>TIGR02169 SMC_prok_A chromosome segregation protein SMC; InterPro: IPR011891 The SMC (structural maintenance of chromosomes) family of proteins, exist in virtually all organisms including both bacteria and archaea. The SMC proteins are essential for successful chromosome transmission during replication and segregation of the genome in all organisms and form three types of heterodimer (SMC1SMC3, SMC2SMC4, SMC5SMC6), which are core components of large multiprotein complexes. The best known complexes are cohesin, which is responsible for sister-chromatid cohesion, and condensin, which is required for full chromosome condensation in mitosis. SMCs are generally present as single proteins in bacteria, and as at least six distinct proteins in eukaryotes. The proteins range in size from approximately 110 to 170 kDa, and share a five-domain structure, with globular N- and C-terminal (IPR003395 from INTERPRO) domains separated by a long (circa 100 nm or 900 residues) coiled coil segment in the centre of which is a globular ''hinge'' domain, characterised by a set of four highly conserved glycine residues that are typical of flexible regions in a protein. The amino-terminal domain contains a 'Walker A' nucleotide-binding domain (GxxGxGKS/T), which by mutational studies has been shown to be essential in several proteins. The carboxy-terminal domain contains a sequence (the DA-box) that resembles a 'Walker B' motif (XXXXD, where X is any hydrophobic residue), and a LSGG motif with homology to the signature sequence of the ATP-binding cassette (ABC) family of ATPases . All SMC proteins appear to form dimers, either forming homodimers with themselves, as in the case of prokaryotic SMC proteins, or heterodimers between different but related SMC proteins. The dimers are arranged in an antiparallel alignment. This orientation brings the N- and C-terminal globular domains (from either different or identical protamers) together, which unites an ATP binding site (Walker A motif) within the N-terminal domain with a Walker B motif (DA box) within the C-terminal domain, to form a potentially functional ATPase. Protein interaction and microscopy data suggest that SMC dimers form a ring-like structure which might embrace DNA molecules. Non-SMC subunits associate with the SMC amino- and carboxy-terminal domains. The sequence homology within the carboxy-terminal domain is relatively high within the SMC1-SMC4 group, whereas SMC5 and SMC6 show some divergence in both of these sequences. SMCs share not only sequence similarity but also structural similarity with ABC proteins. SMC proteins function together with other proteins in a range of chromosomal transactions, including chromosome condensation, sister-chromatid cohesion, recombination, DNA repair and epigenetic silencing of gene expression . This family represents the SMC protein of archaea and a few bacteria (Aquifex, Synechocystis, etc); the SMC of other bacteria is described by IPR011890 from INTERPRO. The N- and C-terminal domains of this protein are well conserved, but the central hinge region is skewed in composition and highly divergent ..

Probab=97.74  E-value=0.0041  Score=39.48  Aligned_cols=183  Identities=18%  Similarity=0.268  Sum_probs=136.3

Q ss_pred             HHHHHHHHHHCCHHHHHHH-----------HHHHHHHHHHHHHHHHHHHHHHH---HHHHHHHHHHH-HHHHHHHHHHHH
Q ss_conf             1568887520000266644-----------33457777788888767652111---36678999999-988899999766
Q gi|255764514|r  316 IDQLPELAKKMEEDLADIS-----------EGNEKVVSLERVLYEARQAYDRV---AQDISTKRYQF-AKMLEKNVMAEM  380 (554)
Q Consensus       316 ~eel~~~~~~l~~~l~~l~-----------~~~~~l~~l~~~~~~~~~~l~~~---a~~Ls~~R~~~-a~~L~~~i~~~L  380 (554)
T Consensus       990 ~~~v~~~~~~~~~~~~~LepVNm~AI~eYe~~~~r~~eL~~K~~~L~~Er~~i~~rI~~~e~~Kr~~F~~aF-~~IN~~f 1068 (1202)
T TIGR02169       990 LEKVQKELQRVEEEIRALEPVNMLAIQEYEEVEKRLDELKEKRAKLEEEREEILERIEEYEKKKREVFMEAF-EAINENF 1068 (1202)
T ss_pred             HHHHHHHHHHHHHHHHHHCCCCCCCHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHH-HHHHHHH
T ss_conf             689999999999998641430143322179999998769999999999899999999998878899999999-9999999


Q ss_pred             HHHC--CC-CCEEEEEEECCCCCCCCCCCCCCEEEEECCCCCCCCHHHHHHCCHHHHHHHHHHHHHHCCCCCCCEEEEEC
Q ss_conf             6520--25-63378652025322344654320011012789983113544062157999999999843668997699803
Q gi|255764514|r  381 PALK--LE-NVCFTVNITSDKEDISPDGIDRVEFYVQTNRGENPGPLMKLASGGELSRFLLALKIVLVDQGSIPTLVFDE  457 (554)
Q Consensus       381 ~~L~--m~-~a~f~i~~~~~~~~~~~~G~d~v~f~~s~n~g~~~~pl~kiaSGGE~Sr~~LAl~~~~~~~~~~p~~ifDE  457 (554)
T Consensus      1069 ~~iF~~LSP~G~g~L~Le~-PdDPF~GG---l~l~a~P-~~K~vqrle-AMSGGEKSLtALsFIFAiQ~y~PsPFYafDE 1142 (1202)
T TIGR02169      1069 KEIFAELSPGGTGELILEN-PDDPFAGG---LELKAKP-KGKPVQRLE-AMSGGEKSLTALSFIFAIQRYKPSPFYAFDE 1142 (1202)
T ss_pred             HHHHHHHCCCCCEEEECCC-CCCCCCCC---CEEEEEE-CCCCEEEHH-HCCCCHHHHHHHHHHHHHHHCCCCCCHHHHH
T ss_conf             9999853889824654358-88743687---1788873-788502022-1038389999999999996218985404446


Q ss_pred             CCCCCCHHHHHHHHHHHHHHHHCCCEEEEECHHHHHHHCCCEEEEEEE
Q ss_conf             446888799999999999973059399980837986501761799996
Q gi|255764514|r  458 VDSGIGGAVADAIGYRLKQLSKKIQLLAVTHAPQVAARADRHFLVYKT  505 (554)
Q Consensus       458 iDagi~G~~a~~v~~~l~~ls~~~Qvi~ITH~pqvAa~a~~h~~v~K~  505 (554)
T Consensus      1143 VDmfLD~~Nverva~li~~~s~~AQFIVvSLR~~m~~~A~~~IGVT~~ 1190 (1202)
T TIGR02169      1143 VDMFLDGVNVERVAKLIKEKSKEAQFIVVSLRKPMIEAADRAIGVTMR 1190 (1202)
T ss_pred             HHHHHHHHHHHHHHHHHHHHCCCEEEEEEECCHHHHHHHHHHHHHHHH
T ss_conf             777751875999999998604863467776235899876456544430