HHsearch alignment for GI: 254780806 and conserved domain: cd01885

>cd01885 EF2 EF2 (for archaea and eukarya). Translocation requires hydrolysis of a molecule of GTP and is mediated by EF-G in bacteria and by eEF2 in eukaryotes. The eukaryotic elongation factor eEF2 is a GTPase involved in the translocation of the peptidyl-tRNA from the A site to the P site on the ribosome. The 95-kDa protein is highly conserved, with 60% amino acid sequence identity between the human and yeast proteins. Two major mechanisms are known to regulate protein elongation and both involve eEF2. First, eEF2 can be modulated by reversible phosphorylation. Increased levels of phosphorylated eEF2 reduce elongation rates presumably because phosphorylated eEF2 fails to bind the ribosomes. Treatment of mammalian cells with agents that raise the cytoplasmic Ca2+ and cAMP levels reduce elongation rates by activating the kinase responsible for phosphorylating eEF2. In contrast, treatment of cells with insulin increases elongation rates by promoting eEF2 dephosphorylation. Seco
Probab=91.87  E-value=0.068  Score=30.56  Aligned_cols=64  Identities=13%  Similarity=0.187  Sum_probs=39.0

Q ss_pred             CCCCCEEEECCCC--CCCCCCHHHHHHHCCCCCCCCCHHHHHHHHHHHHHHHHHHHHHCCCCCCCCCCCEEEC
Q ss_conf             2782033101333--2222101123310011111231137888753357776554320267743100202312
Q gi|254780806|r  123 DFSYIFLDCPPSF--NLLTMNAMAAADSILVPLQCEFFALEGLSQLLETVEEVRRTVNSALDIQGIILTMFDS  193 (265)
Q Consensus       123 ~yD~IiiD~pp~~--~~~~~~al~aad~viip~~p~~~s~~~~~~~~~~i~~~~~~~~~~~~~~~iv~N~~~~  193 (265)
T Consensus        72 ~~~inlIDTPGH~dF~~ev~~al~~~DgailVVDa~eGv~~qT~~vl~---~---a~~~~l~~i-l~iNKiDR  137 (222)
T cd01885          72 EYLINLIDSPGHVDFSSEVTAALRLCDGALVVVDAVEGVCVQTETVLR---Q---ALKERVKPV-LVINKIDR  137 (222)
T ss_pred             CEEEEEEECCCHHHHHHHHHHHHHHCCEEEEEECCCCCCCHHHHHHHH---H---HHHCCCCEE-EEEECCCC
T ss_conf             638999728856989999999998568179961045785778999999---9---998599979-99989036