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Contents

   



(Top)
  


1Classification
  




2Chemical synthesis
  




3Protein-peptide interactions
  




4Example families
  


4.1Antimicrobial peptides
  




4.2Tachykinin peptides
  




4.3Vasoactive intestinal peptides
  




4.4Pancreatic polypeptide-related peptides
  




4.5Opioid peptides
  




4.6Calcitonin peptides
  




4.7Self-assembling peptides
  




4.8Other peptides
  






5Terminology
  


5.1Length
  




5.2Number of amino acids
  




5.3Function
  






6See also
  




7References
  













Peptide






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From Wikipedia, the free encyclopedia
  

"Peptides" redirects here. For the journal, see Peptides (journal).
Drosomycin, an example of a peptide

Peptides are short chains of amino acids linked by peptide bonds.[1][2]Apolypeptide is a longer, continuous, unbranched peptide chain.[3] Polypeptides that have a molecular mass of 10,000 Da or more are called proteins.[4] Chains of fewer than twenty amino acids are called oligopeptides, and include dipeptides, tripeptides, and tetrapeptides.

Peptides fall under the broad chemical classes of biological polymers and oligomers, alongside nucleic acids, oligosaccharides, polysaccharides, and others.

Proteins consist of one or more polypeptides arranged in a biologically functional way, often bound to ligands such as coenzymes and cofactors, to another protein or other macromolecule such as DNAorRNA, or to complex macromolecular assemblies.[5]

Amino acids that have been incorporated into peptides are termed residues. A water molecule is released during formation of each amide bond.[6] All peptides except cyclic peptides have an N-terminal (amine group) and C-terminal (carboxyl group) residue at the end of the peptide (as shown for the tetrapeptide in the image).

Classification[edit]

There are numerous types of peptides that have been classified according to their sources and functions. According to the Handbook of Biologically Active Peptides, some groups of peptides include plant peptides, bacterial/antibiotic peptides, fungal peptides, invertebrate peptides, amphibian/skin peptides, venom peptides, cancer/anticancer peptides, vaccine peptides, immune/inflammatory peptides, brain peptides, endocrine peptides, ingestive peptides, gastrointestinal peptides, cardiovascular peptides, renal peptides, respiratory peptides, opioid peptides, neurotrophic peptides, and blood–brain peptides.[7]

Some ribosomal peptides are subject to proteolysis. These function, typically in higher organisms, as hormones and signaling molecules. Some microbes produce peptides as antibiotics, such as microcins and bacteriocins.[8]

Peptides frequently have post-translational modifications such as phosphorylation, hydroxylation, sulfonation, palmitoylation, glycosylation, and disulfide formation. In general, peptides are linear, although lariat structures have been observed.[9] More exotic manipulations do occur, such as racemization of L-amino acids to D-amino acids in platypus venom.[10]

Nonribosomal peptides are assembled by enzymes, not the ribosome. A common non-ribosomal peptide is glutathione, a component of the antioxidant defenses of most aerobic organisms.[11] Other nonribosomal peptides are most common in unicellular organisms, plants, and fungi and are synthesized by modular enzyme complexes called nonribosomal peptide synthetases.[12]

These complexes are often laid out in a similar fashion, and they can contain many different modules to perform a diverse set of chemical manipulations on the developing product.[13] These peptides are often cyclic and can have highly complex cyclic structures, although linear nonribosomal peptides are also common. Since the system is closely related to the machinery for building fatty acids and polyketides, hybrid compounds are often found. The presence of oxazolesorthiazoles often indicates that the compound was synthesized in this fashion.[14]

Peptones are derived from animal milk or meat digested by proteolysis.[15] In addition to containing small peptides, the resulting material includes fats, metals, salts, vitamins, and many other biological compounds. Peptones are used in nutrient media for growing bacteria and fungi.[16]

Peptide fragments refer to fragments of proteins that are used to identify or quantify the source protein.[17] Often these are the products of enzymatic degradation performed in the laboratory on a controlled sample, but can also be forensic or paleontological samples that have been degraded by natural effects.[18][19]

Chemical synthesis[edit]

Main article: Peptide synthesis
Table of amino acids
Solid-phase peptide synthesis on a rink amide resin using Fmoc-α-amine-protected amino acid

Protein-peptide interactions[edit]

Example of a protein (orange) and peptide (green) interaction. Obtained from Propedia: a peptide-protein interactions database [20].

Peptides can perform interactions with proteins and other macromolecules. They are responsible for numerous important functions in human cells, such as cell signaling, and act as immune modulators.[21] Indeed, studies have reported that 15-40% of all protein-protein interactions in human cells are mediated by peptides.[22] Additionally, it is estimated that at least 10% of the pharmaceutical market is based on peptide products.[21]

Example families[edit]

The peptide families in this section are ribosomal peptides, usually with hormonal activity. All of these peptides are synthesized by cells as longer "propeptides" or "proproteins" and truncated prior to exiting the cell. They are released into the bloodstream where they perform their signaling functions.

Antimicrobial peptides[edit]

Tachykinin peptides[edit]

Main article: Tachykinin peptides

Vasoactive intestinal peptides[edit]

Main article: Secretin family

Pancreatic polypeptide-related peptides[edit]

Opioid peptides[edit]

Main article: Opioid peptide

Calcitonin peptides[edit]

Self-assembling peptides[edit]

Other peptides[edit]

Terminology[edit]

Length[edit]

Several terms related to peptides have no strict length definitions, and there is often overlap in their usage:

Number of amino acids[edit]

A tripeptide (example Val-Gly-Ala) with
green marked amino end (L-valine) and
blue marked carboxyl end (L-alanine)

Peptides and proteins are often described by the number of amino acids in their chain, e.g. a protein with 158 amino acids may be described as a "158 amino-acid-long protein". Peptides of specific shorter lengths are named using IUPAC numerical multiplier prefixes:

The same words are also used to describe a group of residues in a larger polypeptide (e.g., RGD motif).

Function[edit]

See also[edit]

Wikiquote has quotations related to Peptide.
  • Beefy meaty peptide
  • Collagen hybridizing peptide, a short peptide that can bind to denatured collagen in tissues
  • Bis-peptide
  • CLE peptide
  • D-peptide
  • Epidermal growth factor
  • Journal of Peptide Science
  • Lactotripeptides
  • Micropeptide
  • Multifunctional peptide
  • Neuropeptide
  • Palmitoyl pentapeptide-4
  • Pancreatic hormone
  • peptide spectral library
  • Peptide synthesis
  • Peptidomimetics (such as peptoids and β-peptides) to peptides, but with different properties.
  • Protein tag, describing addition of peptide sequences to enable protein isolation or detection
  • Replikins
  • Ribosome
  • Translation (biology)

    • References[edit]

    1. ^ Hamley, I. W. (September 2020). introduction to Peptide Science. Wiley. ISBN 978-1-119-69817-3.
  • ^ Nelson, David L.; Cox, Michael M. (2005). Principles of Biochemistry (4th ed.). New York: W. H. Freeman. ISBN 0-7167-4339-6.
  • ^ Saladin, K. (13 January 2011). Anatomy & physiology: the unity of form and function (6th ed.). McGraw-Hill. p. 67. ISBN 978-0-07-337825-1.
  • ^ IUPAC, Compendium of Chemical Terminology, 2nd ed. (the "Gold Book") (1997). Online corrected version: (2006–) "proteins". doi:10.1351/goldbook.P04898.
  • ^ Ardejani, Maziar S.; Orner, Brendan P. (2013-05-03). "Obey the Peptide Assembly Rules". Science. 340 (6132): 561–562. Bibcode:2013Sci...340..561A. doi:10.1126/science.1237708. ISSN 0036-8075. PMID 23641105. S2CID 206548864.
  • ^ IUPAC, Compendium of Chemical Terminology, 2nd ed. (the "Gold Book") (1997). Online corrected version: (2006–) "amino-acid residue in a polypeptide". doi:10.1351/goldbook.A00279.
  • ^ Abba J. Kastin, ed. (2013). Handbook of Biologically Active Peptides (2nd ed.). Elsevier Science. ISBN 978-0-12-385095-9.
  • ^ Duquesne S, Destoumieux-Garzón D, Peduzzi J, Rebuffat S (August 2007). "Microcins, gene-encoded antibacterial peptides from enterobacteria". Natural Product Reports. 24 (4): 708–34. doi:10.1039/b516237h. PMID 17653356.
  • ^ Pons M, Feliz M, Antònia Molins M, Giralt E (May 1991). "Conformational analysis of bacitracin A, a naturally occurring lariat". Biopolymers. 31 (6): 605–12. doi:10.1002/bip.360310604. PMID 1932561. S2CID 10924338.
  • ^ Torres AM, Menz I, Alewood PF, et al. (July 2002). "D-Amino acid residue in the C-type natriuretic peptide from the venom of the mammal, Ornithorhynchus anatinus, the Australian platypus". FEBS Letters. 524 (1–3): 172–6. doi:10.1016/S0014-5793(02)03050-8. PMID 12135762. S2CID 3015474.
  • ^ Meister A, Anderson ME; Anderson (1983). "Glutathione". Annual Review of Biochemistry. 52 (1): 711–60. doi:10.1146/annurev.bi.52.070183.003431. PMID 6137189.
  • ^ Hahn M, Stachelhaus T; Stachelhaus (November 2004). "Selective interaction between nonribosomal peptide synthetases is facilitated by short communication-mediating domains". Proceedings of the National Academy of Sciences of the United States of America. 101 (44): 15585–90. Bibcode:2004PNAS..10115585H. doi:10.1073/pnas.0404932101. PMC 524835. PMID 15498872.
  • ^ Finking R, Marahiel MA; Marahiel (2004). "Biosynthesis of nonribosomal peptides1". Annual Review of Microbiology. 58 (1): 453–88. doi:10.1146/annurev.micro.58.030603.123615. PMID 15487945.
  • ^ Du L, Shen B; Shen (March 2001). "Biosynthesis of hybrid peptide-polyketide natural products". Current Opinion in Drug Discovery & Development. 4 (2): 215–28. PMID 11378961.
  • ^ "UsvPeptides- USVPeptides is a leading pharmaceutical company in India". USVPeptides.
  • ^ Payne, J. W.; Rose, Anthony H.; Tempest, D. W. (27 September 1974). "Peptides and micro-organisms". Advances in Microbial Physiology, Volume 13. Vol. 13. Oxford, England: Elsevier Science. pp. 55–160. doi:10.1016/S0065-2911(08)60038-7. ISBN 978-0-08-057971-9. OCLC 1049559483. PMID 775944.
  • ^ Hummel J, Niemann M, Wienkoop S, Schulze W, Steinhauser D, Selbig J, Walther D, Weckwerth W (2007). "ProMEX: a mass spectral reference database for proteins and protein phosphorylation sites". BMC Bioinformatics. 8 (1): 216. doi:10.1186/1471-2105-8-216. PMC 1920535. PMID 17587460.
  • ^ Webster J, Oxley D; Oxley (2005). "Peptide Mass Fingerprinting". Chemical Genomics. Methods in Molecular Biology. Vol. 310. pp. 227–40. doi:10.1007/978-1-59259-948-6_16. ISBN 978-1-58829-399-2. PMID 16350956.
  • ^ Marquet P, Lachâtre G; Lachâtre (October 1999). "Liquid chromatography-mass spectrometry: potential in forensic and clinical toxicology". Journal of Chromatography B. 733 (1–2): 93–118. doi:10.1016/S0378-4347(99)00147-4. PMID 10572976.
  • ^ "Propedia v2.3 - Peptide-Protein Interactions Database". bioinfo.dcc.ufmg.br. Retrieved 2023-03-28.
  • ^ a b Martins, Pedro M.; Santos, Lucianna H.; Mariano, Diego; Queiroz, Felippe C.; Bastos, Luana L.; Gomes, Isabela de S.; Fischer, Pedro H. C.; Rocha, Rafael E. O.; Silveira, Sabrina A.; de Lima, Leonardo H. F.; de Magalhães, Mariana T. Q.; Oliveira, Maria G. A.; de Melo-Minardi, Raquel C. (December 2021). "Propedia: a database for protein–peptide identification based on a hybrid clustering algorithm". BMC Bioinformatics. 22 (1): 1. doi:10.1186/s12859-020-03881-z. ISSN 1471-2105. PMC 7776311. PMID 33388027.
  • ^ Neduva, Victor; Linding, Rune; Su-Angrand, Isabelle; Stark, Alexander; Masi, Federico de; Gibson, Toby J; Lewis, Joe; Serrano, Luis; Russell, Robert B (2005-11-15). Matthews, Rowena (ed.). "Systematic Discovery of New Recognition Peptides Mediating Protein Interaction Networks". PLOS Biology. 3 (12): e405. doi:10.1371/journal.pbio.0030405. ISSN 1545-7885. PMC 1283537. PMID 16279839.
  • ^ Tao, Kai; Makam, Pandeeswar; Aizen, Ruth; Gazit, Ehud (17 Nov 2017). "Self-assembling peptide semiconductors". Science. 358 (6365): eaam9756. doi:10.1126/science.aam9756. PMC 5712217. PMID 29146781.
  • ^ Tao, Kai; Levin, Aviad; Adler-Abramovich, Lihi; Gazit, Ehud (26 Apr 2016). "Fmoc-modified amino acids and short peptides: simple bio-inspired building blocks for the fabrication of functional materials". Chem. Soc. Rev. 45 (14): 3935–3953. doi:10.1039/C5CS00889A. PMID 27115033.
  • ^ Tao, Kai; Wang, Jiqian; Zhou, Peng; Wang, Chengdong; Xu, Hai; Zhao, Xiubo; Lu, Jian R. (February 10, 2011). "Self-Assembly of Short Aβ(16−22) Peptides: Effect of Terminal Capping and the Role of Electrostatic Interaction". Langmuir. 27 (6): 2723–2730. doi:10.1021/la1034273. PMID 21309606.
  • ^ Ian Hamley (2011). "Self-Assembly of Amphiphilic Peptides" (PDF). Soft Matter. 7 (9): 4122–4138. Bibcode:2011SMat....7.4122H. doi:10.1039/C0SM01218A.
  • ^ Kai Tao; Guy Jacoby; Luba Burlaka; Roy Beck; Ehud Gazit (July 26, 2016). "Design of Controllable Bio-Inspired Chiroptic Self-Assemblies". Biomacromolecules. 17 (9): 2937–2945. doi:10.1021/acs.biomac.6b00752. PMID 27461453.
  • ^ Kai Tao; Aviad Levin; Guy Jacoby; Roy Beck; Ehud Gazit (23 August 2016). "Entropic Phase Transitions with Stable Twisted Intermediates of Bio‐Inspired Self‐Assembly". Chem. Eur. J. 22 (43): 15237–15241. doi:10.1002/chem.201603882. PMID 27550381.
  • ^ Donghui Jia; Kai Tao; Jiqian Wang; Chengdong Wang; Xiubo Zhao; Mohammed Yaseen; Hai Xu; Guohe Que; John R. P. Webster; Jian R. Lu (June 16, 2011). "Dynamic Adsorption and Structure of Interfacial Bilayers Adsorbed from Lipopeptide Surfactants at the Hydrophilic Silicon/Water Interface: Effect of the Headgroup Length". Langmuir. 27 (14): 8798–8809. doi:10.1021/la105129m. PMID 21675796.
  • ^ Heitz, Marc; Javor, Sacha; Darbre, Tamis; Reymond, Jean-Louis (2019-08-21). "Stereoselective pH Responsive Peptide Dendrimers for siRNA Transfection". Bioconjugate Chemistry. 30 (8): 2165–2182. doi:10.1021/acs.bioconjchem.9b00403. ISSN 1043-1802. PMID 31398014. S2CID 199519310.
  • ^ Boelsma E, Kloek J; Kloek (March 2009). "Lactotripeptides and antihypertensive effects: a critical review". The British Journal of Nutrition. 101 (6): 776–86. doi:10.1017/S0007114508137722. PMID 19061526.
  • ^ Xu JY, Qin LQ, Wang PY, Li W, Chang C (October 2008). "Effect of milk tripeptides on blood pressure: a meta-analysis of randomized controlled trials". Nutrition. 24 (10): 933–40. doi:10.1016/j.nut.2008.04.004. PMID 18562172.
  • ^ Pripp AH (2008). "Effect of peptides derived from food proteins on blood pressure: a meta-analysis of randomized controlled trials". Food & Nutrition Research. 52: 10.3402/fnr.v52i0.1641. doi:10.3402/fnr.v52i0.1641. PMC 2596738. PMID 19109662.
  • ^ Engberink MF, Schouten EG, Kok FJ, van Mierlo LA, Brouwer IA, Geleijnse JM (February 2008). "Lactotripeptides show no effect on human blood pressure: results from a double-blind randomized controlled trial". Hypertension. 51 (2): 399–405. doi:10.1161/HYPERTENSIONAHA.107.098988. PMID 18086944.
  • ^ Wu, Hongzhong; Ren, Chunyan; Yang, Fang; Qin, Yufeng; Zhang, Yuanxing; Liu, Jianwen (April 2016). "Extraction and identification of collagen-derived peptides with hematopoietic activity from Colla Corii Asini". Journal of Ethnopharmacology. 182: 129–136. doi:10.1016/j.jep.2016.02.019. PMID 26911525.

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