- 0.1 um NA 0.1um sequencing
Station_365 -- 3.0 um NA MID barcoded 0.8um and 3.0um filters from the same station
Station_365 -- 0.8 um NA MID barcoded 0.8um and 3.0um filters from the same station
Station_366 -- 0.1 um NA 0.1um sequencing
Station_367 -- 0.1 um NA 0.1um sequencing
Station_367 -- 0.8 um NA 0.8um sequencing
Station_368 -- 3.0 um NA MID barcoded 0.8um and 3.0um filters from the same station
Station_368 -- 0.8 um NA MID barcoded 0.8um and 3.0um filters from the same station
Station_369 -- 0.1 um NA 0.1um sequencing
Station_369 -- 3 um NA 3.0um sequencing
Station_370 -- 3 um NA 3.0um sequencing
Station_370 -- 0.8 um NA MID barcoded 0.8um filters from different stations
Station_371 -- 0.1 um NA 0.1um sequencing
Station_371 -- 3 um NA 3.0um sequencing
Station_371 -- 0.8 um NA MID barcoded 0.8um filters from different stations
Station_372 -- 0.1 um NA 0.1um sequencing
Station_372 -- 3 um NA 3.0um sequencing
Station_372 -- 0.8 um NA MID barcoded 0.8um filters from different stations
Station_374 -- 0.1 um NA 0.1um sequencing
Station_374 -- 0.8 um NA 0.8um sequencing
Station_375 -- 0.8 um NA 0.8um sequencing
Station_376 -- 0.8 um NA 0.8um sequencing
Station_377 -- 0.8 um NA 0.8um sequencing
Station_378 -- 3.0 um NA MID barcoded 3.0um filters from different stations
Station_379 -- 0.1 um NA 0.1um sequencing
Station_386 -- 0.1 um NA 0.1um sequencing
Station_387 -- um NA larger filter MID barcode sequencing
Station_388 -- 0.1 um NA 0.1um sequencing
Station_389 -- um NA larger filter MID barcode sequencing
Station_389 -- um NA larger filter MID barcode sequencing
Station_390 -- 0.1 um NA 0.1um sequencing
Station_391 -- 3 um NA MID barcoded 0.8um and 3.0um filters from the same station
Station_392 -- 3 um NA MID barcoded 0.8um and 3.0um filters from the same station
Station_393 -- um NA larger filter MID barcode sequencing
Station_393 -- um NA larger filter MID barcode sequencing
Station_394 -- 0.1 um NA 0.1um sequencing
Station_233 -- 3 um NA 3.0um sequencing
Station_235 -- 3.0 um NA MID barcoded 3.0um filters from different stations
Station_236 -- 0.1 um NA 0.1um sequencing
Station_346 -- 3 um NA 3.0um sequencing
Station_346 -- 0.8 um NA 0.8um sequencing
Station_347 -- 3.0 um NA MID barcoded 0.8um and 3.0um filters from the same station
Station_347 -- 0.8 um NA MID barcoded 0.8um and 3.0um filters from the same station
Station_348 -- 0.1 um NA 0.1um sequencing
Station_349 -- 3.0 um NA MID barcoded 0.8um and 3.0um filters from the same station
Station_349 -- 0.8 um NA MID barcoded 0.8um and 3.0um filters from the same station
Station_350 -- 0.1 um NA 0.1um sequencing
Station_351 -- 3 um NA 3.0um sequencing
Station_352 -- 0.1 um NA 0.1um sequencing
Station_352 -- 0.8 um NA 0.8um sequencing
Station_353 -- 3.0 um NA MID barcoded 0.8um and 3.0um filters from the same station
Station_354 -- 0.1 um NA 0.1um sequencing
Station_354 -- 0.8 um NA 0.8um sequencing
Station_355 -- 3 um NA 3.0um sequencing
Station_356 -- 0.1 um NA 0.1um sequencing
Station_356 -- 0.8 um NA 0.8um sequencing
Station_357 -- 3 um NA 3.0um sequencing
Station_358 -- 3.0 um NA MID barcoded 0.8um and 3.0um filters from the same station
Station_358 -- 0.8 um NA MID barcoded 0.8um and 3.0um filters from the same station
Station_359 -- 0.1 um NA 0.1um sequencing
Station_359 -- 0.8 um NA 0.8um sequencing
Station_360 -- 3.0 um NA MID barcoded 0.8um and 3.0um filters from the same station
Station_360 -- 0.8 um NA MID barcoded 0.8um and 3.0um filters from the same station
Station_361 -- 0.1 um NA 0.1um sequencing
Station_362 -- 3.0 um NA MID barcoded 0.8um and 3.0um filters from the same station
Station_362 -- 0.8 um NA MID barcoded 0.8um and 3.0um filters from the same station
Station_363 -- 0.1 um NA 0.1um sequencing
Station_364 -- 3.0 um NA MID barcoded 0.8um and 3.0um filters from the same station
Station_364 -- 0.8 um NA MID barcoded 0.8um and 3.0um filters from the same station
Station_365 -- 0.1 um NA 0.1um sequencing
Station_366 -- 3.0 um NA MID barcoded 0.8um and 3.0um filters from the same station
Station_367 -- 3 um NA 3.0um sequencing
Station_368 -- 0.1 um NA 0.1um sequencing
Station_369 -- 0.8 um NA MID barcoded 0.8um filters from different stations
Station_370 -- 0.1 um NA 0.1um sequencing
Station_374 -- 3.0 um NA MID barcoded 3.0um filters from different stations
Station_375 -- 0.1 um NA 0.1um sequencing
Station_376 -- 0.1 um NA 0.1um sequencing
Station_376 -- 3.0 um NA MID barcoded 3.0um filters from different stations
Station_377 -- 0.1 um NA 0.1um sequencing
Station_378 -- 0.1 um NA 0.1um sequencing
Station_378 -- 0.8 um NA 0.8um sequencing
Station_379 -- 0.8 um NA 0.8um sequencing
Station_386 -- 3 um NA MID barcoded 0.8um and 3.0um filters from the same station
Station_386 -- 0.8 um NA MID barcoded 0.8um and 3.0um filters from the same station
Station_387 -- 0.1 um NA 0.1um sequencing
Station_388 -- um NA larger filter MID barcode sequencing
Station_388 -- um NA larger filter MID barcode sequencing
Station_389 -- 0.1 um NA 0.1um sequencing
Station_390 -- um NA larger filter MID barcode sequencing
Station_390 -- um NA larger filter MID barcode sequencing
Station_391 -- 0.1 um NA 0.1um sequencing
Station_392 -- 0.1 um NA 0.1um sequencing
Station_393 -- 0.1 um NA 0.1um sequencing
Station_394 -- um NA larger filter MID barcode sequencing
Station_387 -- um NA larger filter MID barcode sequencing
Station_366 -- 0.8 um NA MID barcoded 0.8um and 3.0um filters from the same station
Station_353 -- 0.8 um NA MID barcoded 0.8um and 3.0um filters from the same station
Station_236 -- 3.0 um NA MID barcoded 3.0um filters from different stations
Station_377 -- 3.0 um NA MID barcoded 3.0um filters from different stations
Station_379 -- 3.0 um NA MID barcoded 3.0um filters from different stations
Station_392 -- 0.8 um NA MID barcoded 0.8um and 3.0um filters from the same station
Station_375 -- 3.0 um NA MID barcoded 3.0um filters from different stations
Station_391 -- 0.8 um NA MID barcoded 0.8um and 3.0um filters from the same station


Type Location
Meta  /iplant/home/shared/imicrobe/projects/4/CAM_PROJ_AntarcticaAquatic.csv
Meta  /iplant/home/shared/imicrobe/projects/4/sample-attr.tab
Reads  /iplant/home/shared/imicrobe/projects/4/CAM_PROJ_AntarcticaAquatic.read.fa
Reads  /iplant/home/shared/imicrobe/projects/4/samples/46/ANTARCTICAAQUATIC_SMPL_SITE227_0.1UM.fa
Reads  /iplant/home/shared/imicrobe/projects/4/samples/47/ANTARCTICAAQUATIC_SMPL_SITE227_0.8UM.fa
Reads  /iplant/home/shared/imicrobe/projects/4/samples/48/ANTARCTICAAQUATIC_SMPL_SITE227_3.0UM.fa
Reads  /iplant/home/shared/imicrobe/projects/4/samples/49/ANTARCTICAAQUATIC_SMPL_SITE228_0.1UM.fa
Reads  /iplant/home/shared/imicrobe/projects/4/samples/50/ANTARCTICAAQUATIC_SMPL_SITE228_0.8UM.fa
Reads  /iplant/home/shared/imicrobe/projects/4/samples/51/ANTARCTICAAQUATIC_SMPL_SITE228_3.0UM.fa
Reads  /iplant/home/shared/imicrobe/projects/4/samples/52/ANTARCTICAAQUATIC_SMPL_SITE229_0.1UM.fa
Reads  /iplant/home/shared/imicrobe/projects/4/samples/53/ANTARCTICAAQUATIC_SMPL_SITE229_0.8UM.fa
Reads  /iplant/home/shared/imicrobe/projects/4/samples/54/ANTARCTICAAQUATIC_SMPL_SITE229_3.0UM.fa
Reads  /iplant/home/shared/imicrobe/projects/4/samples/55/ANTARCTICAAQUATIC_SMPL_SITE230_0.1UM.fa
Reads  /iplant/home/shared/imicrobe/projects/4/samples/56/ANTARCTICAAQUATIC_SMPL_SITE230_0.8UM.fa
Reads  /iplant/home/shared/imicrobe/projects/4/samples/57/ANTARCTICAAQUATIC_SMPL_SITE230_3.0UM.fa
Reads  /iplant/home/shared/imicrobe/projects/4/samples/58/ANTARCTICAAQUATIC_SMPL_SITE231_0.1UM.fa
Reads  /iplant/home/shared/imicrobe/projects/4/samples/59/ANTARCTICAAQUATIC_SMPL_SITE231_0.8UM.fa
Reads  /iplant/home/shared/imicrobe/projects/4/samples/60/ANTARCTICAAQUATIC_SMPL_SITE231_3.0UM.fa
Reads  /iplant/home/shared/imicrobe/projects/4/samples/61/ANTARCTICAAQUATIC_SMPL_SITE232_0.1UM.fa
Reads  /iplant/home/shared/imicrobe/projects/4/samples/62/ANTARCTICAAQUATIC_SMPL_SITE232_0.8UM.fa
Reads  /iplant/home/shared/imicrobe/projects/4/samples/63/ANTARCTICAAQUATIC_SMPL_SITE232_3.0UM.fa
Reads  /iplant/home/shared/imicrobe/projects/4/samples/71/CAM_SMPL_SRA022063.fa
Reads  /iplant/home/shared/imicrobe/projects/4/samples/72/CAM_SMPL_SRA022077.fa
Reads  /iplant/home/shared/imicrobe/projects/4/samples/73/CAM_SMPL_SRA022078.fa
Reads  /iplant/home/shared/imicrobe/projects/4/samples/74/CAM_SMPL_SRA022079.fa
Reads  /iplant/home/shared/imicrobe/projects/4/samples/75/CAM_SMPL_SRA022080.fa
Reads  /iplant/home/shared/imicrobe/projects/4/samples/76/CAM_SMPL_SRA022081.fa
Reads  /iplant/home/shared/imicrobe/projects/4/samples/77/CAM_SMPL_SRA022082.fa
Reads  /iplant/home/shared/imicrobe/projects/4/samples/78/CAM_SMPL_SRA022083.fa
Reads  /iplant/home/shared/imicrobe/projects/4/samples/79/CAM_SMPL_SRA022084.fa
Reads  /iplant/home/shared/imicrobe/projects/4/samples/80/CAM_SMPL_SRA022085.fa
Reads  /iplant/home/shared/imicrobe/projects/4/samples/81/CAM_SMPL_SRA022086.fa
Reads  /iplant/home/shared/imicrobe/projects/4/samples/82/CAM_SMPL_SRA022087.fa
Reads  /iplant/home/shared/imicrobe/projects/4/samples/83/CAM_SMPL_SRA022088.fa
Reads  /iplant/home/shared/imicrobe/projects/4/samples/84/CAM_SMPL_SRA022089.fa
Reads  /iplant/home/shared/imicrobe/projects/4/samples/85/CAM_SMPL_SRA022090.fa
Reads  /iplant/home/shared/imicrobe/projects/4/samples/86/CAM_SMPL_SRA022091.fa
Reads  /iplant/home/shared/imicrobe/projects/4/samples/87/CAM_SMPL_SRA022092.fa
Reads  /iplant/home/shared/imicrobe/projects/4/samples/88/CAM_SMPL_SRA022093.fa
Reads  /iplant/home/shared/imicrobe/projects/4/samples/89/CAM_SMPL_SRA022094.fa
Reads  /iplant/home/shared/imicrobe/projects/4/samples/90/CAM_SMPL_SRA022095.fa
Reads  /iplant/home/shared/imicrobe/projects/4/samples/91/CAM_SMPL_SRA022096.fa
Reads  /iplant/home/shared/imicrobe/projects/4/samples/92/CAM_SMPL_SRA022097.fa
Reads  /iplant/home/shared/imicrobe/projects/4/samples/93/CAM_SMPL_SRA022098.fa
Reads  /iplant/home/shared/imicrobe/projects/4/samples/94/CAM_SMPL_SRA022099.fa
Reads  /iplant/home/shared/imicrobe/projects/4/samples/95/CAM_SMPL_SRA022100.fa
Reads  /iplant/home/shared/imicrobe/projects/4/samples/96/CAM_SMPL_SRA022101.fa
Reads  /iplant/home/shared/imicrobe/projects/4/samples/97/CAM_SMPL_SRA022102.fa
Reads  /iplant/home/shared/imicrobe/projects/4/samples/98/CAM_SMPL_SRA022103.fa
Reads  /iplant/home/shared/imicrobe/projects/4/samples/99/CAM_SMPL_SRA022104.fa
Reads  /iplant/home/shared/imicrobe/projects/4/samples/100/CAM_SMPL_SRA022105.fa
Reads  /iplant/home/shared/imicrobe/projects/4/samples/101/CAM_SMPL_SRA022106.fa
Reads  /iplant/home/shared/imicrobe/projects/4/samples/102/CAM_SMPL_SRA022107.fa
Reads  /iplant/home/shared/imicrobe/projects/4/samples/103/CAM_SMPL_SRA022108.fa
Reads  /iplant/home/shared/imicrobe/projects/4/samples/104/CAM_SMPL_SRA022109.fa
Reads  /iplant/home/shared/imicrobe/projects/4/samples/105/CAM_SMPL_SRA022110.fa
Reads  /iplant/home/shared/imicrobe/projects/4/samples/106/CAM_SMPL_SRA022111.fa
Reads  /iplant/home/shared/imicrobe/projects/4/samples/107/CAM_SMPL_SRA022112.fa
Reads  /iplant/home/shared/imicrobe/projects/4/samples/108/CAM_SMPL_SRA022113.fa
Reads  /iplant/home/shared/imicrobe/projects/4/samples/109/CAM_SMPL_SRA022114.fa
Reads  /iplant/home/shared/imicrobe/projects/4/samples/110/CAM_SMPL_SRA022115.fa
Reads  /iplant/home/shared/imicrobe/projects/4/samples/111/CAM_SMPL_SRA022116.fa
Reads  /iplant/home/shared/imicrobe/projects/4/samples/112/CAM_SMPL_SRA022117.fa
Reads  /iplant/home/shared/imicrobe/projects/4/samples/113/CAM_SMPL_SRA022118.fa
Reads  /iplant/home/shared/imicrobe/projects/4/samples/114/CAM_SMPL_SRA022119.fa
Reads  /iplant/home/shared/imicrobe/projects/4/samples/115/CAM_SMPL_SRA022120.fa
Reads  /iplant/home/shared/imicrobe/projects/4/samples/116/CAM_SMPL_SRA022121.fa
Reads  /iplant/home/shared/imicrobe/projects/4/samples/117/CAM_SMPL_SRA022122.fa
Reads  /iplant/home/shared/imicrobe/projects/4/samples/118/CAM_SMPL_SRA022123.fa
Reads  /iplant/home/shared/imicrobe/projects/4/samples/119/CAM_SMPL_SRA022124.fa
Reads  /iplant/home/shared/imicrobe/projects/4/samples/120/CAM_SMPL_SRA022125.fa
Reads  /iplant/home/shared/imicrobe/projects/4/samples/121/CAM_SMPL_SRA022126.fa
Reads  /iplant/home/shared/imicrobe/projects/4/samples/122/CAM_SMPL_SRA022127.fa
Reads  /iplant/home/shared/imicrobe/projects/4/samples/123/CAM_SMPL_SRA022128.fa
Reads  /iplant/home/shared/imicrobe/projects/4/samples/124/CAM_SMPL_SRA022129.fa
Reads  /iplant/home/shared/imicrobe/projects/4/samples/125/CAM_SMPL_SRA022130.fa
Reads  /iplant/home/shared/imicrobe/projects/4/samples/126/CAM_SMPL_SRA022131.fa
Reads  /iplant/home/shared/imicrobe/projects/4/samples/127/CAM_SMPL_SRA022132.fa
Reads  /iplant/home/shared/imicrobe/projects/4/samples/128/CAM_SMPL_SRA022133.fa
Reads  /iplant/home/shared/imicrobe/projects/4/samples/129/CAM_SMPL_SRA022134.fa
Reads  /iplant/home/shared/imicrobe/projects/4/samples/130/CAM_SMPL_SRA022135.fa
Reads  /iplant/home/shared/imicrobe/projects/4/samples/131/CAM_SMPL_SRA022136.fa
Reads  /iplant/home/shared/imicrobe/projects/4/samples/132/CAM_SMPL_SRA022137.fa
Reads  /iplant/home/shared/imicrobe/projects/4/samples/133/CAM_SMPL_SRA022138.fa
Reads  /iplant/home/shared/imicrobe/projects/4/samples/134/CAM_SMPL_SRA022139.fa
Reads  /iplant/home/shared/imicrobe/projects/4/samples/135/CAM_SMPL_SRA022140.fa
Reads  /iplant/home/shared/imicrobe/projects/4/samples/136/CAM_SMPL_SRA022141.fa
Reads  /iplant/home/shared/imicrobe/projects/4/samples/137/CAM_SMPL_SRA022142.fa
Reads  /iplant/home/shared/imicrobe/projects/4/samples/138/CAM_SMPL_SRA022143.fa
Reads  /iplant/home/shared/imicrobe/projects/4/samples/139/CAM_SMPL_SRA022144.fa
Reads  /iplant/home/shared/imicrobe/projects/4/samples/140/CAM_SMPL_SRA022145.fa
Reads  /iplant/home/shared/imicrobe/projects/4/samples/141/CAM_SMPL_SRA022146.fa
Reads  /iplant/home/shared/imicrobe/projects/4/samples/142/CAM_SMPL_SRA022147.fa
Reads  /iplant/home/shared/imicrobe/projects/4/samples/143/CAM_SMPL_SRA022148.fa
Reads  /iplant/home/shared/imicrobe/projects/4/samples/144/CAM_SMPL_SRA022149.fa
Reads  /iplant/home/shared/imicrobe/projects/4/samples/145/CAM_SMPL_SRA022150.fa
Reads  /iplant/home/shared/imicrobe/projects/4/samples/146/CAM_SMPL_SRA022151.fa
Reads  /iplant/home/shared/imicrobe/projects/4/samples/147/CAM_SMPL_SRA022152.fa
Reads  /iplant/home/shared/imicrobe/projects/4/samples/148/CAM_SMPL_SRA022153.fa
Reads  /iplant/home/shared/imicrobe/projects/4/samples/149/CAM_SMPL_SRA022154.fa
Reads  /iplant/home/shared/imicrobe/projects/4/samples/150/CAM_SMPL_SRA022155.fa
Reads  /iplant/home/shared/imicrobe/projects/4/samples/151/CAM_SMPL_SRA022156.fa
Reads  /iplant/home/shared/imicrobe/projects/4/samples/152/CAM_SMPL_SRA022157.fa
Reads  /iplant/home/shared/imicrobe/projects/4/samples/153/CAM_SMPL_SRA022158.fa
Reads  /iplant/home/shared/imicrobe/projects/4/samples/154/CAM_SMPL_SRA022159.fa
Reads  /iplant/home/shared/imicrobe/projects/4/samples/155/CAM_SMPL_SRA022160.fa
Reads  /iplant/home/shared/imicrobe/projects/4/samples/156/CAM_SMPL_SRA022161.fa
Reads  /iplant/home/shared/imicrobe/projects/4/samples/157/CAM_SMPL_SRA022162.fa
Reads  /iplant/home/shared/imicrobe/projects/4/samples/158/CAM_SMPL_SRA022163.fa
Reads  /iplant/home/shared/imicrobe/projects/4/samples/159/CAM_SMPL_SRA022164.fa
Reads  /iplant/home/shared/imicrobe/projects/4/samples/160/CAM_SMPL_SRA022165.fa
Reads  /iplant/home/shared/imicrobe/projects/4/samples/161/CAM_SMPL_SRA022166.fa
Reads  /iplant/home/shared/imicrobe/projects/4/samples/162/CAM_SMPL_SRA022167.fa
Reads  /iplant/home/shared/imicrobe/projects/4/samples/163/CAM_SMPL_SRA022168.fa
Reads  /iplant/home/shared/imicrobe/projects/4/samples/164/CAM_SMPL_SRA022169.fa
Reads  /iplant/home/shared/imicrobe/projects/4/samples/165/CAM_SMPL_SRA022170.fa
Reads  /iplant/home/shared/imicrobe/projects/4/samples/166/CAM_SMPL_SRA022171.fa
Reads  /iplant/home/shared/imicrobe/projects/4/samples/167/CAM_SMPL_SRA022172.fa
Reads  /iplant/home/shared/imicrobe/projects/4/samples/168/CAM_SMPL_SRA022173.fa
Reads  /iplant/home/shared/imicrobe/projects/4/samples/169/CAM_SMPL_SRA022174.fa
Reads  /iplant/home/shared/imicrobe/projects/4/samples/170/CAM_SMPL_SRA022175.fa
Reads  /iplant/home/shared/imicrobe/projects/4/samples/171/CAM_SMPL_SRA022176.fa
Reads  /iplant/home/shared/imicrobe/projects/4/samples/172/CAM_SMPL_SRA022177.fa
Reads  /iplant/home/shared/imicrobe/projects/4/samples/173/CAM_SMPL_SRA022178.fa
Reads  /iplant/home/shared/imicrobe/projects/4/samples/174/CAM_SMPL_SRA022179.fa
Reads  /iplant/home/shared/imicrobe/projects/4/samples/175/CAM_SMPL_SRA022180.fa
Reads  /iplant/home/shared/imicrobe/projects/4/samples/176/CAM_SMPL_SRA022181.fa
Reads  /iplant/home/shared/imicrobe/projects/4/samples/177/CAM_SMPL_SRA022182.fa
Reads  /iplant/home/shared/imicrobe/projects/4/samples/178/CAM_SMPL_SRA022183.fa
Reads  /iplant/home/shared/imicrobe/projects/4/samples/179/CAM_SMPL_SRA022184.fa
Reads  /iplant/home/shared/imicrobe/projects/4/samples/180/CAM_SMPL_SRA022185.fa
Reads  /iplant/home/shared/imicrobe/projects/4/samples/181/CAM_SMPL_SRA022186.fa
Reads  /iplant/home/shared/imicrobe/projects/4/samples/182/CAM_SMPL_SRA022187.fa
Reads  /iplant/home/shared/imicrobe/projects/4/samples/183/CAM_SMPL_SRA022188.fa
Reads  /iplant/home/shared/imicrobe/projects/4/samples/184/CAM_SMPL_SRA022189.fa
Reads  /iplant/home/shared/imicrobe/projects/4/samples/185/CAM_SMPL_SRA022191.fa
Reads  /iplant/home/shared/imicrobe/projects/4/samples/186/CAM_SMPL_SRA022192.fa
Reads  /iplant/home/shared/imicrobe/projects/4/samples/187/CAM_SMPL_SRA022193.fa
Reads  /iplant/home/shared/imicrobe/projects/4/samples/188/CAM_SMPL_SRA022194.fa
Reads  /iplant/home/shared/imicrobe/projects/4/samples/189/CAM_SMPL_SRA022195.fa
Reads  /iplant/home/shared/imicrobe/projects/4/samples/190/CAM_SMPL_SRA022196.fa
Reads  /iplant/home/shared/imicrobe/projects/4/samples/191/CAM_SMPL_SRA022197.fa
Reads  /iplant/home/shared/imicrobe/projects/4/samples/192/CAM_SMPL_SRA022198.fa
Reads  /iplant/home/shared/imicrobe/projects/4/samples/193/CAM_SMPL_SRA022199.fa
Reads  /iplant/home/shared/imicrobe/projects/4/samples/194/CAM_SMPL_SRA022200.fa
Reads  /iplant/home/shared/imicrobe/projects/4/samples/195/CAM_SMPL_SRA022201.fa
Reads  /iplant/home/shared/imicrobe/projects/4/samples/196/CAM_SMPL_SRA022202.fa
Reads  /iplant/home/shared/imicrobe/projects/4/samples/197/CAM_SMPL_SRA022204.fa
Reads  /iplant/home/shared/imicrobe/projects/4/samples/198/CAM_SMPL_SRA022206.fa
Reads  /iplant/home/shared/imicrobe/projects/4/samples/199/CAM_SMPL_SRA022813.fa
Reads  /iplant/home/shared/imicrobe/projects/4/samples/200/CAM_SMPL_SRA023092.fa
Reads  /iplant/home/shared/imicrobe/projects/4/samples/201/CAM_SMPL_SRA023093.fa
Reads  /iplant/home/shared/imicrobe/projects/4/samples/202/CAM_SMPL_SRA023094.fa
Reads  /iplant/home/shared/imicrobe/projects/4/samples/203/CAM_SMPL_SRA023095.fa
Reads  /iplant/home/shared/imicrobe/projects/4/samples/204/CAM_SMPL_SRA023096.fa
Reads  /iplant/home/shared/imicrobe/projects/4/samples/205/CAM_SMPL_SRA023097.fa