trypsin

Dictionary: tryp·sin (trĭp'sĭn) pronunciation

n.
A pancreatic enzyme that catalyzes the hydrolysis of proteins to form smaller polypeptide units.

[Perhaps Greek trīpsis, a rubbing (from its having been first obtained by rubbing a pancreas with glycerin), from trībein, to rub + -IN.]

tryptic tryp'tic (-tĭk) adj.

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5min Related Video: trypsin

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Chemistry Dictionary: trypsin

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An enzyme that digests proteins (see protease). It is secreted in an inactive form (trypsinogen) by the pancreas into the duodenum. There, trypsinogen is acted on by an enzyme (enterokinase) produced in the duodenum to yield trypsin. The active enzyme plays an important role in the digestion of proteins in the anterior portion of the small intestine. It also activates other proteases in the pancreatic juice.

Food and Nutrition: trypsin

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A proteolytic enzyme of the pancreatic juice, an endopeptidase. Active at alkaline pH (8-11). Secreted as the inactive precursor, trypsinogen, which is activated by enteropeptidase.

Dental Dictionary: trypsin

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A proteolytic digestive enzyme produced by the exocrine pancreas that catalyzes in the small intestine the breakdown of dietary proteins to peptones, peptides, and amino acids.

Drug Info: Castor Oil; Peru Balsam; Trypsin

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Brand names: Granulex®

Drug Forms:

Castor Oil; Peru Balsam; Trypsin topical ointment (below)
Castor Oil; Peru Balsam; Trypsin topical aerosol
Castor Oil; Peru Balsam; Trypsin topical gel

Castor Oil; Peru Balsam; Trypsin topical ointment

What is Castor Oil; Peru Balsam; Trypsin topical ointment?

This medicine is used to promote healing and treat certain types of skin ulcers and wounds.

What should I tell my health care provider before I take this medicine?

They need to know if you have any of these conditions:
• an unusual reaction to Castor Oil; Peru Balsam; Trypsin, other medicines, foods, dyes, or preservatives
• pregnant or trying to get pregnant
• breast-feeding

How should this medicine be used?

This medicine is for external use only. Follow the directions on the prescription label. Wash your hands before and after applying. Apply a thin film to the affected area. The wound may be left uncovered or bandaged as directed by your doctor or health care professional. Do not get the ointment in your eyes. If you do, rinse out with plenty of cool tap water. Do not use this medicine more often than directed. Do not stop using this medicine except on the advice of your doctor or health care professional.

Contact your pediatrician or health care professional regarding the use of this medicine in children. Special care may be needed.

What if I miss a dose?

If you miss a dose, use it as soon as you can. If it is almost time for your next dose, use only that dose. Do not use double or extra doses.

What drug(s) may interact with Castor Oil; Peru Balsam; Trypsin?

Do not take this medicine with any of the following medications:
• other skin products especially silver sulfadiazine

Tell your prescriber or health care professional about all other medicines you are taking, including non-prescription medicines, nutritional supplements, or herbal products. Also tell your prescriber or health care professional if you are a frequent user of drinks with caffeine or alcohol, if you smoke, or if you use illegal drugs. These may affect the way your medicine works. Check with your health care professional before stopping or starting any of your medicines.

What should I watch for while taking Castor Oil; Peru Balsam; Trypsin?

This medicine may cause temporary stinging when used on sensitive skin.

What side effects may I notice from receiving Castor Oil; Peru Balsam; Trypsin?

Side effects that you should report to your doctor or health care professional as soon as possible:
• unusual bleeding or redness of wound

Side effects that usually do not require medical attention (report to your doctor or health care professional if they continue or are bothersome):
• stinging at the area of application

Where can I keep my medicine?

Keep out of the reach of children.

Store at room temperature between 15 and 30 degrees C (59 and 86 degrees F). Do not freeze. Throw away any unused medicine after the expiration date.

Last updated: 4/22/2004 3:32:00 PM

Important Disclaimer: The drug information provided here is for educational purposes only. It is intended to supplement, not substitute for, the diagnosis, treatment and advice of a medical professional. This drug information does not cover all possible uses, precautions, side effects and interactions. It should not be construed to indicate that this or any drug is safe for you. Consult your medical professional for guidance before using any prescription or over the counter drugs.

Sports Science and Medicine: trypsin

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An enzyme that acts in the duodenum to continue the digestion of proteins into amino acids.

Columbia Encyclopedia: trypsin

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trypsin, enzyme that acts to degrade protein; it is often referred to as a proteolytic enzyme, or proteinase. Trypsin is one of the three principal digestive proteinases, the other two being pepsin and chymotrypsin. In the digestive process, trypsin acts with the other proteinases to break down dietary protein molecules to their component peptides and amino acids. Trypsin continues the process of digestion (begun in the stomach) in the small intestine where a slightly alkaline environment (about pH 8) promotes its maximal enzymatic activity. Trypsin, produced in an inactive form by the pancreas, is remarkably similar in chemical composition and in structure to the other chief pancreatic proteinase, chymotrypsin. Both enzymes also appear to have similar mechanisms of action; residues of histidine and serine are found in the active sites of both. The chief difference between the two molecules seems to be in their specificity, that is, each is active only against the peptide bonds in protein molecules that have carboxyl groups donated by certain amino acids. For trypsin these amino acids are arginine and lysine, for chymotrypsin they are tyrosine, phenylalanine, tryptophan, methionine, and leucine. Trypsin is the most discriminating of all the proteolytic enzymes in terms of the restricted number of chemical bonds that it will attack. Good use of this fact has been made by chemists interested in the determination of the amino acid sequence of proteins; trypsin is widely employed as a reagent for the orderly and unambiguous cleavage of such molecules.

Veterinary Dictionary: tryptic

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Relating to or resulting from digestion by trypsin.

Wikipedia: Trypsin

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Trypsin

Identifiers

AmiGO / EGO

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PMC	articles
PubMed	articles

Trypsin

Crystal structure of bovine trypsin.^[1]
Identifiers
Symbol	Trypsin
Pfam	PF00089
InterPro	IPR001254
SMART	SM00020
PROSITE	PDOC00124
SCOP	1mc

protease, serine, 1 (trypsin 1)
Identifiers
Symbol	PRSS1
Alt. symbols	TRY1
Entrez	5644
HUGO	9475
OMIM	276000
RefSeq	NM_002769
UniProt	P07477
Other data
EC number	3.4.21.4
Locus	Chr. 7 q32-qter

protease, serine, 2 (trypsin 2)
Identifiers
Symbol	PRSS2
Entrez	5645
HUGO	9483
OMIM	601564
RefSeq	NM_002770
UniProt	P07478
Other data
Locus	Chr. 7 q35

protease, serine, 3 (mesotrypsin)
Identifiers
Symbol	PRSS3
Alt. symbols	PRSS4
Entrez	5646
HUGO	9486
RefSeq	NM_002771
UniProt	P35030
Other data
EC number	3.4.21.4
Locus	Chr. 9 p13

Trypsin (EC 3.4.21.4) is a serine protease found in the digestive system of many vertebrates, where it hydrolyses proteins.^[2] Trypsin is produced in the pancreas as the inactive proenzyme trypsinogen. Trypsin predominantly cleaves peptide chains at the carboxyl side of the amino acids lysine or arginine, except when either is followed by proline. It is used for numerous biotechnological processes. The process is commonly referred to as trypsin proteolysis or trypsinisation and proteins that have been digested/treated with trypsin are said to have been trypsinized.

1 Structure and function
2 Involvement in disease
3 Storage
4 Applications
5 See also
6 References
7 External links

Structure and function

Trypsin is secreted into the duodenum, where it acts to hydrolyse peptides into their smaller building blocks, namely amino acids (these peptides are the result of the enzyme pepsin breaking down the proteins in the stomach). This is necessary for the uptake of protein in the food as though peptides are smaller than proteins, they are still too big to be absorbed through the lining of the ileum. Trypsin catalyses the hydrolysis of peptide bonds.

The enzymatic mechanism is similar to other serine proteases. These enzymes contain a catalytic triad consisting of histidine-57, aspartate-102, and serine-195.^[3] These three residues form a charge relay which serves to make the active site serine nucleophilic. This is achieved by modifying the electrostatic environment of the serine. The enzymatic reaction that trypsins catalyze is thermodynamically favorable but requires significant activation energy (it is "kinetically unfavorable"). In addition, trypsin contains an "oxyanion hole" formed by the backbone amide hydrogen atoms of Gly-193 and Ser-195 which serves to stabilize the developing negative charge on the carbonyl oxygen atom of the cleaved amide.

The aspartate residue (Asp 189) located in the catalytic pocket (S1) of trypsins is responsible for attracting and stabilizing positively-charged lysine and/or arginine, and is thus responsible for the specificity of the enzyme. This means that trypsin predominantly cleaves proteins at the carboxyl side (or "C-terminal side") of the amino acids lysine and arginine, except when either is followed by proline.^[4] Trypsins are considered endopeptidases, i.e., the cleavage occurs within the polypeptide chain rather than at the terminal amino acids located at the ends of polypeptides.

Trypsins have an optimal operating pH of about 8 and optimal operating temperature of about 37°C.^[4]

Trypsin is produced in the pancreas in the form of inactive zymogen, trypsinogen. When the pancreas is stimulated by cholecystokinin, it is then secreted into the small intestine. Once in the small intestine, the enzyme enteropeptidase activates it into trypsin by proteolytic cleavage. The resulting trypsins themselves activate more trypsinogens (autocatalysis), so only a small amount of enteropeptidase is necessary to start the reaction. This activation mechanism is common for most serine proteases, and serves to prevent autodigestion of the pancreas.

The activity of trypsins is not affected by the inhibitor tosyl phenylalanyl chloromethyl ketone, TPCK, which deactivates chymotrypsin. This is important because, in some applications, like mass spectrometry, the specificity of cleavage is important.

Involvement in disease

One consequence of the autosomal recessive disease cystic fibrosis is a deficiency in transport of trypsin and other digestive enzymes from the pancreas. This leads to the disorder termed meconium ileus. This disorder involves intestinal obstruction (ileus) due to overly thick meconium which is normally broken down by trypsins and other proteases, then passed in feces.^[5]

Another problem can arise through Alpha 1-Antitrypsin Deficiency, in which the body creates Alpha 1-antitrypsin antibodies against trypsin. This leads to a series of cascading organ complications, involving the liver, lungs, and skin.

Storage

Trypsins should be stored at very cold temperatures (between −20°C and −80°C) to prevent autolysis (self-cleavage). Autolysis may also be prevented by storage of trypsins at pH 3 or by using trypsin modified by e.g. reductive methylation. When the pH is adjusted back to pH 8 activity returns.

Applications

This section does not cite any references or sources. Please help improve this article by adding citations to reliable sources. Unsourced material may be challenged and removed. (January 2009)

Trypsin is available in high quantity in pancreases, and can be purified rather easily. Hence it has been used widely in various biotechnological processes.

In a tissue culture lab, trypsins are used to re-suspend cells adherent to the cell culture dish wall during the process of harvesting cells.

Trypsin can also be used to dissociate dissected cells (for example, prior to cell fixing and sorting).

Trypsins can be used to break down casein in breast milk. If trypsin is added to a solution of milk powder, the breakdown of casein will cause the milk to become translucent. The rate of reaction can be measured by using the amount of time it takes for the milk to turn translucent.

Trypsin is commonly used in biological research during proteomics experiments to digest proteins into peptides for mass spectrometry analysis, e.g. in-gel digestion. Trypsin is particularly suited for this, since it has a very well defined specificity, as it hydrolyzes only the peptide bonds in which the carbonyl group is contributed either by an Arg or Lys residue.

Trypsin can also be used to dissolve blood clots in its microbial form and treat inflammation in its pancreatic form.

Trypsin is used in baby food to pre-digest it. It can break down the protein molecules which helps the baby to digest it as its stomach is not strong enough to digest bigger protein molecules.

References

^ PDB 1UTN; Leiros HK, Brandsdal BO, Andersen OA, Os V, Leiros I, Helland R, Otlewski J, Willassen NP, Smalås AO (April 2004). "Trypsin specificity as elucidated by LIE calculations, X-ray structures, and association constant measurements". Protein Sci. 13 (4): 1056–70. doi:10.1110/ps.03498604. PMID 15044735.
^ Rawlings ND, Barrett AJ (1994). "Families of serine peptidases". Meth. Enzymol. 244: 19–61. PMID 7845208.
^ Polgár L (October 2005). "The catalytic triad of serine peptidases". Cell. Mol. Life Sci. 62 (19-20): 2161–72. doi:10.1007/s00018-005-5160-x. PMID 16003488.
^ ^a ^b "Sequencing Grade Modified Trypsin". www.promega.com. 2007-04-01. http://www.promega.com/tbs/9piv511/9piv511.pdf. Retrieved 2009-02-08.
^ Noone PG, Zhou Z, Silverman LM, Jowell PS, Knowles MR, Cohn JA (December 2001). "Cystic fibrosis gene mutations and pancreatitis risk: relation to epithelial ion transport and trypsin inhibitor gene mutations". Gastroenterology 121 (6): 1310–9. PMID 11729110. http://linkinghub.elsevier.com/retrieve/pii/S001650850176831X.

External links

Trypsin Inhibitors and Trypsin Assay Method at Sigma-Aldrich
MeSH Trypsin

v • d • e Endopeptidases: serine proteases/serine endopeptidases (EC 3.4.21)

Digestive enzymes	Enteropeptidase · Trypsin · Chymotrypsin · Elastase (Neutrophil, Pancreatic)

Coagulation	factors: Thrombin · Factor VIIa · Factor IXa · Factor Xa · Factor XIa · Factor XIIa · Kallikrein (PSA, KLK1, KLK2, KLK3, KLK4, KLK5, KLK6, KLK7, KLK8, KLK9, KLK10, KLK11, KLK12, KLK13, KLK14, KLK15) fibrinolysis: Plasmin · Plasminogen activator (Tissue plasminogen activator · Urinary plasminogen activator)

Complement system	Factor B · Factor D · Factor I · MASP (MASP1, MASP2) · C3-convertase

Other immune system	Chymase · Granzyme · Tryptase · Proteinase 3/Myeloblastin

Venombin	Ancrod · Batroxobin

Other	Acrosin · Prolyl endopeptidase · Pronase · Proprotein convertases (1, 2) · Reelin · Subtilisin/Furin · Streptokinase · S1P · Cathepsin (A, G)

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