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[[Image:Hayneslab3.gif|link=Haynes_Lab]] [[Image:Asu_logo_3.gif|right|link=http://engineering.asu.edu/]]<br> | [[Image:Hayneslab3.gif|link=Haynes_Lab]] [[Image:Asu_logo_3.gif|right|link=http://engineering.asu.edu/]]<br> | ||
[[Haynes_Lab | <font face="trebuchet ms" style="color:#000000"> '''Home''' </font>]] | [[Haynes_Lab | <font face="trebuchet ms" style="color:#000000"> '''Home''' </font>]] | ||
[[Haynes:Publications | <font face="trebuchet ms" style="color:#000000"> '''Publications''' </font>]] | |||
[[Haynes:Lab Members | <font face="trebuchet ms" style="color:#000000"> '''People''' </font>]] | |||
[[Haynes:Contact | <font face="trebuchet ms" style="color:#000000"> '''Contact''' </font>]] | [[Haynes:Contact | <font face="trebuchet ms" style="color:#000000"> '''Contact''' </font>]] | ||
[[Haynes:Protocols | <font face="trebuchet ms" style="color:#000000"> '''Protocols''' </font>]] | [[Haynes:Protocols | <font face="trebuchet ms" style="color:#000000"> '''Protocols''' </font>]] | ||
[[Haynes:TechResources | <font face="trebuchet ms" style="color:#000000"> ''' | [[Haynes:TechResources | <font face="trebuchet ms" style="color:#000000"> '''Lab Resources''' </font>]] | ||
[[Haynes: | [[Haynes:Internal | <font face="trebuchet ms" style="color:#000000"> '''Personnel''' </font>]] | ||
[[Haynes: | [[Haynes:Calendar | <font face="trebuchet ms" style="color:#000000"> '''Calendar''' </font>]] | ||
</div><br> | </div><br> | ||
<div style="width: 1000px"> | |||
=Protocols= | =Protocols= | ||
* | ==DNA Assembly== | ||
* [[Haynes:BioBrick Method short | BioBrick Parts Assembly: an Overview]] | |||
** [[Haynes:Making BioBricks | Making Standardized BioBrick Parts]] | |||
** [[Haynes:Assembly101 | Model Procedure for Assembling BioBrick Parts: Classic Ligation for Beginners]] | |||
* [[Haynes:Gibson_Assembly | Gibson Assembly]] | |||
* [[Haynes:TypeIIS_Assembly | Type IIS Assembly]] - similar to Golden Gate, Golden Braid, and Moclo | |||
<br> | |||
==Bioinformatics== | |||
* [[Haynes:GalaxyChiP | ChIP in GALAXY]] - How to use GALAXY and a large BED file from your hard drive to create a track for the UCSC browser. Useful for data that is too large to create a custom track directly on the UCSC website. | |||
* [[Haynes:ChIPDataMining1 | ChIP on Promoters]] - How to find chromatin protein enrichment at gene promoters of interest for small sets of genes or all 23,000 human genes, using public ChIP data | |||
* [[Haynes:GOEnrichment | Gene Ontology Term Enrichment]] - How to compute which standardized terms (GO terms) for cell behavior/ biology are significantly over-represented in a user-defined list of genes | |||
<br> | |||
==Cell Culture: Bacteria== | |||
* [[Haynes:ChemComp cells | Chemically competent cell prep]] | |||
* [[Haynes:Glycerol Stocks | Glycerol Stocks]] - for long term -80°C storage | |||
* [[Haynes:TransformationPlasmids | Transformation of E. coli with plasmid DNA]] | |||
==Cell Culture: Mammalian== | |||
* [[Haynes:MamCultureMedia | Media formulas]] - cell line-specific formulas | |||
* [[Haynes:ThawingCells | Thawing Cells]] - starting a new culture from a -150°C frozen stock vial | |||
* [[Haynes:AdvancingCells | Advancing Cells]] - transferring a new culture into a larger growth vessel | |||
* [[Haynes:SplittingCells | Splitting Cells]] - passaging cells | |||
* [[Haynes:TransfectionPlasmid_Lipo | Transfection - Lipofectamine]] - Transfection of plasmid DNA into cells with Lipofectamine | |||
* [[Haynes:CryopreservationMamCells | Cryopreserving Cells]] - Preparing frozen cell stocks | |||
==Imaging: Mammalian== | |||
'''Flow Cytometry''' | |||
* [[Haynes:FCMamalian_FluorGene | Detecting Fluorescent Protein Expression]] | |||
* [[Haynes:ICCSaponin | Intracellular Protein Staining with Saponin Permeabilization]] - how to detect cytoplasmic proteins using antibodies | |||
'''Microscopy''' | |||
* [[Haynes:Mamalian_IFC | Immunocytology]] - staining fixed cells with antibodies | |||
<br><br> | |||
==Protein & Enzyme Assays== | |||
* [[Haynes:Bradford | Bradford assay]] - measure extracted protein concentration | |||
* [[Haynes:ELISA | ELISA assay]] - specific antibody-based quantification of protein; simpler than Western, but no protein size data | |||
* [[Haynes:ExtFluorProtein | Fluorescent Protein]] - measure extracted fluorescent protein levels | |||
* [[Haynes:Luciferase | Luciferase assay]] - measuring firefly luciferase reporter activity with D-luciferin substrate | |||
* [[Haynes:ProteinExtraction | Protein Extraction]] - extracting proteins from mammalian cells | |||
<br><br> | |||
==Real Time Quantitative PCR== | |||
* [[Haynes:UPLassay | Roche Universal Probe Library (UPL) assay]] - hydrolysis probe PCR for the Roche Light Cycler 480 | |||
* [[Haynes:Roche480_Analysis | Roche Data Analysis]] - Tips for doing data analysis (from a user's perspective) | |||
* [[Haynes:SYBRGreen | SYBR Green assay]] - dsDNA-binding fluorescent dye-based detection | |||
<br><br> | |||
==RNA & cDNA protocols== | |||
* [[Haynes:TRIzol_RNeasy | RNA mini prep - TRIzol/ RNeasy column]] | |||
* [[Haynes:cDNA_Synthesis | cDNA Synthesis]] - procedures and reaction table templates | |||
<br><br> | |||
==Other Resources - OpenWetWare== | |||
* [http://openwetware.org/wiki/E._coli_genotypes E. coli Strains] | |||
* [http://openwetware.org/wiki/Materials Materials]: buffer formulas; specific information on commonly used reagents (''e.g.'', LB broth, ampicillin, restriction enzymes, etc.) | |||
==Software Guides== | |||
* [[Haynes:Jmol_Guide | Jmol commands: controlling PDB structure displays]] | |||
<br> | |||
=Recipes= | |||
Click "show" to expand each recipe, and "hide" to, well, hide it.<br><br> | |||
<div style="width: 350px"> | |||
'''Bromo-Blue/X-cyanol Loading Buffer, 20X''' {{hide| | |||
Formula: [60% glycerol; 12.5 mg/mL bromophenol blue; 12.5 mg/mL xylene cyanol]<br> | |||
Volume: 20 mL | |||
* 100% glycerol, 12 mL | |||
* Bromophenol blue, 250 mg | |||
* Xylene cyanol, 250 mg | |||
Start with 18 mL dH<sub>2</sub>O. Add in glycerol 6 mL at a time and mix by pipetting up and down several times (it is very viscous). Add dyes. | |||
}} | |||
'''Chromatin Prep Buffer A''' {{hide| | |||
Formula: [10 mM HEPES (pH 7.9); 10 mM KCl, 1.5 mM MgCl2; 0.34 M sucrose; 10% glycerol; 1 mM dithiothreitol; 1x protease inhibitor cocktail]<br> | |||
Volume: 100 mL | |||
* 1 M HEPES pH 7.9, 1 mL | |||
* 1 M KCl, 1 mL | |||
* 1 M MgCl<sub>2</sub>, 150 μL | |||
* Sucrose, 11.6 g | |||
* 50% Glycerol, 20 mL | |||
* 1 M Dithiotreitol (DTT), 100 μL | |||
Bring up to total volume with dH<sub>2</sub>O. Store at 4°C. Add 100x protease inhibitor cocktail* (1:100) immediately before use. | |||
}} | |||
'''DNA Ladder mix, Gene Ruler 1 kb Plus''' {{hide| | |||
Formula: [0.5 ng/ 10 μL Fermentas Gene Ruler 1 kb Plus; 1x loading dye]<br> | |||
Volume: 1000 μL | |||
* Gene Ruler plus (0.5 ng/μL), 100 μL | |||
* 20x loading dye, 50 μL | |||
* dH<sub>2</sub>O, 850 μL | |||
Add dH<sub>2</sub>O directly to the supplier's tube (containing 100 μL of ladder). Add the 20x loading dye. Mix. Aliquot 200 μL portions into five 1.5 mL tubes. Store at -20°C. | |||
}} | |||
'''LB (Lennox) Agar plates''' | |||
:[http://openwetware.org/wiki/Haynes:LBagarAmp Detailed protocol] | |||
:{{hide| | |||
Volume: 1 L | |||
* Bacto-agar, 15 g | |||
* Caesin tryptone, 10 g | |||
* Yeast extract, 5 g | |||
* NaCl, 5 g | |||
* 1 N NaOH, 1 mL | |||
Dissolve in 1000 mL dH<sub>2</sub>O. Autoclave to sterilize. Cool to ~50°C (warm to touch) before adding antibiotics. Add antibiotic(s) and pour into sterile petri dishes. 1L should yield about 40 plates. Shortcut: Use 25 g Acros LB Broth, Lennox (BP9722-500) granules instead of caesin tryptone, yeast extract, and NaCl. | |||
}} | |||
'''LB Broth (Lennox)''' | |||
:[http://openwetware.org/wiki/Haynes:LB_liquid_media#LB_Liquid_Media Detailed protocol] | |||
:{{hide| | |||
Volume: 1 L | |||
* Caesin tryptone, 10 g | |||
* Yeast extract, 5 g | |||
* NaCl, 5 g | |||
* 1 N NaOH, 1 mL | |||
Dissolve in 1000 mL dH<sub>2</sub>O. Autoclave to sterilize. Cool to room temperature before adding antibiotics. Shortcut: Use 25 g Acros LB Broth, Lennox (BP9722-500) granules instead of caesin tryptone, yeast extract, and NaCl. | |||
}} | |||
'''Mammalian Cell Media''' {{hide| | |||
Volume: 500 mL | |||
* [[Haynes:MamCultureMedia | Appropriate incomplete medium]], 500 mL | |||
* Fetal bovine serum (FBS), 50 mL | |||
* Penicillin/ streptomycin (pen-strep), 5 mL | |||
* [[Haynes:MamCultureMedia | Appropriate antibiotics]], depending upon formula | |||
Add FBS and pen-strep directly to the incomplete medium in the original stock bottle. Cap and invert to mix. Filter sterilize using a vacuum filtration unit. | |||
}} | |||
'''Oligo Annealing Buffer, 10x''' {{hide| | |||
Formula: [1M NaCl; 100 mM Tris-HCl pH 7.4]<br> | |||
Volume: 1000 μL | |||
* 5M NaCl, 200 μL | |||
* 1M Tris-HCl, 100 μL | |||
* dH<sub>2</sub>O, 700 μL | |||
Keep frozen at -20°C. | |||
}} | |||
'''Tris-acetate-EDTA (TAE) Buffer, 50x''' {{hide| | |||
Formula: [2 M Tris, 1 M acetate, 50 mM EDTA]<br> | |||
Volume: 500 mL | |||
* Tris base (FW 121.14), 121 g | |||
* Glacial acetic acid, 28.55 mL | |||
* 500 mM EDTA, 50 mL | |||
Dissolve Tris base in 200 mL dH<sub>2</sub>O (in a beaker with stirring). Add (by pipetting) glacial acetic acid and EDTA. Transfer solution to a graduated cylinder and fill up to 500 mL with dH<sub>2</sub>O. Transfer to a screw-cap bottle, loosen the cap and secure it to the bottle with autoclave tape. Autoclave in a pan filled about 2 in. deep with water (to prevent boiling-over) to sterilize. | |||
}} | |||
</div> | |||
Revision as of 13:59, 18 December 2014
Protocols
DNA Assembly
- BioBrick Parts Assembly: an Overview
- Gibson Assembly
- Type IIS Assembly - similar to Golden Gate, Golden Braid, and Moclo
Bioinformatics
- ChIP in GALAXY - How to use GALAXY and a large BED file from your hard drive to create a track for the UCSC browser. Useful for data that is too large to create a custom track directly on the UCSC website.
- ChIP on Promoters - How to find chromatin protein enrichment at gene promoters of interest for small sets of genes or all 23,000 human genes, using public ChIP data
- Gene Ontology Term Enrichment - How to compute which standardized terms (GO terms) for cell behavior/ biology are significantly over-represented in a user-defined list of genes
Cell Culture: Bacteria
- Chemically competent cell prep
- Glycerol Stocks - for long term -80°C storage
- Transformation of E. coli with plasmid DNA
Cell Culture: Mammalian
- Media formulas - cell line-specific formulas
- Thawing Cells - starting a new culture from a -150°C frozen stock vial
- Advancing Cells - transferring a new culture into a larger growth vessel
- Splitting Cells - passaging cells
- Transfection - Lipofectamine - Transfection of plasmid DNA into cells with Lipofectamine
- Cryopreserving Cells - Preparing frozen cell stocks
Imaging: Mammalian
Flow Cytometry
- Detecting Fluorescent Protein Expression
- Intracellular Protein Staining with Saponin Permeabilization - how to detect cytoplasmic proteins using antibodies
Microscopy
- Immunocytology - staining fixed cells with antibodies
Protein & Enzyme Assays
- Bradford assay - measure extracted protein concentration
- ELISA assay - specific antibody-based quantification of protein; simpler than Western, but no protein size data
- Fluorescent Protein - measure extracted fluorescent protein levels
- Luciferase assay - measuring firefly luciferase reporter activity with D-luciferin substrate
- Protein Extraction - extracting proteins from mammalian cells
Real Time Quantitative PCR
- Roche Universal Probe Library (UPL) assay - hydrolysis probe PCR for the Roche Light Cycler 480
- Roche Data Analysis - Tips for doing data analysis (from a user's perspective)
- SYBR Green assay - dsDNA-binding fluorescent dye-based detection
RNA & cDNA protocols
- RNA mini prep - TRIzol/ RNeasy column
- cDNA Synthesis - procedures and reaction table templates
Other Resources - OpenWetWare
- E. coli Strains
- Materials: buffer formulas; specific information on commonly used reagents (e.g., LB broth, ampicillin, restriction enzymes, etc.)
Software Guides
Recipes
Click "show" to expand each recipe, and "hide" to, well, hide it.
Bromo-Blue/X-cyanol Loading Buffer, 20X
Formula: [60% glycerol; 12.5 mg/mL bromophenol blue; 12.5 mg/mL xylene cyanol]
Volume: 20 mL
- 100% glycerol, 12 mL
- Bromophenol blue, 250 mg
- Xylene cyanol, 250 mg
Start with 18 mL dH2O. Add in glycerol 6 mL at a time and mix by pipetting up and down several times (it is very viscous). Add dyes.
Chromatin Prep Buffer A
Formula: [10 mM HEPES (pH 7.9); 10 mM KCl, 1.5 mM MgCl2; 0.34 M sucrose; 10% glycerol; 1 mM dithiothreitol; 1x protease inhibitor cocktail]
Volume: 100 mL
- 1 M HEPES pH 7.9, 1 mL
- 1 M KCl, 1 mL
- 1 M MgCl2, 150 μL
- Sucrose, 11.6 g
- 50% Glycerol, 20 mL
- 1 M Dithiotreitol (DTT), 100 μL
Bring up to total volume with dH2O. Store at 4°C. Add 100x protease inhibitor cocktail* (1:100) immediately before use.
DNA Ladder mix, Gene Ruler 1 kb Plus
Formula: [0.5 ng/ 10 μL Fermentas Gene Ruler 1 kb Plus; 1x loading dye]
Volume: 1000 μL
- Gene Ruler plus (0.5 ng/μL), 100 μL
- 20x loading dye, 50 μL
- dH2O, 850 μL
Add dH2O directly to the supplier's tube (containing 100 μL of ladder). Add the 20x loading dye. Mix. Aliquot 200 μL portions into five 1.5 mL tubes. Store at -20°C.
LB (Lennox) Agar plates
Volume: 1 L
- Bacto-agar, 15 g
- Caesin tryptone, 10 g
- Yeast extract, 5 g
- NaCl, 5 g
- 1 N NaOH, 1 mL
Dissolve in 1000 mL dH2O. Autoclave to sterilize. Cool to ~50°C (warm to touch) before adding antibiotics. Add antibiotic(s) and pour into sterile petri dishes. 1L should yield about 40 plates. Shortcut: Use 25 g Acros LB Broth, Lennox (BP9722-500) granules instead of caesin tryptone, yeast extract, and NaCl.
LB Broth (Lennox)
Volume: 1 L
- Caesin tryptone, 10 g
- Yeast extract, 5 g
- NaCl, 5 g
- 1 N NaOH, 1 mL
Dissolve in 1000 mL dH2O. Autoclave to sterilize. Cool to room temperature before adding antibiotics. Shortcut: Use 25 g Acros LB Broth, Lennox (BP9722-500) granules instead of caesin tryptone, yeast extract, and NaCl.
Mammalian Cell Media
Volume: 500 mL
- Appropriate incomplete medium, 500 mL
- Fetal bovine serum (FBS), 50 mL
- Penicillin/ streptomycin (pen-strep), 5 mL
- Appropriate antibiotics, depending upon formula
Add FBS and pen-strep directly to the incomplete medium in the original stock bottle. Cap and invert to mix. Filter sterilize using a vacuum filtration unit.
Oligo Annealing Buffer, 10x
Formula: [1M NaCl; 100 mM Tris-HCl pH 7.4]
Volume: 1000 μL
- 5M NaCl, 200 μL
- 1M Tris-HCl, 100 μL
- dH2O, 700 μL
Keep frozen at -20°C.
Tris-acetate-EDTA (TAE) Buffer, 50x
Formula: [2 M Tris, 1 M acetate, 50 mM EDTA]
Volume: 500 mL
- Tris base (FW 121.14), 121 g
- Glacial acetic acid, 28.55 mL
- 500 mM EDTA, 50 mL
Dissolve Tris base in 200 mL dH2O (in a beaker with stirring). Add (by pipetting) glacial acetic acid and EDTA. Transfer solution to a graduated cylinder and fill up to 500 mL with dH2O. Transfer to a screw-cap bottle, loosen the cap and secure it to the bottle with autoclave tape. Autoclave in a pan filled about 2 in. deep with water (to prevent boiling-over) to sterilize.
