Tubulin_CTubulin/FtsZ family, C-terminal domain
|SMART accession number:||SM00865|
|Description:||This domain is found in the tubulin alpha, beta and gamma chains, as well as the bacterial FtsZ family of proteins. These proteins are GTPases and are involved in polymer formation. Tubulin is the major component of microtubules, while FtsZ is the polymer-forming protein of bacterial cell division, it is part of a ring in the middle of the dividing cell that is required for constriction of cell membrane and cell envelope to yield two daughter cells. FtsZ can polymerise into tubes, sheets, and rings in vitro and is ubiquitous in bacteria and archaea. This is the C-terminal domain.|
|Interpro abstract (IPR018316):|
This domain is found in the tubulin alpha, beta and gamma chains, as well as the bacterial FtsZ family of proteins. These proteins are GTPases and are involved in polymer formation. Tubulin is the major component of microtubules, while FtsZ is the polymer-forming protein of bacterial cell division, it is part of a ring in the middle of the dividing cell that is required for constriction of cell membrane and cell envelope to yield two daughter cells. FtsZ can polymerise into tubes, sheets, and rings in vitro and is ubiquitous in bacteria and archaea. This is the C-terminal domain.
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- Evolution (species in which this domain is found)
Taxonomic distribution of proteins containing Tubulin_C domain.
This tree includes only several representative species. The complete taxonomic breakdown of all proteins with Tubulin_C domain is also avaliable.
Click on the protein counts, or double click on taxonomic names to display all proteins containing Tubulin_C domain in the selected taxonomic class.
- Cellular role (predicted cellular role)
Cellular role: replication
- Literature (relevant references for this domain)
Primary literature is listed below; Automatically-derived, secondary literature is also avaliable.
- Lowe J, Amos LA
- Crystal structure of the bacterial cell-division protein FtsZ.
- Nature. 1998; 391: 203-6
- Display abstract
Bacterial cell division ends with septation, the constriction of the cellwall and cell membranes that leads to the formation of two daughter cells.During septation, FtsZ, a protein of relative molecular mass 40,000 whichis ubiquitous in eubacteria and is also found in archaea and chloroplasts,localizes early at the division site to form a ring-shaped septum. Thisseptum is required for the mechanochemical process of membraneconstriction. FtsZ is a GTPase with weak sequence homology to tubulins.The nature of FtsZ polymers in vivo is unknown, but FtsZ can form tubules,sheets and minirings in vitro. Here we report the crystal structure at 2.8A resolution of recombinant FtsZ from the hyperthermophilic methanogenMethanococcus jannaschii. FtsZ has two domains, one of which is a GTPasedomain with a fold related to one found in the proteins p21ras andelongation factor EF-Tu. The carboxy-terminal domain, whose function isunknown, is a four-stranded beta-sheet tilted by 90 degrees against thebeta-sheet of the GTPase domain. The two domains are arranged around acentral helix. GDP binding is different from that typically found inGTPases and involves four phosphate-binding loops and a sugar-binding loopin the first domain, with guanine being recognized by residues in thecentral connecting helix. The three-dimensional structure of FtsZ issimilar to the structure of alpha- and beta-tubulin.
- Nogales E, Wolf SG, Downing KH
- Structure of the alpha beta tubulin dimer by electron crystallography.
- Nature. 1998; 391: 199-203
- Display abstract
The alphabeta tubulin heterodimer is the structural subunit ofmicrotubules, which are cytoskeletal elements that are essential forintracellular transport and cell division in all eukaryotes. Each tubulinmonomer binds a guanine nucleotide, which is nonexchangeable when it isbound in the alpha subunit, or N site, and exchangeable when bound in thebeta subunit, or E site. The alpha- and beta-tubulins share 40% amino-acidsequence identity, both exist in several isotype forms, and both undergo avariety of posttranslational modifications. Limited sequence homology hasbeen found with the proteins FtsZ and Misato, which are involved in celldivision in bacteria and Drosophila, respectively. Here we present anatomic model of the alphabeta tubulin dimer fitted to a 3.7-A density mapobtained by electron crystallography of zinc-induced tubulin sheets. Thestructures of alpha- and beta-tubulin are basically identical: eachmonomer is formed by a core of two beta-sheets surrounded byalpha-helices. The monomer structure is very compact, but can be dividedinto three functional domains: the amino-terminal domain containing thenucleotide-binding region, an intermediate domain containing theTaxol-binding site, and the carboxy-terminal domain, which probablyconstitutes the binding surface for motor proteins.
- Structure (3D structures containing this domain)
3D Structures of Tubulin_C domains in PDB
PDB code Main view Title 1ffx TUBULIN:STATHMIN-LIKE DOMAIN COMPLEX 1fsz CRYSTAL STRUCTURE OF THE CELL-DIVISION PROTEIN FTSZ AT 2.8A RESOLUTION 1ia0 KIF1A HEAD-MICROTUBULE COMPLEX STRUCTURE IN ATP-FORM 1jff Refined structure of alpha-beta tubulin from zinc-induced sheets stabilized with taxol 1ofu Crystal structure of SulA:FtsZ from Pseudomonas aeruginosa 1rlu Mycobacterium tuberculosis FtsZ in complex with GTP-gamma-S 1rq2 MYCOBACTERIUM TUBERCULOSIS FTSZ IN COMPLEX WITH CITRATE 1rq7 MYCOBACTERIUM TUBERCULOSIS FTSZ IN COMPLEX WITH GDP 1sa0 TUBULIN-COLCHICINE: STATHMIN-LIKE DOMAIN COMPLEX 1sa1 Tubulin-podophyllotoxin: stathmin-like domain complex 1tub TUBULIN ALPHA-BETA DIMER, ELECTRON DIFFRACTION 1tvk The binding mode of epothilone A on a,b-tubulin by electron crystallography 1w58 FtsZ GMPCPP soak I213 (M. jannaschii) 1w59 FtsZ dimer, empty (M. jannaschii) 1w5a FtsZ dimer, MgGTP soak (M. jannaschii) 1w5b FtsZ dimer, GTP soak (M. jannaschii) 1w5e FtsZ W319Y mutant, P1 (M. jannaschii) 1w5f FtsZ, T7 mutated, domain swapped (T. maritima) 1z2b Tubulin-colchicine-vinblastine: stathmin-like domain complex 1z5v Crystal structure of human gamma-tubulin bound to GTPgammaS 1z5w Crystal Structure of gamma-tubulin bound to GTP 2btq Structure of BtubAB heterodimer from Prosthecobacter dejongeii 2hxf KIF1A head-microtubule complex structure in amppnp-form 2hxh KIF1A head-microtubule complex structure in adp-form 2p4n Human Monomeric Kinesin (1BG2) and Bovine Tubulin (1JFF) Docked into the 9-Angstrom Cryo-EM Map of Nucleotide-Free Kinesin Complexed to the Microtubule 2q1x Crystal Structure of cell division protein FtsZ from Mycobacterium tuberculosis in complex with citrate. 2q1y Crystal Structure of cell division protein FtsZ from Mycobacterium tuberculosis in complex with GTP-gamma-S 2r6r Aquifex aeolicus FtsZ 2r75 Aquifex aeolicus FtsZ with 8-morpholino-GTP 2rhh Synthetic Gene Encoded Bacillus Subtilis FtsZ with Bound Sulfate Ion 2rhj Synthetic Gene Encoded Bacillus Subtilis FtsZ with Two Sulfate Ions and Sodium Ion in the Nucleotide Pocket 2rhl Synthetic Gene Encoded Bacillus Subtilis FtsZ NCS Dimer with Bound GDP 2rho Synthetic Gene Encoded Bacillus Subtilis FtsZ NCS Dimer with Bound GDP and GTP-gamma-S 2vam FtsZ B. subtilis 2vap FtsZ GDP M. jannaschii 2vaw FtsZ Pseudomonas aeruginosa GDP 2vxy The structure of FTsZ from Bacillus subtilis at 1.7A resolution 2wbe Kinesin-5-Tubulin Complex with AMPPNP 2xrp Human Doublecortin N-DC Repeat (1MJD) and Mammalian Tubulin (1JFF and 3HKE) Docked into the 8-Angstrom Cryo-EM Map of Doublecortin- Stabilised Microtubules 3cb2 Crystal structure of human gamma-tubulin bound to GDP 3dco Drosophila NOD (3DC4) and Bovine Tubulin (1JFF) Docked into the 11-Angstrom Cryo-EM Map of Nucleotide-Free NOD Complexed to the Microtubule 3du7 Tubulin-colchicine-phomopsin A: Stathmin-like domain complex 3e22 Tubulin-colchicine-soblidotin: Stathmin-like domain complex 3edl Kinesin13-Microtubule Ring complex 3hkb Tubulin: RB3 Stathmin-like domain complex 3hkc Tubulin-ABT751: RB3 stathmin-like domain complex 3hkd Tubulin-TN16 : RB3 stathmin-like domain complex 3hke Tubulin-T138067: RB3 stathmin-like domain complex 3iz0 Human Ndc80 Bonsai Decorated Microtubule 3j1t High affinity dynein microtubule binding domain - tubulin complex 3j1u Low affinity dynein microtubule binding domain - tubulin complex 3j2u Kinesin-13 KLP10A HD in complex with CS-tubulin and a microtubule 3n2g TUBULIN-NSC 613863: RB3 Stathmin-like domain complex 3n2k TUBULIN-NSC 613862: RB3 Stathmin-like domain complex 3ryc Tubulin: RB3 stathmin-like domain complex 3ryf GTP-Tubulin: RB3 Stathmin-like domain complex 3ryh GMPCPP-Tubulin: RB3 Stathmin-like domain complex 3ryi GDP-Tubulin: rb3 stathmin-like domain complex 3ut5 Tubulin-Colchicine-Ustiloxin: Stathmin-like domain complex 3vo8 Staphylococcus aureus FtsZ GDP-form 3vo9 Staphylococcus aureus FtsZ apo-form (SeMet) 3voa Staphylococcus aureus FtsZ 12-316 GDP-form 3vob Staphylococcus aureus FtsZ with PC190723 3vpa Staphylococcus aureus FtsZ apo-form 3wgj STAPHYLOCOCCUS AUREUS FTSZ T7 chimera mutant, T7Bs 3wgk STAPHYLOCOCCUS AUREUS FTSZ T7 mutant substituted for GAG, DeltaT7GAG-GDP 3wgl STAPHYLOCOCCUS AUREUS FTSZ T7 mutant substituted for GAN bound with GDP, DeltaT7GAN-GDP 3wgm STAPHYLOCOCCUS AUREUS FTSZ T7 mutant substituted for GAN bound with GTP, DeltaT7GAN-GTP 3wgn STAPHYLOCOCCUS AUREUS FTSZ bound with GTP-gamma-S 4abo Mal3 CH domain homology model and mammalian tubulin (2XRP) docked into the 8.6-Angstrom cryo-EM map of Mal3-GTPgammaS-microtubules 4aqv Model of human kinesin-5 motor domain (3HQD) and mammalian tubulin heterodimer (1JFF) docked into the 9.7-angstrom cryo-EM map of microtubule-bound kinesin-5 motor domain in the AMPPPNP state. 4aqw Model of human kinesin-5 motor domain (1II6, 3HQD) and mammalian tubulin heterodimer (1JFF) docked into the 9.5-angstrom cryo-EM map of microtubule-bound kinesin-5 motor domain in the rigor state. 4atu Human doublecortin N-DC repeat plus linker, and tubulin (2XRP) docked into an 8A cryo-EM map of doublecortin-stabilised microtubules reconstructed in absence of kinesin 4atx Rigor kinesin motor domain with an ordered neck-linker, docked on tubulin dimer, modelled into the 8A cryo-EM map of doublecortin- microtubules decorated with kinesin 4ck5 Pseudo-atomic model of microtubule-bound human kinesin-5 motor domain in the ADP state, based on cryo-electron microscopy experiment. 4ck6 Pseudo-atomic model of microtubule-bound human kinesin-5 motor domain in the ADP.AlFx state, based on cryo-electron microscopy experiment. 4ck7 Pseudo-atomic model of microtubule-bound human kinesin-5 motor domain in presence of adp.alfx (NECK-LINKER IN ITS DISCONNECTED CONFORMATION, based on cryo-electron microscopy experiment 4drx GTP-Tubulin in complex with a DARPIN 4dxd Staphylococcal Aureus FtsZ in complex with 723 4e6e Crystal structure of a putative cell division protein FtsZ (Tfu_1113) from Thermobifida fusca YX-ER1 at 2.22 A resolution (PSI Community Target, van Wezel G.P.) 4eb6 Tubulin-Vinblastine: Stathmin-like complex 4f61 Tubulin:Stathmin-like domain complex 4f6r Tubulin:Stathmin-like domain complex 4ffb A TOG:alpha/beta-tubulin Complex Structure Reveals Conformation-Based Mechanisms For a Microtubule Polymerase 4hna Kinesin motor domain in the ADP-MG-ALFX state in complex with tubulin and a DARPIN 4i4t Crystal structure of tubulin-RB3-TTL-Zampanolide complex 4i50 Crystal structure of tubulin-stathmin-TTL-Epothilone A complex 4i55 Crystal structure of tubulin-stathmin-TTL complex 4ihj Crystal structure of tubulin-stathmin-TTL-ADP complex 4iij Crystal structure of tubulin-stathmin-TTL-apo complex 4kwe GDP-bound, double-stranded, curved FtsZ protofilament structure 4m8i 1.43 Angstrom resolution crystal structure of cell division protein FtsZ (ftsZ) from Staphylococcus epidermidis RP62A in complex with GDP 4o2a Tubulin-BAL27862 complex 4o2b Tubulin-Colchicine complex 4o4h Tubulin-Laulimalide complex 4o4i Tubulin-Laulimalide-Epothilone A complex 4o4j Tubulin-Peloruside A complex 4o4l Tubulin-Peloruside A-Epothilone A complex
- Links (links to other resources describing this domain)
PFAM Tubulin_C INTERPRO IPR018316