Patch Pipette Solution for InsP3R

Patch Pipette Solution for InsP₃R

Reagent	Final concentration
KCl	140 mm
HEPES	10 mm
Na₂ATP	0.5 mm
CaCl₂	* mm
Ca²⁺ chelator	** 0.5 mm

Adjust the pH of the solution to 7.3 with 1 m KOH.
* Use the online software Webmaxc Standard (http://www.stanford.edu/∼cpatton/webmaxcS.htm) to estimate the amount of CaCl₂ that should be used to obtain the desirable free Ca²⁺ concentration ([Ca²⁺]_f) in the final solution. Confirm the actual [Ca²⁺]_f (<100 µm) in final solutions by Ca²⁺-sensitive dye fluorimetry. Do not use Ca²⁺ chelator for solutions with [Ca²⁺]_f >100 µm. Calculate [Ca²⁺]_f in these solutions by using the appropriate Ca²⁺ activity coefficients (Butler 1968; Vais et al. 2010).
** Use BAPTA (1,2-bis[o-aminophenoxy]ethane-N,N,N′,N′-tetraacetic acid) when 20 nm < [Ca²⁺]_f ≤ 600 nm. Use 5,5′-dibromo BAPTA when 600 nm < [Ca²⁺]_f ≤ 4 µm. Use HEDTA (hydroxyethylethylenediaminetriacetic acid) when 4 µm < [Ca²⁺]_f ≤ 20 µm. Use NTA (nitrilotriacetic acid) when 20 µm < [Ca²⁺]_f ≤ 100 µm. ATP contributes to Ca²⁺ buffering in solutions with [Ca²⁺]_f >30 µm (Bers et al. 2010).

1. Bers DM,
2. Patton CW,
3. Nuccitelli R
Bers DM, Patton CW, Nuccitelli R. 2010. A practical guide to the preparation of Ca²⁺ buffers. Methods Cell Biol 99: 1–26.
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1. Vais H,
2. Foskett JK,
3. Mak D-OD
Vais H, Foskett JK, Mak D-OD. 2010. Unitary Ca²⁺ current through recombinant type 3 InsP₃ receptor channels under physiological ionic conditions. J Gen Physiol 136: 687–700.
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