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Acyl-CoA thioesterase 9

April 11, 2024

Acyl-CoA thioesterase 9 is a protein that is encoded by the human ACOT9 gene. It is a member of the acyl-CoA thioesterase superfamily, which is a group of enzymes that hydrolyze Coenzyme A esters. There is no known function, however it has been shown to act as a long-chain thioesterase at low concentrations, and a short-chain thioesterase at high concentrations.[5]

ACOT9
Identifiers
AliasesACOT9, ACATE2, MT-ACT48, MTACT48, CGI-16, Acyl-CoA thioesterase 9
External IDsOMIM: 300862 MGI: 1928939 HomoloGene: 8206 GeneCards: ACOT9
Orthologs
SpeciesHumanMouse
Entrez

23597

56360

Ensembl

ENSG00000123130

ENSMUSG00000025287

UniProt

Q9Y305

Q9R0X4

RefSeq (mRNA)

NM_001033583
NM_001037171
NM_001330259
NM_012332

NM_019736
NM_001313718

RefSeq (protein)

NP_001028755
NP_001032248
NP_001317188

NP_001300647
NP_062710

Location (UCSC)Chr X: 23.7 – 23.77 MbChr X: 154.05 – 154.08 Mb
PubMed search[3][4]
Wikidata
View/Edit HumanView/Edit Mouse

Gene edit

 
Depiction of ACOT9 gene

Locus edit

The ACOT9 gene is located at p22.11 on chromosome X. Located on the minus strand of the chromosome, the start is at 23,721,777 bp and the end is at 23,761,407 bp, which is a span of 39,631 base pairs.[6]

 
ACOT9 location on the human chromosome X

Aliases edit

ACOT9 gene is known primarily for encoding the Acyl-CoA thioesterase 9 protein. Other, less commonly used names for the gene are ACATE2,[7] and MT-ACT48.[8]

Function edit

The protein encoded by the ACOT9 gene is part of a family of Acyl-CoA thioesterases, which catalyze the hydrolysis of various Coenzyme A esters of various molecules to the free acid plus CoA. These enzymes have also been referred to in the literature as acyl-CoA hydrolases, acyl-CoA thioester hydrolases, and palmitoyl-CoA hydrolases. The reaction carried out by these enzymes is as follows:

CoA ester + H2O → free acid + coenzyme A

These enzymes use the same substrates as long-chain acyl-CoA synthetases, but have a unique purpose in that they generate the free acid and CoA, as opposed to long-chain acyl-CoA synthetases, which ligate fatty acids to CoA, to produce the CoA ester.[9] The role of the ACOT- family of enzymes is not well understood; however, it has been suggested that they play a crucial role in regulating the intracellular levels of CoA esters, Coenzyme A, and free fatty acids. Recent studies have shown that Acyl-CoA esters have many more functions than simply an energy source. These functions include allosteric regulation of enzymes such as acetyl-CoA carboxylase,[10] hexokinase IV,[11] and the citrate condensing enzyme. Long-chain acyl-CoAs also regulate opening of ATP-sensitive potassium channels and activation of Calcium ATPases, thereby regulating insulin secretion.[12] A number of other cellular events are also mediated via acyl-CoAs, for example signal transduction through protein kinase C, inhibition of retinoic acid-induced apoptosis, and involvement in budding and fusion of the endomembrane system.[13][14][15] Acyl-CoAs also mediate protein targeting to various membranes and regulation of G Protein α subunits, because they are substrates for protein acylation.[16] In the mitochondria, acyl-CoA esters are involved in the acylation of mitochondrial NAD+ dependent dehydrogenases; because these enzymes are responsible for amino acid catabolism, this acylation renders the whole process inactive. This mechanism may provide metabolic crosstalk and act to regulate the NADH/NAD+ ratio in order to maintain optimal mitochondrial beta oxidation of fatty acids.[17] The role of CoA esters in lipid metabolism and numerous other intracellular processes are well defined, and thus it is hypothesized that ACOT- enzymes play a role in modulating the processes these metabolites are involved in.[18]

Homology/Evolution edit

 
Divergence of Sequence Identity (%) vs. Time (MYA) in ACOT9

Orthologs edit

There are many orthologs of ACOT9, the house mouse (Mus musculus) being one of the most similar, where the ACOT9 gene is found at 72.38cM on chromosome X.[19] The range of orthologs extends to mammals, birds, amphibians, anamorphic fungi, and others.[citation needed]

Sequence number Genus and species Common name Date of divergence (MYA) Accession number Sequence length Sequence identity Sequence similarity Notes
1 Homo sapiens Human 0 NP_001028755.2 439 100% 100% Human
2 Mus musculus House mouse 91 NP_062710.2 439 83% 90% Rodent
3 Pteropus alecto Black flying fox 97.4 XP_006911668.1 480 81% 91% Bat
4 Gallus gallus Chicken 324.5 NP_001012841.1 425 69% 87% Bird
5 Pseudopodoces humilis Ground tit 324.5 XP_005516751.1 417 68% 85% Bird
6 Columba livia Rock dove 324.5 XP_005503782.1 402 67% 86% Bird
7 Geospiza fortis Medium ground finch 324.5 XP_005424946.1 417 67% 85% Bird
8 Pelodiscus sinensis Chinese soft shelled turtle 324.5 XP_006112565.1 439 67% 85% Reptile
9 Xenopus tropicalis Western clawed frog 361.2 AAI61600.1 418 65% 82% Amphibian
10 Danio rerio Zebrafish 454.6 AAI59216.1 434 60% 80% Fish
11 Ceratitis capitata Mediterranean fruit fly 910 JAB97119.1 433 32% 58% Insect
12 Glarea lozoyensis 74030 Anamorphic fungus 1368 EHL00310.1 350 24% 47% Fungus
 
Conservation of ACOT9 gene between H. sapiens, G. lozoyensis, and C. capitata

Paralogs edit

In mice, which is one of the closest orthologs, ACOT10 is a known paralog of the ACOT9 gene.[20]

Expression edit

 
ACOT9 expression chart

Expression of the ACOT9 is ubiquitous throughout the tissues in humans. Tissues with a value of over 500 in the large-scale analysis of the human transcriptome were the globus pallidus and colorectal adenocarcinoma.[21] The expressed sequence tag (or EST) abundance profile also shows ubiquitous/near ubiquitous, expression throughout human tissues.[22]

Transcription factors edit

There are numerous transcription factors throughout the ACOT9 promoter sequence. Some of the notable factors are heat shock factors and transcription factor II B (TFIIB) recognition elements.[citation needed]

Transcription factor Start End Strand Sequence
X gene core promoter element 1 683 693 - ggGCGGgaccg
Doublesex and mab-3 related transcription factor 1 81 101 + tttttttgagacaTTGTctcc
cAMP-responsive element binding protein 1 491 511 - agggcgTGACgtcgagaagag
Sp4 transcription factor 660 676 - ccagggGGCGtggccgc
Stimulating protein 1, ubiquitous zinc finger transcription factor 682 698 - tccggGGGCgggaccgc
Heat shock factor 1 24 48 + caggactaaactAGAAtctccagcc
E2F transcription factor 2 808 824 + ccatcGCGCgcacggca
Nuclear factor of activated T-cells 5 380 398 + tttGGAAagttgcccagga
ZF5 POZ domain zinc finger, zinc finger protein 161 (secondary DNA binding preference) 811 825 + tcgCGCGcacggcag
B-cell-specific activator protein 678 706 - cagcggtgtccgggGGCGggaccgcggcg
Pax-6 paired domain binding site 54 72 + gtctcAAGCatcagttttt
ZF5 POZ domain zinc finger, zinc finger protein 161 (secondary DNA binding preference) 651 665 - ggcCGCGctgtgccg
Pax-6 paired domain binding site 758 776 + ttttaTCGCctcagtttcc
Mammalian C-type LTR TATA box 751 767 - ggcgaTAAAagacgcac
Nuclear factor Y (Y-box binding factor) 624 638 + cccgCCAAtgaacgg
Transcription factor II B (TFIIB) recognition element 356 362 + ccgCGCC
Transcription factor II B (TFIIB) recognition element 440 446 - ccgCGCC
Transcription factor II B (TFIIB) recognition element 734 740 - ccgCGCC
Nuclear factor Y (Y-box binding factor) 581 595 - ccacTCAAtcagttg
CCAAT/enhancer binding protein alpha 529 543 - tcggttgaGTAAacg

Secondary structure edit

There are two regions in the ACOT9 gene sequence that are labeled as BFIT (Brown Fat Inducible Thioesterase) and BACH (Brain Acyl CoA Hydrolase) regions. These regions are part of a hotdog fold superfamily, which has been found to be used in a variety of cell roles.[23] Predictions show there to be various alpha-helices throughout the structure,[24] suggesting it is a transmembrane protein.

Interactions edit

A mitochondrial cleavage site can be found at amino acid 30 in the ACOT9 sequence, and the probability of export to the mitochondria is 0.9374.[25] The Acyl-CoA thioesterase 9 protein is estimated to be 60.9% mitochondrial, 21.7% cytoplasmic, 8.7% nuclear, 4.3% in the plasma membrane, and 4.3% in the endoplasmic reticulum.[26]

The ACOT9 protein has been found to interact with the following proteins either experimentally or through co-expression:[27]

References edit

  1. ^ a b c GRCh38: Ensembl release 89: ENSG00000123130 - Ensembl, May 2017
  2. ^ a b c GRCm38: Ensembl release 89: ENSMUSG00000025287 - Ensembl, May 2017
  3. ^ "Human PubMed Reference:". National Center for Biotechnology Information, U.S. National Library of Medicine.
  4. ^ "Mouse PubMed Reference:". National Center for Biotechnology Information, U.S. National Library of Medicine.
  5. ^ Tillander V, Arvidsson Nordström E, Reilly J, Strozyk M, Van Veldhoven PP, Hunt MC, Alexson SE (Mar 2014). "Acyl-CoA thioesterase 9 (ACOT9) in mouse may provide a novel link between fatty acid and amino acid metabolism in mitochondria". Cellular and Molecular Life Sciences. 71 (5): 933–48. doi:10.1007/s00018-013-1422-1. hdl:10616/41794. PMID 23864032. S2CID 18767370.
  6. ^ Kent WJ, Sugnet CW, Furey TS, Roskin KM, Pringle TH, Zahler AM, Haussler D (June 12, 2002). "Human Feb. 2009 (GRCh37/hg19) Assembly". The human genome browser at UCSC. UCSC Genome Bioinformatics. Retrieved March 12, 2014.
  7. ^ Gu J, MacHugh DE, McGivney BA, Park SD, Katz LM, Hill EW (Nov 2010). "Association of sequence variants in CKM (creatine kinase, muscle) and COX4I2 (cytochrome c oxidase, subunit 4, isoform 2) genes with racing performance in Thoroughbred horses". Equine Veterinary Journal. Supplement. 42 (38): 569–75. doi:10.1111/j.2042-3306.2010.00181.x. PMID 21059062.
  8. ^ Poupon V, Bègue B, Gagnon J, Dautry-Varsat A, Cerf-Bensussan N, Benmerah A (Jul 1999). "Molecular cloning and characterization of MT-ACT48, a novel mitochondrial acyl-CoA thioesterase". The Journal of Biological Chemistry. 274 (27): 19188–94. doi:10.1074/jbc.274.27.19188. PMID 10383425.
  9. ^ Mashek DG, Bornfeldt KE, Coleman RA, Berger J, Bernlohr DA, Black P, DiRusso CC, Farber SA, Guo W, Hashimoto N, Khodiyar V, Kuypers FA, Maltais LJ, Nebert DW, Renieri A, Schaffer JE, Stahl A, Watkins PA, Vasiliou V, Yamamoto TT (Oct 2004). "Revised nomenclature for the mammalian long-chain acyl-CoA synthetase gene family". Journal of Lipid Research. 45 (10): 1958–61. doi:10.1194/jlr.e400002-jlr200. PMID 15292367.
  10. ^ Ogiwara H, Tanabe T, Nikawa J, Numa S (Aug 1978). "Inhibition of rat-liver acetyl-coenzyme-A carboxylase by palmitoyl-coenzyme A. Formation of equimolar enzyme-inhibitor complex". European Journal of Biochemistry. 89 (1): 33–41. doi:10.1111/j.1432-1033.1978.tb20893.x. PMID 29756.
  11. ^ Srere PA (Dec 1965). "Palmityl-coenzyme A inhibition of the citrate-condensing enzyme". Biochimica et Biophysica Acta (BBA) - Lipids and Lipid Metabolism. 106 (3): 445–55. doi:10.1016/0005-2760(65)90061-5. PMID 5881327.
  12. ^ Gribble FM, Proks P, Corkey BE, Ashcroft FM (Oct 1998). "Mechanism of cloned ATP-sensitive potassium channel activation by oleoyl-CoA". The Journal of Biological Chemistry. 273 (41): 26383–7. doi:10.1074/jbc.273.41.26383. PMID 9756869.
  13. ^ Nishizuka Y (Apr 1995). "Protein kinase C and lipid signaling for sustained cellular responses". FASEB Journal. 9 (7): 484–96. doi:10.1096/fasebj.9.7.7737456. PMID 7737456. S2CID 31065063.
  14. ^ Glick BS, Rothman JE (1987). "Possible role for fatty acyl-coenzyme A in intracellular protein transport". Nature. 326 (6110): 309–12. Bibcode:1987Natur.326..309G. doi:10.1038/326309a0. PMID 3821906. S2CID 4306469.
  15. ^ Wan YJ, Cai Y, Cowan C, Magee TR (Jun 2000). "Fatty acyl-CoAs inhibit retinoic acid-induced apoptosis in Hep3B cells". Cancer Letters. 154 (1): 19–27. doi:10.1016/s0304-3835(00)00341-4. PMID 10799735.
  16. ^ Duncan JA, Gilman AG (Jun 1998). "A cytoplasmic acyl-protein thioesterase that removes palmitate from G protein alpha subunits and p21(RAS)". The Journal of Biological Chemistry. 273 (25): 15830–7. doi:10.1074/jbc.273.25.15830. PMID 9624183.
  17. ^ Berthiaume L, Deichaite I, Peseckis S, Resh MD (Mar 1994). "Regulation of enzymatic activity by active site fatty acylation. A new role for long chain fatty acid acylation of proteins". The Journal of Biological Chemistry. 269 (9): 6498–505. doi:10.1016/S0021-9258(17)37399-4. PMID 8120000.
  18. ^ Hunt MC, Alexson SE (Mar 2002). "The role Acyl-CoA thioesterases play in mediating intracellular lipid metabolism". Progress in Lipid Research. 41 (2): 99–130. doi:10.1016/s0163-7827(01)00017-0. PMID 11755680.
  19. ^ "ACOT9 gene detail". Mouse Genome Database. Retrieved 2014-06-19.
  20. ^ "Gene: Acot9". Ensembl release 75.
  21. ^ "Large-scale analysis of the human transcriptome (HG-U133A)". National Center for Biotechnology Information. Retrieved 10 May 2014.
  22. ^ "EST Profile Hs.298885 - ACOT9: Acyl-CoA thioesterase 9". Retrieved 10 May 2014.
  23. ^ Dillon SC, Bateman A (Aug 2004). "The Hotdog fold: wrapping up a superfamily of thioesterases and dehydratases". BMC Bioinformatics. 5: 109. doi:10.1186/1471-2105-5-109. PMC 516016. PMID 15307895.
  24. ^ "SDSC Biology WorkBench 3.2 Pele Program". [dead link]
  25. ^ Claros MG, Vincens P (Nov 1996). "Computational method to predict mitochondrially imported proteins and their targeting sequences". European Journal of Biochemistry. 241 (3): 779–86. doi:10.1111/j.1432-1033.1996.00779.x. PMID 8944766.
  26. ^ "PSORTII Prediction Tool".[verification needed]
  27. ^ Jensen LJ, Kuhn M, Stark M, Chaffron S, Creevey C, Muller J, Doerks T, Julien P, Roth A, Simonovic M, Bork P, von Mering C (Jan 2009). "STRING 8--a global view on proteins and their functional interactions in 630 organisms". Nucleic Acids Research. 37 (Database issue): D412–6. doi:10.1093/nar/gkn760. PMC 2686466. PMID 18940858.

External links edit

Further reading edit

  • Mulkearns EE, Cooper JA (Apr 2012). "FCH domain only-2 organizes clathrin-coated structures and interacts with Disabled-2 for low-density lipoprotein receptor endocytosis". Molecular Biology of the Cell. 23 (7): 1330–42. doi:10.1091/mbc.E11-09-0812. PMC 3315808. PMID 22323290.
  • Hunt MC, Yamada J, Maltais LJ, Wright MW, Podesta EJ, Alexson SE (Sep 2005). "A revised nomenclature for mammalian acyl-CoA thioesterases/hydrolases". Journal of Lipid Research. 46 (9): 2029–32. doi:10.1194/jlr.E500003-JLR200. PMID 16103133.
  • Alkhaja AK, Jans DC, Nikolov M, Vukotic M, Lytovchenko O, Ludewig F, Schliebs W, Riedel D, Urlaub H, Jakobs S, Deckers M (Jan 2012). "MINOS1 is a conserved component of mitofilin complexes and required for mitochondrial function and cristae organization" (PDF). Molecular Biology of the Cell. 23 (2): 247–57. doi:10.1091/mbc.E11-09-0774. PMC 3258170. PMID 22114354.
  • Poupon V, Bègue B, Gagnon J, Dautry-Varsat A, Cerf-Bensussan N, Benmerah A (Jul 1999). "Molecular cloning and characterization of MT-ACT48, a novel mitochondrial acyl-CoA thioesterase". The Journal of Biological Chemistry. 274 (27): 19188–94. doi:10.1074/jbc.274.27.19188. PMID 10383425.

This article incorporates text from the United States National Library of Medicine, which is in the public domain.


April 11, 2024
acyl, thioesterase, protein, that, encoded, human, acot9, gene, member, acyl, thioesterase, superfamily, which, group, enzymes, that, hydrolyze, coenzyme, esters, there, known, function, however, been, shown, long, chain, thioesterase, concentrations, short, c. Acyl CoA thioesterase 9 is a protein that is encoded by the human ACOT9 gene It is a member of the acyl CoA thioesterase superfamily which is a group of enzymes that hydrolyze Coenzyme A esters There is no known function however it has been shown to act as a long chain thioesterase at low concentrations and a short chain thioesterase at high concentrations 5 ACOT9IdentifiersAliasesACOT9 ACATE2 MT ACT48 MTACT48 CGI 16 Acyl CoA thioesterase 9External IDsOMIM 300862 MGI 1928939 HomoloGene 8206 GeneCards ACOT9Gene location Human Chr X chromosome human 1 BandXp22 11Start23 701 055 bp 1 End23 766 475 bp 1 Gene location Mouse Chr X chromosome mouse 2 BandX X F3Start154 045 439 bp 2 End154 080 650 bp 2 RNA expression patternBgeeHumanMouse ortholog Top expressed insecondary oocyteAchilles tendonleft ventriclemonocyteascending aortagastric mucosaright ventricleright coronary arteryupper lobe of left lungright lungTop expressed inhair folliclefacial motor nucleuscorneaatrioventricular valveendocardial cushionconjunctival fornixtrigeminal ganglionbrown adipose tissuecarotid bodyproximal tubuleMore reference expression dataBioGPSn aGene ontologyMolecular functionacetyl CoA hydrolase activity hydrolase activity carboxylic ester hydrolase activity acyl CoA hydrolase activityCellular componentmitochondrial matrix mitochondrionBiological processacyl CoA metabolic processSources Amigo QuickGOOrthologsSpeciesHumanMouseEntrez2359756360EnsemblENSG00000123130ENSMUSG00000025287UniProtQ9Y305Q9R0X4RefSeq mRNA NM 001033583NM 001037171NM 001330259NM 012332NM 019736NM 001313718RefSeq protein NP 001028755NP 001032248NP 001317188NP 001300647NP 062710Location UCSC Chr X 23 7 23 77 MbChr X 154 05 154 08 MbPubMed search 3 4 WikidataView Edit HumanView Edit Mouse Contents 1 Gene 1 1 Locus 1 2 Aliases 2 Function 3 Homology Evolution 3 1 Orthologs 3 2 Paralogs 4 Expression 5 Transcription factors 6 Secondary structure 7 Interactions 8 References 9 External links 10 Further readingGene edit nbsp Depiction of ACOT9 geneLocus edit The ACOT9 gene is located at p22 11 on chromosome X Located on the minus strand of the chromosome the start is at 23 721 777 bp and the end is at 23 761 407 bp which is a span of 39 631 base pairs 6 nbsp ACOT9 location on the human chromosome XAliases edit ACOT9 gene is known primarily for encoding the Acyl CoA thioesterase 9 protein Other less commonly used names for the gene are ACATE2 7 and MT ACT48 8 Function editThe protein encoded by the ACOT9 gene is part of a family of Acyl CoA thioesterases which catalyze the hydrolysis of various Coenzyme A esters of various molecules to the free acid plus CoA These enzymes have also been referred to in the literature as acyl CoA hydrolases acyl CoA thioester hydrolases and palmitoyl CoA hydrolases The reaction carried out by these enzymes is as follows CoA ester H2O free acid coenzyme AThese enzymes use the same substrates as long chain acyl CoA synthetases but have a unique purpose in that they generate the free acid and CoA as opposed to long chain acyl CoA synthetases which ligate fatty acids to CoA to produce the CoA ester 9 The role of the ACOT family of enzymes is not well understood however it has been suggested that they play a crucial role in regulating the intracellular levels of CoA esters Coenzyme A and free fatty acids Recent studies have shown that Acyl CoA esters have many more functions than simply an energy source These functions include allosteric regulation of enzymes such as acetyl CoA carboxylase 10 hexokinase IV 11 and the citrate condensing enzyme Long chain acyl CoAs also regulate opening of ATP sensitive potassium channels and activation of Calcium ATPases thereby regulating insulin secretion 12 A number of other cellular events are also mediated via acyl CoAs for example signal transduction through protein kinase C inhibition of retinoic acid induced apoptosis and involvement in budding and fusion of the endomembrane system 13 14 15 Acyl CoAs also mediate protein targeting to various membranes and regulation of G Protein a subunits because they are substrates for protein acylation 16 In the mitochondria acyl CoA esters are involved in the acylation of mitochondrial NAD dependent dehydrogenases because these enzymes are responsible for amino acid catabolism this acylation renders the whole process inactive This mechanism may provide metabolic crosstalk and act to regulate the NADH NAD ratio in order to maintain optimal mitochondrial beta oxidation of fatty acids 17 The role of CoA esters in lipid metabolism and numerous other intracellular processes are well defined and thus it is hypothesized that ACOT enzymes play a role in modulating the processes these metabolites are involved in 18 Homology Evolution edit nbsp Divergence of Sequence Identity vs Time MYA in ACOT9Orthologs edit There are many orthologs of ACOT9 the house mouse Mus musculus being one of the most similar where the ACOT9 gene is found at 72 38cM on chromosome X 19 The range of orthologs extends to mammals birds amphibians anamorphic fungi and others citation needed Sequence number Genus and species Common name Date of divergence MYA Accession number Sequence length Sequence identity Sequence similarity Notes1 Homo sapiens Human 0 NP 001028755 2 439 100 100 Human2 Mus musculus House mouse 91 NP 062710 2 439 83 90 Rodent3 Pteropus alecto Black flying fox 97 4 XP 006911668 1 480 81 91 Bat4 Gallus gallus Chicken 324 5 NP 001012841 1 425 69 87 Bird5 Pseudopodoces humilis Ground tit 324 5 XP 005516751 1 417 68 85 Bird6 Columba livia Rock dove 324 5 XP 005503782 1 402 67 86 Bird7 Geospiza fortis Medium ground finch 324 5 XP 005424946 1 417 67 85 Bird8 Pelodiscus sinensis Chinese soft shelled turtle 324 5 XP 006112565 1 439 67 85 Reptile9 Xenopus tropicalis Western clawed frog 361 2 AAI61600 1 418 65 82 Amphibian10 Danio rerio Zebrafish 454 6 AAI59216 1 434 60 80 Fish11 Ceratitis capitata Mediterranean fruit fly 910 JAB97119 1 433 32 58 Insect12 Glarea lozoyensis 74030 Anamorphic fungus 1368 EHL00310 1 350 24 47 Fungus nbsp Conservation of ACOT9 gene between H sapiens G lozoyensis and C capitataParalogs edit In mice which is one of the closest orthologs ACOT10 is a known paralog of the ACOT9 gene 20 Expression edit nbsp ACOT9 expression chartExpression of the ACOT9 is ubiquitous throughout the tissues in humans Tissues with a value of over 500 in the large scale analysis of the human transcriptome were the globus pallidus and colorectal adenocarcinoma 21 The expressed sequence tag or EST abundance profile also shows ubiquitous near ubiquitous expression throughout human tissues 22 Transcription factors editThere are numerous transcription factors throughout the ACOT9 promoter sequence Some of the notable factors are heat shock factors and transcription factor II B TFIIB recognition elements citation needed Transcription factor Start End Strand SequenceX gene core promoter element 1 683 693 ggGCGGgaccgDoublesex and mab 3 related transcription factor 1 81 101 tttttttgagacaTTGTctcccAMP responsive element binding protein 1 491 511 agggcgTGACgtcgagaagagSp4 transcription factor 660 676 ccagggGGCGtggccgcStimulating protein 1 ubiquitous zinc finger transcription factor 682 698 tccggGGGCgggaccgcHeat shock factor 1 24 48 caggactaaactAGAAtctccagccE2F transcription factor 2 808 824 ccatcGCGCgcacggcaNuclear factor of activated T cells 5 380 398 tttGGAAagttgcccaggaZF5 POZ domain zinc finger zinc finger protein 161 secondary DNA binding preference 811 825 tcgCGCGcacggcagB cell specific activator protein 678 706 cagcggtgtccgggGGCGggaccgcggcgPax 6 paired domain binding site 54 72 gtctcAAGCatcagtttttZF5 POZ domain zinc finger zinc finger protein 161 secondary DNA binding preference 651 665 ggcCGCGctgtgccgPax 6 paired domain binding site 758 776 ttttaTCGCctcagtttccMammalian C type LTR TATA box 751 767 ggcgaTAAAagacgcacNuclear factor Y Y box binding factor 624 638 cccgCCAAtgaacggTranscription factor II B TFIIB recognition element 356 362 ccgCGCCTranscription factor II B TFIIB recognition element 440 446 ccgCGCCTranscription factor II B TFIIB recognition element 734 740 ccgCGCCNuclear factor Y Y box binding factor 581 595 ccacTCAAtcagttgCCAAT enhancer binding protein alpha 529 543 tcggttgaGTAAacgSecondary structure editThere are two regions in the ACOT9 gene sequence that are labeled as BFIT Brown Fat Inducible Thioesterase and BACH Brain Acyl CoA Hydrolase regions These regions are part of a hotdog fold superfamily which has been found to be used in a variety of cell roles 23 Predictions show there to be various alpha helices throughout the structure 24 suggesting it is a transmembrane protein Interactions editA mitochondrial cleavage site can be found at amino acid 30 in the ACOT9 sequence and the probability of export to the mitochondria is 0 9374 25 The Acyl CoA thioesterase 9 protein is estimated to be 60 9 mitochondrial 21 7 cytoplasmic 8 7 nuclear 4 3 in the plasma membrane and 4 3 in the endoplasmic reticulum 26 The ACOT9 protein has been found to interact with the following proteins either experimentally or through co expression 27 C1orf151 MCTS1 C1GALT1C1 FBXW12 RLIM RPS6KA3 RAB9A UBC CXorf26 HCCSReferences edit a b c GRCh38 Ensembl release 89 ENSG00000123130 Ensembl May 2017 a b c GRCm38 Ensembl release 89 ENSMUSG00000025287 Ensembl May 2017 Human PubMed Reference National Center for Biotechnology Information U S National Library of Medicine Mouse PubMed Reference National Center for Biotechnology Information U S National Library of Medicine Tillander V Arvidsson Nordstrom E Reilly J Strozyk M Van Veldhoven PP Hunt MC Alexson SE Mar 2014 Acyl CoA thioesterase 9 ACOT9 in mouse may provide a novel link between fatty acid and amino acid metabolism in mitochondria Cellular and Molecular Life Sciences 71 5 933 48 doi 10 1007 s00018 013 1422 1 hdl 10616 41794 PMID 23864032 S2CID 18767370 Kent WJ Sugnet CW Furey TS Roskin KM Pringle TH Zahler AM Haussler D June 12 2002 Human Feb 2009 GRCh37 hg19 Assembly The human genome browser at UCSC UCSC Genome Bioinformatics Retrieved March 12 2014 Gu J MacHugh DE McGivney BA Park SD Katz LM Hill EW Nov 2010 Association of sequence variants in CKM creatine kinase muscle and COX4I2 cytochrome c oxidase subunit 4 isoform 2 genes with racing performance in Thoroughbred horses Equine Veterinary Journal Supplement 42 38 569 75 doi 10 1111 j 2042 3306 2010 00181 x PMID 21059062 Poupon V Begue B Gagnon J Dautry Varsat A Cerf Bensussan N Benmerah A Jul 1999 Molecular cloning and characterization of MT ACT48 a novel mitochondrial acyl CoA thioesterase The Journal of Biological Chemistry 274 27 19188 94 doi 10 1074 jbc 274 27 19188 PMID 10383425 Mashek DG Bornfeldt KE Coleman RA Berger J Bernlohr DA Black P DiRusso CC Farber SA Guo W Hashimoto N Khodiyar V Kuypers FA Maltais LJ Nebert DW Renieri A Schaffer JE Stahl A Watkins PA Vasiliou V Yamamoto TT Oct 2004 Revised nomenclature for the mammalian long chain acyl CoA synthetase gene family Journal of Lipid Research 45 10 1958 61 doi 10 1194 jlr e400002 jlr200 PMID 15292367 Ogiwara H Tanabe T Nikawa J Numa S Aug 1978 Inhibition of rat liver acetyl coenzyme A carboxylase by palmitoyl coenzyme A Formation of equimolar enzyme inhibitor complex European Journal of Biochemistry 89 1 33 41 doi 10 1111 j 1432 1033 1978 tb20893 x PMID 29756 Srere PA Dec 1965 Palmityl coenzyme A inhibition of the citrate condensing enzyme Biochimica et Biophysica Acta BBA Lipids and Lipid Metabolism 106 3 445 55 doi 10 1016 0005 2760 65 90061 5 PMID 5881327 Gribble FM Proks P Corkey BE Ashcroft FM Oct 1998 Mechanism of cloned ATP sensitive potassium channel activation by oleoyl CoA The Journal of Biological Chemistry 273 41 26383 7 doi 10 1074 jbc 273 41 26383 PMID 9756869 Nishizuka Y Apr 1995 Protein kinase C and lipid signaling for sustained cellular responses FASEB Journal 9 7 484 96 doi 10 1096 fasebj 9 7 7737456 PMID 7737456 S2CID 31065063 Glick BS Rothman JE 1987 Possible role for fatty acyl coenzyme A in intracellular protein transport Nature 326 6110 309 12 Bibcode 1987Natur 326 309G doi 10 1038 326309a0 PMID 3821906 S2CID 4306469 Wan YJ Cai Y Cowan C Magee TR Jun 2000 Fatty acyl CoAs inhibit retinoic acid induced apoptosis in Hep3B cells Cancer Letters 154 1 19 27 doi 10 1016 s0304 3835 00 00341 4 PMID 10799735 Duncan JA Gilman AG Jun 1998 A cytoplasmic acyl protein thioesterase that removes palmitate from G protein alpha subunits and p21 RAS The Journal of Biological Chemistry 273 25 15830 7 doi 10 1074 jbc 273 25 15830 PMID 9624183 Berthiaume L Deichaite I Peseckis S Resh MD Mar 1994 Regulation of enzymatic activity by active site fatty acylation A new role for long chain fatty acid acylation of proteins The Journal of Biological Chemistry 269 9 6498 505 doi 10 1016 S0021 9258 17 37399 4 PMID 8120000 Hunt MC Alexson SE Mar 2002 The role Acyl CoA thioesterases play in mediating intracellular lipid metabolism Progress in Lipid Research 41 2 99 130 doi 10 1016 s0163 7827 01 00017 0 PMID 11755680 ACOT9 gene detail Mouse Genome Database Retrieved 2014 06 19 Gene Acot9 Ensembl release 75 Large scale analysis of the human transcriptome HG U133A National Center for Biotechnology Information Retrieved 10 May 2014 EST Profile Hs 298885 ACOT9 Acyl CoA thioesterase 9 Retrieved 10 May 2014 Dillon SC Bateman A Aug 2004 The Hotdog fold wrapping up a superfamily of thioesterases and dehydratases BMC Bioinformatics 5 109 doi 10 1186 1471 2105 5 109 PMC 516016 PMID 15307895 SDSC Biology WorkBench 3 2 Pele Program dead link Claros MG Vincens P Nov 1996 Computational method to predict mitochondrially imported proteins and their targeting sequences European Journal of Biochemistry 241 3 779 86 doi 10 1111 j 1432 1033 1996 00779 x PMID 8944766 PSORTII Prediction Tool verification needed Jensen LJ Kuhn M Stark M Chaffron S Creevey C Muller J Doerks T Julien P Roth A Simonovic M Bork P von Mering C Jan 2009 STRING 8 a global view on proteins and their functional interactions in 630 organisms Nucleic Acids Research 37 Database issue D412 6 doi 10 1093 nar gkn760 PMC 2686466 PMID 18940858 External links editHuman ACOT9 genome location and ACOT9 gene details page in the UCSC Genome Browser Further reading editMulkearns EE Cooper JA Apr 2012 FCH domain only 2 organizes clathrin coated structures and interacts with Disabled 2 for low density lipoprotein receptor endocytosis Molecular Biology of the Cell 23 7 1330 42 doi 10 1091 mbc E11 09 0812 PMC 3315808 PMID 22323290 Hunt MC Yamada J Maltais LJ Wright MW Podesta EJ Alexson SE Sep 2005 A revised nomenclature for mammalian acyl CoA thioesterases hydrolases Journal of Lipid Research 46 9 2029 32 doi 10 1194 jlr E500003 JLR200 PMID 16103133 Alkhaja AK Jans DC Nikolov M Vukotic M Lytovchenko O Ludewig F Schliebs W Riedel D Urlaub H Jakobs S Deckers M Jan 2012 MINOS1 is a conserved component of mitofilin complexes and required for mitochondrial function and cristae organization PDF Molecular Biology of the Cell 23 2 247 57 doi 10 1091 mbc E11 09 0774 PMC 3258170 PMID 22114354 Poupon V Begue B Gagnon J Dautry Varsat A Cerf Bensussan N Benmerah A Jul 1999 Molecular cloning and characterization of MT ACT48 a novel mitochondrial acyl CoA thioesterase The Journal of Biological Chemistry 274 27 19188 94 doi 10 1074 jbc 274 27 19188 PMID 10383425 This article incorporates text from the United States National Library of Medicine which is in the public domain Retrieved from https en wikipedia org w index php title Acyl CoA thioesterase 9 amp oldid 1205191993, wikipedia, wiki, book, books, library,

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