HHsearch alignment for GI: 254780782 and conserved domain: TIGR01891
>TIGR01891 amidohydrolases amidohydrolase; InterPro: IPR010168 Metalloproteases are the most diverse of the four main types of protease, with more than 50 families identified to date. In these enzymes, a divalent cation, usually zinc, activates the water molecule. The metal ion is held in place by amino acid ligands, usually three in number. The known metal ligands are His, Glu, Asp or Lys and at least one other residue is required for catalysis, which may play an electrophillic role. Of the known metalloproteases, around half contain an HEXXH motif, which has been shown in crystallographic studies to form part of the metal-binding site . The HEXXH motif is relatively common, but can be more stringently defined for metalloproteases as 'abXHEbbHbc', where 'a' is most often valine or threonine and forms part of the S1' subsite in thermolysin and neprilysin, 'b' is an uncharged residue, and 'c' a hydrophobic residue. Proline is never found in this site, possibly because it would break the helical structure adopted by this motif in metalloproteases . Peptidases are grouped into clans and families. Clans are groups of families for which there is evidence of common ancestry. Each clan is identified with two letters, the first representing the catalytic type of the families included in the clan (with the letter 'P' being used for a clan containing families of more than one of the catalytic types serine, threonine and cysteine). Some families cannot yet be assigned to clans, and when a formal assignment is required, such a family is described as belonging to clan A-, C-, M-, S-, T- or U-, according to the catalytic type. Some clans are divided into subclans because there is evidence of a very ancient divergence within the clan, for example MA(E), the gluzincins, and MA(M), the metzincins. Families are grouped by their catalytic type, the first character representing the catalytic type: A, aspartic; C, cysteine; G, glutamic acid; M, metallo; S, serine; T, threonine; and U, unknown. The serine, threonine and cysteine peptidases utilise the amino acid as a nucleophile and form an acyl intermediate - these peptidases can also readily act as transferases. In the case of aspartic, glutamic and metallopeptidases, the nucleophile is an activated water molecule. This entry represents a clade of the amidohydrolases. They classified as metallopeptidases belonging to MEROPS peptidase family M20 (clan MH), subfamily M20D. Included within this group are hydrolases of hippurate (N-benzylglycine), indoleacetic acid (IAA) N-conjugates of amino acids, N-acetyl-L-amino acids and aminobenzoylglutamate. These hydrolases are of the carboxypeptidase-type, most likely utilizing a zinc ion in the active site. In higher plants, the growth hormone indole-3-acetic acid (IAA or auxin) is stored conjugated to sugar moieties via an ester linkage or to amino acids or peptides via an amide. More than 950f the hormone in a plant can be found in the conjugated form, leaving only a small amount of free hormone available to stimulate and control cellular growth. The overall levels of active IAA in a plant can be controlled not only by the amount of IAA synthesized, but also by the quantity of IAA that is released from the conjugated state into the free state. Amidohydrolases cleave the amide bond between the auxin and the conjugated amino acid. Several IAA amidohydrolases have been isolated from Aarabidopsis thaliana, each of these enzymes has different substrate specificities. The A. thaliana IAA amidohydrolase, IAR3, is able to cleave IAA-Alanine, while products of the other amidohydrolase genes, known as the ILR1-like family of hydrolases (ILR1, ILL1, ILL2, ILL3, and ILL5), cleave primarily IAA-Phenylalanine and IAA-Leucine ..
Probab=100.00 E-value=3.4e-34 Score=229.03 Aligned_cols=332 Identities=20% Similarity=0.252 Sum_probs=243.6
Q ss_pred HHHHHHHHHCCCCCCCCHHHHHHHHHHHHHHC-CCEEEE-EEECCCCCCEEEEEEEEECCC--CC-EEEEECCCCCCCCC
Q ss_conf 99999999649997899689999999999977-984899-970588876248999998799--98-89997336815788
Q gi|254780782|r 5 CLEHLIQLIKCPSVTPQDGGAFFILVNTLKLL-GFSIEE-KDFQTKNTSIVKNLYARFGTE--AP-HLMFAGHIDVVPPG 79 (389)
Q Consensus 5 ~v~~l~~lv~ips~s~~e~~~~~~l~~~l~~~-G~~~~~-~~~~~~~~~~~~~~~~~~g~~--~~-~ill~~H~Dtvp~~ 79 (389)
T Consensus 1 l~~iRr~lH~~PEls~~Ef~T~~~~a~~L~~~~G~~v~~g~~~~k~---~ltgv~~~~~~~~pgp~~vALRAD~DALP~~ 77 (384)
T TIGR01891 1 LVDIRRHLHEHPELSFEEFKTSALIAEALESLGGIEVRRGVGGAKE---ALTGVVATIGGGKPGPPVVALRADMDALPIE 77 (384)
T ss_pred CHHHHHHHHHCCCCCHHHHHHHHHHHHHHHHCCCEEEECCCCCCCC---CCEEEEEEECCCCCCCCEEEEEEEECCCCCC
T ss_conf 9046889870787652555538999999972698297468898865---2248999815897897179998101027765
Q ss_pred CHHHCCCCCCCEEEECCCCCCCCCCCCCCHHHHHHHHCCCCCCC--C-CCCCCEEEEEEEECCCE--ECCCCCCCCCCCC
Q ss_conf 87772566642245213323654433320124544100000001--1-35783499975202201--1044211111000
Q gi|254780782|r 80 DFNHWTYPPFSATIAEGKIYGRGIVDMKGSIACFIAAVARFIPK--Y-KNFGSISLLITGDEEGP--AINGTKKMLSWIE 154 (389)
Q Consensus 80 ~~~~W~~~Pf~~~~~~g~l~GrG~~D~Kg~ia~~l~a~~~l~~~--~-~~~~~i~~~~~~dEE~~--~~~G~~~l~~~~~ 154 (389)
T Consensus 78 e~~~G~~~p~~-S~~~GvmHACGH-D---~H~A~lLG~A~~L~~~~~~~~~G~v~liFQPAEE~~~~G~~Ga~~mi~~-- 150 (384)
T TIGR01891 78 EQTDGFALPYK-SKNPGVMHACGH-D---LHTAILLGTAKLLKKLADRLLEGTVRLIFQPAEEGGPEGLGGATKMIED-- 150 (384)
T ss_pred CCCCCEECCCC-CCCCCEEEECCH-H---HHHHHHHHHHHHHHHHCCCCCCCEEEEEECCCHHCCCCCCCCHHHHHHH--
T ss_conf 45453342620-148875663661-5---8999999999998862276556468997206300467874444899970--
Q ss_pred CCCCC-CCEEEECCCCCCCCCCEEEE-EE--EEEEEEEEEEEEEECCCC-HHHHCCCCHHHHHHHHHHCCCCCCCCCCCC
Q ss_conf 13321-20354145665434310012-32--223579999996412310-000001201345544320112233445664
Q gi|254780782|r 155 KKGEK-WDACIVGEPTCNHIIGDTIK-IG--RRGSLSGEITIHGKQGHV-AYPHLTENPIRGLIPLLHQLTNIGFDTGNT 229 (389)
Q Consensus 155 ~~~~~-~d~~i~~ep~~~~~~~~~i~-~g--~rG~~~~~i~v~G~~~Hs-~~p~~g~nAi~~~~~~i~~l~~~~~~~~~~ 229 (389)
T Consensus 151 G~lddfVD~~~g~H~~p~~~~g~~~~~~g~~~A~~D~F~~~~~G~gaHa~a~Ph~g~da~~~~~~~~~~l~~i~sR~-~~ 229 (384)
T TIGR01891 151 GVLDDFVDAILGLHVDPSIPAGTVGLRPGTIMAAADKFEVTIKGKGAHAAARPHLGKDAIDAAAQLVVALQQIVSRN-VD 229 (384)
T ss_pred CCCCCCEEEEEEECCCCCCCCCEEEEECCCEEEECCEEEEEEEEEECCCCCCCCCCCCHHHHHHHHHHHHHHHHEEE-CC
T ss_conf 36575040123422458856556674055212100258999997521434788665576999999998774443100-35
Q ss_pred CCCCEEEEEEEEEECCCCCCCCCCCEEEEECCCCCCHHHHHHHHHHHHHHHHHHHHHHCCCCEEEEECCC--CCCCCCCC
Q ss_conf 4210146676554204666554321166513434206779999999999876532420343112322266--31125786
Q gi|254780782|r 230 TFSPTNMEITTIDVGNPSKNVIPAQVKMSFNIRFNDLWNEKTLKEEIRSRLIKGIQNVPKLSHTVHFSSP--VSPVFLTH 307 (389)
Q Consensus 230 ~~~~~~~~i~~i~~g~~~~NvIP~~a~~~~diR~~~~~~~~~i~~~i~~~l~~~~~~~~~~~~~i~~~~~--~~p~~~~~ 307 (389)
T Consensus 230 p~~~~V~~~g~~~aG~~~~NVIPd~A~~~gt~R~~~~~~~~~~~~r~~~i-~~~~a~~~g~~~e~~~~~~~~~~P~~~N- 307 (384)
T TIGR01891 230 PLEPAVVSVGKIEAGNIAPNVIPDKASMSGTVRSLDPEVRDQIEDRIERI-VEGAAAAYGAKVELNYDRGKSYLPAVTN- 307 (384)
T ss_pred CCCCCEEEEEEECCCCCCCCEECCEEEEEEEEECCCHHHHHHHHHHHHHH-HHHHHHHHCCEEEEEECCCCCCCCCCCC-
T ss_conf 33573477899616864785540548999997348989999999999999-9998876475489986268542664567-
Q ss_pred HHHHHHHHHHHHHHHHCCCCE---EEECCCCCHHHHHHHCCCEEE
Q ss_conf 789999999999998289957---974145435889860598999
Q gi|254780782|r 308 DRKLTSLLSKSIYNTTGNIPL---LSTSGGTSDARFIKDYCPVIE 349 (389)
Q Consensus 308 ~~~l~~~l~~a~~~~~g~~~~---~~~~gg~~d~~~~~~~iP~v~ 349 (389)
T Consensus 308 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~GsEDF~~~~~~~P~~~ 352 (384)
T TIGR01891 308 DPALTEILKEAAREVVGEEEVAEDPEVTMGSEDFAYYLQKVPGAF 352 (384)
T ss_pred CHHHHHHHHHHHHHHCCHHHHHCCCCCCCCHHHHHHHHHHHHHHH
T ss_conf 689999999998852051343105786534223889999840122