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[[ATPase]] is an enzyme which catalyzes the breakdown of ATP into ADP and a phosphate ion.  This dephosphorylation releases energy which the enzyme uses to drive other reactions.  ATPase types include:<br />
[[ATPase]] is an enzyme which catalyzes the breakdown of [[ATP]] into ADP and a phosphate ion.  This dephosphorylation releases energy which the enzyme uses to drive other reactions<ref>PMID:15078220</ref>. The F1/0 ATPase is called '''ATP synthase''' synthesises the reverse reaction, i.e., the addition of phosphate to ADP to form ATP<ref>PMID:30888962</ref>.  ATPase types include:<br />
* '''F-ATPase''' - the prime producers of ATP;<br />
* '''F-ATPase''' - the prime producers of ATP<ref>PMID:8065448</ref>.  For details see [[Alice Clark/ATPsynthase]];<br /> <!--Should there be a F-ATPase page for this like thee is for V-ATPase below? If one is made, I'd like to see links to the animations/movies referenced at https://twitter.com/NathanRoberts17/status/943428752113094656 there.-->
* '''V-ATPase''' or Vacuolar-type H+ ATPase couples the energy to proton transport across membranes.  For details see [[V-ATPase]];<br />
* '''V-ATPase''' or Vacuolar-type H+ ATPase couples the energy to proton transport across membranes.   
 
ATPase is inhibited by [[Bedaquiline]] which is used as TB drug<ref>PMID:28807917</ref>.
 
For details see [[V-ATPase]];<br />
* '''A-ATPase''' are found in archaea.  For details see [[A-ATP Synthase]];<br />
* '''A-ATPase''' are found in archaea.  For details see [[A-ATP Synthase]];<br />
* '''P-ATPase''' transport ions;<br />
* '''P-ATPase''' transport ions<ref>PMID:20962537</ref><br />
* '''E-ATPase''' hydrolyze extracellular ATP.  <br />
* '''E-ATPase''' hydrolyze extracellular ATP<ref>PMID:7721538</ref>.  <br />
*  '''MipZ''' is an ATPase which forms a complex with the chromosome partitioning protein ParB and is responsible for the regulation of FtsZ ring formation.<br />
*  '''MipZ''' is an ATPase which forms a complex with the chromosome partitioning protein ParB and is responsible for the regulation of FtsZ ring formation.<br />
ATPase domains include metal-binding domain (MBD) and nucleotide-binding domain (NBD). For more details see:<br />
ATPase domains include metal-binding domain (MBD) and nucleotide-binding domain (NBD). For more details see:<br />
*Cu transporting ATPase are in [[P(1B)-Type Cu(I) Transporting ATPases ATP7A and ATP7B]].<br />
* '''ATPase RavA''' participates in the pathway which response to ahminoglycosides under anaerobic conditions and cell membrane regulation<ref>PMID:36127320</ref>.  <br />
*Na/K transporting ATPase are in [[Sodium-Potassium ATPase]].<br />
* '''ATPase InvC''' energizes the apparatus needed for the entry of ''Salmonella typhimurium'' into mammalian cells<ref>PMID:8045880</ref>.  <br />
*H/K transporting ATPase are in [[Esomeprazole and H+/K+ - ATPase Interaction]].<br />
* '''Peroxisomal ATPase''' Pex1/Pex6 is essential for peroxisome formation<ref>PMID:37741838</ref>.  <br />
*Transitional endoplasmic reticulum ATPase are in [[Valosin Containing Protein D120]].<br />
* '''INO8o ATPase''' is a component of the chromatin remodelling complex<ref>PMID:19062292</ref>.  <br />
*Central stalk in F(1)-ATPase is described in [[A-ATP Synthase]]<br />
*'''Cu transporting ATPase''' are in [[P(1B)-Type Cu(I) Transporting ATPases ATP7A and ATP7B]].<br />
*'''Na/K transporting ATPase''' are in [[Sodium-Potassium ATPase]].<br />
*'''H/K transporting ATPase''' are in [[Esomeprazole and H+/K+ - ATPase Interaction]].<br />
*'''Transitional endoplasmic reticulum ATPase''' are in [[Valosin Containing Protein D120]].<br />
*'''Central stalk in F(1)-ATPase''' is described in [[A-ATP Synthase]]<br />
*[[Journal:JSB:1|RuvBL1/RuvBL2 complex (ATPase)]]<br />
*[[Journal:JSB:1|RuvBL1/RuvBL2 complex (ATPase)]]<br />
*For Ter-ATPase see [[Valosin Containing Protein D120]]




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</StructureSection>
</StructureSection>


== 3D Structures of ATPase ==


Updated on {{REVISIONDAY2}}-{{MONTHNAME|{{REVISIONMONTH}}}}-{{REVISIONYEAR}}
==3D Printed Physical Model of ATP Synthase==
{{#tree:id=OrganizedByTopic|openlevels=0|


*'''F-ATPase'''
Shown below is a 3D printed physical model of the Respiration Electron Transport Chain. Complex I is colored red, complex II is purple, complex III is green, complex IV is blue and the atp synthase protein is colored orange, yellow and red.
[[Image:atpSynthase1_centerForBioMolecularModeling.jpg |550px]]


*''F1F0 ATPase α subunit''


**[[2jmx]] - bF1-ATPS+subunit O<br />
====The MSOE Center for BioMolecular Modeling====
**[[2r9v]] - F1-ATPS – ''Thermotoga maritima''
 
*''F1F0 ATPase β subunit''
 
**[[1b9u]] – EcF1-ATPS membrane domain – ''Escherichia coli'' -NMR<BR />
**[[4utq]] – EcF1-ATPS membrane domain + insertase YIDC – Cryo EM<BR />
**[[1l2p]] – EcF1-ATPS dimerization domain<br />
**[[2khk]] - EcF1-ATPS fragment – NMR<BR />
**[[1pyv]] - F1-ATPS – NMR – tobacco<br />
**[[4q4l]] - F1-ATPS – ''Burkholderia thailandensis''<br />
 
*''F1F0 ATPase γ subunit''
 
**[[1wu0]] – BsATPS – NMR<BR />
**[[1a91]], [[1c0v]], [[1aty]], [[1c99]] - EcF1-ATPS – NMR<BR />
**[[2wgm]], [[1yce]] – F0-ATPS – ''Ilyobacter tartaricus''<br />
**[[2x2v]], [[4cbk]], [[4cbj]] – F0-ATPS – ''Bacillus pseudofirmus''<br />
**[[4mjn]] - F1-ATPS - wheat<br />
**[[4bem]] - F1F0-ATPS – ''Acetobacterium woodii''<br />
 
*''F1F0 ATPase δ subunit''
 
**[[1abv]] – EcF1-ATPS N terminal – NMR<BR />
 
*''F1F0 ATPase ε subunit''
 
**[[2rq6]], [[2rq7]] - F1-ATPS – ''Thermosynechococcus elongatus''<br />
**[[1abv]], [[1aqt]] – EcF1-ATPS (mutant)<br />
**[[1bsh]], [[1bsn]] – EcF1-ATPS – NMR<BR />
**[[2e5t]], [[2e5u]] – BsF1-ATPS C terminal – NMR<BR />
**[[2e5y]] – BsF1-ATPS
 
*''F1F0 ATPase α, β subunits''
 
**[1sky]] – BsF1-ATPS – Bacillus sp. Ps3
 
*''F1F0 ATPase α,γ subunits''
 
**[[1c17]] – EcF1-ATPS – NMR<br />
 
*''F1F0 ATPase α, δ subunits''
 
**[[2a7u]] – EcF1-ATPS N termini – NMR<BR />
 
*''F1F0 ATPase β, δ subunits''
 
**[[2cly]] – bF1-ATPS + ATPS coupling factor
 
*''F1F0 ATPase γ, ε subunits''
 
**[[1fs0]] – EcF1-ATPS
 
*''F1F0 ATPase α, β, γ subunits''
 
**[[1ohh]], [[2jiz]], [[4tt3]], [[4tsf]] – bF1-ATPS+ IF1 inhibitor – bovine<br />
**[[1e1q]], [[2w6e]], [[2w6f]], [[2w6g]], [[2w6h]], [[2w6i]], [[2w6j]] - bF1-ATPS<br />
**[[1e1r]] - bF1-ATPS+Mg+ADP+AlF4<br />
**[[1w0j]], [[1w0k]] -  bF1-ATPS+BeF3<br />
**[[1nbm]] -  bF1-ATPS+nitrobenzofurazan<br />
**[[1mab]], [[2f43]] - F1-ATPS – rat
 
*''F1F0 ATPase α,β,γ,δ subunits''
 
**[[1qo1]] - yF1-ATPS + protein 9<br />
 
*''F1F0 ATPase α,β,γ,ε subunits''
 
**[[1jnv]] - EcF1-ATPS <br />
**[[3oaa]] – EcF1-ATPS (mutant)<br />
**[[2qe7]] – F1-ATPS – ''Bacillus''<br />
 
*''F1F0 ATPase α, β, γ, δ, ε subunits''
 
**[[4asu]], [[2jdi]], [[2jj1]], [[2jj2]] - bF1-ATPS<br />
**[[2v7q]], [[1e79]], [[2ck3]] -  bF1-ATPS+inhibitor<br />
**[[2xnd]], [[2xok]] - bF1-ATPS+ATPS lipid-binding protein<br />
**[[2wpd]], [[2wss]] - yF1-ATPS+subunit 9+Mg+ADP+ATP - yeast<br />
**[[3oe7]], [[3oee]], [[3oeh]], [[3ofn]] - yF1-ATPS (mutant)<br />
**[[3fks]], [[3zry]], [[2hld]] - yF1-ATPS<br />
**[[3zia]] - yF1-ATPS + inhibitor protein<br />
**[[3j0j]] – TtATPS α,β,γ,δ,ε,ζ - Cryo EM<br />
**[[1e79]] - bF1-ATPS<br />
 
*''F1F0 ATPase α,β,γ,δ,ε,9,B,D,6,O subunits''
 
**[[4b2q]] – yATPase subunits α,β,γ,δ,ε +9,B,D,6,O – Cryo EM
 
**[[1bmf]] - bF1-ATPS<br />
**[[3dze]] – bF1-ATPS subunit S<br />
**[[1cow]] - bF1-ATPS+aurovertin B<br />
**[[4f4s]] – yATPase subunit 9 + oligomycin <br />
 
*'''V-ATPase'''
 
*''V-ATPase subunit A''
 
**[[3i4l]] - PhATPS subunit A+AMPPNP<br />
**[[3mfy]], [[3m4y]], [[3nd8]], [[3nd9]], [[3p20]], [[3qg1]], [[3qia]], [[3qjy]], [[3sdz]], [[3se0]] - PhATPS subunit A (mutant)<br />
**[[3i72]], [[3i73]], [[3ikj]] - TtATPS subunit A (mutant)<br />
**[[4o1s]] - ATPS subunit A – ''Thermoplasma volcanium''<br />
 
*''V-ATPase subunit B''
 
**[[2c61]] - MmATPS subunit B – ''Methanosarcina mazei''<br />
**[[2rkw]], [[3b2q]], [[3ssa]], [[3tgw]], [[3tiv]] - MmATPS subunit B (mutant)<br />
**[[3dsr]] - MmATPS subunit B+ADP<br />
**[[3eiu]] - MmATPS subunit B+ATP<br />
 
*''V-ATPase subunit C''
 
**[[1u7l]], [[3u2f]], [[3u2y]], [[3u32]], [[3ud0]] - yATPS subunit C<br />
**[[3v3c]] - ATPS subunit C - pea<br />
**[[1ijp]], [[1l6t]] – EcF1-ATPS subunit C (mutant) – ''Escherichia coli'' - NMR<br />
**[[1r5z]], [[1v9m]] - TtATPS subunit C – ''Thermus thermophilus''<br />
**[[3lg8]] - MtATPS subunit C C-terminal<br />
**[[2w5j]] - sATPS subunit C - spinach<br />
**[[2wie]], [[2xqs]], [[2xqt]], [[2xqu]] - ATPS subunit C – ''Arthrospira platensis''<br />
**[[3zk1]], [[3zk2]] - ATPS subunit C – ''Fusobacterium nucleatum''<br />
 
*''V-ATPase subunit D+F''
 
**[[4rnd]] – yATPase subunit D+F<br />
 
*''V-ATPase subunit E''
 
**[[2kz9]] – yATPase subunit E<br />
**[[2dm9]], [[2dma]], [[4dt0]] - PhATPS subunit E – ''Pyrococcus horikoshii''<br />
**[[2kk7]] - MjATPS subunit E – ''Methanocaldococcus jannaschii''<br />
**[[3v6i]] – TtATPS subunit E + VAPC<br />
 
*''V-ATPase subunit F''
 
**[[2qai]] - ATPS subunit F – ''Pyrococcus furiosus''<br />
**[[2i4r]] - ATPS subunit F – ''Archaeoglobus fulgidus''<br />
**[[2ov6]] - MmATPS subunit F - NMR<br />
**[[2d00]] - TtATPS subunit F <br />
**[[4ix9]] – yATP subunit F (mutant)<br />
 
*''V-ATPase subunit G''
 
**[[2k88]] - yATPS subunit G residues 2-58 - NMR<br />
**[[2kwy]] - yATPS subunit G residues 61-101 - NMR<br />
 
*''V-ATPase subunit H''
 
**[[1ho8]] – yATPS subunit H <br />
 
*''V-ATPase subunit K''
 
**[[2bl2]], [[2cyd]] - ATPS subunit K – ''Enterococcus hirae''<br />
 
*''V-ATPase subunit I''
 
**[[3rrk]] – ATPS subunit I N terminal – ''Meiothermus ruber''
 
**[[4dl0]], [[4efa]] - yATPase subunits C,G,E<br />
**[[3w3a]] - yATPS subunit A,B,D,F<br />
**[[3a5c]], [[3a5d]] - TtATPS subunit A,B,D,F<br />
**[[3gqb]] - TtATPS subunit A (mutant),B (mutant)<br />
**[[3k5b]] - TtATPS subunit E (mutant)+C<br />
 
*'''P-ATPase'''
 
*''Cu transporting ATPase''
 
**[[2kmv]], [[2kmx]], [[2arf]], [[2koy]] – hATPase NBD – human – NMR<br />
**[[2kij]] - hATPase actuator domain – NMR<br />
**[[1yjr]], [[1yjt]], [[1yju]], [[1yjv]] - hATPase  (mutant) 6th soluble domain – NMR<br />
**[[1y3j]], [[1y3k]] - hATPase  5th soluble domain – NMR<br />
**[[2ew9]] - hATPase  5th+6th soluble domains – NMR<br />
**[[1s6o]], [[1s6u]], [[2lqb]] - hATPase  2nd soluble domain – NMR<br />
**[[1q8l]] - hATPase  2nd MBD  – NMR<br />
**[[1aw0]], [[2aw0]] - hATPase  4th MBD  – NMR<br />
**[[1kvi]], [[1kvj]] - hATPase  1st MBD  – NMR<br />
**[[3dxs]] - AtATPase MBD – ''Arabidopsis thaliana''<br />
**[[3voy]] - AfATPase – Archaeoglobus fulgidus – CryoEM<br />
**[[3skx]], [[3sky]] - AfATPase NBD<br />
**[[2k1r]] - hATPase MBD+ ATOX1 – NMR<br />
**[[2rop]], [[2g9o]], [[2ga7]] - hATPase MBD – NMR<br />
**[[2rml]] - BsATPase N-terminal – ''Bacillus subtilis'' – NMR<br />
**[[2gcf]] - sATPase N-terminal - ''Synechocystis'' – NMR<br />
**[[4a4j]] - sATPase N-terminal <br />
**[[4a48]] - sATPase<br />
**[[2iye]] - SsATPase catalytic domain – ''Sulfolobus solfataricus''<br />
**[[2yj3]] - SsATPase catalytic domain (mutant)<br />
**[[2yj4]], [[2yj5]], [[2yj6]] - SsATPase catalytic domain (mutant) + nucleotide<br />
**[[1fvq]], [[1fvs]] - hATPase – NMR<br />
**[[3cjk]] – hATPase + Cu transporting protein ATX1<br />
**[[3rfu]], [[4bbj]], [[4bev]], [[4byg]] – ATPase – ''Legionella pneumophila''<br />
**[[4f2f]] - ATPase metal-binding domain – ''Streptococcus pneumonia''<br />
**[[3j08]], [[3j09]] - AfATPase<br />
**[[3a1c]] – AfATPase + AMPPCP<br />
**[[3a1d]] - AfATPase + ADP-Mg<br / >
**[[3a1e]] - AfATPase (mutant) + AMPPCP<br />
 
*''Na/K transporting ATPase''
 
**[[3a3y]] - SaATPase+K+ouabain – ''Squalus acanthias''<br />
**[[3kdp]], [[3b8e]] – pATPase  – pig <br />
**[[3n23]] – pATPase + ouabain<br />
**[[3wgv]], [[3wgu]] – pATPase + oligomycin<br />
**[[3b8e]] - pATPase a+BeF3 <br />
**[[2hc8]] –AfATPase CopA A domain<br />
**[[2b8e]] - AfATPase CopA NBD<br />
**[[2xze]] - SaATPase<br />
**[[1mo8]], [[1mo7]] - ATPase α-1 – rat<br />
**[[1q3i]] - pATPase NBD<br />
**[[3n2f]], [[4ret]], [[4res]], [[4hyt]], [[4hqj]] - pATPase subunits α,β,γ<br />
**[[2zxe]] - ATPase subunits α,β + phospholemman-like protein – spiny dogfish
 
*''Ca+2 transporting ATPase''
 
**[[3fgo]] - rATPase+CPA+AMPPCP – rabbit<br />
**[[3b9r]], [[1xp5]] - rATPase+AlF4<br />
**[[1wpg]] - rATPase+MgF4<br />
**[[3w5b]] - rATPase+Mg<br />
**[[4h1w]], [[3w5a]] - rATPase+ sarcolipin<br />
**[[3w5c]], [[3w5d]], [[1iwo]] - rATPase<br />
**[[4bew]] - rATPase+ phosphate analog<br />
**[[2zbe]], [[3b9b]] – rATPase+BeF3<br />
**[[2zbf]] - rATPase+BeF3+TG<br />
**[[2zbg]] - rATPase+AlF4+TG<br />
**[[2zbd]], [[3ar8]] - rATPase+AlF4+nucleotide+Ca<br />
**[[3ar9]] - rATPase+BeF3+nucleotide<br />
**[[2dqs]], [[3ar2]], [[1vfp]]  - rATPase+AMPPCP<br />
**[[2c88]], [[2c8k]], [[3ar4]], [[3ar3]], [[3ar5]], [[3ar7]] - rATPase+nucleotide+TG<br />
**[[2ear]], [[2c8l]] - rATPase+TG<br />
**[[2agv]] - rATPase+TG+BHQ<br />
**[[2eas]] - rATPase+CPA<br />
**[[2eat]] - rATPase+CPA+GT<br />
**[[3ar6]] - rATPase+TNP-ADP+GT<br />
**[[2eau]] - rATPase+CPA+curcumin<br />
**[[3ba6]] - rATPase phosphoenzyme intermediate<br />
**[[3fpb]] - rATPase+ATP+cyclopiazonic acid<br />
**[[3fps]], [[2oa0]] - rATPase+ADP+cyclopiazonic acid<br />
**[[2o9j]] - rATPase+MgF4+cyclopiazonic acid<br />
**[[1kju]], [[3n5k]] - rATPase E2 state<br />
**[[2c9m]] - rATPase Ca2E1 state<br />
**[[1t5s]], [[3n8g]] - rATPase Ca2E1 state+AMPPCP<br />
**[[4nab]] - rATPase Ca2E1 state (mutant) +AMPPCP<br />
**[[1t5t]] - rATPase Ca2E1 state+ADP+AlF4<br />
**[[1su4]] - rATPase +2Ca2<br />
**[[2by4]], [[2yfy]], [[3nal]], [[3nam]], [[3nan]], [[4uu1]], [[4uu0]], [[4j2t]] - rATPase HNE2 state+thapsigargin derivative
 
*''Zn+2 transporting ATPase''
 
**[[2ofg]], [[2ofh]] - sATPase N-terminal – NMR<br />
**[[4umw]], [[4umv]] - ATPase +Mg – ''Shigella sonni''<br />
 
*''K+ transporting ATPase''
 
**[[2a00]], [[2a29]] - EcATPase NBD of KdpB+AMPPNP– ''Escherichia coli'' – NMR<br />
**[[1svj]], [[1u7q]] - EcATPase NBD of KdpB – NMR<br />
**[[2ynr]], [[4ux2]], [[4ux1]] – pATPase – Cryo EM
 
*''As+ transporting ATPase''
 
**[[1ii0]], [[1f48]] - EcATPase<br />
**[[1ihu]] – EcATPase+Mg+ADP+AlF3<br />
**[[1ii9]] - EcATPase<br />
**[[3h84]], [[3idq]],  [[3a36]], [[3a37]] - yATPase GET3 <br />
**[[4pwx]] - yATPase GET3 + golgi to ER traffic protein + ubiquitin-like protein <br />
**[[3sja]], [[3sjb]], [[3sjc]], [[3sjd]], [[3zs8]], [[3zs9]], [[3b2e]], [[3vlc]] - yATPase GET3 + GET1 cystolic domain<br />
**[[3ibg]] - ATPase GET3 – ''Aspergillus fumigatus''
 
*''H+ transporting ATPase''
 
**[[3b8c]]  - AtATPase C terminal truncated<br />
**[[1mhs]] - ATPase – ''Neurospora crassa''<br />
 
*''Na+ transporting ATPase''
 
**[[2db4]], [[3aou]] - EhATPase subunit K – ''Enterococcus hirae''<br />
**[[3aon]] - EhATPase subunits D,G<br />
**[[3vr2]] - EhATPase subunits A,B<br />
**[[3vr4]], [[3vr5]] - EhATPase subunits A,B,D,G<br />
**[[3vr3]] - EhATPase subunits A,B + AMPPNP<br />
**[[3vr6]] - EhATPase subunits A,B,D,G + AMPPNP<br />
**[[1yce]] - ATPase rotor ring – ''Ilyobacter tartaricus''
 
*''H/K transporting ATPase''
 
**[[1iwc]], [[1iwf]] - pATPase NBD <br />
**[[3ixz]] - pATPase a+AlF4<br />
**[[2xzb]] – pATPase subunits α, β<br />
 
*''Mg+2 transporting ATPase''
 
**[[3gwi]] – EcATPase P-1 NBD
 
*''Arg/ornithine transporting ATPase''
 
**[[3md0]] – MtATPase+GDP – ''Mycobacterium tuberculosis''<br />
**[[1kmh]] - ATPase alpha subunit+tentoxin – spinach<br />
**[[1h8e]] – cATPase+ADP+AlF4+ADP+SO4 - cow<br />
**[[1h8h]] - cATPase+ AMPPNP<br />
**[[1efr]] - cATPase+efrapeptin<br />
**[[3fks]] – yATPase <br />
**[[3ea0]] – ATPase ParA, fragment – ''Chlorobium tepidum''<br />
**[[2qen]] – ATPase (mutant) Walker-type – ''Pyrococcus abyssi''<br />
**[[3cf0]], [[3cf1]], [[3cf3]] – mATPase  NBD+ADP – mouse<br />
**[[3cf2]] - mATPase NBD+ADP+AMP-PNP<br />
**[[2r31]], [[2p4x]] – PdATPase ATP12 – ''Paracoccus denitrificans''<br />
**[[2zd2]] – PdATPase (mutant) ATP12<br />
**[[1d8s]] – EcATPase F1<br />
**[[1vdz]] – PhATPase subunit A – ''Pyrococcus horikoshii''<br />
 
*'''RNA-dependent ATPase'''
 
**[[3eaq]], [[3i31]], [[3i32]] – TtATPase fragment<br />
**[[4kbg]], [[4kbf]] - TtATPase helicase core domain<br />
**[[4i69]], [[4i68]] - TtATPase RRM domain (mutant)<br />
**[[4i67]] - TtATPase RRM domain + RNA<br />
**[[3mwj]] – TtATPase N-terminal (mutant)<br />
**[[3mwk]], [[3nbf]] – TtATPase N-terminal + 8-oxo-AMP<br />
**[[3mwl]] - TtATPase N-terminal (mutant) + 8-oxoadenine<br />
**[[3nej]] - TtATPase reca-like domain (mutant)
 
*'''Proteasome-associated ATPase'''
 
**[[3fp9]], [[3m9b]], [[3m9h]] – MtATPase intern domain<br />
**[[3m91]], [[3m9d]] - MtATPase coiled coil domain + protein PUP<br />
**[[3kw6]] – hATPase 5
 
*'''Transitional endoplasmic reticulum ATPase'''
 
**[[3hu1]], [[3hu2]], [[3hu3]] – hTer-ATPase + ATPGS<br />
**[[4ko8]], [[4kln]] – hTer-ATPase (mutant) + ATPGS<br />
**[[4kod]] – hTer-ATPase (mutant) + ADP<br />
**[[3qc8]], [[3qq8]], [[3qwz]] - hTer-ATPase N terminal + FAS-associated factor 1<br />
**[[3qq7]] - hTer-ATPase N terminal<br />
**[[3tiw]] - hTer-ATPase N terminal + E3 ubiquitin-protein ligase peptide
**[[4kdl]], [[4kdi]] - hTer-ATPase N terminal + ubiquitin thioesterase OTU1<br />
**[[1s3s]] - mTer-ATPase ND1 domain + P47 C terminal<br />
 
*'''LAO/AO transport system ATPase'''
 
**[[3nxs]] – ATPase – ''Mycobacterium smegmatis''
 
*'''DNA double-strand repair ATPase (Rad50)'''
 
**[[3aux]] – MjRad50 – ''Methanocaldococcus jannaschii''<br />
**[[3auy]] - MjRad50 + ADP<br />
**[[3av0]] - MjRad50 + ATP<br />
**[[3qg5]] – Rad50 NBD + MRE11 – ''Thermotoga maritima''<br />
**[[3qkr]], [[3qks]], [[3qf7]] - PfRad50 NBD + MRE11 – ''Pyrococcus furiosus''<br />
**[[4nck]], [[4nci]], [[4nch]] - PfRad50 NBD (mutant)<br />
**[[4ncj]] - PfRad50 NBD (mutant) + BeF3 + ADP<br />
**[[3qkt]] - PfRad50 NBD + AMPPNP<br />
**[[3qku]] - PfRad50 NBD + AMPPNP + MRE11
 
*'''MipZ ATPase'''
 
**[[2xit]], [[2xj4]] – CcMipZ – ''Caulobacter crescentus''<br />
**[[2xj9]] – CcMipZ (mutant)
 
 
**[[3nbx]] – EcATPase Rava + ADP
 
*'''FlaI ATPase'''
 
**[[4ihq]], [[4ii7]] – ATPase (mutant) – ''Sulfolobus acidocaldarius''<br />
 
*'''The RuvBL1/RuvBL2 complex (ATPase)'''
 
**  [[Journal:JSB:1|RuvBL1/RuvBL2 complex (ATPase)]] - Structural and functional insights into a dodecameric molecular machine<ref >PMID: 21933716</ref><br />
 
}}


[[Image:CbmUniversityLogo.jpg | left | 150px]]


The [http://cbm.msoe.edu MSOE Center for BioMolecular Modeling] uses 3D printing technology to create physical models of protein and molecular structures, making the invisible molecular world more tangible and comprehensible. To view more protein structure models, visit our [http://cbm.msoe.edu/educationalmedia/modelgallery/ Model Gallery].


== 3D Structures of ATPase ==
[[ATPase 3D structures]]


==References==
==References==

Latest revision as of 14:36, 21 November 2024


ATPase is an enzyme which catalyzes the breakdown of ATP into ADP and a phosphate ion. This dephosphorylation releases energy which the enzyme uses to drive other reactions[1]. The F1/0 ATPase is called ATP synthase synthesises the reverse reaction, i.e., the addition of phosphate to ADP to form ATP[2]. ATPase types include:

  • F-ATPase - the prime producers of ATP[3]. For details see Alice Clark/ATPsynthase;
  • V-ATPase or Vacuolar-type H+ ATPase couples the energy to proton transport across membranes.

ATPase is inhibited by Bedaquiline which is used as TB drug[4].

For details see V-ATPase;

  • A-ATPase are found in archaea. For details see A-ATP Synthase;
  • P-ATPase transport ions[5]
  • E-ATPase hydrolyze extracellular ATP[6].
  • MipZ is an ATPase which forms a complex with the chromosome partitioning protein ParB and is responsible for the regulation of FtsZ ring formation.

ATPase domains include metal-binding domain (MBD) and nucleotide-binding domain (NBD). For more details see:



An ATPase, Human RuvB-like 1 dodecamer complex with ADP (PDB code 2c9o)

Drag the structure with the mouse to rotate


3D Printed Physical Model of ATP Synthase3D Printed Physical Model of ATP Synthase

Shown below is a 3D printed physical model of the Respiration Electron Transport Chain. Complex I is colored red, complex II is purple, complex III is green, complex IV is blue and the atp synthase protein is colored orange, yellow and red.


The MSOE Center for BioMolecular ModelingThe MSOE Center for BioMolecular Modeling

The MSOE Center for BioMolecular Modeling uses 3D printing technology to create physical models of protein and molecular structures, making the invisible molecular world more tangible and comprehensible. To view more protein structure models, visit our Model Gallery.

3D Structures of ATPase3D Structures of ATPase

ATPase 3D structures

ReferencesReferences

  1. Rappas M, Niwa H, Zhang X. Mechanisms of ATPases--a multi-disciplinary approach. Curr Protein Pept Sci. 2004 Apr;5(2):89-105. doi: 10.2174/1389203043486874. PMID:15078220 doi:http://dx.doi.org/10.2174/1389203043486874
  2. Neupane P, Bhuju S, Thapa N, Bhattarai HK. ATP Synthase: Structure, Function and Inhibition. Biomol Concepts. 2019 Mar 7;10(1):1-10. doi: 10.1515/bmc-2019-0001. PMID:30888962 doi:http://dx.doi.org/10.1515/bmc-2019-0001
  3. Abrahams JP, Leslie AG, Lutter R, Walker JE. Structure at 2.8 A resolution of F1-ATPase from bovine heart mitochondria. Nature. 1994 Aug 25;370(6491):621-8. PMID:8065448 doi:http://dx.doi.org/10.1038/370621a0
  4. Dupont C, Viljoen A, Thomas S, Roquet-Banères F, Herrmann JL, Pethe K, Kremer L. Bedaquiline Inhibits the ATP Synthase in Mycobacterium abscessus and Is Effective in Infected Zebrafish. Antimicrob Agents Chemother. 2017 Oct 24;61(11):e01225-17. PMID:28807917 doi:10.1128/AAC.01225-17
  5. Chan H, Babayan V, Blyumin E, Gandhi C, Hak K, Harake D, Kumar K, Lee P, Li TT, Liu HY, Lo TC, Meyer CJ, Stanford S, Zamora KS, Saier MH Jr. The p-type ATPase superfamily. J Mol Microbiol Biotechnol. 2010;19(1-2):5-104. doi: 10.1159/000319588. Epub 2010, Oct 20. PMID:20962537 doi:http://dx.doi.org/10.1159/000319588
  6. Plesner L. Ecto-ATPases: identities and functions. Int Rev Cytol. 1995;158:141-214. doi: 10.1016/s0074-7696(08)62487-0. PMID:7721538 doi:http://dx.doi.org/10.1016/s0074-7696(08)62487-0
  7. Felix J, Bumba L, Liesche C, Fraudeau A, Rébeillé F, El Khoury JY, Huard K, Gallet B, Moriscot C, Kleman JP, Duhoo Y, Jessop M, Kandiah E, Barras F, Jouhet J, Gutsche I. The AAA+ ATPase RavA and its binding partner ViaA modulate E. coli aminoglycoside sensitivity through interaction with the inner membrane. Nat Commun. 2022 Sep 20;13(1):5502. PMID:36127320 doi:10.1038/s41467-022-32992-9
  8. Eichelberg K, Ginocchio CC, Galán JE. Molecular and functional characterization of the Salmonella typhimurium invasion genes invB and invC: homology of InvC to the F0F1 ATPase family of proteins. J Bacteriol. 1994 Aug;176(15):4501-10. PMID:8045880 doi:10.1128/jb.176.15.4501-4510.1994
  9. Rüttermann M, Koci M, Lill P, Geladas ED, Kaschani F, Klink BU, Erdmann R, Gatsogiannis C. Structure of the peroxisomal Pex1/Pex6 ATPase complex bound to a substrate. Nat Commun. 2023 Sep 23;14(1):5942. PMID:37741838 doi:10.1038/s41467-023-41640-9
  10. Conaway RC, Conaway JW. The INO80 chromatin remodeling complex in transcription, replication and repair. Trends Biochem Sci. 2009 Feb;34(2):71-7. PMID:19062292 doi:10.1016/j.tibs.2008.10.010

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