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(Top) 1 Nomenclature 2 Classification 3 Clinical considerations 4 Membrane-associated hydrolases 5 Etymology and pronunciation 6 See also 7 References

Hydrolase

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Inbiochemistry, hydrolases constitute a class of enzymes that commonly function as biochemical catalysts that use water to breakachemical bond:

{\ce {A-B + H2O}}\quad {\xrightarrow[{\text{ hydrolase }}]{}}\quad {\ce {A-OH + B-H}}

This typically results in dividing a larger molecule into smaller molecules. Some common examples of hydrolase enzymes are esterases including lipases, phosphatases, glycosidases, peptidases, and nucleosidases.

Esterases cleave ester bonds in lipids and phosphatases cleave phosphate groups off molecules. An example of crucial esterase is acetylcholine esterase, which assists in transforming the neuron impulse into the acetate group after the hydrolase breaks the acetylcholine into choline and acetic acid.^[1] Acetic acid is an important metabolite in the body and a critical intermediate for other reactions such as glycolysis. Lipases hydrolyze glycerides. Glycosidases cleave sugar molecules off carbohydrates and peptidases hydrolyze peptide bonds. Nucleosidases hydrolyze the bonds of nucleotides.^[2]

Hydrolase enzymes are important for the body because they have degradative properties. In lipids, lipases contribute to the breakdown of fats and lipoproteins and other larger molecules into smaller molecules like fatty acids and glycerol. Fatty acids and other small molecules are used for synthesis and as a source of energy.^[1]

Nomenclature[edit]

Systematic names of hydrolases are formed as "substrate hydrolase." However, common names are typically in the form "substrate base". For example, a nuclease is a hydrolase that cleaves nucleic acids.

Classification[edit]

Hydrolases are classified as EC 3 in the EC number classification of enzymes. Hydrolases can be further classified into several subclasses, based upon the bonds they act upon:

EC 3.1: ester bonds (esterases: nucleases, phosphodiesterases, lipase, phosphatase)
EC 3.2: sugars (DNA glycosylases, glycoside hydrolase)
EC 3.3: ether bonds
EC 3.4: peptide bonds (Proteases/peptidases)
EC 3.5: carbon-nitrogen bonds, other than peptide bonds
EC 3.6 acid anhydrides (acid anhydride hydrolases, including helicases and GTPase)
EC 3.7 carbon-carbon bonds
EC 3.8 halide bonds
EC 3.9: phosphorus-nitrogen bonds
EC 3.10: sulphur-nitrogen bonds
EC 3.11: carbon-phosphorus bonds
EC 3.12: sulfur-sulfur bonds
EC 3.13: carbon-sulfur bonds

Clinical considerations[edit]

Hydrolase secreted by Lactobacillus jensenii in the human gut stimulates the liver to secrete bile salts that aids in the digestion of food.^[3]

Membrane-associated hydrolases[edit]

Many hydrolases, and especially proteases associate with biological membranesasperipheral membrane proteins or anchored through a single transmembrane helix.^[4] Some others are multi-span transmembrane proteins, for example rhomboid protease.

Etymology and pronunciation[edit]

The word hydrolase (/ˈhaɪdroʊleɪs, -leɪz/) suffixes the combining formof-ase to the hydrol syllables of hydrolysis.

References[edit]

^ ^a ^b "Hydrolase - Chemistry Encyclopedia - water, examples, molecule". www.chemistryexplained.com. Retrieved 2018-04-29.

^ "hydrolase | class of enzymes | Britannica". www.britannica.com. 9 April 2018. Retrieved 29 April 2017.

^ Prince, Amanda L.; Antony, Kathleen M.; Chu, Derrick M.; Aagaard, Kjersti M. (2014). "The microbiome, parturition, and timing of birth: more questions than answers". Journal of Reproductive Immunology. 104–105: 12–19. doi:10.1016/j.jri.2014.03.006. ISSN 0165-0378. PMC 4157949. PMID 24793619.

^ "Superfamilies of single-pass transmembrane hydrolases". membranome.org. July 2018. Archived from the original on 8 March 2022. Retrieved 23 July 2018.

EC 3 Introduction from the Department of Chemistry at Queen Mary, University of London, covers only 3.1-3.4
More detailed taxonomy

v t e Enzymes
Activity	Active site Binding site Catalytic triad Oxyanion hole Enzyme promiscuity Diffusion-limited enzyme Cofactor Enzyme catalysis
Regulation	Allosteric regulation Cooperativity Enzyme inhibitor Enzyme activator
Classification	EC number Enzyme superfamily Enzyme family List of enzymes
Kinetics	Enzyme kinetics Eadie–Hofstee diagram Hanes–Woolf plot Lineweaver–Burk plot Michaelis–Menten kinetics
Types	EC1 Oxidoreductases (list) EC2 Transferases (list) EC3 Hydrolases (list) EC4 Lyases (list) EC5 Isomerases (list) EC6 Ligases (list) EC7 Translocases (list)

Hydrolase: esterases (EC 3.1)

3.1.1: Carboxylic
ester hydrolases

Lipase

Phospholipase
- A1
- A2
- B

3.1.2: Thioesterase

3.1.3: Phosphatase

3.1.4:
Phosphodiesterase

3.1.6: Sulfatase

Nuclease (includes
deoxyribonuclease
and ribonuclease)

3.1.11-16:
Exonuclease

Exodeoxyribonuclease

RecBCD

Exoribonuclease

Oligonucleotidase

3.1.21-31:
Endonuclease

Endodeoxyribonuclease

Endoribonuclease

RNase III
- Drosha: Microprocessor complex
- Dicer: RNA-induced silencing complex
RNase H
- 1
- 2A
- 2B
- 2C
RNase P
RNase A
RNase Z
RNase E
- 1
- 2
- 3
- 4/5
RNase T1

either deoxy- or ribo-

Hydrolase: sugar hydrolases (EC 3.2)

3.2.1: Glycoside hydrolases

Disaccharidase

Glucosidases

Other

3.2.2: Hydrolysing
N-Glycosyl compounds

DNA glycosylases: Oxoguanine glycosylase

Hydrolase: proteases (EC 3.4)

3.4.11-19: Exopeptidase

3.4.11	Aminopeptidase Alanine Arginyl Aspartyl Cystinyl Leucyl Glutamyl Methionyl 1 2 O
3.4.13	Dipeptidase 1 2 3
3.4.14	Dipeptidyl peptidase Cathepsin C Dipeptidyl peptidase-4 Tripeptidyl peptidase Tripeptidyl peptidase I Tripeptidyl peptidase II
3.4.15	Angiotensin-converting enzyme
3.4.16	Serine type carboxypeptidases: Cathepsin A DD-transpeptidase
3.4.17	Metalloexopeptidases Carboxypeptidase A A2 B C E Glutamate II
Other/ungrouped	Metalloexopeptidase

3.4.21-25: Endopeptidase

Other/ungrouped: Amyloid precursor protein secretase

3.4.99: Unknown

Staphylokinase

v t e Hydrolases: carbon-nitrogen non-peptide (EC 3.5)
3.5.1: Linear amides / Amidohydrolases	Asparaginase Glutaminase Urease Biotinidase Aminoacylase ACY1 Aspartoacylase(ACY2) ACY3 Ceramidase Aspartylglucosaminidase Fatty acid amide hydrolase Histone deacetylase Sirtuin
3.5.2: Cyclic amides/ Amidohydrolases	Barbiturase Beta-lactamase Dihydroorotase
3.5.3: Linear amidines/ Ureohydrolases	Arginase Agmatinase Protein-arginine deiminase
3.5.4: Cyclic amidines/ Aminohydrolases	Guanine deaminase Adenosine deaminase AMP deaminase Inosine monophosphate synthase DCMP deaminase GTP cyclohydrolase I Cytidine deaminase AICDA Activation-induced cytidine deaminase
3.5.5: Nitriles/ Aminohydrolases	Nitrilase
3.5.99: Other	Riboflavinase Thiaminase II

Hydrolases: acid anhydride hydrolases (EC 3.6)

3.6.1

3.6.2

3.6.3-4: ATPase

3.6.3

Cu++ (3.6.3.4)	Menkes/ATP7A Wilson/ATP7B
Ca+ (3.6.3.8)	SERCA ATP2A1 ATP2A2 ATP2A3 Plasma membrane ATP2B1 ATP2B2 ATP2B3 ATP2B4 SPCA ATP2C1 ATP2C2
Na+/K+ (3.6.3.9)	ATP1A1 ATP1A2 ATP1A3 ATP1A4 ATP1B1 ATP1B2 ATP1B3 ATP1B4
H+/K+ (3.6.3.10)	ATP4A
Other P-type ATPase	ATP8B1 ATP10A ATP11B ATP12A ATP13A2 ATP13A3

3.6.4

3.6.5: GTPase

3.6.5.1: Heterotrimeric G protein	G_αs G_olf G_αi GNAI1 GNAI2 GNAI3 Transducin GNAT1 GNAT2 Gustducin GNAT3 G_αq/11 GNAQ GNA11 G_α12/13 GNA12 GNA13
3.6.5.2: Small GTPase > Ras superfamily	Rho family of GTPases: Cdc42 CDC42 TC10 TCL RhoUV RhoU RhoV Rac Rac1 2 3 RhoG RhoBTB 1 2 RhoH Rho A B C Rnd 1 2 3 RhoDF RhoF RhoD other: Ras HRAS KRAS NRAS Rab RAB23 RAB27 Arf ARF6 SAR1B ARL13B ARL6 Ran Rheb Rap RGK
3.6.5.3: Protein-synthesizing GTPase	Prokaryotic IF-2 EF-Tu EF-G Eukaryotic
3.6.5.5-6: Polymerization motors	dynamin superfamily Dynamin Guanylate-binding protein Mitofusin-1 MX1 and MX2 OPA1 Tubulin

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