Roche Applied Science
The Complete Guide for
Protease Inhibition
c mplete protection...
c mplete convenience
Proteases are ubiquitous in all living cells. As soon as cells are disrupted, proteases are
released and can quickly degrade any protein. This can drastically reduce the yield of
protein during isolation and purification. Contaminating proteases can be inhibited by
protease inhibitors, thereby protecting the protein of interest from degradation.
The Complete Guide for Protease Inhibition from Roche Applied Science is a comprehensive
resource to help you select the appropriate protease inhibitors for your applications. This
brochure includes information regarding the specificity, stability, effectiveness, and safety of
our protease inhibitors.
_____________________________Introduction to Protease Inhibitors _______________________________2-3
Classes of Protease Inhibitors______________________________________3
_____________________________c mplete Protease Inhibitor Cocktail Tablets ______________________4-6
_____________________________Pefabloc SC ______________________________________________________8
Pefabloc SC PLUS ________________________________________________9
_____________________________Protease Inhibitor Product Overviews___________________________10-14
Protease Inhibitors Set ___________________________________________14
Universal Protease Substrate _____________________________________14
_____________________________Related Products and Ordering Information ________________________15
Visit www.roche-applied-science.com/proteaseinhibitor to learn more about
protease inhibition, and access technical information about our protease inhibitors,
including tips on when and how to use the products.
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Protease Inhibitors from Roche Applied Science 
c mplete protection... c mplete convenience
Cells contain many different types of proteases. Therefore, mixtures of different inhibitors are needed for complete
protection of proteins during isolation and purification for subsequent experiments (e.g., western blotting, reporter gene
analysis, or protein interaction or activity assays).
Roche Applied Science has extensive experience with the isolation, purification, and analysis of many different proteins,
and with the best ways to protect these proteins from degradation. Choose an individual protease inhibitor for your special
application, or achieve broad-spectrum protection with the convenient c mplete Protease Inhibitor Cocktail Tablets.
Convenient  Choose from a wide range of water-soluble protease inhibitors for exceptional ease of use.
Safe  Use non-toxic inhibitors, such as the c mplete Protease Inhibitor Cocktail Tablets, Pefabloc SC, and Pefabloc
SC PLUS, to achieve protease inhibition without risk to you, or those around you.
Reliable  Count on our expertise in the production of high-quality, function-tested protease inhibitors that have
been successfully used by researchers worldwide and referenced in thousands of publications.
Classes of Protease Inhibitors available from Roche Applied Science
General inhibitors for
Protease Serine Cysteine Metallo- Aspartic
Inhibitor proteasesa proteasesb proteasesc proteasesd
Aprotinin E-64 Phosphoramidon Pepstatin
Pefabloc SC and Pefabloc SC PLUS Bestatin
(aminopeptidases)
Leupeptin (inhibits serine and cysteine proteases with trypsin-like specificity)
PMSF
c mplete, EDTA-free Protease Inhibitor Cocktail Tablets*
c mplete Protease Inhibitor Cocktail Tablets*
2-Macroglobulin

* When extractions or single-step isolations are necessary in the
acidic pH range, include Pepstatin along with c mplete tablets
to ensure aspartic (acid) protease inhibition.
a) Contain serine and histidine in the active center
b) Contain cysteine (thiol, SH-) in the active center
Protease-specific for the
c) Contain metal ions (e.g., Zn2+, Ca2+, Mn2+) in the active center
inhibitors inhibition of:
d) Contain aspartic (acidic) group in the active center
Antipain dihydrochloride Papain, Trypsin (Plasmin)
Calpain Inhibitor I Calpain I > Calpain II
Calpain Inhibitor II Calpain II > Calpain I
Chymostatin Chymotrypsin
TLCK Trypsin, other serine and cysteine proteases
(e.g., Bromelain, Ficin, Papain)
Trypsin-Inhibitor Trypsin
(chicken egg white, soybean)
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Simplify protease inhibition with convenience and reliability
in a c mplete tablet
When isolating or purifying proteins, benefit from
the ultimate in convenience  use c mplete Protease
Inhibitor Cocktail Tablets and eliminate the time-
consuming search for the right protease inhibitor.
c mplete is a proprietary blend of protease
inhibitors, formulated as a ready-to-use water-
soluble tablet. Simply add the convenient tablet to
your homogenization buffer, and instantly protect
your proteins against a broad range of proteases.
Obtain the protection you need, with convenience
and reliability  choose our easy-to-use c mplete
Protease Inhibitor Cocktail Tablets.
Convenience
%
Consistently inhibit a multitude of protease classes (Table 1), including
serine proteases, cysteine proteases, and metalloproteases.
c mplete
Protease
Inhibitor
%
Inhibit proteolytic activity in extracts from almost any tissue or cell type,
Cocktail
Tablets including animals, plants, yeast, bacteria, and fungi (for examples, see page 5).
%
Choose from two available tablet sizes, with or without EDTA, for 10 or
50 ml of lysate.
%
Drop a tablet into your lysis buffer and eliminate the cumbersome job of
weighing small amounts of different protease inhibitors on an analytical
scale, and dissolving the mix in DMSO.
Reliability
%
Deliver consistent doses of protease inhibition.
%
Obtain stable, non-toxic protection in aqueous buffers.
%
Maintain the stability of metal-dependent proteins, and function of purification techniques
(i.e., IMAC [immobilized metal affinity chromatography] for isolation of Poly-His-tagged proteins)
by using EDTA-free c mplete Protease Inhibitor Tablets.
Count on c mplete protection to eliminate the worry
Achieve broad-spectrum protection with a single
Source and concentration Type of % Inhibition % Inhibition
of protease protease immediately 60 minutes
tablet. c mplete Protease Inhibitor Cocktail
after adding after adding
Tablets eliminate the questions... and the doubt.
c mplete c mplete
Chymotrypsin, 1.5 µg/ml Serine 97% 97%
Table 1: Inhibition of different proteases by

c mplete Protease Inhibitor Tablets. One c mplete
Thermolysin, 0.8 µg/ml Metallo 99% 100%
tablet was added per 50 ml incubation solution. Proteolytic
activity was determined with the Roche Applied Science Papain, 1 mg/ml Cysteine 95% 73%
Universal Protease Substrate (casein, resorufin-labeled),
Pronase, 1.5 µg/ml Mixture 88% 99%
Cat. No. 11 080 733 001. When extractions or single-step
isolations are necessary in the acid pH range, simply
Pancreatic extract, 1.5 µg/ml Mixture 87% 99%
include Pepstatin along with c mplete tablets to ensure
aspartic (acid) protease inhibition. All experiments were
Trypsin, 0.002 µg/ml Serine 93% 73%
performed at room temperature.
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Choose c mplete inhibition
Select the appropriate c mplete Protease Inhibitor Cocktail Tablet for protection against unwanted protease activity
in your application. Benefit from multiple tablet format options to meet your needs  choose from two tablet sizes
(regular or mini), with or without EDTA. The choice is yours!
Table 2: Choose the correct

Application c mplete c mplete, c mplete, c mplete,
c mplete tablet for your
tablets EDTA-free Mini EDTA-free
application.
Inhibition during initial ++ ++ + +
extraction steps
(volumes > 50 ml)
Inhibition during subsequent +1 +1 ++ ++
purification protocols
(volumes < 50 ml)
Inhibition during subsequent 0 ++ 0 ++
purification steps require free
divalent cations for further
processing2
Samples containing high ++ 0 ++ 0
metalloproteolytic activity
++ Product of choice 1 Preparation of stock solutions is recommended.
+ Can also be used 2 Important, for example, with metal-chelate c mplete
0 Not recommended chromatography purification of Poly-His-tagged Protease
proteins, or protein samples used for signal Inhibitor
transduction research. Cocktail
Tablets
Achieve c mplete success
Choose our versatile c mplete Protease Inhibitor Cocktail Tablets to provide the protease inhibition you need.
Try the c mplete Protease Inhibitor Cocktail Tablets today, and see how simple success can be. Your laboratory just
isn t complete without it.
Some examples of cells, tissues, and organisms in which protease activity has been successfully inhibited with
c mplete tablets  as reported in scientific literature:
% % %
Acintobacillus actinomycetemcomitans Heart (human, mouse, chicken) Peripheral blood cells (BA/F3, mouse; CEM,
% %
Adipocytes (mouse, rat) Hematopoietic cell lines (mouse, human) HL-60, human)
% % %
Adrenal gland (PC-12, rat) Immature seed (soy) Pichia pastoris
% % %
Bladder carcinoma cells (T24, human) Insect cell lines (Sf2, Sf21, Sf9, Tn5) Placental labyrinth (mouse, rat)
% % %
Bone marrow cells (mouse, human) Keratinocytes (human) Platelets (human)
% % %
Bone osteosarcoma (U-2 OS, SaOs-2, human) Kidney (dog, human, mouse, rat, monkey, Xenopus) Primary chondrocytes (human)
% % %
Brain neuroblastoma cells (SK-N-BE(2), human) Leaf (Arabidopsis) Primary lung cancer cells
% % %
Brain tissue (bovine, mouse, rat, human) Liver carcinoma cells (HepG2, Hep3B, human) Primary mast cells (mouse)
% % %
Breast cancer cells (BT20, MCF7, human) Liver tissue (mouse, rat, Xenopus) Primary neuronal cultures (mouse)
% % %
Bronchial Alveolar Lavage Fluid (mouse, rat) Lung carcinoma cells (A549, human) Prostate adenocarcinoma cells (PC-3, human)
% % %
Bronchial Biopsies (human) Lung homogenates (mouse, Xenopus) Prostate carcinoma cells (DU-145 and LNCaP, human)
% % %
Bronchial epithelial cell line (BZR, human) Lung lavage fluid (mouse) Pseudomonas
% % %
Cardiomyocytes (mouse, rat) Luteal tissue (bovine) Rectal tissue (rabbit)
% % %
Cervix adenocarcinoma (HeLa, human) Lymph nodes (mouse) Renal cell carcinomas (human)
% % %
Cochlea (rat) Lymphoblastoids (human) Reticulocyte lysate (rabbit)
% % %
Colon carcinoma cells (T84, human) Lymphocytes (Jurkat, human; WEHI 3b D, mouse; Retina (mammalian)
% %
Colorectal adenocarcinoma cells (CaCo-2) (human) monkey) Saccharomyces cerevisiae
% % %
Colorectal and duodenal adenomas Mammary carcinoma cells (MDA468, human) Salivary gland (mouse)
% % %
Colorectal carcinoma cells (HCT-116, human) Mammary epithelial cells (HMEC) Salmonella typhimurium
% % %
Cortex (rat) Mammary gland (mouse) Seed (Arabidopsis)
% % %
Dictyostelium (amoeba) Mast cell line (human) Skin (human)
% % %
E. coli Monocyte cells (THP-1, human) Spermatogenic cells (mouse)
% % %
Endothelial cell line Muscle (Drosophila, human, mouse, rat, rabbit, Spinal cord (rat)
% %
Epidermis (human) Xenopus) Spleen (mouse, rat, Xenopus)
% % %
Epithelial cell lines (human, bovine) Neisseria gonorrhoeae Staphylococcus aureus
% % %
Fat (mouse) Neurons (rat) Streptococcus pneumoniae
% % %
Fibroblasts (human; NIH-3T3, MDTF, mouse) Ovarian cancer (OVCAR-3, human) Superior cervical ganglion (mouse)
% % %
Fibrosarcoma cell line (HT1080, human) Ovary cells (CHO, hamster) Toxoplasma gondii
% % %
Fruit (tomato) Pancreas (mouse) Umbilical vein endothelial cells (HUVEC, human)
% % %
Glioblastoma cell line (U87MG) Parathyroid tissue (bovine) Whole plant tissue
%
Head (Drosophila)
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Protease Inhibitor Cocktails
Inhibitor Specificity of inhibitor Solubility/Stability
c mplete A proprietary mixture of several Soluble in aqueous buffers, or add
Protease Inhibitor Cocktail Tablets protease inhibitors with broad directly to extraction media.
(1 tablet used in 50 ml) inhibitory specificity. Inhibits serine, Alternatively, prepare 25x stock
cysteine, and metalloproteases, as well solutions in 2 ml water or 100 mM
11 697 498 001 20 tablets as calpains. Use for extracts from phosphate buffer, pH 7.0. Stock
11 836 145 001 3 x 20 tablets tissues or cells, including animals, solution is stable for 1-2 weeks at
plants, bacteria, yeast, and fungi. 2-8°C or at least 12 weeks at -15 to
-25°C. Can be used in thiol-contain-
ing solutions at room temperature.
c mplete, Mini See specificity for c mplete tablets Soluble in aqueous buffers, or add
Protease Inhibitor Cocktail Tablets above. directly to extraction media.
(1 tablet used in 10 ml) Alternatively, prepare 7x stock
solutions in 1.5 ml water or 100 mM
11 836 153 001 25 tablets phosphate buffer, pH 7.0. Stock
solution is stable for 1-2 weeks at
2-8°C or at least 12 weeks at -15 to
c mplete
Protease
-25°C. Can be used in thiol-contain-
Inhibitor
ing solutions at room temperature.
Cocktail
Tablets
c mplete, EDTA-free A proprietary mixture of several Soluble in aqueous buffers, or add
Protease Inhibitor Cocktail Tablets protease inhibitors that inhibit a broad directly to extraction media.
(1 tablet used in 50 ml) spectrum of serine and cysteine Alternatively, prepare 25x stock
proteases. Use for extracts from tissue solutions in 2 ml water or 100 mM
11 873 580 001 20 tablets or cells including animals, plants, phosphate buffer, pH 7.0. Stock
bacteria, yeast, and fungi. EDTA-free solution is stable for 1-2 weeks at
tablets will not affect the stability or 2-8°C or at least 12 weeks at -15 to
function of metal-dependent proteins. -25°C. Can be used in thiol-contain-
ing solutions at room temperature.
c mplete, Mini, EDTA-free See specificity for c mplete, EDTA- Soluble in aqueous buffers, or add
Protease Inhibitor Cocktail Tablets free tablets above. directly to extraction media.
(1 tablet used in 10 ml) Alternatively, prepare 7x stock
solutions in 1.5 ml water or 100 mM
11 836 170 001 25 tablets phosphate buffer, pH 7.0. Stock
solution is stable for 1-2 weeks at
2-8°C, or at least 12 weeks at -15 to
-25°C. Can be used in thiol-contain-
ing solutions at room temperature.
** Aspartic (acid) proteases exhibit pronounced activity only at low pH. If extraction or single isolation steps must be performed at low pH, add Pepstatin to ensure
aspartic protease inhibition.
*** If IMAC (immobilized metal chelate affinity chromatography) is to be performed (e.g., for isolating Poly-His-tagged recombinant proteins), remove EDTA via dialysis.
As an alternative, use the c mplete EDTA-free tablets, available separately.
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6
Suggested starting Mode of Notes
concentration** action
%
Dissolve one tablet in Contains For optimal inhibition of metalloproteases, do not prepare protease
50 ml aqueous buffer both inhibitor cocktails with buffers containing divalent cations
(without divalent reversible (e.g., Ca2+, Mg2+, or Mn2+).**, ***
%
cations) or water. If and A solution of one c mplete tablet in 50 ml water has an absorbance
very high proteolytic irreversible of 0.08 at 280 nm.
%
activity is present, use protease All inhibitors in c mplete tablets can be removed via dialysis.
one tablet for 25 ml inhibitors. Use of a membrane with cutoff >10 kD is recommended.
%
buffer. Does not contain reducing agents such as DTT.
%
Dissolve one tablet in Contains See notes for c mplete tablets above.
10 ml aqueous buffer both
or water. If very high reversible
proteolytic activity is and
present, use one tablet irreversible
for 7 ml buffer. protease
inhibitors.
c mplete
Protease
Inhibitor
Cocktail
Tablets
%
Dissolve one tablet in Contains Does not contain EDTA; thus metal-dependent proteins and
50 ml aqueous buffer both IMAC isolation techniques (e.g., for Poly-His-tagged proteins) are
or water. If very high reversible not affected.**
%
proteolytic activity is and All inhibitors in c mplete tablets can be removed via dialysis.
present, use one tablet irreversible Use of a membrane with cutoff >10 kD is recommended.
%
for 25 ml buffer. protease Does not contain reducing agents such as DTT.
inhibitors.
%
Dissolve one tablet in Contains See notes for c mplete, EDTA-free tablets above.
10 ml aqueous buffer both
or water. If very high reversible
proteolytic activity is and
present, use one tablet irreversible
for 7 ml buffer. protease
inhibitors.
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7
In just minutes, serine proteases can destroy the proteins you have spent days isolating. In the past, PMSF (phenyl-
methyl-sulfonyl fluoride) and DFP (diisopropyl fluorophosphate) were used to eliminate this problem. However,
due to their poor stability and solubility in aqueous solutions, these inhibitors provided uncertain protection for
protein samples. Now, protecting your proteins has a simple solution... an aqueous solution, made with Pefabloc SC.
Obtain convenient and reliable serine protease inhibition
with Pefabloc SC
Despite the popularity of PMSF and DFP, both have serious disadvantages. Benefit
from a safe, effective alternative: choose Pefabloc SC, the preferred serine protease
3000
2834
inhibitor, to provide superior protection with unmatched convenience and reliability.
2500
Convenience
2000
Note: The larger
%
Benefit from an easy-to-use inhibitor  Pefabloc SC is readily soluble in water,
the number, the
safer the reagent.
and may be added directly to aqueous buffers. Unlike Pefabloc SC, PMSF
1500
and DFP are poorly soluble in water. Because of this, stock solutions must be
prepared in organic solvents, and only then can be added to aqueous solutions.
1000
%
Avoid hazardous compounds  PMSF is a neurotoxin, and DFP is a deadly
500
cholinesterase inhibitor. In contrast, non-toxic Pefabloc SC provides complete
200
protease inhibition without risk to you, or those around you (Figure 1).
8
0
Pefabloc PMSF DFP
SC
Reliability
Figure 1. Safety of Pefabloc SC

%
compared to PMSF and DFP. Ensure protection with improved stability  Pefabloc SC remains highly
Pefabloc SC
Mice were given oral doses of each
active in aqueous solutions, protecting your proteins long after PMSF and DFP
and Pefabloc
inhibitor, and the LD50 in mg/kg was
SC PLUS have failed. Protease inhibition is sustained even at pH levels above 7.0 and
determined.
temperatures above 4°C (Figure 2).
%
Maximize inhibition  Superior solubility and stability in aqueous buffers
(A) Effect of pH pH 6.5 mean that Pefabloc SC eliminates the guesswork and promotes success.
pH 7.0
100 The poor solubility and stability of PMSF make it difficult to maintain an
pH 7.5
80
effective concentration, and leaves you questioning whether levels of active
60
inhibitor are high enough to assure total protection.
40
20
0
0 4 8 12 16 20 24
Increase flexibility with a broad range
Time (hours)
of applications
(B) Effect of temperature 4ºC
22ºC
100
37ºC
Choose Pefabloc SC for all applications where the general inhibition of serine
80
proteases is desired. With its high stability and irreversible inhibition mechanism,
60
protein solutions are protected throughout procedures, such as:
40
20
%
extraction processes (from animal tissues or cells, plants, bacteria, yeast, and fungi)
0
0 4 8 12 16 20 24 %
subsequent purification steps
Time (hours)
%
varied sample storage conditions
Figure 2. The effect of tempera-

%
downstream protein detection (e.g., western blotting, reporter gene analysis, etc.)
ture and pH on the stability of
%
Pefabloc SC. biochemical studies where proteins are required.
Graph (A) shows the relative stability
Use Pefabloc SC to inactivate proteinase K, for example, during pulsed-field gel
of Pefabloc SC (5.0 mg/ml) in an
electrophoresis (PFGE).With this technique, isolating the genomic DNA requires
aqueous phosphate buffer at 37°C.
proteinase K to degrade cellular components, and this highly resilient protease is
Graph (B) shows the relative stability
difficult to inactivate. Pefabloc SC inhibits proteinase K, and protects the stability
of Pefabloc SC (5.0 mg/ml) in an
of restriction enzymes used for further DNA analysis.
aqueous phosphate buffer at pH 7.0.
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8
mg/kg
Peak area (%)
Peak area (%)
Benefit from additional convenience and reliability with
Pefabloc SC PLUS
Recent findings indicate that sulfonyl-type serine protease inhibitors such as Pefabloc SC and PMSF can bind covalently
to proteins. This can occur when the inhibitors are used in high concentrations, or during extended incubation times
under alkaline conditions (Figure 3). This interaction adversely affects the tyrosine and lysine residues of a protein, as
well as the free amino terminus. The Pefabloc SC PLUS set combines the protease inhibitor Pefabloc SC with a uniquely
formulated Pefabloc SC protector (PSC protector). In addition to the benefits already described for Pefabloc SC, it
offers additional convenience and reliability.
Additional Convenience
%
Take advantage of a simplified, two-reagent system with balanced quantities of reagents.
%
Ensure safety  both Pefabloc SC and the Pefabloc SC protector are stable and non-toxic.
Additional Reliability
%
Prevent covalent binding between proteins and Pefabloc SC, even at high concentrations, extended incubation
times, and at alkaline pH (Figure 3).
%
Obtain optimum protection  no influence on the inhibitory effectiveness of Pefabloc SC (Figure 4).
Pefabloc SC
and Pefabloc
(A) Insulin (B) Insulin (1 mg/ml) (C) Insulin (1 mg/ml) (D) Insulin (1 mg/ml)
SC PLUS
+ 1 mM Pefabloc SC + 4 mM Pefabloc SC + 4 mM Pefabloc SC
+ 20 mM PSC protector
1500 1000
600
800
1000
600
400 600
400
500
200
200
200
0 0 0 0
4500 5000 5500 8000 8500 7000 5000 5500 6000 6500 4500 5000 5500 6000 6500 7000 4500 5000 5500 6000 6500 7000
Mass (m/z) Mass (m/z) Mass (m/z) Mass (m/z)
Figure 3 (A-D): Mass spectrograms showing the covalent interaction between insulin and the protease inhibitor Pefabloc SC.

Diagram A is the insulin blank. At 1 mM Pefabloc SC, the formation of the binding is visible as a second peak formation (Diagram B).
Higher concentrations of the protease inhibitor result in more than one interaction per insulin molecule (Diagram C). The special PSC protec-
tor eliminates this covalent interaction, even at the highest concentrations (Diagram D). Matrix peaks are subtracted.
Figure 4. Chymotrypsin inhibition with

0.9 (A) 0.9 (B)
Pefabloc SC in the absence (A) and presence
0.8 0.8
(B) of the Pefabloc SC protector. Results show
0.7 0.7
no change in the effectiveness of inhibition.
0.6 0.6
0.5 0.5
0.4 0.4
without Pefabloc SC
0.3 0.3
0.5 mM Pefabloc SC
0.2 0.2
0.1 0.1 1 mM Pefabloc SC
0.0 0.0
4 mM Pefabloc SC
0 20 40 60 0 20 40 60
Blank
min min
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9
Counts
Counts
Counts
Counts
Abs
Abs
Individual Protease Inhibitors
Inhibitor Specificity of inhibitor Solubility/Stability*
Antipain Inhibits papain and trypsin. Soluble in water, methanol, or DMSO*** to 20 mg/ml.
dihydrochloride Plasmin is inhibited to a small extent. Sparingly soluble in ethanol, propanol, or butanol.
(Papain Inhibitor) Insoluble in benzene, chloroform (CHCl3), hexane, or
11 004 646 001 10 mg petroleum and ethyl ethers. Dilute solutions should
be stored frozen in aliquots at -15 to -25°C. Stable for
approximately 1 month.
Aprotinin Serine protease inhibitor. Does not act on Freely soluble in water (10 mg/ml) or aqueous buffer
10 236 624 001 10 mg thrombin or Factor X. Inhibits plasmin, solution (e.g., Tris, 0.1 M, pH 8.0). A solution adjusted
10 981 532 001 50 mg kallikrein, trypsin, and chymotrypsin with high to pH 7 8 is stable for approximately 1 week at 2-8°C.
11 583 794 001 100 mg activity. Aliquots stored at -15 to -25°C are stable for approxi-
mately 6 months.
Bestatin Primarily, if not exclusively, an inhibitor of Soluble to 20 mg/ml in 1 M HCl, 5 mg/ml in methanol,
[(2S, 3R)-3-Amino-2- amino peptidases and other exopeptidases, and 1 mg/ml in 0.15 M NaCl. Do not store in HCl.
hydroxy-4-phenylbu- including aminopeptidases found in wheat germ We recommend a stock solution of 2 5 mg/ml in
tanoyl]-L-leucine and reticulocyte lysate in vitro translation systems methanol. Solutions are stable for 6 months if stored
hydrochloride (e.g., aminopeptidase B, leucine aminopeptidase, in aliquots at -15 to -25°C.
10 874 515 001 10 mg tripeptide amino-peptidase, and aminopepti-
dases on the surface of mammalian cells).
It does not inhibit carboxypeptidases.
Calpain Inhibitor I Inhibitor of calpains. Calpains are calcium- Soluble in DMF, ethanol, or methanol to 10 mg/ml.
(N-Acetyl-Leu-Leu- dependent neutral cysteine proteases. For a stock solution, we recommend dissolving 1 mg
norleucinal), synthetic Inhibits activity of Calpain I. LD50 for 0.02 U of the inhibitor in 100 µl DMF, methanol or ethanol.
11 086 090 001 25 mg platelet Calpain I: 0.05 µmol/l. Some inhibitory Before use, dilute with water or phosphate buffer
activity against Calpain II. Inhibits papain to (0.1 M, pH 7.5) to desired concentration. Solutions
a lesser extent. in DMF, ethanol, or methanol are stable for 2 3 days
at 2-8°C and approximately 4 weeks at -15 to -25°C.
We recommend making solutions up fresh before use.
Calpain Inhibitor II Inhibits activity of Calpain II. (See Calpain Inhibitor I, above).
(N-Acetyl-Leu-Leu- Inhibits Calpain I (LD50 = 0.12 µmol/l) and
methioninal), synthetic papain to a lesser extent.
Protease
11 086 103 001 25 mg
Inhibitors
Overview
Chymostatin Specific inhibitor of -, -, -, -chymotrypsin. Soluble in glacial acetic acid, or DMSO*** to 20 mg/ml.
11 004 638 001 10 mg Sparingly soluble in water, methanol, or ethanol.
Insoluble in ethyl acetate, petroleum and ethyl
ethers, hexane, or chloroform (CHCl3). Dilute solutions
should be stored frozen in aliquots at -15 to -25°C.
Stable for approximately 1 month.
E-64 (N-(N-(L-3- Inhibits papain and other cysteine proteases Soluble to 20 mg/ml in a 1:1 (v/v) mixture of ethanol
Trans-carboxirane-2- like cathepsin B and L. and water. Solutions are stable for 1 month if stored
carbonyl)-L-leucyl)- in aliquots at -15 to -25°C.
agmatine)
10 874 523 001 10 mg
11 585 681 001 25 mg
Leupeptin Inhibits serine and cysteine proteases such as Highly soluble in water (1 mg/ml). Stable for at
Ac-Leu-Leu-argininal trypsin, papain, plasmin, and cathepsin B. least 1 week at 2-8°C and 6 months frozen in aliquots
x 1/2 H2SO4, synthetic at -15 to -25°C.
11 017 101 001 5 mg
11 017 128 001 25 mg
11 034 626 001 50 mg
11 529 048 001 100 mg
* Unless otherwise stated, make solutions of inhibitors fresh daily.
** Recommended as a starting concentration. Suitable concentrations must be determined empirically for each new system.
*** CAUTION: DMSO (Dimethyl sulfoxide) will permeate the skin, carrying solubilized protease inhibitors. Always wear appropriate protection for eyes, skin, etc.
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10
Suggested starting Mode of action Notes
concentration** of inhibitor
50 µg/ml (74 µM) %
Reversible
Molecular Weight: 677.63
(1 U of papain is inhibited to %
Antipain is more specific for papain and trypsin than is leupeptin.
49% by 0.9 µg of antipain.) %
The inhibitory potency of antipain is 100-fold higher than that of elastatinal.
0.06 2.0 µg/ml %
Reversible
Molecular Weight: 6,512
(0.01 0.3 µM) %
Avoid repeated freeze-thaws and exposure to strong alkali solutions.
%
Aprotinin is inactive at pH >12.8.
40 µg/ml %
Reversible
Molecular Weight: 308.4
(130 µM) %
Bestatin has been found to have antitumor properties and enhances not
only blastogenesis and lymphocytes in vitro, but also establishes a
delayed-type hypersensitivity in vivo.
17 µg/ml %
Reversible
Molecular Weight: 383.5
%
Not soluble in water.
7 µg/ml %
Reversible
Molecular Weight: 401.6
%
Not soluble in water.
Protease
Inhibitors
Overview
6 60 µg/ml %
Reversible
Molecular Weight: 607.71
(10 100 µM)
Unit definition:
One unit chymo-trypsin is
inhibited to 49% by 1.8 µg
of chymostatin.
0.5 10 µg/ml %
Irreversible
Molecular Weight: 357.4
(1.4 28.0 µM) %
Stable between pH 2 10.
%
Unstable in strong alkali and strong mineral acids.
0.5 µg/ml %
Irreversible
Molecular Weight:
(1 µM)
C20H38N6O4 x 1/2 H2SO4: 475.6
1
C20H38N6O4 x /2 H2SO4 x H2O: 493.6
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11
Individual Protease Inhibitors
Inhibitor Specificity of inhibitor Solubility/Stability*
2-Macroglobulin A general endoproteinase inhibitor. Inhibits Soluble in water. Stable for at least 1 week at room

10 602 442 001 25 Inh.U most endoproteinases, but does not inhibit temperature or 3 weeks at 2-8°C. Can also be frozen in
endoproteinases that are highly specific for one aliquots at -15 to -25°C, where it remains stable for at least
or a limited number of sequences (e.g., tissue 6 months. Sensitive to acidic pH, denatured below pH 4.0.
kallikrein, urokinase, coagulation factor XIIa, Ammonia methylamine and hydroxylamine (above pH
and endoproteinase Lys-C). 7.0) cause irreversible conversion to the inactive form.
Pefabloc SC Irreversibly inhibits serine proteases, including Soluble up to 100 mg/ml in aqueous buffers or water.
4-(2-Aminoethyl)- trypsin, chymotrypsin, plasmin, plasma Stable in solution for 1 2 months if stored in aliquots
benzenesulfonyl- kallikrein, and thrombin. at -15 to -25°C. Only slight hydrolysis occurs under
fluoride, hydrochloride weakly basic conditions (pH 8.0 9.0).
(AEBSF)
11 429 868 001 100 mg
11 585 916 001 500 mg
11 429 876 001 1 g
Pefabloc SC PLUS Specificity of the protease inhibitor remains Solubility and stability of the protease inhibitor
11 873 601 001 set I unchanged. See Pefabloc SC. remains unchanged. See Pefabloc SC.
(100 mg Pefabloc SC)
11 873 628 001 set II
(1 g Pefabloc SC)
Pepstatin Inhibits aspartic (acid) proteases such as Soluble in methanol to approximately 1 mg/ml. Also soluble
10 253 286 001 2 mg pepsin, renin, cathepsin D, chymosin, and to 1 mg/ml in ethanol if allowed to sit overnight, and to
11 359 053 001 10 mg many microbial acid proteases. 300 µg/ml in 6 N acetic acid. Stable for at least 1 week at
11 524 488 001 50 mg 2-8°C, or 1 month if stored in aliquots at -15 to -25°C.
Phosphoramidon Specifically inhibits thermolysin, collagenase, Salts of phosphoramidon are soluble to 20 mg/ml in

N-( -Rhamnopyra- and metalloendoproteinases from various water. Also soluble in methanol or DMSO.***
nosyloxyhydroxyphos- microorganisms (Bacillus subtilis, Streptomyces Recommended stock solution 1 20 mg/ml. Stable in
phinyl)-L-leucyl-L- griseus, and Pseudomonas aeruginosa). solution for 1 month if stored in aliquots at -15 to -25°C.
tryptophan, disodium
salt
10 874 531 001 5 mg
Protease
Inhibitors
Overview
PMSF Inhibits serine proteases (chymotrypsin, Soluble to >10 mg/ml in isopropanol, ethanol,
(Phenylmethylsulfonyl trypsin, and thrombin). Also inhibits cysteine methanol, or 1,2-propanediol. Unstable in aqueous
fluoride) proteases such as papain (reversible by DTT solution. In 100% isopropanol, stable for at least
10 236 608 001 1 g treatment). 9 months at +25°C.
10 837 091 001 10 g
11 359 061 001 25 g
TLCK Irreversibly and specifically inhibits trypsin. Salts of TLCK are soluble to 20 mg/ml in water.
L-1-Chloro-3-(4-tosyl- Also inhibits many other serine and cysteine We recommend a stock solution of 1 mg/ml in
amido)-7-amino-2- proteases such as bromelain, ficin, and papain. either dilute (1 mM) HCl or buffer, pH < 6; to
heptanone hydrochlo- ensure stability (see  Notes column).

ride, N- -Tosyl-L-
lysine chloromethyl
ketone
10 874 485 001 100 mg
Trypsin Inhibitors Inhibits trypsin. Soybean trypsin inhibitor Both are soluble in water.
from chicken egg also inhibits factor Xa, plasmin, and plasma Recommended stock solution: 1 mg/ml.
white kallikrein. Neither inhibits metallo, cysteine, Store frozen in aliquots at -15 to -25°C.
10 109 878 001 1 g and aspartic proteases or tissue kallikrein. Stable for at least 6 months.
from soybean
10 109 886 001 50 mg
* Unless otherwise stated, make solutions of inhibitors fresh daily.
** Recommended as a starting concentration. Suitable concentrations must be determined empirically for each new system.
*** CAUTION: DMSO (Dimethyl sulfoxide) will permeate the skin, carrying solubilized protease inhibitors. Always wear appropriate protection for eyes, skin, etc.
|
12
Suggested starting Mode of action Notes
concentration** of inhibitor
%
Unit definition: Reversible
Molecular Weight: 725,000
%
One inhibitor unit inhibits
Do not use 2-Macroglobulin in the presence of DTT. DTT, even
9.1 µg of trypsin.
at 1 mM, causes reversible dissociation into inactive subunits.
2-Macroglobulin acts by physically entrapping the endoproteinases,
usually in a 1:1 ratio.
%
0.1 1.0 mg/ml Irreversible
Molecular Weight: 239.5
%
(0.4 4 mM)
A safe, stable, and water-soluble alternative to PMSF and DFP.
%
0.1 1.0 mg/ml Irreversible
Sets contain of Pefabloc SC and a special protector (PSC-protector).
%
(0.4 4.0 mM)
The set eliminates interaction between Pefabloc SC and sample proteins.
%
0.7 µg/ml Reversible
Molecular Weight: 685.9
%
(1 µM)
Insoluble in water.
%
4 330 µg/ml Irreversible
Molecular Weight: 579.6
(7 570 µM)
Protease
Inhibitors
Overview
%
17 170 µg/ml Irreversible
Molecular Weight: 174.2
%
(0.1 1 mM)
Add fresh PMSF at every isolation/purification step (from stock solution).
%
Does not inhibit metalloproteases, most thiol proteases, and aspartic
proteases.
%
37 50 µg/ml Irreversible
Molecular Weight: 369.3
%
(100 135 µM)
Stable at +25°C pH < 6.0.
%
Rapidly decomposes at pH >7.5. For example, at pH 9.0, +25°C, TLCK s
half-life is only 5 minutes.
%
Chymotrypsin is not inhibited.
%
10 100 µg/ml Reversible
Molecular Weight:
(egg white) 28,000
(soybean) 20,100
%
Egg white inhibitor is stable at acid pH and labile at alkaline pH.
%
Soybean inhibitor is sensitive to heat, high pH, and protein-precipitating
solutions.
|
13
Protease Inhibitors Set
In certain cases, irregular types of protease activity are encountered. Determining which protease inhibitor to use can
be difficult and expensive  unless you use our Protease Inhibitor Set. Take advantage of this unique set, consisting
of ten different inhibitors, and perform easy, economical screening for the correct inhibitor for your application.
Protease Inhibitors Set Cat. No. 11 206 893 001
Inhibitors included in the set Specificity of inhibition Quantity Supplied
Antipain-dihydrochloride Papain, Trypsin, Cathepsin A and B 3 mg
Aprotinin Trypsin, Plasmin, Chymotrypsin, Kallikrein 0.5 mg
Bestatin Aminopeptidases 0.5 mg
Chymostatin -, -, -, -Chymotrypsin 1 mg
E-64 Cysteine Proteases 3 mg
EDTA-Na2 Metalloproteases 10 mg
Leupeptin Serine and Cysteine Proteases such as Plasmin, 0.5 mg
Trypsin, Papain, Cathepsin B
Pefabloc SC Serine Proteases 20 mg
Pepstatin Aspartic Proteases 0.5 mg
Phosphoramidon Metalloproteinases, specifically Thermolysin 3 mg
Verify protease inhibition
Use Roche Applied Science s Universal Protease Substrate for the rapid and highly sensitive detection of trace protease
activity, or to determine the effectiveness of protease inhibition. Protease activity releases resorufin-labeled peptides
from the patented substrate, resorufin-labeled casein. The labeled peptides can be measured spectrophotometrically or
fluorimetrically in a homogeneous assay. The concentration of these resorufin-labeled peptides in the supernatant is
directly related to the proteolytic activity present.
%
Conveniently detect nanogram quantities of proteolytic activity in less than one hour.
%
Perform highly sensitive protease detection in a homogeneous assay.
Universal Protease Substrate (casein, resorufin-labeled)* Cat. No. 11 080 733 001 Pack Size 15 mg
11 734 334 001 40 mg
Protease
Inhibitors
* Patent US 4,954,630 owned by Roche Diagnostics GmbH.
Overview
Absorbance

Enzyme OD574 Enzyme
Enzyme
E574nm

amount nm amount
Pronase 0.1 µg 0.11 1 mg 1.9
Trypsin, sequencing
0.1 µg 0.07 20 µg 1.06
grade
Endoproteinase Asp-N,
sequencing grade 0.1 µg 0.09 10 µg 1.3
Endoproteinase Lys-C,
  5 µg 0.39
sequencing grade
Digestion by small Digestion by large
Table 3: Limited and

amounts of proteases amounts of proteases
complete (exhaustive)
for 15 minutes overnight (maximum
Figure 5: Influence of the incubation time digestion of casein-

(determination of of total hydrolysis)!
on the casein-resorufin hydrolysis by trypsin. resorufin by different the detection limit)!
proteases.

available from Roche Applied Science
!
The detection limit can be lowered by using fluorimetric analysis or
by increasing the incubation time (e.g., overnight).
Trademarks
c mplete and X-tremeGENE are trademarks of a member of the Roche Group.
FuGENE is a trademark of Fugent, L.L.C., USA.
Pefabloc SC is a registered trademark of Pentapharm, AG., Basel Switzerland.
|
14
Ordering Information Related Products
Transfection: Achieve high transfection efficiencies and increased
Protease Inhibitor Cocktails Cat. No. Pack Size
cell survival by using our FuGENE 6 Transfection Reagent*,**
c mplete 11 697 498 001 20 tablets
Product Cat. No. Pack Size
Protease Inhibitor Cocktail Tablets 11 836 145 001 3 x 20 tablets
FuGENE 6 11 814 443 001 1 ml (300 transfections)
c mplete, Mini 11 836 153 001 25 tablets
Transfection Reagent 11 815 075 001 Multi-pack (5 x 1 ml,
Protease Inhibitor Cocktail Tablets 1,500 transfections)
11 815 091 001 0.4 ml (120 transfections)
c mplete, EDTA-free 11 873 580 001 20 tablets
11 988 387 001 Mega-pack (5 x 1 ml,
Protease Inhibitor Cocktail Tablets
1,500 transfections)
c mplete, Mini, EDTA-free 11 836 170 001 25 tablets X-tremeGENE siRNA 04 476 093 001 1 ml (400 transfections)
Transfection Reagent 04 476 115 001 5 x 1 ml (2,000 transfections)
Protease Inhibitor Cocktail Tablets
Protein purification: Precipitate your proteins with Protein A or
Individual Protease Inhibitors Cat. No. Pack Size
Protein G Agarose**
Antipain dihydrochloride 11 004 646 001 10 mg
Product Cat. No. Pack Size
Aprotinin 10 236 624 001 10 mg
Protein A Agarose 11 719 408 001 2 ml
10 981 532 001 50 mg 11 134 515 001 5 ml
11 583 794 001 100 mg
Protein G Agarose 11 719 416 001 2 ml
11 243 233 001 5 ml
Bestatin 10 874 515 001 10 mg
Immunoprecipitation Kit 11 719 394 001 1 kit (20 reactions)
Calpain Inhibitor I 11 086 090 001 25 mg
(Protein A)
Calpain Inhibitor II 11 086 103 001 25 mg
Immunoprecipitation Kit 11 719 386 001 1 kit (20 reactions)
(Protein G)
Chymostatin 11 004 638 001 10 mg
E-64 10 874 523 001 10 mg
Western blotting: Detect rare proteins by using the highly sensitive
11 585 681 001 25 mg
Lumi-LightPLUS Western Blotting Substrate**
Leupeptin 11 017 101 001 5 mg
Product Cat. No. Pack Size
11 017 128 001 25 mg
11 034 626 001 50 mg
Lumi-LightPLUS Western 12 015 196 001 100 ml
11 529 048 001 100 mg Blotting Substrate (1,000 cm2 membrane)
Lumi-LightPLUS Western 12 015 218 001 1 kit
2-Macroglobulin 10 602 442 001 25 IU

Blotting Kit (Mouse/Rabbit) (1,000 cm2 membrane)
Pefabloc SC 11 429 868 001 100 mg
Lumi-Light Western 12 015 200 001 400 ml
11 585 916 001 500 mg
Blotting Substrate (4,000 cm2 membrane)
11 429 876 001 1 g
BM Chemiluminescence 11 520 709 001 1 kit
Pefabloc SC PLUS 11 873 601 001 set I (contains Western Blotting Kit (2,000 cm2 membrane)
(Mouse/Rabbit)
100 mg Pefabloc SC
and 5 ml PSC
BM Chemiluminescence 11 500 708 001 1 set
Western Blotting (1,000 cm2 membrane)
protector solution)
Substrate (POD) 11 500 694 001 1 set
11 873 628 001 set II (contains
(4,000 cm2 membrane)
1 g Pefabloc SC and
PVDF Western Blotting 03 010 040 001 1 roll
2 x 25 ml PSC
Membranes (30 cm × 3.00 m)
protector solution)
Pepstatin 10 253 286 001 2 mg
Epitope tagging: Detect or purify your HA-tagged proteins by
11 359 053 001 10 mg
using our Anti-HA High Affinity antibody or matrix**
11 524 488 001 50 mg
Phosphoramidon 10 874 531 001 5 mg Product Cat. No. Pack Size
Anti-HA High Affinity 11 867 423 001 50 µg
PMSF 10 236 608 001 1 g
Ordering
(clone 3F10) 11 867 431 001 500 µg
10 837 091 001 10 g
Information
11 359 061 001 25 g Anti-HA-Peroxidase, 12 013 819 001 25 U (25 µg)
High Affinity
Protease Inhibitors Set 11 206 893 001 1 set
Anti-HA-Fluorescein, 11 988 506 001 25 µg
TLCK 10 874 485 001 100 mg
High Affinity
Anti-HA Affinity Matrix 11 815 016 001 1.0 ml
Trypsin Inhibitor 10 109 878 001 1 g
(clone 3F10) (settled resin volume)
(chicken egg white)
Anti-HA (12CA5) 11 583 816 001 200 µg (lyophilized)
Trypsin Inhibitor 10 109 886 001 50 mg
11 666 606 001 5 mg (1 ml)
(soybean)
Anti-c-myc 11 667 149 001 200 µg (Iyophilized)
11 667 203 001 5 mg (1 ml)
Anti-His6 11 922 416 001 100 µg
Protease Substrate Cat. No. Pack Size
Anti-His6-Peroxidase 11 965 085 001 50 U
Universal Protease 11 080 733 001 15 mg
Substrate (Casein, 11 734 334 001 40 mg
resorufin-labeled) Reporter gene detection: Choose from a variety of products for
reporter gene detection, such as our rapid and sensitive CAT ELISA**
Product Cat. No. Pack Size
CAT ELISA 11 363 727 001 1 kit (192 tests)
* For more information about products for transfection, visit
-Gal ELISA 11 539 426 001 1 kit (192 tests)

www.roche-applied-science.com/transfection
hGH ELISA 11 585 878 001 1 kit (192 tests)
** For additional products and information, see the 2005
-Gal Reporter Gene 11 758 241 001 1 kit (500 assays, microplate

Roche Applied Science Instruments and Biochemicals
Assay, chemiluminescent format or 250 assays, tube format
Catalog, or visit www.roche-applied-science.com
|
15
Inspiring Discovery
For additional information, visit
www.roche-applied-science.com/proteaseinhibitor
Roche Diagnostics GmbH
or contact your local sales representative.
Roche Applied Science
68298 Mannheim
Germany
© 2004 Roche Diagnostics GmbH. All rights reserved. www.roche-applied-science.com
12/04
04 632 141 990


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