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Pseudoenzyme

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Sidoenzaims bụ ụdị dị iche iche nke enzymes (na-abụkarị protein) nke na-enweghị ihe na-akpali akpali (na-adịghị arụ ọrụ), nke pụtara na ha na-arụ obere ma ọ bụ enweghị enzaim katalisis. [1][2] E kwenyere na a na-anọchite anya ha n'Ezinụlọ enzaim niile dị na alaeze nke ndụ, ebe ha nwere ihe mgbaàmà dị mkpa na ọrụ ikerisi nri ọtụtụ n'ime ha na-apụta ìhè ugbu a. Sidoenzaims na-aghọwanye ihe dị mkpa iji nyochaa, ọkachasị dịka nyocha bioinformatics nke genomes na-ekpughe ebe niile ha dị. Ọrụ nchịkwa ha dị mkpa na mgbe ụfọdụ ọrịa na-emetụta n'ụzọ ikerisi nri na nke mgbaàmà na-enyekwa ìhè ọhụrụ na ọrụ ndị na-abụghị nke enzaims na-arụ ọrụ, nke protein moonlighting,[3][4] imeghari nke protein na ọrụ dị iche iche nke mkpụrụ ndụ (Protin munlaitin). [5] A na-atụkwa aro ụzọ ọhụrụ iji lekwasị anya ma kọwaa usoro mgbaàmà mkpụrụ ndụ site n'iji obere mkpụrụ ndụ na ọgwụ. Ihe ndị a na-enyocha nke ọma, na n'ezie pseudoenzymes a kacha ghọta n'ihe gbasara ọrụ mgbaàmà mkpụrụ ndụ bụ ma eleghị anya pseudokinases, pseudoproteases na pseudophosphatases. [6][7]'oge na-adịbeghị anya, pseudo-deubiquitylases amalitela ịghọ ihe a ma ama. [1] [2]

Ọdịiche dị na enzaim active and inactive homologues has been noted (and in some cases, understood when comparing catalytically active and inactive proteins residing in recognisable families) for some time at the sequence level,[8] and some pseudoenzymes have also been referred to as 'prozymes' when they were analysed in protozoan parasites.[9] The best studied pseudoenzymes reside amongst various key signalling superfamilies of enzymes, such as the proteases,[10] the protein kinases,[11][12][13][14][15][16][17] protein phosphatases[18][19] and ubiquitin modifying enzymes.[20][21] The role of pseudoenzymes as "pseudo scaffolds" has also been recognised [22] and pseudoenzymes are now beginning to be more thoroughly studied in terms of their biology and function, in large part because they are also interesting potential targets (or anti-targets) for drug design in the context of intracellular cellular signalling complexes.[23][24]

Ọmụmaatụ Klaasị

[dezie | dezie ebe o si]
Klas Ọrụ Ihe Nlereanya [25]
Pseudokinase Allosteric regulation nke conventional protein kinase STRADα na-achịkwa ọrụ nke protein kinase, LKB1

JAK1-3 na TYK2 C-terminal tyrosine kinase domains na-achịkwa site na pseudokinase ha dị n'akụkụ KSR1/2 na-achịkọta ọrụ nke protein kinase, Raf

Allosteric regulation nke enzymes ndị ọzọ VRK3 na-achịkwa ọrụ nke phosphatase, VHR
Pseudo-Histidine kinase Mpaghara mmekọrịta protein Caulobacter DivL na-ejikọta onye na-achịkwa nzaghachi phosphorylated, DivK, na-enye ohere ka DivL na'ụzọ na-adịghị mma na-achịkọta kinase nkewa mkpụrụ ndụ, CckA
Pseudophosphatase Mgbochi nke nnweta phosphatase omenala na substrate EGG-4/EGG-5 na-ejikọta na phosphorylated activation loop nke kinase, MBK-2

STYX na-asọ mpi na DUSP4 maka ijikọ na ERK1/2

Allosteric regulation nke phosphatases omenala MTMR13 na-ejikọta ma na-akwalite ọrụ lipid phosphatase nke MTMR2
Nchịkwa nke protein dị na mkpụrụ ndụ STYX na-arụ ọrụ dị ka arịlịka nuklia maka ERK1/2
Nchịkwa nke njikọ dị mgbagwoju anya STYX na-ejikọta protein F-box, FBXW7, iji gbochie recruitment ya na SCF Ubiquitin ligase complex
Pseudoprotease Allosteric regulator nke conventional protease cFLIP na-ejikọta ma na-egbochi cysteine protease, Caspase-8, iji gbochie apoptosis extrinsic
Nchịkwa nke protein dị na mkpụrụ ndụ Mkpụrụ ndụ iRhom nke ụmụ anụmanụ na-ejikọta ma na-achịkwa ịzụ ahịa otu pas transmembrane protein na membrane plasma ma ọ bụ ER-associated degradation pathway
Pseudodeubiquitinase (pseudoDUB) Allosteric regulator nke DUB nkịtị KIAA0157 dị oké mkpa maka ijikọ heterotetramer dị elu na DUB, BRCC36, na ọrụ DUB
Pseudoligase (pseudo-Ubiquitin E2) Allosteric regulator nke omenala E2 ligase Mms2 bụ ụdị ubiquitin E2 (UEV) nke na-ejikọta E2, Ubc13, iji duzie njikọ ubiquitin K63.
Nchịkwa nke protein dị na mkpụrụ ndụ Tsg101 bụ akụkụ nke ESCRT-I na-ere ahịa mgbagwoju anya, ma na-arụ ọrụ dị mkpa na njikọ HIV-1 Gag na mmalite HIV
Pseudoligase (pseudo-Ubiquitin E3) Enwere ike ịchịkwa allosteric nke ezinụlọ RBR E3 ligase BRcat na-achịkwa ụlọ interdomain na ezinụlọ RBR E3 Ubiquitin ligases, dị ka Parkin na Ariadne-1/2
Pseudonuclease Allosteric regulator nke conventional nuclease CPSF-100 bụ akụkụ nke pre-mRNA 3' njedebe nhazi mgbagwoju anya nwere onye ọrụ ibe ya, CPSF-73
PseudoATPase Allosteric regulator nke omenala ATPase EccC nwere ngalaba pseudoATPase abụọ na-achịkwa ngalaba N-terminal ATPase
PseudoGTPase Allosteric regulator nke GTPase omenala GTP-bound Rnd1 ma ọ bụ Rnd3/RhoE bind p190RhoGAP iji chịkwaa ọrụ catalytic nke GTPase, RhoA
Scaffold maka nchịkọta nke mgbaàmà mgbagwoju anya MiD51, nke nwụrụ anwụ ma na-ejikọta GDP ma ọ bụ ADP, bụ akụkụ nke mgbagwoju anya nke na-ewe Drp1 iji mee ka mitochondrial fission. CENP-M enweghị ike ijikọta GTP ma ọ bụ gbanwee ọdịdị, mana ọ dị mkpa maka nucleating CENP - I, CENP, CENF-K obere GTPase mgbagwoju anya iji chịkwaa nzukọ kinetochore
Nchịkwa nke protein dị na mkpụrụ ndụ Ebe etiti nke ìhè na-eko achịcha (LIC) bụ pseudoGTPase, na-enweghị njikọ nucleotide, nke na-ejikọta dynein motor na ibu. Human LIC na-ejikọta GDP karịa GTP, na-atụ aro na njikọta nucleotide nwere ike inye nkwụsi ike karịa ime ka usoro mgbanwe.
Pseudochitinase Nchịkọta ma ọ bụ njide YKL-39 na-ejikọta, mana ọ naghị arụ ọrụ, chitooligosaccharides site na mpaghara 5 na-ejikarị
Pseudosialidase Scaffold maka nchịkọta nke mgbaàmà mgbagwoju anya CyRPA nucleates nzukọ nke P. falciparum PfRh5/PfRipr complex nke na-ejikọta onye na-anabata erythrocyte, basigin, ma na-eme ka mwakpo nke mkpụrụ ndụ na-elekọta ya.
Ọrịa ụgha Allosteric activation nke enzyme yiri ya Prozyme heterodimerisation na S-adenosylmethionine decarboxylase (AdoMetDC) na-eme ka ọrụ catalytic 1000-fold
Pseudotransferase Allosteric activation nke cell enzyme counterpart GAT nje na-ewebata PFAS cellular iji deaminate RIG-I ma gbochie nchebe nje. T. brucei deoxyhypusine synthase (TbDHS) paralog nwụrụ anwụ, DHSp, na-ejikọta ma na-eme ka DHSc >1000-ugboro.
Pseudo-histone acetyl transferase (pseudoHAT) Ihe ndabere nwere ike ịbụ maka ijikọta ihe mgbagwoju anya Human O-GlcNAcase (OGA) enweghị ihe ndị fọdụrụ na acetyl CoA binding, n'adịghị ka ibe nje bacteria
Pseudo-phospholipase Ihe ndabere nwere ike ịbụ maka ijikọta ihe mgbagwoju anya FAM83 ezinụlọ protein ndị a na-eche na ha nwetara ọrụ ọhụrụ karịa ọrụ phospholipase D nke nna nna ha
Allosteric inactivation nke enzyme yiri ya Viper phospholipase A2 inhibitor yiri protein mkpụrụ ndụ mmadụ ọ na-elekwasị anya, phospholapase A2.
Pseudo-oxidoreductase Allosteric inactivation nke enzyme yiri ya ALDH2*2 na-egbochi nchịkọta nke ibe ya na-arụ ọrụ, ALDH2 *1, n'ime tetramer.
Pseudo-dismutase Allosteric activation nke enzyme yiri ya Copper chaperone maka superoxide dismutase (CCS) na-ejikọta ma na-eme ka catalysis site na ibe ya nke enzyme, SOD1
Pseudo-dihydroorotase Nchịkwa nkwonkwo ma ọ bụ nchịkọta dị mgbagwoju anya nke enzyme nkịtị A chọrọ Pseudomonas pDHO maka ma ọ bụ ịpịkọta aspartate transcarbamoylase catalytic subunit, ma ọ bụ nchịkọta ya n'ime oligomer na-arụ ọrụ
Pseudo-RNase Ime ka nzukọ / nkwụsi ike dị mgbagwoju anya dị mfe na ịkwalite njikọ nke catalytic paralog KREPB4 nwere ike ịrụ ọrụ [26] ka pseudoenzyme iji mepụta ọkara noncatalytic nke RNase III heterodimer na endonuclease (s) [1]
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  2. (April 2019) "Tracing the origin and evolution of pseudokinases across the tree of life". Science Signaling 12 (578): eaav3810. DOI:10.1126/scisignal.aav3810. PMID 31015289. 
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  4. (Dec 2019) "Multitalented actors inside and outside the cell: recent discoveries add to the number of moonlighting proteins". Biochemical Society Transactions 47 (6): 1941–1948. DOI:10.1042/BST20190798. PMID 31803903. 
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  6. (May 2019) "Metabolic control of BRISC–SHMT2 assembly regulates immune signalling". Nature 570 (7760): 194–199. DOI:10.1038/s41586-019-1232-1. PMID 31142841. 
  7. (Feb 2018) "Pseudo-DUBs as allosteric activators and molecular scaffolds of protein complexes.". Biochem Soc Trans 46 (2): 453–466. DOI:10.1042/BST20160268. PMID 29472364. 
  8. (October 2002) "Sequence and structural differences between enzyme and nonenzyme homologs". Structure 10 (10): 1435–51. DOI:10.1016/s0969-2126(02)00861-4. PMID 12377129. 
  9. (May 2007) "Allosteric regulation of an essential trypanosome polyamine biosynthetic enzyme by a catalytically dead homolog". Proceedings of the National Academy of Sciences of the United States of America 104 (20): 8275–80. DOI:10.1073/pnas.0701111104. PMID 17485680. 
  10. (July 2012) "New lives for old: evolution of pseudoenzyme function illustrated by iRhoms". Nature Reviews. Molecular Cell Biology 13 (8): 489–98. DOI:10.1038/nrm3392. PMID 22781900. 
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  16. (September 2013) "The pseudokinase MLKL mediates necroptosis via a molecular switch mechanism". Immunity 39 (3): 443–53. DOI:10.1016/j.immuni.2013.06.018. PMID 24012422. 
  17. (August 1998) "Gathering STYX: phosphatase-like form predicts functions for unique protein-interaction domains". Trends in Biochemical Sciences 23 (8): 301–6. DOI:10.1016/s0968-0004(98)01241-9. PMID 9757831. 
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  20. (September 2015) "Higher-Order Assembly of BRCC36-KIAA0157 Is Required for DUB Activity and Biological Function". Molecular Cell 59 (6): 970–83. DOI:10.1016/j.molcel.2015.07.028. PMID 26344097. 
  21. (April 2017) "Roles of the TRAF6 and Pellino E3 ligases in MyD88 and RANKL signaling". Proceedings of the National Academy of Sciences of the United States of America 114 (17): E3481–E3489. DOI:10.1073/pnas.1702367114. PMID 28404732. 
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  26. (November 2017) "The essential functions of KREPB4 are developmentally distinct and required for endonuclease association with editosomes". RNA 23 (11): 1672–1684. DOI:10.1261/rna.062786.117. PMID 28802260.