Katherine Rawls

Biol 211, Cell Biology, Fall 2008

Exercise #1: Pipetting & Spectrophotometry

Purpose of the Experiment

The scientific objective of this experiment is to determine the concentration of blue pigment in two unknowns.

Materials

1. Media bottle containing stock solution of blue pigment
2. Media bottle of deionized water
3. Media bottle of unknown A
4. Media bottle of unknown B
5. A supply of graduated transfer pipets
6. A pipetting device to be used with the graduated transfer pipets
7. Automatic pipettors and pipet tips
8. A supply of test tubes and requisite test tube racks
9. Genesys 20D spectrophotometer.

Preparation

1. Turn on the spectrophotometer and allow to warm up.

2. Gather, label, and fill 24 test tubes with volumes of blue dye and water according to the components list.

3. Prepare the blanks (deionized water).

Procedure. Part 1. Construction of the Absorption Spectrum.

Perform the following procedure at each of 13 wavelengths of light:

1. Set the wavelength on the spectrophotometer to one of 13 wavelengths specified.

2. Calibrate the spectrophotometer with the blank by inserting the blank into the cuvette holder, closing the lid, then pressing the 100% T button. (wait for a stable reading of 100, repeat if necessary.)

3. Separately, place each of the three cuvettes containing the stock dye solution (S1, S2, and S3) into the cuvette holder, close the lid, then wait for a stable %T reading.

4. Record the reading in the data table.

Procedure. Part 2. Construction of the Standard Curve.

1.Set the spectrophotometer to the Amax wavelength.

2. Perform the following procedure to each of the 15 cuvettes containing one of the 5 known dilutions of stock blue pigment solution.

a. Calibrate the spectrophotometer with the blank.

b. Place one of the cuvettes containing a dilution of the stock blue pigment solution into the cuvette holder of the spectrophotmeter, close the lid and measure the %T.

Record the data in the data table.

Procedure. Part 3. Determination of the Concentration of Blue Pigment in Two Unknowns.

1. Set the spectrophotometer to the Amax wavelength.

2. Perform the following procedure on each of the 6 cuvettes containing the samples of the unknowns:

a. Zero the spectrophotometer with the blank.

b. Place the cuvette into the cuvette holder, close the lid, then measure the transmittance. Record the data in the data table.

Results

**Table 1. Absorption Spectrum Transmittance Data**
Wavelength (nm)	S1 (%T)	S2 (%T)	S3 (%T)	Mean %T	SE
400	67	67	66	67	0.071
425	81	81	81	81	0
450	99	99	99	99	0
475	100	100	100	100	0
500	94	95	95	95	0.059
525	86	86	85	86	0.062
550	67	67	66	67	0.071
575	34	34	34	34	0
600	14	14	14	14	0
625	1	1	1	1	0
650	12	11	11	11	0.174
675	78	78	78	78	0
700	97	97	97	97	0

**Table 2. Absorption Spectrum Absorbance Data**
Wavelength (nm)	S1 (A)	S2 (A)	S3 (A)	Mean A	SE
400	0.174	0.174	0.18	0.176	0.007
425	0.092	0.092	0.092	0.092	0
450	0.004	0.004	0.004	0.004	0
475	0	0	0	0	NaN
500	0.027	0.022	0.022	0.024	0.015
525	0.066	0.066	0.071	0.068	0.009
550	0.174	0.174	0.18	0.176	0.007
575	0.469	0.469	0.469	0.469	0
600	0.854	0.854	0.854	0.854	0
625	2	2	2	2	0
650	0.921	0.959	0.959	0.946	0.018
675	0.108	0.108	0.108	0.108	0
700	0.013	0.013	0.013	0.013	0

**Table 3. Standard Curve. %T vs. Conc.**
Concentration (%)	1	2	3	Mean %T	SE
1.25	93	94	94	94	0.06
3.125	86	86	86	86	0
6.25	75	75	75	75	0
12.5	57	57	57	57	0
25	32	32	32	32	0

**Table 4. Standard Curve. A vs. Conc.**
Concentration (%)	1	2	3	Mean A	SE
1.25	0.032	0.027	0.027	0.029	0.014
3.125	0.066	0.066	0.066	0.066	0
6.25	0.125	0.125	0.125	0.125	0
12.5	0.244	0.244	0.244	0.244	0
25	0.495	0.495	0.495	0.495	0

**Table 5. Determination of Unknowns**
Unknown (%)	%T 1	%T 2	%T 3	Abs 1	Abs 2	Abs 3
A	8	8	8	1.097	1.097	1.097
B	42	42	41	0.377	0.377	0.387

**Table 6. Concentraion of Blue Pigment in Unknowns**
Unknown (%)	C 1	C 2	C 3	C mean
A	54.65	54.65	54.65	54.65
A	18.65	18.65	19.15	18.8166666666667