Luckau Protocols:Tris-Cl: Difference between revisions

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| width="600" style="background-color: #BCED91;" align="center"| <span style="font-size:32px;"> Tris-Cl Protocol </span>


Back to [[Luckau Protocols]]
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<span style="font-size:16px;"> [[User:Tara_K._Luckau | Tara K. Luckau's Home Page]] </span>
 
[[User:Tara_K._Luckau/Notebook/Team_ConGen | Conservation Genetics Lab Notebook]]
 
[[Luckau_Protocols | Tara's Protocols]]
 
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__TOC__


==Purpose==
==Purpose==
*Tris-Cl is a buffering agent (made from Tris base and HCl)
*Tris-Cl is a buffering agent (made from Tris base and HCl)
*We use it as a stock solution for Low TE
*In the Clark Lab, 0.5M Tris-Cl, pH 8.0 is used as a stock solution for Low TE
*In the Clark Lab, 1M Tris-Cl, pH 8.0 is used as a stock solution for Low TE
*In the Clark Lab, 1M Tris-Cl, pH 8.3 is used as a stock solution for making the PCR Buffer series (A through H)
 


==Info==
==Info==
*tris [hydroxymethyl] amino methane (C<sub>4</sub>H<sub>11</sub>NO<sub>3</sub>, 2-Amino-2-hydroxymethyl-propane-1,3-diol)
*tris [hydroxymethyl] amino methane (C<sub>4</sub>H<sub>11</sub>NO<sub>3</sub>, 2-Amino-2-hydroxymethyl-propane-1,3-diol)
*MW = 157.56 g/mol (MW = molecular weight, same as formula weight, FW)
:: we currently use [http://www.amresco-inc.com/TRIS-0497.cmsx Amresco, product code 0497], Lot 2901C127
*MW = 157.56 g/mol


==Protocol==
===0.5M Tris-Cl, pH 8.0===


<math>500 mL \bullet \frac{0.5 mol}{L}\ \bullet \frac{L}{1000 mL}\ \bullet \frac{157.56 g}{mol}\ = 39.39 g</math>
* Note: when adjusting pH, be patient: adjust the pH slowly until it seems steady and stable, then leave the solution on the stirrer for an hour or so, then re-check the pH to be sure it hasn't changed. It's always a good idea to re-re-check the pH a day after as well.


'''to make \tfrac{1}{2} liter of 0.5M Tris-Cl, pH 8.0:'''


# In 1 L beaker, mix 39.39 g Tris-Cl in 400 mL H<sub>2</sub>O
==To make <math>\tfrac{1}{2}</math> liter of 0.5M Tris-Cl, pH 8.0==
 
 
===Calculations===
* <math>500 \mathrm{mL} \bullet \tfrac{0.5 \mathrm{mol}}{\mathrm{L}}\ \bullet \tfrac{\mathrm{L}}{1000 \mathrm{mL}}\ \bullet \tfrac{157.56 \mathrm{g}}{\mathrm{mol}}\ = 39.39 \mathrm{g}</math>
 
 
===Protocol===
# Using digital scale, place 39.39 g Tris-base powder into weight boat
# In 1 L beaker, mix Tris-base powder in 400 mL H<sub>2</sub>O
# Put beaker on hotplate with stirbar until dissolved
# Put beaker on hotplate with stirbar until dissolved
# Using concentrated aqueous HCl to adjust to pH 8.0
# Use concentrated aqueous HCl to adjust to pH 8.0 (remember to be patient: adjust, let it sit, adjust again)
# Add H<sub>2</sub>O to bring volume to 500 mL
# Add H<sub>2</sub>O to bring volume to 500 mL
# Re-check pH
# Autoclave solution, store at room temperature
# Autoclave solution, store at room temperature


===1M Tris-Cl, pH 8.0===


<math>500 mL \bullet \frac{1 mol}{L}\ \bullet \frac{L}{1000 mL}\ \bullet \frac{157.56 g}{mol}\ = 78.78 g</math>
==To make <math>\tfrac{1}{2}</math> liter of 1M Tris-Cl, pH 8.0==


'''to make \tfrac{1}{2} liter of 1M Tris-Cl, pH 8.0:'''


# In 1 L beaker, mix 78.78 g Tris-Cl in 400 mL H<sub>2</sub>O
===Calculations===
* <math>500 \mathrm{mL} \bullet \tfrac{1 \mathrm{mol}}{\mathrm{L}}\ \bullet \tfrac{\mathrm{L}}{1000 \mathrm{mL}}\ \bullet \tfrac{157.56 \mathrm{g}}{\mathrm{mol}}\ = 78.78 \mathrm{g}</math>
 
 
===Protocol===
# Using digital scale, place 78.78 g Tris-base powder into weight boat
# In 1 L beaker, mix Tris-base powder in 400 mL H<sub>2</sub>O
# Put beaker on hotplate with stirbar until dissolved
# Put beaker on hotplate with stirbar until dissolved
# Using concentrated aqueous HCl to adjust to pH 8.0
# Use concentrated aqueous HCl to adjust to pH 8.0 (remember to be patient: adjust, let it sit, adjust again)
# Add H<sub>2</sub>O to bring volume to 500 mL
# Add H<sub>2</sub>O to bring volume to 500 mL
# Re-check pH
# Autoclave solution, store at room temperature
==To make 250 mL of 1M Tris-Cl, pH 8.3==
===Calculations===
* <math>250 \mathrm{mL} \bullet \tfrac{1 \mathrm{mol}}{\mathrm{L}}\ \bullet \tfrac{\mathrm{L}}{1000 \mathrm{mL}}\ \bullet \tfrac{121.14 \mathrm{g}}{\mathrm{mol}}\ = 30.285 \mathrm{g}</math>
===Protocol===
# Using digital scale, place 30.285 g Tris-base powder into weight boat
# In 250 mL glass media bottle, mix Tris-base powder in approximately 200 mL H<sub>2</sub>O
# Put beaker on stirrer with stirbar until dissolved
# Use concentrated aqueous HCl to adjust to pH 8.3 (remember to be patient: adjust, let it sit, adjust again)
# Add H<sub>2</sub>O to bring volume to 250 mL
# Re-check pH; the next day, re-check it again
# Autoclave solution, store at room temperature
# Autoclave solution, store at room temperature

Latest revision as of 15:44, 27 September 2012

Tris-Cl Protocol

Tara K. Luckau's Home Page

Conservation Genetics Lab Notebook

Tara's Protocols


Purpose

  • Tris-Cl is a buffering agent (made from Tris base and HCl)
  • In the Clark Lab, 0.5M Tris-Cl, pH 8.0 is used as a stock solution for Low TE
  • In the Clark Lab, 1M Tris-Cl, pH 8.0 is used as a stock solution for Low TE
  • In the Clark Lab, 1M Tris-Cl, pH 8.3 is used as a stock solution for making the PCR Buffer series (A through H)


Info

  • tris [hydroxymethyl] amino methane (C4H11NO3, 2-Amino-2-hydroxymethyl-propane-1,3-diol)
we currently use Amresco, product code 0497, Lot 2901C127
  • MW = 157.56 g/mol


  • Note: when adjusting pH, be patient: adjust the pH slowly until it seems steady and stable, then leave the solution on the stirrer for an hour or so, then re-check the pH to be sure it hasn't changed. It's always a good idea to re-re-check the pH a day after as well.


To make [math]\displaystyle{ \tfrac{1}{2} }[/math] liter of 0.5M Tris-Cl, pH 8.0

Calculations

  • [math]\displaystyle{ 500 \mathrm{mL} \bullet \tfrac{0.5 \mathrm{mol}}{\mathrm{L}}\ \bullet \tfrac{\mathrm{L}}{1000 \mathrm{mL}}\ \bullet \tfrac{157.56 \mathrm{g}}{\mathrm{mol}}\ = 39.39 \mathrm{g} }[/math]


Protocol

  1. Using digital scale, place 39.39 g Tris-base powder into weight boat
  2. In 1 L beaker, mix Tris-base powder in 400 mL H2O
  3. Put beaker on hotplate with stirbar until dissolved
  4. Use concentrated aqueous HCl to adjust to pH 8.0 (remember to be patient: adjust, let it sit, adjust again)
  5. Add H2O to bring volume to 500 mL
  6. Re-check pH
  7. Autoclave solution, store at room temperature


To make [math]\displaystyle{ \tfrac{1}{2} }[/math] liter of 1M Tris-Cl, pH 8.0

Calculations

  • [math]\displaystyle{ 500 \mathrm{mL} \bullet \tfrac{1 \mathrm{mol}}{\mathrm{L}}\ \bullet \tfrac{\mathrm{L}}{1000 \mathrm{mL}}\ \bullet \tfrac{157.56 \mathrm{g}}{\mathrm{mol}}\ = 78.78 \mathrm{g} }[/math]


Protocol

  1. Using digital scale, place 78.78 g Tris-base powder into weight boat
  2. In 1 L beaker, mix Tris-base powder in 400 mL H2O
  3. Put beaker on hotplate with stirbar until dissolved
  4. Use concentrated aqueous HCl to adjust to pH 8.0 (remember to be patient: adjust, let it sit, adjust again)
  5. Add H2O to bring volume to 500 mL
  6. Re-check pH
  7. Autoclave solution, store at room temperature


To make 250 mL of 1M Tris-Cl, pH 8.3

Calculations

  • [math]\displaystyle{ 250 \mathrm{mL} \bullet \tfrac{1 \mathrm{mol}}{\mathrm{L}}\ \bullet \tfrac{\mathrm{L}}{1000 \mathrm{mL}}\ \bullet \tfrac{121.14 \mathrm{g}}{\mathrm{mol}}\ = 30.285 \mathrm{g} }[/math]


Protocol

  1. Using digital scale, place 30.285 g Tris-base powder into weight boat
  2. In 250 mL glass media bottle, mix Tris-base powder in approximately 200 mL H2O
  3. Put beaker on stirrer with stirbar until dissolved
  4. Use concentrated aqueous HCl to adjust to pH 8.3 (remember to be patient: adjust, let it sit, adjust again)
  5. Add H2O to bring volume to 250 mL
  6. Re-check pH; the next day, re-check it again
  7. Autoclave solution, store at room temperature
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