Nanopublications

Matches in Nanopublications for { ?s <http://purl.org/dc/elements/1.1/description> ?o ?g. }

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mult description "@FairStep(fw) def mult(int1, int2): """ Multiply two integers together (int1 and int2). """ result = int1 * int2 return result " assertion.
mult description "@FairStep(fw) def mult(int1, int2): """ Multiply two integers together (int1 and int2). """ result = int1 * int2 return result " %23assertion.
add description "@FairStep(fw) def add(int1, int2): """ Add two integers together (int1 and int2). """ result = int1 + int2 return result " %23assertion.
add description "@FairStep(fw) def add(int1, int2): """ Add two integers together (int1 and int2). """ result = int1 + int2 return result " %23assertion.
add description "@FairStep(fw) def add(int1, int2): """ Add two integers together (int1 and int2). """ result = int1 + int2 return result " assertion.
add description "@FairStep(fw) def add(int1, int2): """ Add two integers together (int1 and int2). """ result = int1 + int2 return result " assertion.
add description "@FairStep(fw) def add(int1, int2): """ Add two integers together (int1 and int2). """ result = int1 + int2 return result " assertion.
add description "@FairStep(fw) def add(int1, int2): """ Add two integers together (int1 and int2). """ result = int1 + int2 return result " assertion.
add description "@FairStep(fw) def add(dog, cat): """ Add two integers together (int1 and int2). """ result = dog + cat return result " assertion.
add description "@FairStep(fw) def add(dog, cat): """ Add two integers together (int1 and int2). """ result = dog + cat return result " assertion.
mult description "@FairStep(fw) def mult(int1, int2): """ Multiply two integers together (int1 and int2). """ result = int1 * int2 return result " assertion.
mult description "@FairStep(fw) def mult(int1, int2): """ Multiply two integers together (int1 and int2). """ result = int1 * int2 return result " assertion.
mult description "@FairStep(fw) def mult(walrus, bird): """ Multiply two integers together (int1 and int2). """ result = walrus * bird return result " assertion.
mult description "@FairStep(fw) def mult(walrus, bird): """ Multiply two integers together (int1 and int2). """ result = walrus * bird return result " assertion.
step description "@FairStep(fw) def add(dog, cat): """ Add two integers together (dog and cat). """ result = dog + cat return result " assertion.
step description "@FairStep(fw) def mult(walrus, bird): """ Multiply two integers together (walrus and bird). """ result = walrus * bird return result " assertion.
step description "@FairStep(fw) def add(dog, cat): """ Add two integers together (dog and cat). """ result = dog + cat return result " assertion.
step description "@FairStep(fw) def mult(walrus, bird): """ Multiply two integers together (walrus and bird). """ result = walrus * bird return result " assertion.
step description "@FairStep(fw) def mult(walrus, bird): """ Multiply two integers together (walrus and bird). """ result = walrus * bird return result " assertion.
step description "@FairStep(fw) def add(dog, cat): """ Add two integers together (dog and cat). """ result = dog + cat return result " assertion.
step description "@FairStep(fw) def mult(walrus, bird): """ Multiply two integers together (walrus and bird). """ result = walrus * bird return result " assertion.
step description "@FairStep(fw) def add(dog, cat): """ Add two integers together (dog and cat). """ result = dog + cat return result " assertion.
step description "@FairStep(fw) def mult(walrus, bird): """ Multiply two integers together (walrus and bird). """ result = walrus * bird return result " assertion.
step description "#!/usr/bin/env python3 import click @click.command() @click.option('--a') @click.option('--b') def step1(a, b): ''' This is the first step ''' pass if __name__ == '__main__': step1()" assertion.
step description "#!/usr/bin/env python3 import click @click.command() @click.option('--sample_input1') @click.option('--sample_input2') def step1(sample_input1, sample_input2): ''' description of step 1 ''' pass if __name__ == '__main__': step1()" assertion.
step description "#!/usr/bin/env python3 import click @click.command() @click.option('--in') def sdss(in): ''' sdgdssg ''' pass if __name__ == '__main__': sdss()" assertion.
step description "#!/usr/bin/env python3 import click @click.command() @click.option('--sample_input1') @click.option('--sample_input2') def step1(sample_input1, sample_input2): ''' description of step 1 ''' pass if __name__ == '__main__': step1()" assertion.
step description "#!/usr/bin/env python3 import click @click.command() @click.option('--db_uri') def first_step(db_uri): ''' Retrieve data from database ''' pass if __name__ == '__main__': first_step()" assertion.
step description "#!/usr/bin/env python3 import click @click.command() @click.option('--db_uri') def retrieve_data(db_uri): ''' Retrieves data from the database ''' pass if __name__ == '__main__': retrieve_data()" assertion.
step description "#!/usr/bin/env python3 import click @click.command() @click.option('--sample_input1') @click.option('--sample_input2') def step1(sample_input1, sample_input2): ''' description of step 1 ''' pass if __name__ == '__main__': step1()" assertion.
step description "#!/usr/bin/env python3 import click @click.command() @click.option('--sample_input1') @click.option('--sample_input2') def step2(sample_input1, sample_input2): ''' description of step 2 ''' pass if __name__ == '__main__': step2()" assertion.
step description "@FairStep(fw) def mult(walrus, bird): """ Multiply two integers together (walrus and bird). """ result = walrus * bird return result " assertion.
step description "@FairStep(fw) def mult(walrus, bird): """ Multiply two integers together (walrus and bird). """ result = walrus * bird return result " assertion.
step description "@FairStep(fw) def add(dog, cat): """ Add two integers together (dog and cat). """ result = dog + cat return result " assertion.
step description "@FairStep(fw) def mult(walrus, bird): """ Multiply two integers together (walrus and bird). """ result = walrus * bird return result " assertion.
step description "@FairStep(fw) def mult(walrus, bird): """ Multiply two integers together (walrus and bird). """ result = walrus * bird return result " assertion.
step description "@FairStep(fw) def mult(walrus, bird): """ Multiply two integers together (walrus and bird). """ result = walrus * bird return result " assertion.
step description "@FairStep(fw) def add(dog, cat): """ Add two integers together (dog and cat). """ result = dog + cat return result " assertion.
step description "@FairStep(fw) def mult(walrus, bird): """ Multiply two integers together (walrus and bird). """ result = walrus * bird return result " assertion.
step description "@FairStep(fw) def mult(walrus, bird): """ Multiply two integers together (walrus and bird). """ result = walrus * bird return result " assertion.
step description "@FairStep(fw) def mult(walrus, bird): """ Multiply two integers together (walrus and bird). """ result = walrus * bird return result " assertion.
step description "@FairStep(fw) def add(dog, cat): """ Add two integers together (dog and cat). """ result = dog + cat return result " assertion.
step description "@FairStep(fw) def mult(walrus, bird): """ Multiply two integers together (walrus and bird). """ result = walrus * bird return result " assertion.
step description "@FairStep(fw) def mult(walrus, bird): """ Multiply two integers together (walrus and bird). """ result = walrus * bird return result " assertion.
step description "@FairStep(fw) def mult(walrus, bird): """ Multiply two integers together (walrus and bird). """ result = walrus * bird return result " assertion.
step description "@FairStep(fw) def add(dog, cat): """ Add two integers together (dog and cat). """ result = dog + cat return result " assertion.
step description "@FairStep(fw) def add(dog, cat): """ Add two integers together (dog and cat). """ result = dog + cat return result " assertion.
step description "@FairStep(fw) def mult(walrus, bird): """ Multiply two integers together (walrus and bird). """ result = walrus * bird return result " assertion.
step description "@FairStep(fw) def add(dog, cat): """ Add two integers together (dog and cat). """ result = dog + cat return result " assertion.
step description "@FairStep(fw) def mult(walrus, bird): """ Multiply two integers together (walrus and bird). """ result = walrus * bird return result " assertion.
step description "@FairStep(fw) def add(dog, cat): """ Add two integers together (dog and cat). """ result = dog + cat return result " assertion.
step description "@FairStep(fw) def mult(walrus, bird): """ Multiply two integers together (walrus and bird). """ result = walrus * bird return result " assertion.
step description "@FairStep(fw) def mult(walrus, bird): """ Multiply two integers together (walrus and bird). """ result = walrus * bird return result " assertion.
step description "@FairStep(fw) def mult(walrus, bird): """ Multiply two integers together (walrus and bird). """ result = walrus * bird return result " assertion.
step description "@FairStep(fw) def add(dog, cat): """ Add two integers together (dog and cat). """ result = dog + cat return result " assertion.
step description "@FairStep(fw) def mult(walrus, bird): """ Multiply two integers together (walrus and bird). """ result = walrus * bird return result " assertion.
step description "def test_func(a, b, c): """ A test function """ return a + b + c " assertion.
Step description "@FairStep(fw) def add(dog, cat): """ Add two integers together (int1 and int2). """ result = dog + cat return result " assertion.
Step description "@FairStep(fw) def mult(walrus, bird): """ Multiply two integers together (int1 and int2). """ result = walrus * bird return result " assertion.
RA1qU2XnIgd-u0VU4UogeOBVhAzL_iqpdx2vdo5QCeh_c description "@FairStep(fw) def add(dog, cat): """ Add two integers together (int1 and int2). """ result = dog + cat return result " assertion.
RAgbIe19PdHLHYtucNDgC0Ja5G2gvfSVdwJkpeluasxXc description "@FairStep(fw) def mult(walrus, bird): """ Multiply two integers together (int1 and int2). """ result = walrus * bird return result " assertion.
step description "#!/usr/bin/env python3 import click @click.command() @click.option('--sample_input1') @click.option('--sample_input2') def step1(sample_input1, sample_input2): ''' description of step 1 ''' pass if __name__ == '__main__': step1()" assertion.
step description "#!/usr/bin/env python3 import click @click.command() @click.option('--sample_input1') @click.option('--sample_input2') def step1(sample_input1, sample_input2): ''' description of step 1 ''' pass if __name__ == '__main__': step1()" assertion.
step description "#!/usr/bin/env cwl-runner baseCommand: ./step1.py class: CommandLineTool cwlVersion: v1.0 doc: description of step 1 id: step1 inputs: - id: sample_input1 type: int - id: sample_input2 type: int outputs: - id: sample_output type: int " assertion.
step description "#!/usr/bin/env python3 import click @click.command() @click.option('--sample_input1') @click.option('--sample_input2') def step1(sample_input1, sample_input2): ''' description of step 1 ''' pass if __name__ == '__main__': step1()" assertion.
step description "#!/usr/bin/env python3 import click @click.command() @click.option('--wolf') def big(wolf): ''' bad ''' pass if __name__ == '__main__': big()" assertion.
step description "#!/usr/bin/env python3 import click @click.command() @click.option('--db_uri') def first_step(db_uri): ''' the first step of the workflow ''' pass if __name__ == '__main__': first_step()" assertion.
step description "#!/usr/bin/env python3 import click @click.command() @click.option('--db_uri') def retrieve_data(db_uri): ''' Retrieves data from the database ''' pass if __name__ == '__main__': retrieve_data()" assertion.
RAzPytdERsBd378zHGvwgRbat1MCiS7QrxNrPxe9yDu6E description " index contains a collection of nanopublications that represent a network of claims concerning physician suicide rate in the United States. The text of the claim is indicated along with any citations provided for that claim. In some cases, the cited articles do not make any kind of assertion of that nature, and a comment is used to indicate it." pubinfo.
step description "The cells in interphase need to be aspirated without delay. If the tubes are kept standing for more than 10 min, PBMCs from the interphase will get disturbed and start settling down." assertion.
step description "Centrifuge the tubes (without any delay) for 30 min at 100 x g in 4 °C in a swing-out bucket. Fixed angle rotors also can be used but would require more caution when separating cells in interphase." assertion.
step description "Collect 4 ml of human venous blood sample in heparinised vials (BD biosciences) and mix well by gently inverting the tube several times." assertion.
step description "Cells can be treated with different antigens for different period of times and the supernatants can be analysed for cytokine levels. The cells can be analysed for phenotypic change, apoptosis or proliferation. Note: PBMCs are primary cells and cannot be cultured for more than one passage under normal conditions. Lymphocytes of PBMCs can be made to proliferate in vitro by mitogens e.g., Phytohaemagglutin or Concanavin-A etc over a period to 72-96 h. Monocytes generally are end cells and do not proliferate. In absence of mitogens the proliferation of PBMCs will be negligible." assertion.
step description "Count cells by haemocytometer using W.B.C. diluting fluid: Add 10 µl of cell suspension to 190 µl of W.B.C. diluting fluid and mix well. Load the cell suspension in a haemocytometer and count the cells. Adjust cell concentration at 1 x 106 cells/ml with Dulbecco's modified eagle medium supplemented with 1% of Pencillin-streptomycin solution and 10% FBS. The approximate yield of cells from 4 ml of blood varies between 107-108." assertion.
step description "Wash cells (centrifuge at 100 x g for 10 min) with 10 ml of sterile DMEM (without FBS) twice. Note: Cold DMEM is not used routinely for washing lymphocytes from culture cavities while setting up cultures. Rather when monocytes bound tightly to plastic cavities are needed to be harvested pre-chilled DMEM can be used." assertion.
step description "Collect about 4 ml of human venous blood sample in heparinised vials and mix well by gently inverting the tubes several times." assertion.
step description "The DNA pellet does not dry and dissolved immediately in 300 μl 1xTE, pH 8.0 at 55°C for 10-20 minutes" assertion.
step description "Transfer the entire clarified upper aqueous layer to a new 2 ml microcentrifuge tube which contains an equal or half volume of 2-propanol and vortex thoroughly." assertion.
step description "Cells were seeded in 100-mm-diameter dishes and infected with either 2 PFU of live IBV per cell or the same amount of UV-inactivated IBV (UV-IBV) at 37 °C. Excess virus in the medium was removed by replacing with fresh medium at 1 h post-infection." assertion.
step description "Cell lysates were transfer into eppendorf tubes and one-fifth (volume/volume) of chloroform was added to each tube." assertion.
step description "The upper aqueous phase was transfer into a new tube and mixed with 1:1 (volume/volume) of 100% isopropanol, and then incubated for 10 min at room temperature." assertion.
step description "RNA pellet was washed with 1 ml 70% RNase-free ethanol once and spin down by 7,500 x g for 5 min" assertion.
step description "RNA concentration and purity were determined by NanoDrop" assertion.
step description "In this step, incubate samples at 65℃ for 10 min for lysing cells completely." assertion.
step description "Dissolve the pellet in 20-30 µl of RNase free water (commercial) or autoclaved water." assertion.
step description "Discard the supernatant and wash the precipitate nucleic acid gently with 70% EtOH." assertion.
step description "Transfer the upper aqueous phase to a new tube (size= 1.5 ml)." assertion.
step description "Add 600 µl of chloroform: isoamyl alcohols (24:1) to each tube, homogenize them by vortexing." assertion.
step description "Dissolve the dry pellet in nuclease free water or TE buffer (Ph 8.0). Store DNA at 4 º celcius or -20 º celcius ." assertion.
step description "Wash preserved mosquitoes in sterile distilled water or phosphate buffer saline(PBS) to remove excess alcohol. Fresh mosquitoes can be ground directly." assertion.
step description "Wash the pellet with 70% ethanol ." assertion.
step description "Transfer the very clear supernatant to a fresh tube , add two fold volume cold isopropanol and keep it for 1 hour at -20º celcius ." assertion.
step description "Add equal volume of phenol:chloroform(1:1) ,shake the tube well for 5 minutes and centrifuge at 12,000g for 10 minutes at 4º celcius ." assertion.
step description "Lyse for 1 hour 30 minutes at 37º celcius. Gently mix the tube by inverting every 15 minutes." assertion.
step description "Add 2 volumes of cold 95% ethanol and mix gently by inversion. The tubes are incubated at for 45 min in -20°C freezer. It should not be for more time as some remaining phenolics and resin may also precipitate with DNA." assertion.
step description "Transfer 1ml of supernatant to each 2ml Eppendorf tubes already containing 1 ml of chloroform: isoamyl alcohol (24:1). Mix supernatant and chloroform: isoamyl alcohol by gentle inversions for 10 min and subsequently place the tube on ice for 10 min." assertion.
step description "If in step one the sample is not grinded with mortar and pestle then vortex the falcon tube for 5 min otherwise proceed to step 3." assertion.
step description "Take one gram of frozen finely powdered leaf tissues in a new 50 mL Falcon tube and mixed with the pre-heated extraction buffer (10 ml) for one sample. Breifly, vertex for 30sec to ensure leaf material is fully mixed with buffer. Fine grind is a key to obtaining high DNA quantity with lesser artifacts of resin." assertion.
step description "Dissolve pellet in molecular biology grade water and analyze DNA by agarose gel electrophoresis and spectrophotometer for its purity and integrity." assertion.
step description "Add 10 ml TE buffer into the mortar and carefully bring mycobacteria in suspension. Transfer this suspension to a 50 ml polypropylene tube." assertion.